diff --git a/sys/cam/ctl/ctl.c b/sys/cam/ctl/ctl.c index 59e8cba1b671..039670c17529 100644 --- a/sys/cam/ctl/ctl.c +++ b/sys/cam/ctl/ctl.c @@ -1,13608 +1,14451 @@ /*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2003-2009 Silicon Graphics International Corp. * Copyright (c) 2012 The FreeBSD Foundation * Copyright (c) 2014-2017 Alexander Motin * Copyright (c) 2017 Jakub Wojciech Klama * Copyright (c) 2018 Marcelo Araujo * All rights reserved. * * Portions of this software were developed by Edward Tomasz Napierala * under sponsorship from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. * * $Id$ */ /* * CAM Target Layer, a SCSI device emulation subsystem. * * Author: Ken Merry */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include +#include #include #include struct ctl_softc *control_softc = NULL; /* * Template mode pages. */ /* * Note that these are default values only. The actual values will be * filled in when the user does a mode sense. */ const static struct scsi_da_rw_recovery_page rw_er_page_default = { /*page_code*/SMS_RW_ERROR_RECOVERY_PAGE, /*page_length*/sizeof(struct scsi_da_rw_recovery_page) - 2, /*byte3*/SMS_RWER_AWRE|SMS_RWER_ARRE, /*read_retry_count*/0, /*correction_span*/0, /*head_offset_count*/0, /*data_strobe_offset_cnt*/0, /*byte8*/SMS_RWER_LBPERE, /*write_retry_count*/0, /*reserved2*/0, /*recovery_time_limit*/{0, 0}, }; const static struct scsi_da_rw_recovery_page rw_er_page_changeable = { /*page_code*/SMS_RW_ERROR_RECOVERY_PAGE, /*page_length*/sizeof(struct scsi_da_rw_recovery_page) - 2, /*byte3*/SMS_RWER_PER, /*read_retry_count*/0, /*correction_span*/0, /*head_offset_count*/0, /*data_strobe_offset_cnt*/0, /*byte8*/SMS_RWER_LBPERE, /*write_retry_count*/0, /*reserved2*/0, /*recovery_time_limit*/{0, 0}, }; const static struct scsi_da_verify_recovery_page verify_er_page_default = { /*page_code*/SMS_VERIFY_ERROR_RECOVERY_PAGE, /*page_length*/sizeof(struct scsi_da_verify_recovery_page) - 2, /*byte3*/0, /*read_retry_count*/0, /*reserved*/{ 0, 0, 0, 0, 0, 0 }, /*recovery_time_limit*/{0, 0}, }; const static struct scsi_da_verify_recovery_page verify_er_page_changeable = { /*page_code*/SMS_VERIFY_ERROR_RECOVERY_PAGE, /*page_length*/sizeof(struct scsi_da_verify_recovery_page) - 2, /*byte3*/SMS_VER_PER, /*read_retry_count*/0, /*reserved*/{ 0, 0, 0, 0, 0, 0 }, /*recovery_time_limit*/{0, 0}, }; const static struct scsi_caching_page caching_page_default = { /*page_code*/SMS_CACHING_PAGE, /*page_length*/sizeof(struct scsi_caching_page) - 2, /*flags1*/ SCP_DISC | SCP_WCE, /*ret_priority*/ 0, /*disable_pf_transfer_len*/ {0xff, 0xff}, /*min_prefetch*/ {0, 0}, /*max_prefetch*/ {0xff, 0xff}, /*max_pf_ceiling*/ {0xff, 0xff}, /*flags2*/ 0, /*cache_segments*/ 0, /*cache_seg_size*/ {0, 0}, /*reserved*/ 0, /*non_cache_seg_size*/ {0, 0, 0} }; const static struct scsi_caching_page caching_page_changeable = { /*page_code*/SMS_CACHING_PAGE, /*page_length*/sizeof(struct scsi_caching_page) - 2, /*flags1*/ SCP_WCE | SCP_RCD, /*ret_priority*/ 0, /*disable_pf_transfer_len*/ {0, 0}, /*min_prefetch*/ {0, 0}, /*max_prefetch*/ {0, 0}, /*max_pf_ceiling*/ {0, 0}, /*flags2*/ 0, /*cache_segments*/ 0, /*cache_seg_size*/ {0, 0}, /*reserved*/ 0, /*non_cache_seg_size*/ {0, 0, 0} }; const static struct scsi_control_page control_page_default = { /*page_code*/SMS_CONTROL_MODE_PAGE, /*page_length*/sizeof(struct scsi_control_page) - 2, /*rlec*/0, /*queue_flags*/SCP_QUEUE_ALG_RESTRICTED, /*eca_and_aen*/0, /*flags4*/SCP_TAS, /*aen_holdoff_period*/{0, 0}, /*busy_timeout_period*/{0, 0}, /*extended_selftest_completion_time*/{0, 0} }; const static struct scsi_control_page control_page_changeable = { /*page_code*/SMS_CONTROL_MODE_PAGE, /*page_length*/sizeof(struct scsi_control_page) - 2, /*rlec*/SCP_DSENSE, /*queue_flags*/SCP_QUEUE_ALG_MASK | SCP_NUAR, /*eca_and_aen*/SCP_SWP, /*flags4*/0, /*aen_holdoff_period*/{0, 0}, /*busy_timeout_period*/{0, 0}, /*extended_selftest_completion_time*/{0, 0} }; #define CTL_CEM_LEN (sizeof(struct scsi_control_ext_page) - 4) const static struct scsi_control_ext_page control_ext_page_default = { /*page_code*/SMS_CONTROL_MODE_PAGE | SMPH_SPF, /*subpage_code*/0x01, /*page_length*/{CTL_CEM_LEN >> 8, CTL_CEM_LEN}, /*flags*/0, /*prio*/0, /*max_sense*/0 }; const static struct scsi_control_ext_page control_ext_page_changeable = { /*page_code*/SMS_CONTROL_MODE_PAGE | SMPH_SPF, /*subpage_code*/0x01, /*page_length*/{CTL_CEM_LEN >> 8, CTL_CEM_LEN}, /*flags*/0, /*prio*/0, /*max_sense*/0xff }; const static struct scsi_info_exceptions_page ie_page_default = { /*page_code*/SMS_INFO_EXCEPTIONS_PAGE, /*page_length*/sizeof(struct scsi_info_exceptions_page) - 2, /*info_flags*/SIEP_FLAGS_EWASC, /*mrie*/SIEP_MRIE_NO, /*interval_timer*/{0, 0, 0, 0}, /*report_count*/{0, 0, 0, 1} }; const static struct scsi_info_exceptions_page ie_page_changeable = { /*page_code*/SMS_INFO_EXCEPTIONS_PAGE, /*page_length*/sizeof(struct scsi_info_exceptions_page) - 2, /*info_flags*/SIEP_FLAGS_EWASC | SIEP_FLAGS_DEXCPT | SIEP_FLAGS_TEST | SIEP_FLAGS_LOGERR, /*mrie*/0x0f, /*interval_timer*/{0xff, 0xff, 0xff, 0xff}, /*report_count*/{0xff, 0xff, 0xff, 0xff} }; #define CTL_LBPM_LEN (sizeof(struct ctl_logical_block_provisioning_page) - 4) const static struct ctl_logical_block_provisioning_page lbp_page_default = {{ /*page_code*/SMS_INFO_EXCEPTIONS_PAGE | SMPH_SPF, /*subpage_code*/0x02, /*page_length*/{CTL_LBPM_LEN >> 8, CTL_LBPM_LEN}, /*flags*/0, /*reserved*/{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, /*descr*/{}}, {{/*flags*/0, /*resource*/0x01, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}}, {/*flags*/0, /*resource*/0x02, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}}, {/*flags*/0, /*resource*/0xf1, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}}, {/*flags*/0, /*resource*/0xf2, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}} } }; const static struct ctl_logical_block_provisioning_page lbp_page_changeable = {{ /*page_code*/SMS_INFO_EXCEPTIONS_PAGE | SMPH_SPF, /*subpage_code*/0x02, /*page_length*/{CTL_LBPM_LEN >> 8, CTL_LBPM_LEN}, /*flags*/SLBPP_SITUA, /*reserved*/{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, /*descr*/{}}, {{/*flags*/0, /*resource*/0, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}}, {/*flags*/0, /*resource*/0, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}}, {/*flags*/0, /*resource*/0, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}}, {/*flags*/0, /*resource*/0, /*reserved*/{0, 0}, /*count*/{0, 0, 0, 0}} } }; const static struct scsi_cddvd_capabilities_page cddvd_page_default = { /*page_code*/SMS_CDDVD_CAPS_PAGE, /*page_length*/sizeof(struct scsi_cddvd_capabilities_page) - 2, /*caps1*/0x3f, /*caps2*/0x00, /*caps3*/0xf0, /*caps4*/0x00, /*caps5*/0x29, /*caps6*/0x00, /*obsolete*/{0, 0}, /*nvol_levels*/{0, 0}, /*buffer_size*/{8, 0}, /*obsolete2*/{0, 0}, /*reserved*/0, /*digital*/0, /*obsolete3*/0, /*copy_management*/0, /*reserved2*/0, /*rotation_control*/0, /*cur_write_speed*/0, /*num_speed_descr*/0, }; const static struct scsi_cddvd_capabilities_page cddvd_page_changeable = { /*page_code*/SMS_CDDVD_CAPS_PAGE, /*page_length*/sizeof(struct scsi_cddvd_capabilities_page) - 2, /*caps1*/0, /*caps2*/0, /*caps3*/0, /*caps4*/0, /*caps5*/0, /*caps6*/0, /*obsolete*/{0, 0}, /*nvol_levels*/{0, 0}, /*buffer_size*/{0, 0}, /*obsolete2*/{0, 0}, /*reserved*/0, /*digital*/0, /*obsolete3*/0, /*copy_management*/0, /*reserved2*/0, /*rotation_control*/0, /*cur_write_speed*/0, /*num_speed_descr*/0, }; SYSCTL_NODE(_kern_cam, OID_AUTO, ctl, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "CAM Target Layer"); static int worker_threads = -1; SYSCTL_INT(_kern_cam_ctl, OID_AUTO, worker_threads, CTLFLAG_RDTUN, &worker_threads, 1, "Number of worker threads"); static int ctl_debug = CTL_DEBUG_NONE; SYSCTL_INT(_kern_cam_ctl, OID_AUTO, debug, CTLFLAG_RWTUN, &ctl_debug, 0, "Enabled debug flags"); static int ctl_lun_map_size = 1024; SYSCTL_INT(_kern_cam_ctl, OID_AUTO, lun_map_size, CTLFLAG_RWTUN, &ctl_lun_map_size, 0, "Size of per-port LUN map (max LUN + 1)"); #ifdef CTL_TIME_IO static int ctl_time_io_secs = CTL_TIME_IO_DEFAULT_SECS; SYSCTL_INT(_kern_cam_ctl, OID_AUTO, time_io_secs, CTLFLAG_RWTUN, &ctl_time_io_secs, 0, "Log requests taking more seconds"); #endif /* * Maximum number of LUNs we support. MUST be a power of 2. */ #define CTL_DEFAULT_MAX_LUNS 1024 static int ctl_max_luns = CTL_DEFAULT_MAX_LUNS; TUNABLE_INT("kern.cam.ctl.max_luns", &ctl_max_luns); SYSCTL_INT(_kern_cam_ctl, OID_AUTO, max_luns, CTLFLAG_RDTUN, &ctl_max_luns, CTL_DEFAULT_MAX_LUNS, "Maximum number of LUNs"); /* * Maximum number of ports registered at one time. */ #define CTL_DEFAULT_MAX_PORTS 1024 static int ctl_max_ports = CTL_DEFAULT_MAX_PORTS; TUNABLE_INT("kern.cam.ctl.max_ports", &ctl_max_ports); SYSCTL_INT(_kern_cam_ctl, OID_AUTO, max_ports, CTLFLAG_RDTUN, &ctl_max_ports, CTL_DEFAULT_MAX_LUNS, "Maximum number of ports"); /* * Maximum number of initiators we support. */ #define CTL_MAX_INITIATORS (CTL_MAX_INIT_PER_PORT * ctl_max_ports) /* * Supported pages (0x00), Serial number (0x80), Device ID (0x83), * Extended INQUIRY Data (0x86), Mode Page Policy (0x87), * SCSI Ports (0x88), Third-party Copy (0x8F), SCSI Feature Sets (0x92), * Block limits (0xB0), Block Device Characteristics (0xB1) and * Logical Block Provisioning (0xB2) */ #define SCSI_EVPD_NUM_SUPPORTED_PAGES 11 static void ctl_isc_event_handler(ctl_ha_channel chanel, ctl_ha_event event, int param); static void ctl_copy_sense_data(union ctl_ha_msg *src, union ctl_io *dest); static void ctl_copy_sense_data_back(union ctl_io *src, union ctl_ha_msg *dest); static int ctl_init(void); static int ctl_shutdown(void); static int ctl_open(struct cdev *dev, int flags, int fmt, struct thread *td); static int ctl_close(struct cdev *dev, int flags, int fmt, struct thread *td); static void ctl_serialize_other_sc_cmd(struct ctl_scsiio *ctsio); static void ctl_ioctl_fill_ooa(struct ctl_lun *lun, uint32_t *cur_fill_num, struct ctl_ooa *ooa_hdr, struct ctl_ooa_entry *kern_entries); static int ctl_ioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td); static int ctl_enable_lun(struct ctl_lun *lun); static int ctl_disable_lun(struct ctl_lun *lun); static int ctl_free_lun(struct ctl_lun *lun); static int ctl_do_mode_select(union ctl_io *io); static int ctl_pro_preempt(struct ctl_softc *softc, struct ctl_lun *lun, uint64_t res_key, uint64_t sa_res_key, uint8_t type, uint32_t residx, struct ctl_scsiio *ctsio, struct scsi_per_res_out *cdb, struct scsi_per_res_out_parms* param); static void ctl_pro_preempt_other(struct ctl_lun *lun, union ctl_ha_msg *msg); static void ctl_hndl_per_res_out_on_other_sc(union ctl_io *io); static int ctl_inquiry_evpd_supported(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_serial(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_devid(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_eid(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_mpp(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_scsi_ports(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_sfs(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_block_limits(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_bdc(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd_lbp(struct ctl_scsiio *ctsio, int alloc_len); static int ctl_inquiry_evpd(struct ctl_scsiio *ctsio); static int ctl_inquiry_std(struct ctl_scsiio *ctsio); static int ctl_get_lba_len(union ctl_io *io, uint64_t *lba, uint64_t *len); static ctl_action ctl_extent_check(union ctl_io *io1, union ctl_io *io2, bool seq); static ctl_action ctl_seq_check(union ctl_io *io1, union ctl_io *io2); static ctl_action ctl_check_for_blockage(struct ctl_lun *lun, union ctl_io *pending_io, const uint8_t *serialize_row, union ctl_io *ooa_io); static ctl_action ctl_check_ooa(struct ctl_lun *lun, union ctl_io *pending_io, union ctl_io **starting_io); static void ctl_try_unblock_io(struct ctl_lun *lun, union ctl_io *io, bool skip); static void ctl_try_unblock_others(struct ctl_lun *lun, union ctl_io *io, bool skip); static int ctl_scsiio_lun_check(struct ctl_lun *lun, const struct ctl_cmd_entry *entry, struct ctl_scsiio *ctsio); static void ctl_failover_lun(union ctl_io *io); static void ctl_scsiio_precheck(struct ctl_scsiio *ctsio); static int ctl_scsiio(struct ctl_scsiio *ctsio); +static void ctl_nvmeio_precheck(struct ctl_nvmeio *ctnio); +static int ctl_nvmeio(struct ctl_nvmeio *ctnio); static int ctl_target_reset(union ctl_io *io); static void ctl_do_lun_reset(struct ctl_lun *lun, uint32_t initidx, ctl_ua_type ua_type); static int ctl_lun_reset(union ctl_io *io); static int ctl_abort_task(union ctl_io *io); static int ctl_abort_task_set(union ctl_io *io); static int ctl_query_task(union ctl_io *io, int task_set); static void ctl_i_t_nexus_loss(struct ctl_softc *softc, uint32_t initidx, ctl_ua_type ua_type); static int ctl_i_t_nexus_reset(union ctl_io *io); static int ctl_query_async_event(union ctl_io *io); static void ctl_run_task(union ctl_io *io); #ifdef CTL_IO_DELAY static void ctl_datamove_timer_wakeup(void *arg); static void ctl_done_timer_wakeup(void *arg); #endif /* CTL_IO_DELAY */ static void ctl_send_datamove_done(union ctl_io *io, int have_lock); static void ctl_datamove_remote_write_cb(struct ctl_ha_dt_req *rq); static int ctl_datamove_remote_dm_write_cb(union ctl_io *io, bool samethr); static void ctl_datamove_remote_write(union ctl_io *io); static int ctl_datamove_remote_dm_read_cb(union ctl_io *io, bool samethr); static void ctl_datamove_remote_read_cb(struct ctl_ha_dt_req *rq); static int ctl_datamove_remote_sgl_setup(union ctl_io *io); static int ctl_datamove_remote_xfer(union ctl_io *io, unsigned command, ctl_ha_dt_cb callback); static void ctl_datamove_remote_read(union ctl_io *io); static void ctl_datamove_remote(union ctl_io *io); static void ctl_process_done(union ctl_io *io); static void ctl_thresh_thread(void *arg); static void ctl_work_thread(void *arg); static void ctl_enqueue_incoming(union ctl_io *io); static void ctl_enqueue_rtr(union ctl_io *io); static void ctl_enqueue_done(union ctl_io *io); static void ctl_enqueue_isc(union ctl_io *io); static const struct ctl_cmd_entry * ctl_get_cmd_entry(struct ctl_scsiio *ctsio, int *sa); static const struct ctl_cmd_entry * ctl_validate_command(struct ctl_scsiio *ctsio); static int ctl_cmd_applicable(uint8_t lun_type, const struct ctl_cmd_entry *entry); static int ctl_ha_init(void); static int ctl_ha_shutdown(void); static uint64_t ctl_get_prkey(struct ctl_lun *lun, uint32_t residx); static void ctl_clr_prkey(struct ctl_lun *lun, uint32_t residx); static void ctl_alloc_prkey(struct ctl_lun *lun, uint32_t residx); static void ctl_set_prkey(struct ctl_lun *lun, uint32_t residx, uint64_t key); /* * Load the serialization table. This isn't very pretty, but is probably * the easiest way to do it. */ #include "ctl_ser_table.c" /* * We only need to define open, close and ioctl routines for this driver. */ static struct cdevsw ctl_cdevsw = { .d_version = D_VERSION, .d_flags = 0, .d_open = ctl_open, .d_close = ctl_close, .d_ioctl = ctl_ioctl, .d_name = "ctl", }; MALLOC_DEFINE(M_CTL, "ctlmem", "Memory used for CTL"); static int ctl_module_event_handler(module_t, int /*modeventtype_t*/, void *); static moduledata_t ctl_moduledata = { "ctl", ctl_module_event_handler, NULL }; DECLARE_MODULE(ctl, ctl_moduledata, SI_SUB_CONFIGURE, SI_ORDER_THIRD); MODULE_VERSION(ctl, 1); static void ctl_be_move_done(union ctl_io *io, bool samethr) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: io->scsiio.be_move_done(io, samethr); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: io->nvmeio.be_move_done(io, samethr); break; default: __assert_unreachable(); } } static void ctl_continue_io(union ctl_io *io) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: io->scsiio.io_cont(io); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: io->nvmeio.io_cont(io); break; default: __assert_unreachable(); } } static struct ctl_frontend ha_frontend = { .name = "ha", .init = ctl_ha_init, .shutdown = ctl_ha_shutdown, }; static int ctl_ha_init(void) { struct ctl_softc *softc = control_softc; if (ctl_pool_create(softc, "othersc", CTL_POOL_ENTRIES_OTHER_SC, &softc->othersc_pool) != 0) return (ENOMEM); if (ctl_ha_msg_init(softc) != CTL_HA_STATUS_SUCCESS) { ctl_pool_free(softc->othersc_pool); return (EIO); } if (ctl_ha_msg_register(CTL_HA_CHAN_CTL, ctl_isc_event_handler) != CTL_HA_STATUS_SUCCESS) { ctl_ha_msg_destroy(softc); ctl_pool_free(softc->othersc_pool); return (EIO); } return (0); }; static int ctl_ha_shutdown(void) { struct ctl_softc *softc = control_softc; struct ctl_port *port; ctl_ha_msg_shutdown(softc); if (ctl_ha_msg_deregister(CTL_HA_CHAN_CTL) != CTL_HA_STATUS_SUCCESS) return (EIO); if (ctl_ha_msg_destroy(softc) != CTL_HA_STATUS_SUCCESS) return (EIO); ctl_pool_free(softc->othersc_pool); while ((port = STAILQ_FIRST(&ha_frontend.port_list)) != NULL) { ctl_port_deregister(port); free(port->port_name, M_CTL); free(port, M_CTL); } return (0); }; static void ctl_ha_datamove(union ctl_io *io) { struct ctl_lun *lun = CTL_LUN(io); struct ctl_sg_entry *sgl; union ctl_ha_msg msg; uint32_t sg_entries_sent; int do_sg_copy, i, j; CTL_IO_ASSERT(io, SCSI); memset(&msg.dt, 0, sizeof(msg.dt)); msg.hdr.msg_type = CTL_MSG_DATAMOVE; msg.hdr.original_sc = io->io_hdr.remote_io; msg.hdr.serializing_sc = io; msg.hdr.nexus = io->io_hdr.nexus; msg.hdr.status = io->io_hdr.status; msg.dt.flags = io->io_hdr.flags; /* * We convert everything into a S/G list here. We can't * pass by reference, only by value between controllers. * So we can't pass a pointer to the S/G list, only as many * S/G entries as we can fit in here. If it's possible for * us to get more than CTL_HA_MAX_SG_ENTRIES S/G entries, * then we need to break this up into multiple transfers. */ if (ctl_kern_sg_entries(io) == 0) { msg.dt.kern_sg_entries = 1; #if 0 if (io->io_hdr.flags & CTL_FLAG_BUS_ADDR) { msg.dt.sg_list[0].addr = ctl_kern_data_ptr(io); } else { /* XXX KDM use busdma here! */ msg.dt.sg_list[0].addr = (void *)vtophys(ctl_kern_data_ptr(io)); } #else KASSERT((io->io_hdr.flags & CTL_FLAG_BUS_ADDR) == 0, ("HA does not support BUS_ADDR")); msg.dt.sg_list[0].addr = ctl_kern_data_ptr(io); #endif msg.dt.sg_list[0].len = ctl_kern_data_len(io); do_sg_copy = 0; } else { msg.dt.kern_sg_entries = ctl_kern_sg_entries(io); do_sg_copy = 1; } msg.dt.kern_data_len = ctl_kern_data_len(io); msg.dt.kern_total_len = ctl_kern_total_len(io); msg.dt.kern_data_resid = ctl_kern_data_resid(io); msg.dt.kern_rel_offset = ctl_kern_rel_offset(io); msg.dt.sg_sequence = 0; /* * Loop until we've sent all of the S/G entries. On the * other end, we'll recompose these S/G entries into one * contiguous list before processing. */ for (sg_entries_sent = 0; sg_entries_sent < msg.dt.kern_sg_entries; msg.dt.sg_sequence++) { msg.dt.cur_sg_entries = MIN((sizeof(msg.dt.sg_list) / sizeof(msg.dt.sg_list[0])), msg.dt.kern_sg_entries - sg_entries_sent); if (do_sg_copy != 0) { sgl = (struct ctl_sg_entry *)ctl_kern_data_ptr(io); for (i = sg_entries_sent, j = 0; i < msg.dt.cur_sg_entries; i++, j++) { #if 0 if (io->io_hdr.flags & CTL_FLAG_BUS_ADDR) { msg.dt.sg_list[j].addr = sgl[i].addr; } else { /* XXX KDM use busdma here! */ msg.dt.sg_list[j].addr = (void *)vtophys(sgl[i].addr); } #else KASSERT((io->io_hdr.flags & CTL_FLAG_BUS_ADDR) == 0, ("HA does not support BUS_ADDR")); msg.dt.sg_list[j].addr = sgl[i].addr; #endif msg.dt.sg_list[j].len = sgl[i].len; } } sg_entries_sent += msg.dt.cur_sg_entries; msg.dt.sg_last = (sg_entries_sent >= msg.dt.kern_sg_entries); if (ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.dt) - sizeof(msg.dt.sg_list) + sizeof(struct ctl_sg_entry) * msg.dt.cur_sg_entries, M_WAITOK) > CTL_HA_STATUS_SUCCESS) { io->io_hdr.port_status = 31341; ctl_datamove_done(io, true); return; } msg.dt.sent_sg_entries = sg_entries_sent; } /* * Officially handover the request from us to peer. * If failover has just happened, then we must return error. * If failover happen just after, then it is not our problem. */ if (lun) mtx_lock(&lun->lun_lock); if (io->io_hdr.flags & CTL_FLAG_FAILOVER) { if (lun) mtx_unlock(&lun->lun_lock); io->io_hdr.port_status = 31342; ctl_datamove_done(io, true); return; } io->io_hdr.flags &= ~CTL_FLAG_IO_ACTIVE; io->io_hdr.flags |= CTL_FLAG_DMA_INPROG; if (lun) mtx_unlock(&lun->lun_lock); } static void ctl_ha_done(union ctl_io *io) { union ctl_ha_msg msg; if (io->io_hdr.io_type == CTL_IO_SCSI) { memset(&msg, 0, sizeof(msg)); msg.hdr.msg_type = CTL_MSG_FINISH_IO; msg.hdr.original_sc = io->io_hdr.remote_io; msg.hdr.nexus = io->io_hdr.nexus; msg.hdr.status = io->io_hdr.status; msg.scsi.scsi_status = io->scsiio.scsi_status; msg.scsi.tag_num = io->scsiio.tag_num; msg.scsi.tag_type = io->scsiio.tag_type; msg.scsi.sense_len = io->scsiio.sense_len; memcpy(&msg.scsi.sense_data, &io->scsiio.sense_data, io->scsiio.sense_len); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.scsi) - sizeof(msg.scsi.sense_data) + msg.scsi.sense_len, M_WAITOK); } ctl_free_io(io); } static void ctl_isc_handler_finish_xfer(struct ctl_softc *ctl_softc, union ctl_ha_msg *msg_info) { struct ctl_scsiio *ctsio; if (msg_info->hdr.original_sc == NULL) { printf("%s: original_sc == NULL!\n", __func__); /* XXX KDM now what? */ return; } ctsio = &msg_info->hdr.original_sc->scsiio; ctsio->io_hdr.flags &= ~CTL_FLAG_SENT_2OTHER_SC; ctsio->io_hdr.flags |= CTL_FLAG_IO_ACTIVE; ctsio->io_hdr.msg_type = CTL_MSG_FINISH_IO; ctsio->io_hdr.status = msg_info->hdr.status; ctsio->scsi_status = msg_info->scsi.scsi_status; ctsio->sense_len = msg_info->scsi.sense_len; memcpy(&ctsio->sense_data, &msg_info->scsi.sense_data, msg_info->scsi.sense_len); ctl_enqueue_isc((union ctl_io *)ctsio); } static void ctl_isc_handler_finish_ser_only(struct ctl_softc *ctl_softc, union ctl_ha_msg *msg_info) { struct ctl_scsiio *ctsio; if (msg_info->hdr.serializing_sc == NULL) { printf("%s: serializing_sc == NULL!\n", __func__); /* XXX KDM now what? */ return; } ctsio = &msg_info->hdr.serializing_sc->scsiio; ctsio->io_hdr.msg_type = CTL_MSG_FINISH_IO; ctl_enqueue_isc((union ctl_io *)ctsio); } void ctl_isc_announce_lun(struct ctl_lun *lun) { struct ctl_softc *softc = lun->ctl_softc; union ctl_ha_msg *msg; struct ctl_ha_msg_lun_pr_key pr_key; int i, k; if (softc->ha_link != CTL_HA_LINK_ONLINE) return; mtx_lock(&lun->lun_lock); i = sizeof(msg->lun); if (lun->lun_devid) i += lun->lun_devid->len; i += sizeof(pr_key) * lun->pr_key_count; alloc: mtx_unlock(&lun->lun_lock); msg = malloc(i, M_CTL, M_WAITOK); mtx_lock(&lun->lun_lock); k = sizeof(msg->lun); if (lun->lun_devid) k += lun->lun_devid->len; k += sizeof(pr_key) * lun->pr_key_count; if (i < k) { free(msg, M_CTL); i = k; goto alloc; } bzero(&msg->lun, sizeof(msg->lun)); msg->hdr.msg_type = CTL_MSG_LUN_SYNC; msg->hdr.nexus.targ_lun = lun->lun; msg->hdr.nexus.targ_mapped_lun = lun->lun; msg->lun.flags = lun->flags; msg->lun.pr_generation = lun->pr_generation; msg->lun.pr_res_idx = lun->pr_res_idx; msg->lun.pr_res_type = lun->pr_res_type; msg->lun.pr_key_count = lun->pr_key_count; i = 0; if (lun->lun_devid) { msg->lun.lun_devid_len = lun->lun_devid->len; memcpy(&msg->lun.data[i], lun->lun_devid->data, msg->lun.lun_devid_len); i += msg->lun.lun_devid_len; } for (k = 0; k < CTL_MAX_INITIATORS; k++) { if ((pr_key.pr_key = ctl_get_prkey(lun, k)) == 0) continue; pr_key.pr_iid = k; memcpy(&msg->lun.data[i], &pr_key, sizeof(pr_key)); i += sizeof(pr_key); } mtx_unlock(&lun->lun_lock); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg->lun, sizeof(msg->lun) + i, M_WAITOK); free(msg, M_CTL); if (lun->flags & CTL_LUN_PRIMARY_SC) { for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { ctl_isc_announce_mode(lun, -1, lun->mode_pages.index[i].page_code & SMPH_PC_MASK, lun->mode_pages.index[i].subpage); } } } void ctl_isc_announce_port(struct ctl_port *port) { struct ctl_softc *softc = port->ctl_softc; union ctl_ha_msg *msg; int i; if (port->targ_port < softc->port_min || port->targ_port >= softc->port_max || softc->ha_link != CTL_HA_LINK_ONLINE) return; i = sizeof(msg->port) + strlen(port->port_name) + 1; if (port->lun_map) i += port->lun_map_size * sizeof(uint32_t); if (port->port_devid) i += port->port_devid->len; if (port->target_devid) i += port->target_devid->len; if (port->init_devid) i += port->init_devid->len; msg = malloc(i, M_CTL, M_WAITOK); bzero(&msg->port, sizeof(msg->port)); msg->hdr.msg_type = CTL_MSG_PORT_SYNC; msg->hdr.nexus.targ_port = port->targ_port; msg->port.port_type = port->port_type; msg->port.physical_port = port->physical_port; msg->port.virtual_port = port->virtual_port; msg->port.status = port->status; i = 0; msg->port.name_len = sprintf(&msg->port.data[i], "%d:%s", softc->ha_id, port->port_name) + 1; i += msg->port.name_len; if (port->lun_map) { msg->port.lun_map_len = port->lun_map_size * sizeof(uint32_t); memcpy(&msg->port.data[i], port->lun_map, msg->port.lun_map_len); i += msg->port.lun_map_len; } if (port->port_devid) { msg->port.port_devid_len = port->port_devid->len; memcpy(&msg->port.data[i], port->port_devid->data, msg->port.port_devid_len); i += msg->port.port_devid_len; } if (port->target_devid) { msg->port.target_devid_len = port->target_devid->len; memcpy(&msg->port.data[i], port->target_devid->data, msg->port.target_devid_len); i += msg->port.target_devid_len; } if (port->init_devid) { msg->port.init_devid_len = port->init_devid->len; memcpy(&msg->port.data[i], port->init_devid->data, msg->port.init_devid_len); i += msg->port.init_devid_len; } ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg->port, sizeof(msg->port) + i, M_WAITOK); free(msg, M_CTL); } void ctl_isc_announce_iid(struct ctl_port *port, int iid) { struct ctl_softc *softc = port->ctl_softc; union ctl_ha_msg *msg; int i, l; if (port->targ_port < softc->port_min || port->targ_port >= softc->port_max || softc->ha_link != CTL_HA_LINK_ONLINE) return; mtx_lock(&softc->ctl_lock); i = sizeof(msg->iid); l = 0; if (port->wwpn_iid[iid].name) l = strlen(port->wwpn_iid[iid].name) + 1; i += l; msg = malloc(i, M_CTL, M_NOWAIT); if (msg == NULL) { mtx_unlock(&softc->ctl_lock); return; } bzero(&msg->iid, sizeof(msg->iid)); msg->hdr.msg_type = CTL_MSG_IID_SYNC; msg->hdr.nexus.targ_port = port->targ_port; msg->hdr.nexus.initid = iid; msg->iid.in_use = port->wwpn_iid[iid].in_use; msg->iid.name_len = l; msg->iid.wwpn = port->wwpn_iid[iid].wwpn; if (port->wwpn_iid[iid].name) strlcpy(msg->iid.data, port->wwpn_iid[iid].name, l); mtx_unlock(&softc->ctl_lock); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg->iid, i, M_NOWAIT); free(msg, M_CTL); } void ctl_isc_announce_mode(struct ctl_lun *lun, uint32_t initidx, uint8_t page, uint8_t subpage) { struct ctl_softc *softc = lun->ctl_softc; union ctl_ha_msg *msg; u_int i, l; if (softc->ha_link != CTL_HA_LINK_ONLINE) return; for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { if ((lun->mode_pages.index[i].page_code & SMPH_PC_MASK) == page && lun->mode_pages.index[i].subpage == subpage) break; } if (i == CTL_NUM_MODE_PAGES) return; /* Don't try to replicate pages not present on this device. */ if (lun->mode_pages.index[i].page_data == NULL) return; l = sizeof(msg->mode) + lun->mode_pages.index[i].page_len; msg = malloc(l, M_CTL, M_WAITOK | M_ZERO); msg->hdr.msg_type = CTL_MSG_MODE_SYNC; msg->hdr.nexus.targ_port = initidx / CTL_MAX_INIT_PER_PORT; msg->hdr.nexus.initid = initidx % CTL_MAX_INIT_PER_PORT; msg->hdr.nexus.targ_lun = lun->lun; msg->hdr.nexus.targ_mapped_lun = lun->lun; msg->mode.page_code = page; msg->mode.subpage = subpage; msg->mode.page_len = lun->mode_pages.index[i].page_len; memcpy(msg->mode.data, lun->mode_pages.index[i].page_data, msg->mode.page_len); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg->mode, l, M_WAITOK); free(msg, M_CTL); } static void ctl_isc_ha_link_up(struct ctl_softc *softc) { struct ctl_port *port; struct ctl_lun *lun; union ctl_ha_msg msg; int i; /* Announce this node parameters to peer for validation. */ msg.login.msg_type = CTL_MSG_LOGIN; msg.login.version = CTL_HA_VERSION; msg.login.ha_mode = softc->ha_mode; msg.login.ha_id = softc->ha_id; msg.login.max_luns = ctl_max_luns; msg.login.max_ports = ctl_max_ports; msg.login.max_init_per_port = CTL_MAX_INIT_PER_PORT; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg.login, sizeof(msg.login), M_WAITOK); STAILQ_FOREACH(port, &softc->port_list, links) { ctl_isc_announce_port(port); for (i = 0; i < CTL_MAX_INIT_PER_PORT; i++) { if (port->wwpn_iid[i].in_use) ctl_isc_announce_iid(port, i); } } STAILQ_FOREACH(lun, &softc->lun_list, links) ctl_isc_announce_lun(lun); } static void ctl_isc_ha_link_down(struct ctl_softc *softc) { struct ctl_port *port; struct ctl_lun *lun; union ctl_io *io; int i; mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(lun, &softc->lun_list, links) { mtx_lock(&lun->lun_lock); if (lun->flags & CTL_LUN_PEER_SC_PRIMARY) { lun->flags &= ~CTL_LUN_PEER_SC_PRIMARY; ctl_est_ua_all(lun, -1, CTL_UA_ASYM_ACC_CHANGE); } mtx_unlock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); io = ctl_alloc_io(softc->othersc_pool); mtx_lock(&softc->ctl_lock); ctl_zero_io(io); io->io_hdr.msg_type = CTL_MSG_FAILOVER; io->io_hdr.nexus.targ_mapped_lun = lun->lun; ctl_enqueue_isc(io); } STAILQ_FOREACH(port, &softc->port_list, links) { if (port->targ_port >= softc->port_min && port->targ_port < softc->port_max) continue; port->status &= ~CTL_PORT_STATUS_ONLINE; for (i = 0; i < CTL_MAX_INIT_PER_PORT; i++) { port->wwpn_iid[i].in_use = 0; free(port->wwpn_iid[i].name, M_CTL); port->wwpn_iid[i].name = NULL; } } mtx_unlock(&softc->ctl_lock); } static void ctl_isc_ua(struct ctl_softc *softc, union ctl_ha_msg *msg, int len) { struct ctl_lun *lun; uint32_t iid; if (len < sizeof(msg->ua)) { printf("%s: Received truncated message %d < %zu\n", __func__, len, sizeof(msg->ua)); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } mtx_lock(&softc->ctl_lock); if (msg->hdr.nexus.targ_mapped_lun >= ctl_max_luns || (lun = softc->ctl_luns[msg->hdr.nexus.targ_mapped_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); return; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if (msg->ua.ua_type == CTL_UA_THIN_PROV_THRES && msg->ua.ua_set) memcpy(lun->ua_tpt_info, msg->ua.ua_info, 8); iid = ctl_get_initindex(&msg->hdr.nexus); if (msg->ua.ua_all) { if (msg->ua.ua_set) ctl_est_ua_all(lun, iid, msg->ua.ua_type); else ctl_clr_ua_all(lun, iid, msg->ua.ua_type); } else { if (msg->ua.ua_set) ctl_est_ua(lun, iid, msg->ua.ua_type); else ctl_clr_ua(lun, iid, msg->ua.ua_type); } mtx_unlock(&lun->lun_lock); } static void ctl_isc_lun_sync(struct ctl_softc *softc, union ctl_ha_msg *msg, int len) { struct ctl_lun *lun; struct ctl_ha_msg_lun_pr_key pr_key; int i, k; ctl_lun_flags oflags; uint32_t targ_lun; if (len < offsetof(struct ctl_ha_msg_lun, data[0])) { printf("%s: Received truncated message %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_lun, data[0])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } i = msg->lun.lun_devid_len + msg->lun.pr_key_count * sizeof(pr_key); if (len < offsetof(struct ctl_ha_msg_lun, data[i])) { printf("%s: Received truncated message data %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_lun, data[i])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } targ_lun = msg->hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); return; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if (lun->flags & CTL_LUN_DISABLED) { mtx_unlock(&lun->lun_lock); return; } i = (lun->lun_devid != NULL) ? lun->lun_devid->len : 0; if (msg->lun.lun_devid_len != i || (i > 0 && memcmp(&msg->lun.data[0], lun->lun_devid->data, i) != 0)) { mtx_unlock(&lun->lun_lock); printf("%s: Received conflicting HA LUN %d\n", __func__, targ_lun); return; } else { /* Record whether peer is primary. */ oflags = lun->flags; if ((msg->lun.flags & CTL_LUN_PRIMARY_SC) && (msg->lun.flags & CTL_LUN_DISABLED) == 0) lun->flags |= CTL_LUN_PEER_SC_PRIMARY; else lun->flags &= ~CTL_LUN_PEER_SC_PRIMARY; if (oflags != lun->flags) ctl_est_ua_all(lun, -1, CTL_UA_ASYM_ACC_CHANGE); /* If peer is primary and we are not -- use data */ if ((lun->flags & CTL_LUN_PRIMARY_SC) == 0 && (lun->flags & CTL_LUN_PEER_SC_PRIMARY)) { lun->pr_generation = msg->lun.pr_generation; lun->pr_res_idx = msg->lun.pr_res_idx; lun->pr_res_type = msg->lun.pr_res_type; lun->pr_key_count = msg->lun.pr_key_count; for (k = 0; k < CTL_MAX_INITIATORS; k++) ctl_clr_prkey(lun, k); for (k = 0; k < msg->lun.pr_key_count; k++) { memcpy(&pr_key, &msg->lun.data[i], sizeof(pr_key)); ctl_alloc_prkey(lun, pr_key.pr_iid); ctl_set_prkey(lun, pr_key.pr_iid, pr_key.pr_key); i += sizeof(pr_key); } } mtx_unlock(&lun->lun_lock); CTL_DEBUG_PRINT(("%s: Known LUN %d, peer is %s\n", __func__, targ_lun, (msg->lun.flags & CTL_LUN_PRIMARY_SC) ? "primary" : "secondary")); /* If we are primary but peer doesn't know -- notify */ if ((lun->flags & CTL_LUN_PRIMARY_SC) && (msg->lun.flags & CTL_LUN_PEER_SC_PRIMARY) == 0) ctl_isc_announce_lun(lun); } } static void ctl_isc_port_sync(struct ctl_softc *softc, union ctl_ha_msg *msg, int len) { struct ctl_port *port; struct ctl_lun *lun; int i, new; if (len < offsetof(struct ctl_ha_msg_port, data[0])) { printf("%s: Received truncated message %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_port, data[0])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } i = msg->port.name_len + msg->port.lun_map_len + msg->port.port_devid_len + msg->port.target_devid_len + msg->port.init_devid_len; if (len < offsetof(struct ctl_ha_msg_port, data[i])) { printf("%s: Received truncated message data %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_port, data[i])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } port = softc->ctl_ports[msg->hdr.nexus.targ_port]; if (port == NULL) { CTL_DEBUG_PRINT(("%s: New port %d\n", __func__, msg->hdr.nexus.targ_port)); new = 1; port = malloc(sizeof(*port), M_CTL, M_WAITOK | M_ZERO); port->frontend = &ha_frontend; port->targ_port = msg->hdr.nexus.targ_port; port->fe_datamove = ctl_ha_datamove; port->fe_done = ctl_ha_done; } else if (port->frontend == &ha_frontend) { CTL_DEBUG_PRINT(("%s: Updated port %d\n", __func__, msg->hdr.nexus.targ_port)); new = 0; } else { printf("%s: Received conflicting HA port %d\n", __func__, msg->hdr.nexus.targ_port); return; } port->port_type = msg->port.port_type; port->physical_port = msg->port.physical_port; port->virtual_port = msg->port.virtual_port; port->status = msg->port.status; i = 0; free(port->port_name, M_CTL); port->port_name = strndup(&msg->port.data[i], msg->port.name_len, M_CTL); i += msg->port.name_len; if (msg->port.lun_map_len != 0) { if (port->lun_map == NULL || port->lun_map_size * sizeof(uint32_t) < msg->port.lun_map_len) { port->lun_map_size = 0; free(port->lun_map, M_CTL); port->lun_map = malloc(msg->port.lun_map_len, M_CTL, M_WAITOK); } memcpy(port->lun_map, &msg->port.data[i], msg->port.lun_map_len); port->lun_map_size = msg->port.lun_map_len / sizeof(uint32_t); i += msg->port.lun_map_len; } else { port->lun_map_size = 0; free(port->lun_map, M_CTL); port->lun_map = NULL; } if (msg->port.port_devid_len != 0) { if (port->port_devid == NULL || port->port_devid->len < msg->port.port_devid_len) { free(port->port_devid, M_CTL); port->port_devid = malloc(sizeof(struct ctl_devid) + msg->port.port_devid_len, M_CTL, M_WAITOK); } memcpy(port->port_devid->data, &msg->port.data[i], msg->port.port_devid_len); port->port_devid->len = msg->port.port_devid_len; i += msg->port.port_devid_len; } else { free(port->port_devid, M_CTL); port->port_devid = NULL; } if (msg->port.target_devid_len != 0) { if (port->target_devid == NULL || port->target_devid->len < msg->port.target_devid_len) { free(port->target_devid, M_CTL); port->target_devid = malloc(sizeof(struct ctl_devid) + msg->port.target_devid_len, M_CTL, M_WAITOK); } memcpy(port->target_devid->data, &msg->port.data[i], msg->port.target_devid_len); port->target_devid->len = msg->port.target_devid_len; i += msg->port.target_devid_len; } else { free(port->target_devid, M_CTL); port->target_devid = NULL; } if (msg->port.init_devid_len != 0) { if (port->init_devid == NULL || port->init_devid->len < msg->port.init_devid_len) { free(port->init_devid, M_CTL); port->init_devid = malloc(sizeof(struct ctl_devid) + msg->port.init_devid_len, M_CTL, M_WAITOK); } memcpy(port->init_devid->data, &msg->port.data[i], msg->port.init_devid_len); port->init_devid->len = msg->port.init_devid_len; i += msg->port.init_devid_len; } else { free(port->init_devid, M_CTL); port->init_devid = NULL; } if (new) { if (ctl_port_register(port) != 0) { printf("%s: ctl_port_register() failed with error\n", __func__); } } mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(lun, &softc->lun_list, links) { if (ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; mtx_lock(&lun->lun_lock); ctl_est_ua_all(lun, -1, CTL_UA_INQ_CHANGE); mtx_unlock(&lun->lun_lock); } mtx_unlock(&softc->ctl_lock); } static void ctl_isc_iid_sync(struct ctl_softc *softc, union ctl_ha_msg *msg, int len) { struct ctl_port *port; int i, iid; if (len < offsetof(struct ctl_ha_msg_iid, data[0])) { printf("%s: Received truncated message %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_iid, data[0])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } i = msg->iid.name_len; if (len < offsetof(struct ctl_ha_msg_iid, data[i])) { printf("%s: Received truncated message data %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_iid, data[i])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } port = softc->ctl_ports[msg->hdr.nexus.targ_port]; if (port == NULL) { printf("%s: Received IID for unknown port %d\n", __func__, msg->hdr.nexus.targ_port); return; } iid = msg->hdr.nexus.initid; if (port->wwpn_iid[iid].in_use != 0 && msg->iid.in_use == 0) ctl_i_t_nexus_loss(softc, iid, CTL_UA_POWERON); port->wwpn_iid[iid].in_use = msg->iid.in_use; port->wwpn_iid[iid].wwpn = msg->iid.wwpn; free(port->wwpn_iid[iid].name, M_CTL); if (msg->iid.name_len) { port->wwpn_iid[iid].name = strndup(&msg->iid.data[0], msg->iid.name_len, M_CTL); } else port->wwpn_iid[iid].name = NULL; } static void ctl_isc_login(struct ctl_softc *softc, union ctl_ha_msg *msg, int len) { if (len < sizeof(msg->login)) { printf("%s: Received truncated message %d < %zu\n", __func__, len, sizeof(msg->login)); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } if (msg->login.version != CTL_HA_VERSION) { printf("CTL HA peers have different versions %d != %d\n", msg->login.version, CTL_HA_VERSION); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } if (msg->login.ha_mode != softc->ha_mode) { printf("CTL HA peers have different ha_mode %d != %d\n", msg->login.ha_mode, softc->ha_mode); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } if (msg->login.ha_id == softc->ha_id) { printf("CTL HA peers have same ha_id %d\n", msg->login.ha_id); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } if (msg->login.max_luns != ctl_max_luns || msg->login.max_ports != ctl_max_ports || msg->login.max_init_per_port != CTL_MAX_INIT_PER_PORT) { printf("CTL HA peers have different limits\n"); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } } static void ctl_isc_mode_sync(struct ctl_softc *softc, union ctl_ha_msg *msg, int len) { struct ctl_lun *lun; u_int i; uint32_t initidx, targ_lun; if (len < offsetof(struct ctl_ha_msg_mode, data[0])) { printf("%s: Received truncated message %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_mode, data[0])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } i = msg->mode.page_len; if (len < offsetof(struct ctl_ha_msg_mode, data[i])) { printf("%s: Received truncated message data %d < %zu\n", __func__, len, offsetof(struct ctl_ha_msg_mode, data[i])); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); return; } targ_lun = msg->hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); return; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if (lun->flags & CTL_LUN_DISABLED) { mtx_unlock(&lun->lun_lock); return; } for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { if ((lun->mode_pages.index[i].page_code & SMPH_PC_MASK) == msg->mode.page_code && lun->mode_pages.index[i].subpage == msg->mode.subpage) break; } if (i == CTL_NUM_MODE_PAGES) { mtx_unlock(&lun->lun_lock); return; } memcpy(lun->mode_pages.index[i].page_data, msg->mode.data, min(lun->mode_pages.index[i].page_len, msg->mode.page_len)); initidx = ctl_get_initindex(&msg->hdr.nexus); if (initidx != -1) ctl_est_ua_all(lun, initidx, CTL_UA_MODE_CHANGE); mtx_unlock(&lun->lun_lock); } /* * ISC (Inter Shelf Communication) event handler. Events from the HA * subsystem come in here. */ static void ctl_isc_event_handler(ctl_ha_channel channel, ctl_ha_event event, int param) { struct ctl_softc *softc = control_softc; union ctl_io *io; struct ctl_prio *presio; ctl_ha_status isc_status; CTL_DEBUG_PRINT(("CTL: Isc Msg event %d\n", event)); if (event == CTL_HA_EVT_MSG_RECV) { union ctl_ha_msg *msg, msgbuf; if (param > sizeof(msgbuf)) msg = malloc(param, M_CTL, M_WAITOK); else msg = &msgbuf; isc_status = ctl_ha_msg_recv(CTL_HA_CHAN_CTL, msg, param, M_WAITOK); if (isc_status != CTL_HA_STATUS_SUCCESS) { printf("%s: Error receiving message: %d\n", __func__, isc_status); if (msg != &msgbuf) free(msg, M_CTL); return; } CTL_DEBUG_PRINT(("CTL: msg_type %d len %d\n", msg->hdr.msg_type, param)); switch (msg->hdr.msg_type) { case CTL_MSG_SERIALIZE: io = ctl_alloc_io(softc->othersc_pool); ctl_zero_io(io); // populate ctsio from msg io->io_hdr.io_type = CTL_IO_SCSI; io->io_hdr.msg_type = CTL_MSG_SERIALIZE; io->io_hdr.remote_io = msg->hdr.original_sc; io->io_hdr.flags |= CTL_FLAG_FROM_OTHER_SC | CTL_FLAG_IO_ACTIVE; /* * If we're in serialization-only mode, we don't * want to go through full done processing. Thus * the COPY flag. * * XXX KDM add another flag that is more specific. */ if (softc->ha_mode != CTL_HA_MODE_XFER) io->io_hdr.flags |= CTL_FLAG_INT_COPY; io->io_hdr.nexus = msg->hdr.nexus; io->scsiio.priority = msg->scsi.priority; io->scsiio.tag_num = msg->scsi.tag_num; io->scsiio.tag_type = msg->scsi.tag_type; #ifdef CTL_TIME_IO io->io_hdr.start_time = time_uptime; getbinuptime(&io->io_hdr.start_bt); #endif /* CTL_TIME_IO */ io->scsiio.cdb_len = msg->scsi.cdb_len; memcpy(io->scsiio.cdb, msg->scsi.cdb, CTL_MAX_CDBLEN); if (softc->ha_mode == CTL_HA_MODE_XFER) { const struct ctl_cmd_entry *entry; entry = ctl_get_cmd_entry(&io->scsiio, NULL); io->io_hdr.flags &= ~CTL_FLAG_DATA_MASK; io->io_hdr.flags |= entry->flags & CTL_FLAG_DATA_MASK; } ctl_enqueue_isc(io); break; /* Performed on the Originating SC, XFER mode only */ case CTL_MSG_DATAMOVE: { struct ctl_sg_entry *sgl; int i, j; io = msg->hdr.original_sc; if (io == NULL) { printf("%s: original_sc == NULL!\n", __func__); /* XXX KDM do something here */ break; } CTL_IO_ASSERT(io, SCSI); io->io_hdr.msg_type = CTL_MSG_DATAMOVE; io->io_hdr.flags |= CTL_FLAG_IO_ACTIVE; /* * Keep track of this, we need to send it back over * when the datamove is complete. */ io->io_hdr.remote_io = msg->hdr.serializing_sc; if (msg->hdr.status == CTL_SUCCESS) io->io_hdr.status = msg->hdr.status; if (msg->dt.sg_sequence == 0) { #ifdef CTL_TIME_IO getbinuptime(&io->io_hdr.dma_start_bt); #endif i = msg->dt.kern_sg_entries + msg->dt.kern_data_len / CTL_HA_DATAMOVE_SEGMENT + 1; sgl = malloc(sizeof(*sgl) * i, M_CTL, M_WAITOK | M_ZERO); CTL_RSGL(io) = sgl; CTL_LSGL(io) = &sgl[msg->dt.kern_sg_entries]; io->scsiio.kern_data_ptr = (uint8_t *)sgl; io->scsiio.kern_sg_entries = msg->dt.kern_sg_entries; io->scsiio.rem_sg_entries = msg->dt.kern_sg_entries; io->scsiio.kern_data_len = msg->dt.kern_data_len; io->scsiio.kern_total_len = msg->dt.kern_total_len; io->scsiio.kern_data_resid = msg->dt.kern_data_resid; io->scsiio.kern_rel_offset = msg->dt.kern_rel_offset; io->io_hdr.flags &= ~CTL_FLAG_BUS_ADDR; io->io_hdr.flags |= msg->dt.flags & CTL_FLAG_BUS_ADDR; } else sgl = (struct ctl_sg_entry *) io->scsiio.kern_data_ptr; for (i = msg->dt.sent_sg_entries, j = 0; i < (msg->dt.sent_sg_entries + msg->dt.cur_sg_entries); i++, j++) { sgl[i].addr = msg->dt.sg_list[j].addr; sgl[i].len = msg->dt.sg_list[j].len; } /* * If this is the last piece of the I/O, we've got * the full S/G list. Queue processing in the thread. * Otherwise wait for the next piece. */ if (msg->dt.sg_last != 0) ctl_enqueue_isc(io); break; } /* Performed on the Serializing (primary) SC, XFER mode only */ case CTL_MSG_DATAMOVE_DONE: { if (msg->hdr.serializing_sc == NULL) { printf("%s: serializing_sc == NULL!\n", __func__); /* XXX KDM now what? */ break; } /* * We grab the sense information here in case * there was a failure, so we can return status * back to the initiator. */ io = msg->hdr.serializing_sc; CTL_IO_ASSERT(io, SCSI); io->io_hdr.msg_type = CTL_MSG_DATAMOVE_DONE; io->io_hdr.flags &= ~CTL_FLAG_DMA_INPROG; io->io_hdr.flags |= CTL_FLAG_IO_ACTIVE; io->io_hdr.port_status = msg->scsi.port_status; io->scsiio.kern_data_resid = msg->scsi.kern_data_resid; if (msg->hdr.status != CTL_STATUS_NONE) { io->io_hdr.status = msg->hdr.status; io->scsiio.scsi_status = msg->scsi.scsi_status; io->scsiio.sense_len = msg->scsi.sense_len; memcpy(&io->scsiio.sense_data, &msg->scsi.sense_data, msg->scsi.sense_len); if (msg->hdr.status == CTL_SUCCESS) io->io_hdr.flags |= CTL_FLAG_STATUS_SENT; } ctl_enqueue_isc(io); break; } /* Preformed on Originating SC, SER_ONLY mode */ case CTL_MSG_R2R: io = msg->hdr.original_sc; if (io == NULL) { printf("%s: original_sc == NULL!\n", __func__); break; } io->io_hdr.flags |= CTL_FLAG_IO_ACTIVE; io->io_hdr.msg_type = CTL_MSG_R2R; io->io_hdr.remote_io = msg->hdr.serializing_sc; ctl_enqueue_isc(io); break; /* * Performed on Serializing(i.e. primary SC) SC in SER_ONLY * mode. * Performed on the Originating (i.e. secondary) SC in XFER * mode */ case CTL_MSG_FINISH_IO: if (softc->ha_mode == CTL_HA_MODE_XFER) ctl_isc_handler_finish_xfer(softc, msg); else ctl_isc_handler_finish_ser_only(softc, msg); break; /* Preformed on Originating SC */ case CTL_MSG_BAD_JUJU: io = msg->hdr.original_sc; if (io == NULL) { printf("%s: Bad JUJU!, original_sc is NULL!\n", __func__); break; } ctl_copy_sense_data(msg, io); /* * IO should have already been cleaned up on other * SC so clear this flag so we won't send a message * back to finish the IO there. */ io->io_hdr.flags &= ~CTL_FLAG_SENT_2OTHER_SC; io->io_hdr.flags |= CTL_FLAG_IO_ACTIVE; /* io = msg->hdr.serializing_sc; */ io->io_hdr.msg_type = CTL_MSG_BAD_JUJU; ctl_enqueue_isc(io); break; /* Handle resets sent from the other side */ case CTL_MSG_MANAGE_TASKS: { struct ctl_taskio *taskio; taskio = (struct ctl_taskio *)ctl_alloc_io( softc->othersc_pool); ctl_zero_io((union ctl_io *)taskio); taskio->io_hdr.io_type = CTL_IO_TASK; taskio->io_hdr.flags |= CTL_FLAG_FROM_OTHER_SC; taskio->io_hdr.nexus = msg->hdr.nexus; taskio->task_action = msg->task.task_action; taskio->tag_num = msg->task.tag_num; taskio->tag_type = msg->task.tag_type; #ifdef CTL_TIME_IO taskio->io_hdr.start_time = time_uptime; getbinuptime(&taskio->io_hdr.start_bt); #endif /* CTL_TIME_IO */ ctl_run_task((union ctl_io *)taskio); break; } /* Persistent Reserve action which needs attention */ case CTL_MSG_PERS_ACTION: presio = (struct ctl_prio *)ctl_alloc_io( softc->othersc_pool); ctl_zero_io((union ctl_io *)presio); presio->io_hdr.msg_type = CTL_MSG_PERS_ACTION; presio->io_hdr.flags |= CTL_FLAG_FROM_OTHER_SC; presio->io_hdr.nexus = msg->hdr.nexus; presio->pr_msg = msg->pr; ctl_enqueue_isc((union ctl_io *)presio); break; case CTL_MSG_UA: ctl_isc_ua(softc, msg, param); break; case CTL_MSG_PORT_SYNC: ctl_isc_port_sync(softc, msg, param); break; case CTL_MSG_LUN_SYNC: ctl_isc_lun_sync(softc, msg, param); break; case CTL_MSG_IID_SYNC: ctl_isc_iid_sync(softc, msg, param); break; case CTL_MSG_LOGIN: ctl_isc_login(softc, msg, param); break; case CTL_MSG_MODE_SYNC: ctl_isc_mode_sync(softc, msg, param); break; default: printf("Received HA message of unknown type %d\n", msg->hdr.msg_type); ctl_ha_msg_abort(CTL_HA_CHAN_CTL); break; } if (msg != &msgbuf) free(msg, M_CTL); } else if (event == CTL_HA_EVT_LINK_CHANGE) { printf("CTL: HA link status changed from %d to %d\n", softc->ha_link, param); if (param == softc->ha_link) return; if (softc->ha_link == CTL_HA_LINK_ONLINE) { softc->ha_link = param; ctl_isc_ha_link_down(softc); } else { softc->ha_link = param; if (softc->ha_link == CTL_HA_LINK_ONLINE) ctl_isc_ha_link_up(softc); } return; } else { printf("ctl_isc_event_handler: Unknown event %d\n", event); return; } } static void ctl_copy_sense_data(union ctl_ha_msg *src, union ctl_io *dest) { memcpy(&dest->scsiio.sense_data, &src->scsi.sense_data, src->scsi.sense_len); dest->scsiio.scsi_status = src->scsi.scsi_status; dest->scsiio.sense_len = src->scsi.sense_len; dest->io_hdr.status = src->hdr.status; } static void ctl_copy_sense_data_back(union ctl_io *src, union ctl_ha_msg *dest) { memcpy(&dest->scsi.sense_data, &src->scsiio.sense_data, src->scsiio.sense_len); dest->scsi.scsi_status = src->scsiio.scsi_status; dest->scsi.sense_len = src->scsiio.sense_len; dest->hdr.status = src->io_hdr.status; } void ctl_est_ua(struct ctl_lun *lun, uint32_t initidx, ctl_ua_type ua) { struct ctl_softc *softc = lun->ctl_softc; ctl_ua_type *pu; if (initidx < softc->init_min || initidx >= softc->init_max) return; mtx_assert(&lun->lun_lock, MA_OWNED); pu = lun->pending_ua[initidx / CTL_MAX_INIT_PER_PORT]; if (pu == NULL) return; pu[initidx % CTL_MAX_INIT_PER_PORT] |= ua; } void ctl_est_ua_port(struct ctl_lun *lun, int port, uint32_t except, ctl_ua_type ua) { int i; mtx_assert(&lun->lun_lock, MA_OWNED); if (lun->pending_ua[port] == NULL) return; for (i = 0; i < CTL_MAX_INIT_PER_PORT; i++) { if (port * CTL_MAX_INIT_PER_PORT + i == except) continue; lun->pending_ua[port][i] |= ua; } } void ctl_est_ua_all(struct ctl_lun *lun, uint32_t except, ctl_ua_type ua) { struct ctl_softc *softc = lun->ctl_softc; int i; mtx_assert(&lun->lun_lock, MA_OWNED); for (i = softc->port_min; i < softc->port_max; i++) ctl_est_ua_port(lun, i, except, ua); } void ctl_clr_ua(struct ctl_lun *lun, uint32_t initidx, ctl_ua_type ua) { struct ctl_softc *softc = lun->ctl_softc; ctl_ua_type *pu; if (initidx < softc->init_min || initidx >= softc->init_max) return; mtx_assert(&lun->lun_lock, MA_OWNED); pu = lun->pending_ua[initidx / CTL_MAX_INIT_PER_PORT]; if (pu == NULL) return; pu[initidx % CTL_MAX_INIT_PER_PORT] &= ~ua; } void ctl_clr_ua_all(struct ctl_lun *lun, uint32_t except, ctl_ua_type ua) { struct ctl_softc *softc = lun->ctl_softc; int i, j; mtx_assert(&lun->lun_lock, MA_OWNED); for (i = softc->port_min; i < softc->port_max; i++) { if (lun->pending_ua[i] == NULL) continue; for (j = 0; j < CTL_MAX_INIT_PER_PORT; j++) { if (i * CTL_MAX_INIT_PER_PORT + j == except) continue; lun->pending_ua[i][j] &= ~ua; } } } void ctl_clr_ua_allluns(struct ctl_softc *ctl_softc, uint32_t initidx, ctl_ua_type ua_type) { struct ctl_lun *lun; mtx_assert(&ctl_softc->ctl_lock, MA_OWNED); STAILQ_FOREACH(lun, &ctl_softc->lun_list, links) { mtx_lock(&lun->lun_lock); ctl_clr_ua(lun, initidx, ua_type); mtx_unlock(&lun->lun_lock); } } static int ctl_ha_role_sysctl(SYSCTL_HANDLER_ARGS) { struct ctl_softc *softc = (struct ctl_softc *)arg1; struct ctl_lun *lun; struct ctl_lun_req ireq; int error, value; value = (softc->flags & CTL_FLAG_ACTIVE_SHELF) ? 0 : 1; error = sysctl_handle_int(oidp, &value, 0, req); if ((error != 0) || (req->newptr == NULL)) return (error); mtx_lock(&softc->ctl_lock); if (value == 0) softc->flags |= CTL_FLAG_ACTIVE_SHELF; else softc->flags &= ~CTL_FLAG_ACTIVE_SHELF; STAILQ_FOREACH(lun, &softc->lun_list, links) { mtx_unlock(&softc->ctl_lock); bzero(&ireq, sizeof(ireq)); ireq.reqtype = CTL_LUNREQ_MODIFY; ireq.reqdata.modify.lun_id = lun->lun; lun->backend->ioctl(NULL, CTL_LUN_REQ, (caddr_t)&ireq, 0, curthread); if (ireq.status != CTL_LUN_OK) { printf("%s: CTL_LUNREQ_MODIFY returned %d '%s'\n", __func__, ireq.status, ireq.error_str); } mtx_lock(&softc->ctl_lock); } mtx_unlock(&softc->ctl_lock); return (0); } static int ctl_init(void) { struct make_dev_args args; struct ctl_softc *softc; int i, error; softc = control_softc = malloc(sizeof(*control_softc), M_DEVBUF, M_WAITOK | M_ZERO); make_dev_args_init(&args); args.mda_devsw = &ctl_cdevsw; args.mda_uid = UID_ROOT; args.mda_gid = GID_OPERATOR; args.mda_mode = 0600; args.mda_si_drv1 = softc; args.mda_si_drv2 = NULL; error = make_dev_s(&args, &softc->dev, "cam/ctl"); if (error != 0) { free(softc, M_DEVBUF); control_softc = NULL; return (error); } sysctl_ctx_init(&softc->sysctl_ctx); softc->sysctl_tree = SYSCTL_ADD_NODE(&softc->sysctl_ctx, SYSCTL_STATIC_CHILDREN(_kern_cam), OID_AUTO, "ctl", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "CAM Target Layer"); if (softc->sysctl_tree == NULL) { printf("%s: unable to allocate sysctl tree\n", __func__); destroy_dev(softc->dev); free(softc, M_DEVBUF); control_softc = NULL; return (ENOMEM); } mtx_init(&softc->ctl_lock, "CTL mutex", NULL, MTX_DEF); softc->io_zone = uma_zcreate("CTL IO", sizeof(union ctl_io), NULL, NULL, NULL, NULL, UMA_ALIGN_PTR, 0); softc->flags = 0; SYSCTL_ADD_INT(&softc->sysctl_ctx, SYSCTL_CHILDREN(softc->sysctl_tree), OID_AUTO, "ha_mode", CTLFLAG_RDTUN, (int *)&softc->ha_mode, 0, "HA mode (0 - act/stby, 1 - serialize only, 2 - xfer)"); if (ctl_max_luns <= 0 || powerof2(ctl_max_luns) == 0) { printf("Bad value %d for kern.cam.ctl.max_luns, must be a power of two, using %d\n", ctl_max_luns, CTL_DEFAULT_MAX_LUNS); ctl_max_luns = CTL_DEFAULT_MAX_LUNS; } softc->ctl_luns = malloc(sizeof(struct ctl_lun *) * ctl_max_luns, M_DEVBUF, M_WAITOK | M_ZERO); softc->ctl_lun_mask = malloc(sizeof(uint32_t) * ((ctl_max_luns + 31) / 32), M_DEVBUF, M_WAITOK | M_ZERO); if (ctl_max_ports <= 0 || powerof2(ctl_max_ports) == 0) { printf("Bad value %d for kern.cam.ctl.max_ports, must be a power of two, using %d\n", ctl_max_ports, CTL_DEFAULT_MAX_PORTS); ctl_max_ports = CTL_DEFAULT_MAX_PORTS; } softc->ctl_port_mask = malloc(sizeof(uint32_t) * ((ctl_max_ports + 31) / 32), M_DEVBUF, M_WAITOK | M_ZERO); softc->ctl_ports = malloc(sizeof(struct ctl_port *) * ctl_max_ports, M_DEVBUF, M_WAITOK | M_ZERO); /* * In Copan's HA scheme, the "master" and "slave" roles are * figured out through the slot the controller is in. Although it * is an active/active system, someone has to be in charge. */ SYSCTL_ADD_INT(&softc->sysctl_ctx, SYSCTL_CHILDREN(softc->sysctl_tree), OID_AUTO, "ha_id", CTLFLAG_RDTUN, &softc->ha_id, 0, "HA head ID (0 - no HA)"); if (softc->ha_id == 0 || softc->ha_id > NUM_HA_SHELVES) { softc->flags |= CTL_FLAG_ACTIVE_SHELF; softc->is_single = 1; softc->port_cnt = ctl_max_ports; softc->port_min = 0; } else { softc->port_cnt = ctl_max_ports / NUM_HA_SHELVES; softc->port_min = (softc->ha_id - 1) * softc->port_cnt; } softc->port_max = softc->port_min + softc->port_cnt; softc->init_min = softc->port_min * CTL_MAX_INIT_PER_PORT; softc->init_max = softc->port_max * CTL_MAX_INIT_PER_PORT; SYSCTL_ADD_INT(&softc->sysctl_ctx, SYSCTL_CHILDREN(softc->sysctl_tree), OID_AUTO, "ha_link", CTLFLAG_RD, (int *)&softc->ha_link, 0, "HA link state (0 - offline, 1 - unknown, 2 - online)"); STAILQ_INIT(&softc->lun_list); STAILQ_INIT(&softc->fe_list); STAILQ_INIT(&softc->port_list); STAILQ_INIT(&softc->be_list); ctl_tpc_init(softc); if (worker_threads <= 0) worker_threads = max(1, mp_ncpus / 4); if (worker_threads > CTL_MAX_THREADS) worker_threads = CTL_MAX_THREADS; for (i = 0; i < worker_threads; i++) { struct ctl_thread *thr = &softc->threads[i]; mtx_init(&thr->queue_lock, "CTL queue mutex", NULL, MTX_DEF); thr->ctl_softc = softc; STAILQ_INIT(&thr->incoming_queue); STAILQ_INIT(&thr->rtr_queue); STAILQ_INIT(&thr->done_queue); STAILQ_INIT(&thr->isc_queue); error = kproc_kthread_add(ctl_work_thread, thr, &softc->ctl_proc, &thr->thread, 0, 0, "ctl", "work%d", i); if (error != 0) { printf("error creating CTL work thread!\n"); return (error); } } error = kproc_kthread_add(ctl_thresh_thread, softc, &softc->ctl_proc, &softc->thresh_thread, 0, 0, "ctl", "thresh"); if (error != 0) { printf("error creating CTL threshold thread!\n"); return (error); } SYSCTL_ADD_PROC(&softc->sysctl_ctx,SYSCTL_CHILDREN(softc->sysctl_tree), OID_AUTO, "ha_role", CTLTYPE_INT | CTLFLAG_RWTUN | CTLFLAG_MPSAFE, softc, 0, ctl_ha_role_sysctl, "I", "HA role for this head"); if (softc->is_single == 0) { if (ctl_frontend_register(&ha_frontend) != 0) softc->is_single = 1; } return (0); } static int ctl_shutdown(void) { struct ctl_softc *softc = control_softc; int i; if (softc->is_single == 0) ctl_frontend_deregister(&ha_frontend); destroy_dev(softc->dev); /* Shutdown CTL threads. */ softc->shutdown = 1; for (i = 0; i < worker_threads; i++) { struct ctl_thread *thr = &softc->threads[i]; while (thr->thread != NULL) { wakeup(thr); if (thr->thread != NULL) pause("CTL thr shutdown", 1); } mtx_destroy(&thr->queue_lock); } while (softc->thresh_thread != NULL) { wakeup(softc->thresh_thread); if (softc->thresh_thread != NULL) pause("CTL thr shutdown", 1); } ctl_tpc_shutdown(softc); uma_zdestroy(softc->io_zone); mtx_destroy(&softc->ctl_lock); free(softc->ctl_luns, M_DEVBUF); free(softc->ctl_lun_mask, M_DEVBUF); free(softc->ctl_port_mask, M_DEVBUF); free(softc->ctl_ports, M_DEVBUF); sysctl_ctx_free(&softc->sysctl_ctx); free(softc, M_DEVBUF); control_softc = NULL; return (0); } static int ctl_module_event_handler(module_t mod, int what, void *arg) { switch (what) { case MOD_LOAD: return (ctl_init()); case MOD_UNLOAD: return (ctl_shutdown()); default: return (EOPNOTSUPP); } } /* * XXX KDM should we do some access checks here? Bump a reference count to * prevent a CTL module from being unloaded while someone has it open? */ static int ctl_open(struct cdev *dev, int flags, int fmt, struct thread *td) { return (0); } static int ctl_close(struct cdev *dev, int flags, int fmt, struct thread *td) { return (0); } /* * Remove an initiator by port number and initiator ID. * Returns 0 for success, -1 for failure. */ int ctl_remove_initiator(struct ctl_port *port, int iid) { struct ctl_softc *softc = port->ctl_softc; int last; mtx_assert(&softc->ctl_lock, MA_NOTOWNED); if (iid > CTL_MAX_INIT_PER_PORT) { printf("%s: initiator ID %u > maximun %u!\n", __func__, iid, CTL_MAX_INIT_PER_PORT); return (-1); } mtx_lock(&softc->ctl_lock); last = (--port->wwpn_iid[iid].in_use == 0); port->wwpn_iid[iid].last_use = time_uptime; mtx_unlock(&softc->ctl_lock); if (last) ctl_i_t_nexus_loss(softc, iid, CTL_UA_POWERON); ctl_isc_announce_iid(port, iid); return (0); } /* * Add an initiator to the initiator map. * Returns iid for success, < 0 for failure. */ int ctl_add_initiator(struct ctl_port *port, int iid, uint64_t wwpn, char *name) { struct ctl_softc *softc = port->ctl_softc; time_t best_time; int i, best; mtx_assert(&softc->ctl_lock, MA_NOTOWNED); if (iid >= CTL_MAX_INIT_PER_PORT) { printf("%s: WWPN %#jx initiator ID %u > maximum %u!\n", __func__, wwpn, iid, CTL_MAX_INIT_PER_PORT); free(name, M_CTL); return (-1); } mtx_lock(&softc->ctl_lock); if (iid < 0 && (wwpn != 0 || name != NULL)) { for (i = 0; i < CTL_MAX_INIT_PER_PORT; i++) { if (wwpn != 0 && wwpn == port->wwpn_iid[i].wwpn) { iid = i; break; } if (name != NULL && port->wwpn_iid[i].name != NULL && strcmp(name, port->wwpn_iid[i].name) == 0) { iid = i; break; } } } if (iid < 0) { for (i = 0; i < CTL_MAX_INIT_PER_PORT; i++) { if (port->wwpn_iid[i].in_use == 0 && port->wwpn_iid[i].wwpn == 0 && port->wwpn_iid[i].name == NULL) { iid = i; break; } } } if (iid < 0) { best = -1; best_time = INT32_MAX; for (i = 0; i < CTL_MAX_INIT_PER_PORT; i++) { if (port->wwpn_iid[i].in_use == 0) { if (port->wwpn_iid[i].last_use < best_time) { best = i; best_time = port->wwpn_iid[i].last_use; } } } iid = best; } if (iid < 0) { mtx_unlock(&softc->ctl_lock); free(name, M_CTL); return (-2); } if (port->wwpn_iid[iid].in_use > 0 && (wwpn != 0 || name != NULL)) { /* * This is not an error yet. */ if (wwpn != 0 && wwpn == port->wwpn_iid[iid].wwpn) { #if 0 printf("%s: port %d iid %u WWPN %#jx arrived" " again\n", __func__, port->targ_port, iid, (uintmax_t)wwpn); #endif goto take; } if (name != NULL && port->wwpn_iid[iid].name != NULL && strcmp(name, port->wwpn_iid[iid].name) == 0) { #if 0 printf("%s: port %d iid %u name '%s' arrived" " again\n", __func__, port->targ_port, iid, name); #endif goto take; } /* * This is an error, but what do we do about it? The * driver is telling us we have a new WWPN for this * initiator ID, so we pretty much need to use it. */ printf("%s: port %d iid %u WWPN %#jx '%s' arrived," " but WWPN %#jx '%s' is still at that address\n", __func__, port->targ_port, iid, wwpn, name, (uintmax_t)port->wwpn_iid[iid].wwpn, port->wwpn_iid[iid].name); } take: free(port->wwpn_iid[iid].name, M_CTL); port->wwpn_iid[iid].name = name; port->wwpn_iid[iid].wwpn = wwpn; port->wwpn_iid[iid].in_use++; mtx_unlock(&softc->ctl_lock); ctl_isc_announce_iid(port, iid); return (iid); } static int ctl_create_iid(struct ctl_port *port, int iid, uint8_t *buf) { int len; switch (port->port_type) { case CTL_PORT_FC: { struct scsi_transportid_fcp *id = (struct scsi_transportid_fcp *)buf; if (port->wwpn_iid[iid].wwpn == 0) return (0); memset(id, 0, sizeof(*id)); id->format_protocol = SCSI_PROTO_FC; scsi_u64to8b(port->wwpn_iid[iid].wwpn, id->n_port_name); return (sizeof(*id)); } case CTL_PORT_ISCSI: { struct scsi_transportid_iscsi_port *id = (struct scsi_transportid_iscsi_port *)buf; if (port->wwpn_iid[iid].name == NULL) return (0); memset(id, 0, 256); id->format_protocol = SCSI_TRN_ISCSI_FORMAT_PORT | SCSI_PROTO_ISCSI; len = strlcpy(id->iscsi_name, port->wwpn_iid[iid].name, 252) + 1; len = roundup2(min(len, 252), 4); scsi_ulto2b(len, id->additional_length); return (sizeof(*id) + len); } case CTL_PORT_SAS: { struct scsi_transportid_sas *id = (struct scsi_transportid_sas *)buf; if (port->wwpn_iid[iid].wwpn == 0) return (0); memset(id, 0, sizeof(*id)); id->format_protocol = SCSI_PROTO_SAS; scsi_u64to8b(port->wwpn_iid[iid].wwpn, id->sas_address); return (sizeof(*id)); } default: { struct scsi_transportid_spi *id = (struct scsi_transportid_spi *)buf; memset(id, 0, sizeof(*id)); id->format_protocol = SCSI_PROTO_SPI; scsi_ulto2b(iid, id->scsi_addr); scsi_ulto2b(port->targ_port, id->rel_trgt_port_id); return (sizeof(*id)); } } } /* * Serialize a command that went down the "wrong" side, and so was sent to * this controller for execution. The logic is a little different than the * standard case in ctl_scsiio_precheck(). Errors in this case need to get * sent back to the other side, but in the success case, we execute the * command on this side (XFER mode) or tell the other side to execute it * (SER_ONLY mode). */ static void ctl_serialize_other_sc_cmd(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_port *port = CTL_PORT(ctsio); union ctl_ha_msg msg_info; struct ctl_lun *lun; const struct ctl_cmd_entry *entry; union ctl_io *bio; uint32_t targ_lun; targ_lun = ctsio->io_hdr.nexus.targ_mapped_lun; /* Make sure that we know about this port. */ if (port == NULL || (port->status & CTL_PORT_STATUS_ONLINE) == 0) { ctl_set_internal_failure(ctsio, /*sks_valid*/ 0, /*retry_count*/ 1); goto badjuju; } /* Make sure that we know about this LUN. */ mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); /* * The other node would not send this request to us unless * received announce that we are primary node for this LUN. * If this LUN does not exist now, it is probably result of * a race, so respond to initiator in the most opaque way. */ ctl_set_busy(ctsio); goto badjuju; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); /* * If the LUN is invalid, pretend that it doesn't exist. * It will go away as soon as all pending I/Os completed. */ if (lun->flags & CTL_LUN_DISABLED) { mtx_unlock(&lun->lun_lock); ctl_set_busy(ctsio); goto badjuju; } entry = ctl_get_cmd_entry(ctsio, NULL); ctsio->seridx = entry->seridx; if (ctl_scsiio_lun_check(lun, entry, ctsio) != 0) { mtx_unlock(&lun->lun_lock); goto badjuju; } CTL_LUN(ctsio) = lun; CTL_BACKEND_LUN(ctsio) = lun->be_lun; /* * Every I/O goes into the OOA queue for a * particular LUN, and stays there until completion. */ #ifdef CTL_TIME_IO if (LIST_EMPTY(&lun->ooa_queue)) lun->idle_time += getsbinuptime() - lun->last_busy; #endif LIST_INSERT_HEAD(&lun->ooa_queue, &ctsio->io_hdr, ooa_links); bio = (union ctl_io *)LIST_NEXT(&ctsio->io_hdr, ooa_links); switch (ctl_check_ooa(lun, (union ctl_io *)ctsio, &bio)) { case CTL_ACTION_PASS: case CTL_ACTION_SKIP: if (softc->ha_mode == CTL_HA_MODE_XFER) { ctsio->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; ctl_enqueue_rtr((union ctl_io *)ctsio); mtx_unlock(&lun->lun_lock); } else { ctsio->io_hdr.flags &= ~CTL_FLAG_IO_ACTIVE; mtx_unlock(&lun->lun_lock); /* send msg back to other side */ msg_info.hdr.original_sc = ctsio->io_hdr.remote_io; msg_info.hdr.serializing_sc = (union ctl_io *)ctsio; msg_info.hdr.msg_type = CTL_MSG_R2R; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.hdr), M_WAITOK); } break; case CTL_ACTION_BLOCK: ctsio->io_hdr.blocker = bio; TAILQ_INSERT_TAIL(&bio->io_hdr.blocked_queue, &ctsio->io_hdr, blocked_links); mtx_unlock(&lun->lun_lock); break; case CTL_ACTION_OVERLAP: LIST_REMOVE(&ctsio->io_hdr, ooa_links); mtx_unlock(&lun->lun_lock); ctl_set_overlapped_cmd(ctsio); goto badjuju; case CTL_ACTION_OVERLAP_TAG: LIST_REMOVE(&ctsio->io_hdr, ooa_links); mtx_unlock(&lun->lun_lock); ctl_set_overlapped_tag(ctsio, ctsio->tag_num & 0xff); badjuju: ctl_copy_sense_data_back((union ctl_io *)ctsio, &msg_info); msg_info.hdr.original_sc = ctsio->io_hdr.remote_io; msg_info.hdr.serializing_sc = NULL; msg_info.hdr.msg_type = CTL_MSG_BAD_JUJU; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.scsi), M_WAITOK); ctl_free_io((union ctl_io *)ctsio); break; default: __assert_unreachable(); } } /* * Returns 0 for success, errno for failure. */ static void ctl_ioctl_fill_ooa(struct ctl_lun *lun, uint32_t *cur_fill_num, struct ctl_ooa *ooa_hdr, struct ctl_ooa_entry *kern_entries) { struct ctl_io_hdr *ioh; mtx_lock(&lun->lun_lock); ioh = LIST_FIRST(&lun->ooa_queue); if (ioh == NULL) { mtx_unlock(&lun->lun_lock); return; } while (LIST_NEXT(ioh, ooa_links) != NULL) ioh = LIST_NEXT(ioh, ooa_links); for ( ; ioh; ioh = LIST_PREV(ioh, &lun->ooa_queue, ctl_io_hdr, ooa_links)) { union ctl_io *io = (union ctl_io *)ioh; struct ctl_ooa_entry *entry; CTL_IO_ASSERT(io, SCSI); /* * If we've got more than we can fit, just count the * remaining entries. */ if (*cur_fill_num >= ooa_hdr->alloc_num) { (*cur_fill_num)++; continue; } entry = &kern_entries[*cur_fill_num]; entry->tag_num = io->scsiio.tag_num; entry->tag_type = io->scsiio.tag_type; entry->lun_num = lun->lun; #ifdef CTL_TIME_IO entry->start_bt = io->io_hdr.start_bt; #endif bcopy(io->scsiio.cdb, entry->cdb, io->scsiio.cdb_len); entry->cdb_len = io->scsiio.cdb_len; if (io->io_hdr.blocker != NULL) entry->cmd_flags |= CTL_OOACMD_FLAG_BLOCKED; if (io->io_hdr.flags & CTL_FLAG_DMA_INPROG) entry->cmd_flags |= CTL_OOACMD_FLAG_DMA; if (io->io_hdr.flags & CTL_FLAG_ABORT) entry->cmd_flags |= CTL_OOACMD_FLAG_ABORT; if (io->io_hdr.flags & CTL_FLAG_IS_WAS_ON_RTR) entry->cmd_flags |= CTL_OOACMD_FLAG_RTR; if (io->io_hdr.flags & CTL_FLAG_DMA_QUEUED) entry->cmd_flags |= CTL_OOACMD_FLAG_DMA_QUEUED; if (io->io_hdr.flags & CTL_FLAG_STATUS_QUEUED) entry->cmd_flags |= CTL_OOACMD_FLAG_STATUS_QUEUED; if (io->io_hdr.flags & CTL_FLAG_STATUS_SENT) entry->cmd_flags |= CTL_OOACMD_FLAG_STATUS_SENT; (*cur_fill_num)++; } mtx_unlock(&lun->lun_lock); } /* * Escape characters that are illegal or not recommended in XML. */ int ctl_sbuf_printf_esc(struct sbuf *sb, char *str, int size) { char *end = str + size; int retval; retval = 0; for (; *str && str < end; str++) { switch (*str) { case '&': retval = sbuf_cat(sb, "&"); break; case '>': retval = sbuf_cat(sb, ">"); break; case '<': retval = sbuf_cat(sb, "<"); break; default: retval = sbuf_putc(sb, *str); break; } if (retval != 0) break; } return (retval); } static void ctl_id_sbuf(struct ctl_devid *id, struct sbuf *sb) { struct scsi_vpd_id_descriptor *desc; int i; if (id == NULL || id->len < 4) return; desc = (struct scsi_vpd_id_descriptor *)id->data; switch (desc->id_type & SVPD_ID_TYPE_MASK) { case SVPD_ID_TYPE_T10: sbuf_cat(sb, "t10."); break; case SVPD_ID_TYPE_EUI64: sbuf_cat(sb, "eui."); break; case SVPD_ID_TYPE_NAA: sbuf_cat(sb, "naa."); break; case SVPD_ID_TYPE_SCSI_NAME: break; } switch (desc->proto_codeset & SVPD_ID_CODESET_MASK) { case SVPD_ID_CODESET_BINARY: for (i = 0; i < desc->length; i++) sbuf_printf(sb, "%02x", desc->identifier[i]); break; case SVPD_ID_CODESET_ASCII: sbuf_printf(sb, "%.*s", (int)desc->length, (char *)desc->identifier); break; case SVPD_ID_CODESET_UTF8: sbuf_cat(sb, (char *)desc->identifier); break; } } static int ctl_ioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td) { struct ctl_softc *softc = dev->si_drv1; struct ctl_port *port; struct ctl_lun *lun; int retval; retval = 0; switch (cmd) { case CTL_IO: retval = ctl_ioctl_io(dev, cmd, addr, flag, td); break; case CTL_ENABLE_PORT: case CTL_DISABLE_PORT: case CTL_SET_PORT_WWNS: { struct ctl_port *port; struct ctl_port_entry *entry; entry = (struct ctl_port_entry *)addr; mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(port, &softc->port_list, links) { int action, done; if (port->targ_port < softc->port_min || port->targ_port >= softc->port_max) continue; action = 0; done = 0; if ((entry->port_type == CTL_PORT_NONE) && (entry->targ_port == port->targ_port)) { /* * If the user only wants to enable or * disable or set WWNs on a specific port, * do the operation and we're done. */ action = 1; done = 1; } else if (entry->port_type & port->port_type) { /* * Compare the user's type mask with the * particular frontend type to see if we * have a match. */ action = 1; done = 0; /* * Make sure the user isn't trying to set * WWNs on multiple ports at the same time. */ if (cmd == CTL_SET_PORT_WWNS) { printf("%s: Can't set WWNs on " "multiple ports\n", __func__); retval = EINVAL; break; } } if (action == 0) continue; /* * XXX KDM we have to drop the lock here, because * the online/offline operations can potentially * block. We need to reference count the frontends * so they can't go away, */ if (cmd == CTL_ENABLE_PORT) { mtx_unlock(&softc->ctl_lock); ctl_port_online(port); mtx_lock(&softc->ctl_lock); } else if (cmd == CTL_DISABLE_PORT) { mtx_unlock(&softc->ctl_lock); ctl_port_offline(port); mtx_lock(&softc->ctl_lock); } else if (cmd == CTL_SET_PORT_WWNS) { ctl_port_set_wwns(port, (entry->flags & CTL_PORT_WWNN_VALID) ? 1 : 0, entry->wwnn, (entry->flags & CTL_PORT_WWPN_VALID) ? 1 : 0, entry->wwpn); } if (done != 0) break; } mtx_unlock(&softc->ctl_lock); break; } case CTL_GET_OOA: { struct ctl_ooa *ooa_hdr; struct ctl_ooa_entry *entries; uint32_t cur_fill_num; ooa_hdr = (struct ctl_ooa *)addr; if ((ooa_hdr->alloc_len == 0) || (ooa_hdr->alloc_num == 0)) { printf("%s: CTL_GET_OOA: alloc len %u and alloc num %u " "must be non-zero\n", __func__, ooa_hdr->alloc_len, ooa_hdr->alloc_num); retval = EINVAL; break; } if (ooa_hdr->alloc_len != (ooa_hdr->alloc_num * sizeof(struct ctl_ooa_entry))) { printf("%s: CTL_GET_OOA: alloc len %u must be alloc " "num %d * sizeof(struct ctl_ooa_entry) %zd\n", __func__, ooa_hdr->alloc_len, ooa_hdr->alloc_num,sizeof(struct ctl_ooa_entry)); retval = EINVAL; break; } entries = malloc(ooa_hdr->alloc_len, M_CTL, M_WAITOK | M_ZERO); if (entries == NULL) { printf("%s: could not allocate %d bytes for OOA " "dump\n", __func__, ooa_hdr->alloc_len); retval = ENOMEM; break; } mtx_lock(&softc->ctl_lock); if ((ooa_hdr->flags & CTL_OOA_FLAG_ALL_LUNS) == 0 && (ooa_hdr->lun_num >= ctl_max_luns || softc->ctl_luns[ooa_hdr->lun_num] == NULL)) { mtx_unlock(&softc->ctl_lock); free(entries, M_CTL); printf("%s: CTL_GET_OOA: invalid LUN %ju\n", __func__, (uintmax_t)ooa_hdr->lun_num); retval = EINVAL; break; } cur_fill_num = 0; if (ooa_hdr->flags & CTL_OOA_FLAG_ALL_LUNS) { STAILQ_FOREACH(lun, &softc->lun_list, links) { ctl_ioctl_fill_ooa(lun, &cur_fill_num, ooa_hdr, entries); } } else { lun = softc->ctl_luns[ooa_hdr->lun_num]; ctl_ioctl_fill_ooa(lun, &cur_fill_num, ooa_hdr, entries); } mtx_unlock(&softc->ctl_lock); ooa_hdr->fill_num = min(cur_fill_num, ooa_hdr->alloc_num); ooa_hdr->fill_len = ooa_hdr->fill_num * sizeof(struct ctl_ooa_entry); retval = copyout(entries, ooa_hdr->entries, ooa_hdr->fill_len); if (retval != 0) { printf("%s: error copying out %d bytes for OOA dump\n", __func__, ooa_hdr->fill_len); } getbinuptime(&ooa_hdr->cur_bt); if (cur_fill_num > ooa_hdr->alloc_num) { ooa_hdr->dropped_num = cur_fill_num -ooa_hdr->alloc_num; ooa_hdr->status = CTL_OOA_NEED_MORE_SPACE; } else { ooa_hdr->dropped_num = 0; ooa_hdr->status = CTL_OOA_OK; } free(entries, M_CTL); break; } case CTL_DELAY_IO: { struct ctl_io_delay_info *delay_info; delay_info = (struct ctl_io_delay_info *)addr; #ifdef CTL_IO_DELAY mtx_lock(&softc->ctl_lock); if (delay_info->lun_id >= ctl_max_luns || (lun = softc->ctl_luns[delay_info->lun_id]) == NULL) { mtx_unlock(&softc->ctl_lock); delay_info->status = CTL_DELAY_STATUS_INVALID_LUN; break; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); delay_info->status = CTL_DELAY_STATUS_OK; switch (delay_info->delay_type) { case CTL_DELAY_TYPE_CONT: case CTL_DELAY_TYPE_ONESHOT: break; default: delay_info->status = CTL_DELAY_STATUS_INVALID_TYPE; break; } switch (delay_info->delay_loc) { case CTL_DELAY_LOC_DATAMOVE: lun->delay_info.datamove_type = delay_info->delay_type; lun->delay_info.datamove_delay = delay_info->delay_secs; break; case CTL_DELAY_LOC_DONE: lun->delay_info.done_type = delay_info->delay_type; lun->delay_info.done_delay = delay_info->delay_secs; break; default: delay_info->status = CTL_DELAY_STATUS_INVALID_LOC; break; } mtx_unlock(&lun->lun_lock); #else delay_info->status = CTL_DELAY_STATUS_NOT_IMPLEMENTED; #endif /* CTL_IO_DELAY */ break; } case CTL_ERROR_INJECT: { struct ctl_error_desc *err_desc, *new_err_desc; err_desc = (struct ctl_error_desc *)addr; new_err_desc = malloc(sizeof(*new_err_desc), M_CTL, M_WAITOK | M_ZERO); bcopy(err_desc, new_err_desc, sizeof(*new_err_desc)); mtx_lock(&softc->ctl_lock); if (err_desc->lun_id >= ctl_max_luns || (lun = softc->ctl_luns[err_desc->lun_id]) == NULL) { mtx_unlock(&softc->ctl_lock); free(new_err_desc, M_CTL); printf("%s: CTL_ERROR_INJECT: invalid LUN %ju\n", __func__, (uintmax_t)err_desc->lun_id); retval = EINVAL; break; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); /* * We could do some checking here to verify the validity * of the request, but given the complexity of error * injection requests, the checking logic would be fairly * complex. * * For now, if the request is invalid, it just won't get * executed and might get deleted. */ STAILQ_INSERT_TAIL(&lun->error_list, new_err_desc, links); /* * XXX KDM check to make sure the serial number is unique, * in case we somehow manage to wrap. That shouldn't * happen for a very long time, but it's the right thing to * do. */ new_err_desc->serial = lun->error_serial; err_desc->serial = lun->error_serial; lun->error_serial++; mtx_unlock(&lun->lun_lock); break; } case CTL_ERROR_INJECT_DELETE: { struct ctl_error_desc *delete_desc, *desc, *desc2; int delete_done; delete_desc = (struct ctl_error_desc *)addr; delete_done = 0; mtx_lock(&softc->ctl_lock); if (delete_desc->lun_id >= ctl_max_luns || (lun = softc->ctl_luns[delete_desc->lun_id]) == NULL) { mtx_unlock(&softc->ctl_lock); printf("%s: CTL_ERROR_INJECT_DELETE: invalid LUN %ju\n", __func__, (uintmax_t)delete_desc->lun_id); retval = EINVAL; break; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); STAILQ_FOREACH_SAFE(desc, &lun->error_list, links, desc2) { if (desc->serial != delete_desc->serial) continue; STAILQ_REMOVE(&lun->error_list, desc, ctl_error_desc, links); free(desc, M_CTL); delete_done = 1; } mtx_unlock(&lun->lun_lock); if (delete_done == 0) { printf("%s: CTL_ERROR_INJECT_DELETE: can't find " "error serial %ju on LUN %u\n", __func__, delete_desc->serial, delete_desc->lun_id); retval = EINVAL; break; } break; } case CTL_DUMP_STRUCTS: { int j, k; struct ctl_port *port; struct ctl_frontend *fe; mtx_lock(&softc->ctl_lock); printf("CTL Persistent Reservation information start:\n"); STAILQ_FOREACH(lun, &softc->lun_list, links) { mtx_lock(&lun->lun_lock); if ((lun->flags & CTL_LUN_DISABLED) != 0) { mtx_unlock(&lun->lun_lock); continue; } for (j = 0; j < ctl_max_ports; j++) { if (lun->pr_keys[j] == NULL) continue; for (k = 0; k < CTL_MAX_INIT_PER_PORT; k++){ if (lun->pr_keys[j][k] == 0) continue; printf(" LUN %ju port %d iid %d key " "%#jx\n", lun->lun, j, k, (uintmax_t)lun->pr_keys[j][k]); } } mtx_unlock(&lun->lun_lock); } printf("CTL Persistent Reservation information end\n"); printf("CTL Ports:\n"); STAILQ_FOREACH(port, &softc->port_list, links) { printf(" Port %d '%s' Frontend '%s' Type %u pp %d vp %d WWNN " "%#jx WWPN %#jx\n", port->targ_port, port->port_name, port->frontend->name, port->port_type, port->physical_port, port->virtual_port, (uintmax_t)port->wwnn, (uintmax_t)port->wwpn); for (j = 0; j < CTL_MAX_INIT_PER_PORT; j++) { if (port->wwpn_iid[j].in_use == 0 && port->wwpn_iid[j].wwpn == 0 && port->wwpn_iid[j].name == NULL) continue; printf(" iid %u use %d WWPN %#jx '%s'\n", j, port->wwpn_iid[j].in_use, (uintmax_t)port->wwpn_iid[j].wwpn, port->wwpn_iid[j].name); } } printf("CTL Port information end\n"); mtx_unlock(&softc->ctl_lock); /* * XXX KDM calling this without a lock. We'd likely want * to drop the lock before calling the frontend's dump * routine anyway. */ printf("CTL Frontends:\n"); STAILQ_FOREACH(fe, &softc->fe_list, links) { printf(" Frontend '%s'\n", fe->name); if (fe->fe_dump != NULL) fe->fe_dump(); } printf("CTL Frontend information end\n"); break; } case CTL_LUN_REQ: { struct ctl_lun_req *lun_req; struct ctl_backend_driver *backend; void *packed; nvlist_t *tmp_args_nvl; size_t packed_len; lun_req = (struct ctl_lun_req *)addr; tmp_args_nvl = lun_req->args_nvl; backend = ctl_backend_find(lun_req->backend); if (backend == NULL) { lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Backend \"%s\" not found.", lun_req->backend); break; } if (lun_req->args != NULL) { if (lun_req->args_len > CTL_MAX_ARGS_LEN) { lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Too big args."); break; } packed = malloc(lun_req->args_len, M_CTL, M_WAITOK); if (copyin(lun_req->args, packed, lun_req->args_len) != 0) { free(packed, M_CTL); lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Cannot copyin args."); break; } lun_req->args_nvl = nvlist_unpack(packed, lun_req->args_len, 0); free(packed, M_CTL); if (lun_req->args_nvl == NULL) { lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Cannot unpack args nvlist."); break; } } else lun_req->args_nvl = nvlist_create(0); lun_req->result_nvl = NULL; retval = backend->ioctl(dev, cmd, addr, flag, td); nvlist_destroy(lun_req->args_nvl); lun_req->args_nvl = tmp_args_nvl; if (lun_req->result_nvl != NULL) { if (lun_req->result != NULL) { packed = nvlist_pack(lun_req->result_nvl, &packed_len); if (packed == NULL) { lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Cannot pack result nvlist."); break; } if (packed_len > lun_req->result_len) { lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Result nvlist too large."); free(packed, M_NVLIST); break; } if (copyout(packed, lun_req->result, packed_len)) { lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "Cannot copyout() the result."); free(packed, M_NVLIST); break; } lun_req->result_len = packed_len; free(packed, M_NVLIST); } nvlist_destroy(lun_req->result_nvl); } break; } case CTL_LUN_LIST: { struct sbuf *sb; struct ctl_lun_list *list; const char *name, *value; void *cookie; int type; list = (struct ctl_lun_list *)addr; /* * Allocate a fixed length sbuf here, based on the length * of the user's buffer. We could allocate an auto-extending * buffer, and then tell the user how much larger our * amount of data is than his buffer, but that presents * some problems: * * 1. The sbuf(9) routines use a blocking malloc, and so * we can't hold a lock while calling them with an * auto-extending buffer. * * 2. There is not currently a LUN reference counting * mechanism, outside of outstanding transactions on * the LUN's OOA queue. So a LUN could go away on us * while we're getting the LUN number, backend-specific * information, etc. Thus, given the way things * currently work, we need to hold the CTL lock while * grabbing LUN information. * * So, from the user's standpoint, the best thing to do is * allocate what he thinks is a reasonable buffer length, * and then if he gets a CTL_LUN_LIST_NEED_MORE_SPACE error, * double the buffer length and try again. (And repeat * that until he succeeds.) */ sb = sbuf_new(NULL, NULL, list->alloc_len, SBUF_FIXEDLEN); if (sb == NULL) { list->status = CTL_LUN_LIST_ERROR; snprintf(list->error_str, sizeof(list->error_str), "Unable to allocate %d bytes for LUN list", list->alloc_len); break; } sbuf_cat(sb, "\n"); mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(lun, &softc->lun_list, links) { mtx_lock(&lun->lun_lock); retval = sbuf_printf(sb, "\n", (uintmax_t)lun->lun); /* * Bail out as soon as we see that we've overfilled * the buffer. */ if (retval != 0) break; retval = sbuf_printf(sb, "\t%s" "\n", (lun->backend == NULL) ? "none" : lun->backend->name); if (retval != 0) break; retval = sbuf_printf(sb, "\t%d\n", lun->be_lun->lun_type); if (retval != 0) break; if (lun->backend == NULL) { retval = sbuf_cat(sb, "\n"); if (retval != 0) break; continue; } retval = sbuf_printf(sb, "\t%ju\n", (lun->be_lun->maxlba > 0) ? lun->be_lun->maxlba + 1 : 0); if (retval != 0) break; retval = sbuf_printf(sb, "\t%u\n", lun->be_lun->blocksize); if (retval != 0) break; retval = sbuf_cat(sb, "\t"); if (retval != 0) break; retval = ctl_sbuf_printf_esc(sb, lun->be_lun->serial_num, sizeof(lun->be_lun->serial_num)); if (retval != 0) break; retval = sbuf_cat(sb, "\n"); if (retval != 0) break; retval = sbuf_cat(sb, "\t"); if (retval != 0) break; retval = ctl_sbuf_printf_esc(sb, lun->be_lun->device_id, sizeof(lun->be_lun->device_id)); if (retval != 0) break; retval = sbuf_cat(sb, "\n"); if (retval != 0) break; if (lun->backend->lun_info != NULL) { retval = lun->backend->lun_info(lun->be_lun, sb); if (retval != 0) break; } cookie = NULL; while ((name = nvlist_next(lun->be_lun->options, &type, &cookie)) != NULL) { sbuf_printf(sb, "\t<%s>", name); if (type == NV_TYPE_STRING) { value = dnvlist_get_string( lun->be_lun->options, name, NULL); if (value != NULL) sbuf_cat(sb, value); } sbuf_printf(sb, "\n", name); } retval = sbuf_cat(sb, "\n"); if (retval != 0) break; mtx_unlock(&lun->lun_lock); } if (lun != NULL) mtx_unlock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if ((retval != 0) || ((retval = sbuf_cat(sb, "\n")) != 0)) { retval = 0; sbuf_delete(sb); list->status = CTL_LUN_LIST_NEED_MORE_SPACE; snprintf(list->error_str, sizeof(list->error_str), "Out of space, %d bytes is too small", list->alloc_len); break; } sbuf_finish(sb); retval = copyout(sbuf_data(sb), list->lun_xml, sbuf_len(sb) + 1); list->fill_len = sbuf_len(sb) + 1; list->status = CTL_LUN_LIST_OK; sbuf_delete(sb); break; } case CTL_ISCSI: { struct ctl_iscsi *ci; struct ctl_frontend *fe; ci = (struct ctl_iscsi *)addr; fe = ctl_frontend_find("iscsi"); if (fe == NULL) { ci->status = CTL_ISCSI_ERROR; snprintf(ci->error_str, sizeof(ci->error_str), "Frontend \"iscsi\" not found."); break; } retval = fe->ioctl(dev, cmd, addr, flag, td); break; } case CTL_PORT_REQ: { struct ctl_req *req; struct ctl_frontend *fe; void *packed; nvlist_t *tmp_args_nvl; size_t packed_len; req = (struct ctl_req *)addr; tmp_args_nvl = req->args_nvl; fe = ctl_frontend_find(req->driver); if (fe == NULL) { req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Frontend \"%s\" not found.", req->driver); break; } if (req->args != NULL) { if (req->args_len > CTL_MAX_ARGS_LEN) { req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Too big args."); break; } packed = malloc(req->args_len, M_CTL, M_WAITOK); if (copyin(req->args, packed, req->args_len) != 0) { free(packed, M_CTL); req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Cannot copyin args."); break; } req->args_nvl = nvlist_unpack(packed, req->args_len, 0); free(packed, M_CTL); if (req->args_nvl == NULL) { req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Cannot unpack args nvlist."); break; } } else req->args_nvl = nvlist_create(0); req->result_nvl = NULL; if (fe->ioctl) retval = fe->ioctl(dev, cmd, addr, flag, td); else retval = ENODEV; nvlist_destroy(req->args_nvl); req->args_nvl = tmp_args_nvl; if (req->result_nvl != NULL) { if (req->result != NULL) { packed = nvlist_pack(req->result_nvl, &packed_len); if (packed == NULL) { req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Cannot pack result nvlist."); break; } if (packed_len > req->result_len) { req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Result nvlist too large."); free(packed, M_NVLIST); break; } if (copyout(packed, req->result, packed_len)) { req->status = CTL_LUN_ERROR; snprintf(req->error_str, sizeof(req->error_str), "Cannot copyout() the result."); free(packed, M_NVLIST); break; } req->result_len = packed_len; free(packed, M_NVLIST); } nvlist_destroy(req->result_nvl); } break; } case CTL_PORT_LIST: { struct sbuf *sb; struct ctl_port *port; struct ctl_lun_list *list; const char *name, *value; void *cookie; int j, type; uint32_t plun; list = (struct ctl_lun_list *)addr; sb = sbuf_new(NULL, NULL, list->alloc_len, SBUF_FIXEDLEN); if (sb == NULL) { list->status = CTL_LUN_LIST_ERROR; snprintf(list->error_str, sizeof(list->error_str), "Unable to allocate %d bytes for LUN list", list->alloc_len); break; } sbuf_cat(sb, "\n"); mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(port, &softc->port_list, links) { retval = sbuf_printf(sb, "\n", (uintmax_t)port->targ_port); /* * Bail out as soon as we see that we've overfilled * the buffer. */ if (retval != 0) break; retval = sbuf_printf(sb, "\t%s" "\n", port->frontend->name); if (retval != 0) break; retval = sbuf_printf(sb, "\t%d\n", port->port_type); if (retval != 0) break; retval = sbuf_printf(sb, "\t%s\n", (port->status & CTL_PORT_STATUS_ONLINE) ? "YES" : "NO"); if (retval != 0) break; retval = sbuf_printf(sb, "\t%s\n", port->port_name); if (retval != 0) break; retval = sbuf_printf(sb, "\t%d\n", port->physical_port); if (retval != 0) break; retval = sbuf_printf(sb, "\t%d\n", port->virtual_port); if (retval != 0) break; if (port->target_devid != NULL) { sbuf_cat(sb, "\t"); ctl_id_sbuf(port->target_devid, sb); sbuf_cat(sb, "\n"); } if (port->port_devid != NULL) { sbuf_cat(sb, "\t"); ctl_id_sbuf(port->port_devid, sb); sbuf_cat(sb, "\n"); } if (port->port_info != NULL) { retval = port->port_info(port->onoff_arg, sb); if (retval != 0) break; } cookie = NULL; while ((name = nvlist_next(port->options, &type, &cookie)) != NULL) { sbuf_printf(sb, "\t<%s>", name); if (type == NV_TYPE_STRING) { value = dnvlist_get_string(port->options, name, NULL); if (value != NULL) sbuf_printf(sb, "%s", value); } sbuf_printf(sb, "\n", name); } if (port->lun_map != NULL) { sbuf_cat(sb, "\ton\n"); for (j = 0; j < port->lun_map_size; j++) { plun = ctl_lun_map_from_port(port, j); if (plun == UINT32_MAX) continue; sbuf_printf(sb, "\t%u\n", j, plun); } } for (j = 0; j < CTL_MAX_INIT_PER_PORT; j++) { if (port->wwpn_iid[j].in_use == 0 || (port->wwpn_iid[j].wwpn == 0 && port->wwpn_iid[j].name == NULL)) continue; if (port->wwpn_iid[j].name != NULL) retval = sbuf_printf(sb, "\t%s\n", j, port->wwpn_iid[j].name); else retval = sbuf_printf(sb, "\tnaa.%08jx\n", j, port->wwpn_iid[j].wwpn); if (retval != 0) break; } if (retval != 0) break; retval = sbuf_cat(sb, "\n"); if (retval != 0) break; } mtx_unlock(&softc->ctl_lock); if ((retval != 0) || ((retval = sbuf_cat(sb, "\n")) != 0)) { retval = 0; sbuf_delete(sb); list->status = CTL_LUN_LIST_NEED_MORE_SPACE; snprintf(list->error_str, sizeof(list->error_str), "Out of space, %d bytes is too small", list->alloc_len); break; } sbuf_finish(sb); retval = copyout(sbuf_data(sb), list->lun_xml, sbuf_len(sb) + 1); list->fill_len = sbuf_len(sb) + 1; list->status = CTL_LUN_LIST_OK; sbuf_delete(sb); break; } case CTL_LUN_MAP: { struct ctl_lun_map *lm = (struct ctl_lun_map *)addr; struct ctl_port *port; mtx_lock(&softc->ctl_lock); if (lm->port < softc->port_min || lm->port >= softc->port_max || (port = softc->ctl_ports[lm->port]) == NULL) { mtx_unlock(&softc->ctl_lock); return (ENXIO); } if (port->status & CTL_PORT_STATUS_ONLINE) { STAILQ_FOREACH(lun, &softc->lun_list, links) { if (ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; mtx_lock(&lun->lun_lock); ctl_est_ua_port(lun, lm->port, -1, CTL_UA_LUN_CHANGE); mtx_unlock(&lun->lun_lock); } } mtx_unlock(&softc->ctl_lock); // XXX: port_enable sleeps if (lm->plun != UINT32_MAX) { if (lm->lun == UINT32_MAX) retval = ctl_lun_map_unset(port, lm->plun); else if (lm->lun < ctl_max_luns && softc->ctl_luns[lm->lun] != NULL) retval = ctl_lun_map_set(port, lm->plun, lm->lun); else return (ENXIO); } else { if (lm->lun == UINT32_MAX) retval = ctl_lun_map_deinit(port); else retval = ctl_lun_map_init(port); } if (port->status & CTL_PORT_STATUS_ONLINE) ctl_isc_announce_port(port); break; } case CTL_GET_LUN_STATS: { struct ctl_get_io_stats *stats = (struct ctl_get_io_stats *)addr; int i; /* * XXX KDM no locking here. If the LUN list changes, * things can blow up. */ i = 0; stats->status = CTL_SS_OK; stats->fill_len = 0; STAILQ_FOREACH(lun, &softc->lun_list, links) { if (lun->lun < stats->first_item) continue; if (stats->fill_len + sizeof(lun->stats) > stats->alloc_len) { stats->status = CTL_SS_NEED_MORE_SPACE; break; } retval = copyout(&lun->stats, &stats->stats[i++], sizeof(lun->stats)); if (retval != 0) break; stats->fill_len += sizeof(lun->stats); } stats->num_items = softc->num_luns; stats->flags = CTL_STATS_FLAG_NONE; #ifdef CTL_TIME_IO stats->flags |= CTL_STATS_FLAG_TIME_VALID; #endif getnanouptime(&stats->timestamp); break; } case CTL_GET_PORT_STATS: { struct ctl_get_io_stats *stats = (struct ctl_get_io_stats *)addr; int i; /* * XXX KDM no locking here. If the LUN list changes, * things can blow up. */ i = 0; stats->status = CTL_SS_OK; stats->fill_len = 0; STAILQ_FOREACH(port, &softc->port_list, links) { if (port->targ_port < stats->first_item) continue; if (stats->fill_len + sizeof(port->stats) > stats->alloc_len) { stats->status = CTL_SS_NEED_MORE_SPACE; break; } retval = copyout(&port->stats, &stats->stats[i++], sizeof(port->stats)); if (retval != 0) break; stats->fill_len += sizeof(port->stats); } stats->num_items = softc->num_ports; stats->flags = CTL_STATS_FLAG_NONE; #ifdef CTL_TIME_IO stats->flags |= CTL_STATS_FLAG_TIME_VALID; #endif getnanouptime(&stats->timestamp); break; } default: { /* XXX KDM should we fix this? */ #if 0 struct ctl_backend_driver *backend; unsigned int type; int found; found = 0; /* * We encode the backend type as the ioctl type for backend * ioctls. So parse it out here, and then search for a * backend of this type. */ type = _IOC_TYPE(cmd); STAILQ_FOREACH(backend, &softc->be_list, links) { if (backend->type == type) { found = 1; break; } } if (found == 0) { printf("ctl: unknown ioctl command %#lx or backend " "%d\n", cmd, type); retval = EINVAL; break; } retval = backend->ioctl(dev, cmd, addr, flag, td); #endif retval = ENOTTY; break; } } return (retval); } uint32_t ctl_get_initindex(struct ctl_nexus *nexus) { return (nexus->initid + (nexus->targ_port * CTL_MAX_INIT_PER_PORT)); } int ctl_lun_map_init(struct ctl_port *port) { struct ctl_softc *softc = port->ctl_softc; struct ctl_lun *lun; int size = ctl_lun_map_size; uint32_t i; if (port->lun_map == NULL || port->lun_map_size < size) { port->lun_map_size = 0; free(port->lun_map, M_CTL); port->lun_map = malloc(size * sizeof(uint32_t), M_CTL, M_NOWAIT); } if (port->lun_map == NULL) return (ENOMEM); for (i = 0; i < size; i++) port->lun_map[i] = UINT32_MAX; port->lun_map_size = size; if (port->status & CTL_PORT_STATUS_ONLINE) { if (port->lun_disable != NULL) { STAILQ_FOREACH(lun, &softc->lun_list, links) port->lun_disable(port->targ_lun_arg, lun->lun); } ctl_isc_announce_port(port); } return (0); } int ctl_lun_map_deinit(struct ctl_port *port) { struct ctl_softc *softc = port->ctl_softc; struct ctl_lun *lun; if (port->lun_map == NULL) return (0); port->lun_map_size = 0; free(port->lun_map, M_CTL); port->lun_map = NULL; if (port->status & CTL_PORT_STATUS_ONLINE) { if (port->lun_enable != NULL) { STAILQ_FOREACH(lun, &softc->lun_list, links) port->lun_enable(port->targ_lun_arg, lun->lun); } ctl_isc_announce_port(port); } return (0); } int ctl_lun_map_set(struct ctl_port *port, uint32_t plun, uint32_t glun) { int status; uint32_t old; if (port->lun_map == NULL) { status = ctl_lun_map_init(port); if (status != 0) return (status); } if (plun >= port->lun_map_size) return (EINVAL); old = port->lun_map[plun]; port->lun_map[plun] = glun; if ((port->status & CTL_PORT_STATUS_ONLINE) && old == UINT32_MAX) { if (port->lun_enable != NULL) port->lun_enable(port->targ_lun_arg, plun); ctl_isc_announce_port(port); } return (0); } int ctl_lun_map_unset(struct ctl_port *port, uint32_t plun) { uint32_t old; if (port->lun_map == NULL || plun >= port->lun_map_size) return (0); old = port->lun_map[plun]; port->lun_map[plun] = UINT32_MAX; if ((port->status & CTL_PORT_STATUS_ONLINE) && old != UINT32_MAX) { if (port->lun_disable != NULL) port->lun_disable(port->targ_lun_arg, plun); ctl_isc_announce_port(port); } return (0); } uint32_t ctl_lun_map_from_port(struct ctl_port *port, uint32_t lun_id) { if (port == NULL) return (UINT32_MAX); if (port->lun_map == NULL) return (lun_id); if (lun_id > port->lun_map_size) return (UINT32_MAX); return (port->lun_map[lun_id]); } uint32_t ctl_lun_map_to_port(struct ctl_port *port, uint32_t lun_id) { uint32_t i; if (port == NULL) return (UINT32_MAX); if (port->lun_map == NULL) return (lun_id); for (i = 0; i < port->lun_map_size; i++) { if (port->lun_map[i] == lun_id) return (i); } return (UINT32_MAX); } uint32_t ctl_decode_lun(uint64_t encoded) { uint8_t lun[8]; uint32_t result = 0xffffffff; be64enc(lun, encoded); switch (lun[0] & RPL_LUNDATA_ATYP_MASK) { case RPL_LUNDATA_ATYP_PERIPH: if ((lun[0] & 0x3f) == 0 && lun[2] == 0 && lun[3] == 0 && lun[4] == 0 && lun[5] == 0 && lun[6] == 0 && lun[7] == 0) result = lun[1]; break; case RPL_LUNDATA_ATYP_FLAT: if (lun[2] == 0 && lun[3] == 0 && lun[4] == 0 && lun[5] == 0 && lun[6] == 0 && lun[7] == 0) result = ((lun[0] & 0x3f) << 8) + lun[1]; break; case RPL_LUNDATA_ATYP_EXTLUN: switch (lun[0] & RPL_LUNDATA_EXT_EAM_MASK) { case 0x02: switch (lun[0] & RPL_LUNDATA_EXT_LEN_MASK) { case 0x00: result = lun[1]; break; case 0x10: result = (lun[1] << 16) + (lun[2] << 8) + lun[3]; break; case 0x20: if (lun[1] == 0 && lun[6] == 0 && lun[7] == 0) result = (lun[2] << 24) + (lun[3] << 16) + (lun[4] << 8) + lun[5]; break; } break; case RPL_LUNDATA_EXT_EAM_NOT_SPEC: result = 0xffffffff; break; } break; } return (result); } uint64_t ctl_encode_lun(uint32_t decoded) { uint64_t l = decoded; if (l <= 0xff) return (((uint64_t)RPL_LUNDATA_ATYP_PERIPH << 56) | (l << 48)); if (l <= 0x3fff) return (((uint64_t)RPL_LUNDATA_ATYP_FLAT << 56) | (l << 48)); if (l <= 0xffffff) return (((uint64_t)(RPL_LUNDATA_ATYP_EXTLUN | 0x12) << 56) | (l << 32)); return ((((uint64_t)RPL_LUNDATA_ATYP_EXTLUN | 0x22) << 56) | (l << 16)); } int ctl_ffz(uint32_t *mask, uint32_t first, uint32_t last) { int i; for (i = first; i < last; i++) { if ((mask[i / 32] & (1 << (i % 32))) == 0) return (i); } return (-1); } int ctl_set_mask(uint32_t *mask, uint32_t bit) { uint32_t chunk, piece; chunk = bit >> 5; piece = bit % (sizeof(uint32_t) * 8); if ((mask[chunk] & (1 << piece)) != 0) return (-1); else mask[chunk] |= (1 << piece); return (0); } int ctl_clear_mask(uint32_t *mask, uint32_t bit) { uint32_t chunk, piece; chunk = bit >> 5; piece = bit % (sizeof(uint32_t) * 8); if ((mask[chunk] & (1 << piece)) == 0) return (-1); else mask[chunk] &= ~(1 << piece); return (0); } int ctl_is_set(uint32_t *mask, uint32_t bit) { uint32_t chunk, piece; chunk = bit >> 5; piece = bit % (sizeof(uint32_t) * 8); if ((mask[chunk] & (1 << piece)) == 0) return (0); else return (1); } static uint64_t ctl_get_prkey(struct ctl_lun *lun, uint32_t residx) { uint64_t *t; t = lun->pr_keys[residx/CTL_MAX_INIT_PER_PORT]; if (t == NULL) return (0); return (t[residx % CTL_MAX_INIT_PER_PORT]); } static void ctl_clr_prkey(struct ctl_lun *lun, uint32_t residx) { uint64_t *t; t = lun->pr_keys[residx/CTL_MAX_INIT_PER_PORT]; if (t == NULL) return; t[residx % CTL_MAX_INIT_PER_PORT] = 0; } static void ctl_alloc_prkey(struct ctl_lun *lun, uint32_t residx) { uint64_t *p; u_int i; i = residx/CTL_MAX_INIT_PER_PORT; if (lun->pr_keys[i] != NULL) return; mtx_unlock(&lun->lun_lock); p = malloc(sizeof(uint64_t) * CTL_MAX_INIT_PER_PORT, M_CTL, M_WAITOK | M_ZERO); mtx_lock(&lun->lun_lock); if (lun->pr_keys[i] == NULL) lun->pr_keys[i] = p; else free(p, M_CTL); } static void ctl_set_prkey(struct ctl_lun *lun, uint32_t residx, uint64_t key) { uint64_t *t; t = lun->pr_keys[residx/CTL_MAX_INIT_PER_PORT]; KASSERT(t != NULL, ("prkey %d is not allocated", residx)); t[residx % CTL_MAX_INIT_PER_PORT] = key; } /* * ctl_softc, pool_name, total_ctl_io are passed in. * npool is passed out. */ int ctl_pool_create(struct ctl_softc *ctl_softc, const char *pool_name, uint32_t total_ctl_io, void **npool) { struct ctl_io_pool *pool; pool = (struct ctl_io_pool *)malloc(sizeof(*pool), M_CTL, M_NOWAIT | M_ZERO); if (pool == NULL) return (ENOMEM); snprintf(pool->name, sizeof(pool->name), "CTL IO %s", pool_name); pool->ctl_softc = ctl_softc; #ifdef IO_POOLS pool->zone = uma_zsecond_create(pool->name, NULL, NULL, NULL, NULL, ctl_softc->io_zone); /* uma_prealloc(pool->zone, total_ctl_io); */ #else pool->zone = ctl_softc->io_zone; #endif *npool = pool; return (0); } void ctl_pool_free(struct ctl_io_pool *pool) { if (pool == NULL) return; #ifdef IO_POOLS uma_zdestroy(pool->zone); #endif free(pool, M_CTL); } union ctl_io * ctl_alloc_io(void *pool_ref) { struct ctl_io_pool *pool = (struct ctl_io_pool *)pool_ref; union ctl_io *io; io = uma_zalloc(pool->zone, M_WAITOK); if (io != NULL) { io->io_hdr.pool = pool_ref; CTL_SOFTC(io) = pool->ctl_softc; TAILQ_INIT(&io->io_hdr.blocked_queue); } return (io); } union ctl_io * ctl_alloc_io_nowait(void *pool_ref) { struct ctl_io_pool *pool = (struct ctl_io_pool *)pool_ref; union ctl_io *io; io = uma_zalloc(pool->zone, M_NOWAIT); if (io != NULL) { io->io_hdr.pool = pool_ref; CTL_SOFTC(io) = pool->ctl_softc; TAILQ_INIT(&io->io_hdr.blocked_queue); } return (io); } void ctl_free_io(union ctl_io *io) { struct ctl_io_pool *pool; if (io == NULL) return; pool = (struct ctl_io_pool *)io->io_hdr.pool; uma_zfree(pool->zone, io); } void ctl_zero_io(union ctl_io *io) { struct ctl_io_pool *pool; if (io == NULL) return; /* * May need to preserve linked list pointers at some point too. */ pool = io->io_hdr.pool; memset(io, 0, sizeof(*io)); io->io_hdr.pool = pool; CTL_SOFTC(io) = pool->ctl_softc; TAILQ_INIT(&io->io_hdr.blocked_queue); } int ctl_expand_number(const char *buf, uint64_t *num) { char *endptr; uint64_t number; unsigned shift; number = strtoq(buf, &endptr, 0); switch (tolower((unsigned char)*endptr)) { case 'e': shift = 60; break; case 'p': shift = 50; break; case 't': shift = 40; break; case 'g': shift = 30; break; case 'm': shift = 20; break; case 'k': shift = 10; break; case 'b': case '\0': /* No unit. */ *num = number; return (0); default: /* Unrecognized unit. */ return (-1); } if ((number << shift) >> shift != number) { /* Overflow */ return (-1); } *num = number << shift; return (0); } /* * This routine could be used in the future to load default and/or saved * mode page parameters for a particuar lun. */ static int ctl_init_page_index(struct ctl_lun *lun) { int i, page_code; struct ctl_page_index *page_index; const char *value; uint64_t ival; memcpy(&lun->mode_pages.index, page_index_template, sizeof(page_index_template)); for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { page_index = &lun->mode_pages.index[i]; if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; page_code = page_index->page_code & SMPH_PC_MASK; switch (page_code) { case SMS_RW_ERROR_RECOVERY_PAGE: { KASSERT(page_index->subpage == SMS_SUBPAGE_PAGE_0, ("subpage %#x for page %#x is incorrect!", page_index->subpage, page_code)); memcpy(&lun->mode_pages.rw_er_page[CTL_PAGE_CURRENT], &rw_er_page_default, sizeof(rw_er_page_default)); memcpy(&lun->mode_pages.rw_er_page[CTL_PAGE_CHANGEABLE], &rw_er_page_changeable, sizeof(rw_er_page_changeable)); memcpy(&lun->mode_pages.rw_er_page[CTL_PAGE_DEFAULT], &rw_er_page_default, sizeof(rw_er_page_default)); memcpy(&lun->mode_pages.rw_er_page[CTL_PAGE_SAVED], &rw_er_page_default, sizeof(rw_er_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.rw_er_page; break; } case SMS_VERIFY_ERROR_RECOVERY_PAGE: { KASSERT(page_index->subpage == SMS_SUBPAGE_PAGE_0, ("subpage %#x for page %#x is incorrect!", page_index->subpage, page_code)); memcpy(&lun->mode_pages.verify_er_page[CTL_PAGE_CURRENT], &verify_er_page_default, sizeof(verify_er_page_default)); memcpy(&lun->mode_pages.verify_er_page[CTL_PAGE_CHANGEABLE], &verify_er_page_changeable, sizeof(verify_er_page_changeable)); memcpy(&lun->mode_pages.verify_er_page[CTL_PAGE_DEFAULT], &verify_er_page_default, sizeof(verify_er_page_default)); memcpy(&lun->mode_pages.verify_er_page[CTL_PAGE_SAVED], &verify_er_page_default, sizeof(verify_er_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.verify_er_page; break; } case SMS_CACHING_PAGE: { struct scsi_caching_page *caching_page; KASSERT(page_index->subpage == SMS_SUBPAGE_PAGE_0, ("subpage %#x for page %#x is incorrect!", page_index->subpage, page_code)); memcpy(&lun->mode_pages.caching_page[CTL_PAGE_DEFAULT], &caching_page_default, sizeof(caching_page_default)); memcpy(&lun->mode_pages.caching_page[ CTL_PAGE_CHANGEABLE], &caching_page_changeable, sizeof(caching_page_changeable)); memcpy(&lun->mode_pages.caching_page[CTL_PAGE_SAVED], &caching_page_default, sizeof(caching_page_default)); caching_page = &lun->mode_pages.caching_page[ CTL_PAGE_SAVED]; value = dnvlist_get_string(lun->be_lun->options, "writecache", NULL); if (value != NULL && strcmp(value, "off") == 0) caching_page->flags1 &= ~SCP_WCE; value = dnvlist_get_string(lun->be_lun->options, "readcache", NULL); if (value != NULL && strcmp(value, "off") == 0) caching_page->flags1 |= SCP_RCD; memcpy(&lun->mode_pages.caching_page[CTL_PAGE_CURRENT], &lun->mode_pages.caching_page[CTL_PAGE_SAVED], sizeof(caching_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.caching_page; break; } case SMS_CONTROL_MODE_PAGE: { switch (page_index->subpage) { case SMS_SUBPAGE_PAGE_0: { struct scsi_control_page *control_page; memcpy(&lun->mode_pages.control_page[ CTL_PAGE_DEFAULT], &control_page_default, sizeof(control_page_default)); memcpy(&lun->mode_pages.control_page[ CTL_PAGE_CHANGEABLE], &control_page_changeable, sizeof(control_page_changeable)); memcpy(&lun->mode_pages.control_page[ CTL_PAGE_SAVED], &control_page_default, sizeof(control_page_default)); control_page = &lun->mode_pages.control_page[ CTL_PAGE_SAVED]; value = dnvlist_get_string(lun->be_lun->options, "reordering", NULL); if (value != NULL && strcmp(value, "unrestricted") == 0) { control_page->queue_flags &= ~SCP_QUEUE_ALG_MASK; control_page->queue_flags |= SCP_QUEUE_ALG_UNRESTRICTED; } memcpy(&lun->mode_pages.control_page[ CTL_PAGE_CURRENT], &lun->mode_pages.control_page[ CTL_PAGE_SAVED], sizeof(control_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.control_page; break; } case 0x01: memcpy(&lun->mode_pages.control_ext_page[ CTL_PAGE_DEFAULT], &control_ext_page_default, sizeof(control_ext_page_default)); memcpy(&lun->mode_pages.control_ext_page[ CTL_PAGE_CHANGEABLE], &control_ext_page_changeable, sizeof(control_ext_page_changeable)); memcpy(&lun->mode_pages.control_ext_page[ CTL_PAGE_SAVED], &control_ext_page_default, sizeof(control_ext_page_default)); memcpy(&lun->mode_pages.control_ext_page[ CTL_PAGE_CURRENT], &lun->mode_pages.control_ext_page[ CTL_PAGE_SAVED], sizeof(control_ext_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.control_ext_page; break; default: panic("subpage %#x for page %#x is incorrect!", page_index->subpage, page_code); } break; } case SMS_INFO_EXCEPTIONS_PAGE: { switch (page_index->subpage) { case SMS_SUBPAGE_PAGE_0: memcpy(&lun->mode_pages.ie_page[CTL_PAGE_CURRENT], &ie_page_default, sizeof(ie_page_default)); memcpy(&lun->mode_pages.ie_page[ CTL_PAGE_CHANGEABLE], &ie_page_changeable, sizeof(ie_page_changeable)); memcpy(&lun->mode_pages.ie_page[CTL_PAGE_DEFAULT], &ie_page_default, sizeof(ie_page_default)); memcpy(&lun->mode_pages.ie_page[CTL_PAGE_SAVED], &ie_page_default, sizeof(ie_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.ie_page; break; case 0x02: { struct ctl_logical_block_provisioning_page *page; memcpy(&lun->mode_pages.lbp_page[CTL_PAGE_DEFAULT], &lbp_page_default, sizeof(lbp_page_default)); memcpy(&lun->mode_pages.lbp_page[ CTL_PAGE_CHANGEABLE], &lbp_page_changeable, sizeof(lbp_page_changeable)); memcpy(&lun->mode_pages.lbp_page[CTL_PAGE_SAVED], &lbp_page_default, sizeof(lbp_page_default)); page = &lun->mode_pages.lbp_page[CTL_PAGE_SAVED]; value = dnvlist_get_string(lun->be_lun->options, "avail-threshold", NULL); if (value != NULL && ctl_expand_number(value, &ival) == 0) { page->descr[0].flags |= SLBPPD_ENABLED | SLBPPD_ARMING_DEC; if (lun->be_lun->blocksize) ival /= lun->be_lun->blocksize; else ival /= 512; scsi_ulto4b(ival >> CTL_LBP_EXPONENT, page->descr[0].count); } value = dnvlist_get_string(lun->be_lun->options, "used-threshold", NULL); if (value != NULL && ctl_expand_number(value, &ival) == 0) { page->descr[1].flags |= SLBPPD_ENABLED | SLBPPD_ARMING_INC; if (lun->be_lun->blocksize) ival /= lun->be_lun->blocksize; else ival /= 512; scsi_ulto4b(ival >> CTL_LBP_EXPONENT, page->descr[1].count); } value = dnvlist_get_string(lun->be_lun->options, "pool-avail-threshold", NULL); if (value != NULL && ctl_expand_number(value, &ival) == 0) { page->descr[2].flags |= SLBPPD_ENABLED | SLBPPD_ARMING_DEC; if (lun->be_lun->blocksize) ival /= lun->be_lun->blocksize; else ival /= 512; scsi_ulto4b(ival >> CTL_LBP_EXPONENT, page->descr[2].count); } value = dnvlist_get_string(lun->be_lun->options, "pool-used-threshold", NULL); if (value != NULL && ctl_expand_number(value, &ival) == 0) { page->descr[3].flags |= SLBPPD_ENABLED | SLBPPD_ARMING_INC; if (lun->be_lun->blocksize) ival /= lun->be_lun->blocksize; else ival /= 512; scsi_ulto4b(ival >> CTL_LBP_EXPONENT, page->descr[3].count); } memcpy(&lun->mode_pages.lbp_page[CTL_PAGE_CURRENT], &lun->mode_pages.lbp_page[CTL_PAGE_SAVED], sizeof(lbp_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.lbp_page; break; } default: panic("subpage %#x for page %#x is incorrect!", page_index->subpage, page_code); } break; } case SMS_CDDVD_CAPS_PAGE:{ KASSERT(page_index->subpage == SMS_SUBPAGE_PAGE_0, ("subpage %#x for page %#x is incorrect!", page_index->subpage, page_code)); memcpy(&lun->mode_pages.cddvd_page[CTL_PAGE_DEFAULT], &cddvd_page_default, sizeof(cddvd_page_default)); memcpy(&lun->mode_pages.cddvd_page[ CTL_PAGE_CHANGEABLE], &cddvd_page_changeable, sizeof(cddvd_page_changeable)); memcpy(&lun->mode_pages.cddvd_page[CTL_PAGE_SAVED], &cddvd_page_default, sizeof(cddvd_page_default)); memcpy(&lun->mode_pages.cddvd_page[CTL_PAGE_CURRENT], &lun->mode_pages.cddvd_page[CTL_PAGE_SAVED], sizeof(cddvd_page_default)); page_index->page_data = (uint8_t *)lun->mode_pages.cddvd_page; break; } default: panic("invalid page code value %#x", page_code); } } return (CTL_RETVAL_COMPLETE); } static int ctl_init_log_page_index(struct ctl_lun *lun) { struct ctl_page_index *page_index; int i, j, k, prev; memcpy(&lun->log_pages.index, log_page_index_template, sizeof(log_page_index_template)); prev = -1; for (i = 0, j = 0, k = 0; i < CTL_NUM_LOG_PAGES; i++) { page_index = &lun->log_pages.index[i]; if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; if (page_index->page_code == SLS_LOGICAL_BLOCK_PROVISIONING && lun->backend->lun_attr == NULL) continue; if (page_index->page_code != prev) { lun->log_pages.pages_page[j] = page_index->page_code; prev = page_index->page_code; j++; } lun->log_pages.subpages_page[k*2] = page_index->page_code; lun->log_pages.subpages_page[k*2+1] = page_index->subpage; k++; } lun->log_pages.index[0].page_data = &lun->log_pages.pages_page[0]; lun->log_pages.index[0].page_len = j; lun->log_pages.index[1].page_data = &lun->log_pages.subpages_page[0]; lun->log_pages.index[1].page_len = k * 2; lun->log_pages.index[2].page_data = (uint8_t *)&lun->log_pages.temp_page; lun->log_pages.index[2].page_len = sizeof(lun->log_pages.temp_page); lun->log_pages.index[3].page_data = &lun->log_pages.lbp_page[0]; lun->log_pages.index[3].page_len = 12*CTL_NUM_LBP_PARAMS; lun->log_pages.index[4].page_data = (uint8_t *)&lun->log_pages.stat_page; lun->log_pages.index[4].page_len = sizeof(lun->log_pages.stat_page); lun->log_pages.index[5].page_data = (uint8_t *)&lun->log_pages.ie_page; lun->log_pages.index[5].page_len = sizeof(lun->log_pages.ie_page); return (CTL_RETVAL_COMPLETE); } static int hex2bin(const char *str, uint8_t *buf, int buf_size) { int i; u_char c; memset(buf, 0, buf_size); while (isspace(str[0])) str++; if (str[0] == '0' && (str[1] == 'x' || str[1] == 'X')) str += 2; buf_size *= 2; for (i = 0; str[i] != 0 && i < buf_size; i++) { while (str[i] == '-') /* Skip dashes in UUIDs. */ str++; c = str[i]; if (isdigit(c)) c -= '0'; else if (isalpha(c)) c -= isupper(c) ? 'A' - 10 : 'a' - 10; else break; if (c >= 16) break; if ((i & 1) == 0) buf[i / 2] |= (c << 4); else buf[i / 2] |= c; } return ((i + 1) / 2); } /* * Add LUN. * * Returns 0 for success, non-zero (errno) for failure. */ int ctl_add_lun(struct ctl_be_lun *be_lun) { struct ctl_softc *ctl_softc = control_softc; struct ctl_lun *nlun, *lun; struct scsi_vpd_id_descriptor *desc; struct scsi_vpd_id_t10 *t10id; const char *eui, *naa, *scsiname, *uuid, *vendor, *value; int lun_number; int devidlen, idlen1, idlen2 = 0, len; /* * We support only Direct Access, CD-ROM or Processor LUN types. */ switch (be_lun->lun_type) { case T_DIRECT: case T_PROCESSOR: case T_CDROM: break; case T_SEQUENTIAL: case T_CHANGER: default: return (EINVAL); } lun = malloc(sizeof(*lun), M_CTL, M_WAITOK | M_ZERO); lun->pending_sense = malloc(sizeof(struct scsi_sense_data *) * ctl_max_ports, M_DEVBUF, M_WAITOK | M_ZERO); lun->pending_ua = malloc(sizeof(ctl_ua_type *) * ctl_max_ports, M_DEVBUF, M_WAITOK | M_ZERO); lun->pr_keys = malloc(sizeof(uint64_t *) * ctl_max_ports, M_DEVBUF, M_WAITOK | M_ZERO); /* Generate LUN ID. */ devidlen = max(CTL_DEVID_MIN_LEN, strnlen(be_lun->device_id, CTL_DEVID_LEN)); idlen1 = sizeof(*t10id) + devidlen; len = sizeof(struct scsi_vpd_id_descriptor) + idlen1; scsiname = dnvlist_get_string(be_lun->options, "scsiname", NULL); if (scsiname != NULL) { idlen2 = roundup2(strlen(scsiname) + 1, 4); len += sizeof(struct scsi_vpd_id_descriptor) + idlen2; } eui = dnvlist_get_string(be_lun->options, "eui", NULL); if (eui != NULL) { len += sizeof(struct scsi_vpd_id_descriptor) + 16; } naa = dnvlist_get_string(be_lun->options, "naa", NULL); if (naa != NULL) { len += sizeof(struct scsi_vpd_id_descriptor) + 16; } uuid = dnvlist_get_string(be_lun->options, "uuid", NULL); if (uuid != NULL) { len += sizeof(struct scsi_vpd_id_descriptor) + 18; } lun->lun_devid = malloc(sizeof(struct ctl_devid) + len, M_CTL, M_WAITOK | M_ZERO); desc = (struct scsi_vpd_id_descriptor *)lun->lun_devid->data; desc->proto_codeset = SVPD_ID_CODESET_ASCII; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_LUN | SVPD_ID_TYPE_T10; desc->length = idlen1; t10id = (struct scsi_vpd_id_t10 *)&desc->identifier[0]; memset(t10id->vendor, ' ', sizeof(t10id->vendor)); if ((vendor = dnvlist_get_string(be_lun->options, "vendor", NULL)) == NULL) { strncpy((char *)t10id->vendor, CTL_VENDOR, sizeof(t10id->vendor)); } else { strncpy(t10id->vendor, vendor, min(sizeof(t10id->vendor), strlen(vendor))); } strncpy((char *)t10id->vendor_spec_id, (char *)be_lun->device_id, devidlen); if (scsiname != NULL) { desc = (struct scsi_vpd_id_descriptor *)(&desc->identifier[0] + desc->length); desc->proto_codeset = SVPD_ID_CODESET_UTF8; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_LUN | SVPD_ID_TYPE_SCSI_NAME; desc->length = idlen2; strlcpy(desc->identifier, scsiname, idlen2); } if (eui != NULL) { desc = (struct scsi_vpd_id_descriptor *)(&desc->identifier[0] + desc->length); desc->proto_codeset = SVPD_ID_CODESET_BINARY; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_LUN | SVPD_ID_TYPE_EUI64; desc->length = hex2bin(eui, desc->identifier, 16); desc->length = desc->length > 12 ? 16 : (desc->length > 8 ? 12 : 8); len -= 16 - desc->length; } if (naa != NULL) { desc = (struct scsi_vpd_id_descriptor *)(&desc->identifier[0] + desc->length); desc->proto_codeset = SVPD_ID_CODESET_BINARY; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_LUN | SVPD_ID_TYPE_NAA; desc->length = hex2bin(naa, desc->identifier, 16); desc->length = desc->length > 8 ? 16 : 8; len -= 16 - desc->length; } if (uuid != NULL) { desc = (struct scsi_vpd_id_descriptor *)(&desc->identifier[0] + desc->length); desc->proto_codeset = SVPD_ID_CODESET_BINARY; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_LUN | SVPD_ID_TYPE_UUID; desc->identifier[0] = 0x10; hex2bin(uuid, &desc->identifier[2], 16); desc->length = 18; } lun->lun_devid->len = len; mtx_lock(&ctl_softc->ctl_lock); /* * See if the caller requested a particular LUN number. If so, see * if it is available. Otherwise, allocate the first available LUN. */ if (be_lun->flags & CTL_LUN_FLAG_ID_REQ) { if ((be_lun->req_lun_id > (ctl_max_luns - 1)) || (ctl_is_set(ctl_softc->ctl_lun_mask, be_lun->req_lun_id))) { mtx_unlock(&ctl_softc->ctl_lock); if (be_lun->req_lun_id > (ctl_max_luns - 1)) { printf("ctl: requested LUN ID %d is higher " "than ctl_max_luns - 1 (%d)\n", be_lun->req_lun_id, ctl_max_luns - 1); } else { /* * XXX KDM return an error, or just assign * another LUN ID in this case?? */ printf("ctl: requested LUN ID %d is already " "in use\n", be_lun->req_lun_id); } fail: free(lun->lun_devid, M_CTL); free(lun, M_CTL); return (ENOSPC); } lun_number = be_lun->req_lun_id; } else { lun_number = ctl_ffz(ctl_softc->ctl_lun_mask, 0, ctl_max_luns); if (lun_number == -1) { mtx_unlock(&ctl_softc->ctl_lock); printf("ctl: can't allocate LUN, out of LUNs\n"); goto fail; } } ctl_set_mask(ctl_softc->ctl_lun_mask, lun_number); mtx_unlock(&ctl_softc->ctl_lock); mtx_init(&lun->lun_lock, "CTL LUN", NULL, MTX_DEF); lun->lun = lun_number; lun->be_lun = be_lun; /* * The processor LUN is always enabled. Disk LUNs come on line * disabled, and must be enabled by the backend. */ lun->flags |= CTL_LUN_DISABLED; lun->backend = be_lun->be; be_lun->ctl_lun = lun; be_lun->lun_id = lun_number; if (be_lun->flags & CTL_LUN_FLAG_EJECTED) lun->flags |= CTL_LUN_EJECTED; if (be_lun->flags & CTL_LUN_FLAG_NO_MEDIA) lun->flags |= CTL_LUN_NO_MEDIA; if (be_lun->flags & CTL_LUN_FLAG_STOPPED) lun->flags |= CTL_LUN_STOPPED; if (be_lun->flags & CTL_LUN_FLAG_PRIMARY) lun->flags |= CTL_LUN_PRIMARY_SC; value = dnvlist_get_string(be_lun->options, "removable", NULL); if (value != NULL) { if (strcmp(value, "on") == 0) lun->flags |= CTL_LUN_REMOVABLE; } else if (be_lun->lun_type == T_CDROM) lun->flags |= CTL_LUN_REMOVABLE; lun->ctl_softc = ctl_softc; #ifdef CTL_TIME_IO lun->last_busy = getsbinuptime(); #endif LIST_INIT(&lun->ooa_queue); STAILQ_INIT(&lun->error_list); lun->ie_reported = 1; callout_init_mtx(&lun->ie_callout, &lun->lun_lock, 0); ctl_tpc_lun_init(lun); if (lun->flags & CTL_LUN_REMOVABLE) { lun->prevent = malloc((CTL_MAX_INITIATORS + 31) / 32 * 4, M_CTL, M_WAITOK); } /* * Initialize the mode and log page index. */ ctl_init_page_index(lun); ctl_init_log_page_index(lun); /* Setup statistics gathering */ lun->stats.item = lun_number; /* * Now, before we insert this lun on the lun list, set the lun * inventory changed UA for all other luns. */ mtx_lock(&ctl_softc->ctl_lock); STAILQ_FOREACH(nlun, &ctl_softc->lun_list, links) { mtx_lock(&nlun->lun_lock); ctl_est_ua_all(nlun, -1, CTL_UA_LUN_CHANGE); mtx_unlock(&nlun->lun_lock); } STAILQ_INSERT_TAIL(&ctl_softc->lun_list, lun, links); ctl_softc->ctl_luns[lun_number] = lun; ctl_softc->num_luns++; mtx_unlock(&ctl_softc->ctl_lock); /* * We successfully added the LUN, attempt to enable it. */ if (ctl_enable_lun(lun) != 0) { printf("%s: ctl_enable_lun() failed!\n", __func__); mtx_lock(&ctl_softc->ctl_lock); STAILQ_REMOVE(&ctl_softc->lun_list, lun, ctl_lun, links); ctl_clear_mask(ctl_softc->ctl_lun_mask, lun_number); ctl_softc->ctl_luns[lun_number] = NULL; ctl_softc->num_luns--; mtx_unlock(&ctl_softc->ctl_lock); free(lun->lun_devid, M_CTL); free(lun, M_CTL); return (EIO); } return (0); } /* * Free LUN that has no active requests. */ static int ctl_free_lun(struct ctl_lun *lun) { struct ctl_softc *softc = lun->ctl_softc; struct ctl_lun *nlun; int i; KASSERT(LIST_EMPTY(&lun->ooa_queue), ("Freeing a LUN %p with outstanding I/O!\n", lun)); mtx_lock(&softc->ctl_lock); STAILQ_REMOVE(&softc->lun_list, lun, ctl_lun, links); ctl_clear_mask(softc->ctl_lun_mask, lun->lun); softc->ctl_luns[lun->lun] = NULL; softc->num_luns--; STAILQ_FOREACH(nlun, &softc->lun_list, links) { mtx_lock(&nlun->lun_lock); ctl_est_ua_all(nlun, -1, CTL_UA_LUN_CHANGE); mtx_unlock(&nlun->lun_lock); } mtx_unlock(&softc->ctl_lock); /* * Tell the backend to free resources, if this LUN has a backend. */ lun->be_lun->lun_shutdown(lun->be_lun); lun->ie_reportcnt = UINT32_MAX; callout_drain(&lun->ie_callout); ctl_tpc_lun_shutdown(lun); mtx_destroy(&lun->lun_lock); free(lun->lun_devid, M_CTL); for (i = 0; i < ctl_max_ports; i++) free(lun->pending_ua[i], M_CTL); free(lun->pending_ua, M_DEVBUF); for (i = 0; i < ctl_max_ports; i++) free(lun->pr_keys[i], M_CTL); free(lun->pr_keys, M_DEVBUF); free(lun->write_buffer, M_CTL); free(lun->prevent, M_CTL); free(lun, M_CTL); return (0); } static int ctl_enable_lun(struct ctl_lun *lun) { struct ctl_softc *softc; struct ctl_port *port, *nport; int retval; softc = lun->ctl_softc; mtx_lock(&softc->ctl_lock); mtx_lock(&lun->lun_lock); KASSERT((lun->flags & CTL_LUN_DISABLED) != 0, ("%s: LUN not disabled", __func__)); lun->flags &= ~CTL_LUN_DISABLED; mtx_unlock(&lun->lun_lock); STAILQ_FOREACH_SAFE(port, &softc->port_list, links, nport) { if ((port->status & CTL_PORT_STATUS_ONLINE) == 0 || port->lun_map != NULL || port->lun_enable == NULL) continue; /* * Drop the lock while we call the FETD's enable routine. * This can lead to a callback into CTL (at least in the * case of the internal initiator frontend. */ mtx_unlock(&softc->ctl_lock); retval = port->lun_enable(port->targ_lun_arg, lun->lun); mtx_lock(&softc->ctl_lock); if (retval != 0) { printf("%s: FETD %s port %d returned error " "%d for lun_enable on lun %jd\n", __func__, port->port_name, port->targ_port, retval, (intmax_t)lun->lun); } } mtx_unlock(&softc->ctl_lock); ctl_isc_announce_lun(lun); return (0); } static int ctl_disable_lun(struct ctl_lun *lun) { struct ctl_softc *softc; struct ctl_port *port; int retval; softc = lun->ctl_softc; mtx_lock(&softc->ctl_lock); mtx_lock(&lun->lun_lock); KASSERT((lun->flags & CTL_LUN_DISABLED) == 0, ("%s: LUN not enabled", __func__)); lun->flags |= CTL_LUN_DISABLED; mtx_unlock(&lun->lun_lock); STAILQ_FOREACH(port, &softc->port_list, links) { if ((port->status & CTL_PORT_STATUS_ONLINE) == 0 || port->lun_map != NULL || port->lun_disable == NULL) continue; /* * Drop the lock before we call the frontend's disable * routine, to avoid lock order reversals. * * XXX KDM what happens if the frontend list changes while * we're traversing it? It's unlikely, but should be handled. */ mtx_unlock(&softc->ctl_lock); retval = port->lun_disable(port->targ_lun_arg, lun->lun); mtx_lock(&softc->ctl_lock); if (retval != 0) { printf("%s: FETD %s port %d returned error " "%d for lun_disable on lun %jd\n", __func__, port->port_name, port->targ_port, retval, (intmax_t)lun->lun); } } mtx_unlock(&softc->ctl_lock); ctl_isc_announce_lun(lun); return (0); } int ctl_start_lun(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; mtx_lock(&lun->lun_lock); lun->flags &= ~CTL_LUN_STOPPED; mtx_unlock(&lun->lun_lock); return (0); } int ctl_stop_lun(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; mtx_lock(&lun->lun_lock); lun->flags |= CTL_LUN_STOPPED; mtx_unlock(&lun->lun_lock); return (0); } int ctl_lun_no_media(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; mtx_lock(&lun->lun_lock); lun->flags |= CTL_LUN_NO_MEDIA; mtx_unlock(&lun->lun_lock); return (0); } int ctl_lun_has_media(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; union ctl_ha_msg msg; mtx_lock(&lun->lun_lock); lun->flags &= ~(CTL_LUN_NO_MEDIA | CTL_LUN_EJECTED); if (lun->flags & CTL_LUN_REMOVABLE) ctl_est_ua_all(lun, -1, CTL_UA_MEDIUM_CHANGE); mtx_unlock(&lun->lun_lock); if ((lun->flags & CTL_LUN_REMOVABLE) && lun->ctl_softc->ha_mode == CTL_HA_MODE_XFER) { bzero(&msg.ua, sizeof(msg.ua)); msg.hdr.msg_type = CTL_MSG_UA; msg.hdr.nexus.initid = -1; msg.hdr.nexus.targ_port = -1; msg.hdr.nexus.targ_lun = lun->lun; msg.hdr.nexus.targ_mapped_lun = lun->lun; msg.ua.ua_all = 1; msg.ua.ua_set = 1; msg.ua.ua_type = CTL_UA_MEDIUM_CHANGE; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.ua), M_WAITOK); } return (0); } int ctl_lun_ejected(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; mtx_lock(&lun->lun_lock); lun->flags |= CTL_LUN_EJECTED; mtx_unlock(&lun->lun_lock); return (0); } int ctl_lun_primary(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; mtx_lock(&lun->lun_lock); lun->flags |= CTL_LUN_PRIMARY_SC; ctl_est_ua_all(lun, -1, CTL_UA_ASYM_ACC_CHANGE); mtx_unlock(&lun->lun_lock); ctl_isc_announce_lun(lun); return (0); } int ctl_lun_secondary(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; mtx_lock(&lun->lun_lock); lun->flags &= ~CTL_LUN_PRIMARY_SC; ctl_est_ua_all(lun, -1, CTL_UA_ASYM_ACC_CHANGE); mtx_unlock(&lun->lun_lock); ctl_isc_announce_lun(lun); return (0); } /* * Remove LUN. If there are active requests, wait for completion. * * Returns 0 for success, non-zero (errno) for failure. * Completion is reported to backed via the lun_shutdown() method. */ int ctl_remove_lun(struct ctl_be_lun *be_lun) { struct ctl_lun *lun; lun = (struct ctl_lun *)be_lun->ctl_lun; ctl_disable_lun(lun); mtx_lock(&lun->lun_lock); lun->flags |= CTL_LUN_INVALID; /* * If there is nothing in the OOA queue, go ahead and free the LUN. * If we have something in the OOA queue, we'll free it when the * last I/O completes. */ if (LIST_EMPTY(&lun->ooa_queue)) { mtx_unlock(&lun->lun_lock); ctl_free_lun(lun); } else mtx_unlock(&lun->lun_lock); return (0); } void ctl_lun_capacity_changed(struct ctl_be_lun *be_lun) { struct ctl_lun *lun = (struct ctl_lun *)be_lun->ctl_lun; union ctl_ha_msg msg; mtx_lock(&lun->lun_lock); ctl_est_ua_all(lun, -1, CTL_UA_CAPACITY_CHANGE); mtx_unlock(&lun->lun_lock); if (lun->ctl_softc->ha_mode == CTL_HA_MODE_XFER) { /* Send msg to other side. */ bzero(&msg.ua, sizeof(msg.ua)); msg.hdr.msg_type = CTL_MSG_UA; msg.hdr.nexus.initid = -1; msg.hdr.nexus.targ_port = -1; msg.hdr.nexus.targ_lun = lun->lun; msg.hdr.nexus.targ_mapped_lun = lun->lun; msg.ua.ua_all = 1; msg.ua.ua_set = 1; msg.ua.ua_type = CTL_UA_CAPACITY_CHANGE; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.ua), M_WAITOK); } } /* * Backend "memory move is complete" callback for requests that never * make it down to say RAIDCore's configuration code. */ int ctl_config_move_done(union ctl_io *io, bool samethr) { int retval; CTL_DEBUG_PRINT(("ctl_config_move_done\n")); - CTL_IO_ASSERT(io, SCSI); if (ctl_debug & CTL_DEBUG_CDB_DATA) ctl_data_print(io); if (((io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_IN) || ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_STATUS_NONE && (io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS) || ((io->io_hdr.flags & CTL_FLAG_ABORT) != 0)) { /* * XXX KDM just assuming a single pointer here, and not a * S/G list. If we start using S/G lists for config data, * we'll need to know how to clean them up here as well. */ if (io->io_hdr.flags & CTL_FLAG_ALLOCATED) free(ctl_kern_data_ptr(io), M_CTL); ctl_done(io); retval = CTL_RETVAL_COMPLETE; } else { /* * XXX KDM now we need to continue data movement. Some * options: * - call ctl_scsiio() again? We don't do this for data * writes, because for those at least we know ahead of * time where the write will go and how long it is. For * config writes, though, that information is largely * contained within the write itself, thus we need to * parse out the data again. * * - Call some other function once the data is in? */ /* * XXX KDM call ctl_scsiio() again for now, and check flag * bits to see whether we're allocated or not. */ - retval = ctl_scsiio(&io->scsiio); + switch (io->io_hdr.io_type) { + case CTL_IO_SCSI: + retval = ctl_scsiio(&io->scsiio); + break; + case CTL_IO_NVME: + case CTL_IO_NVME_ADMIN: + retval = ctl_nvmeio(&io->nvmeio); + break; + default: + __assert_unreachable(); + } } return (retval); } /* * This gets called by a backend driver when it is done with a * data_submit method. */ void ctl_data_submit_done(union ctl_io *io) { /* * If the IO_CONT flag is set, we need to call the supplied * function to continue processing the I/O, instead of completing * the I/O just yet. * * If there is an error, though, we don't want to keep processing. * Instead, just send status back to the initiator. */ if ((io->io_hdr.flags & CTL_FLAG_IO_CONT) && (io->io_hdr.flags & CTL_FLAG_ABORT) == 0 && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_STATUS_NONE || (io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS)) { ctl_continue_io(io); return; } ctl_done(io); } /* * This gets called by a backend driver when it is done with a * configuration write. */ void ctl_config_write_done(union ctl_io *io) { uint8_t *buf; /* * If the IO_CONT flag is set, we need to call the supplied * function to continue processing the I/O, instead of completing * the I/O just yet. * * If there is an error, though, we don't want to keep processing. * Instead, just send status back to the initiator. */ if ((io->io_hdr.flags & CTL_FLAG_IO_CONT) && (io->io_hdr.flags & CTL_FLAG_ABORT) == 0 && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_STATUS_NONE || (io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS)) { ctl_continue_io(io); return; } /* * Since a configuration write can be done for commands that actually * have data allocated, like write buffer, and commands that have * no data, like start/stop unit, we need to check here. */ if (io->io_hdr.flags & CTL_FLAG_ALLOCATED) buf = ctl_kern_data_ptr(io); else buf = NULL; ctl_done(io); if (buf) free(buf, M_CTL); } void ctl_config_read_done(union ctl_io *io) { uint8_t *buf; /* * If there is some error -- we are done, skip data transfer. */ if ((io->io_hdr.flags & CTL_FLAG_ABORT) != 0 || ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_STATUS_NONE && (io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS)) { if (io->io_hdr.flags & CTL_FLAG_ALLOCATED) buf = ctl_kern_data_ptr(io); else buf = NULL; ctl_done(io); if (buf) free(buf, M_CTL); return; } /* * If the IO_CONT flag is set, we need to call the supplied * function to continue processing the I/O, instead of completing * the I/O just yet. */ if (io->io_hdr.flags & CTL_FLAG_IO_CONT) { ctl_continue_io(io); return; } ctl_datamove(io); } /* * SCSI release command. */ int ctl_scsi_release(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); uint32_t residx; CTL_DEBUG_PRINT(("ctl_scsi_release\n")); residx = ctl_get_initindex(&ctsio->io_hdr.nexus); /* * XXX KDM right now, we only support LUN reservation. We don't * support 3rd party reservations, or extent reservations, which * might actually need the parameter list. If we've gotten this * far, we've got a LUN reservation. Anything else got kicked out * above. So, according to SPC, ignore the length. */ mtx_lock(&lun->lun_lock); /* * According to SPC, it is not an error for an intiator to attempt * to release a reservation on a LUN that isn't reserved, or that * is reserved by another initiator. The reservation can only be * released, though, by the initiator who made it or by one of * several reset type events. */ if ((lun->flags & CTL_LUN_RESERVED) && (lun->res_idx == residx)) lun->flags &= ~CTL_LUN_RESERVED; mtx_unlock(&lun->lun_lock); ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_scsi_reserve(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); uint32_t residx; CTL_DEBUG_PRINT(("ctl_reserve\n")); residx = ctl_get_initindex(&ctsio->io_hdr.nexus); /* * XXX KDM right now, we only support LUN reservation. We don't * support 3rd party reservations, or extent reservations, which * might actually need the parameter list. If we've gotten this * far, we've got a LUN reservation. Anything else got kicked out * above. So, according to SPC, ignore the length. */ mtx_lock(&lun->lun_lock); if ((lun->flags & CTL_LUN_RESERVED) && (lun->res_idx != residx)) { ctl_set_reservation_conflict(ctsio); goto bailout; } /* SPC-3 exceptions to SPC-2 RESERVE and RELEASE behavior. */ if (lun->flags & CTL_LUN_PR_RESERVED) { ctl_set_success(ctsio); goto bailout; } lun->flags |= CTL_LUN_RESERVED; lun->res_idx = residx; ctl_set_success(ctsio); bailout: mtx_unlock(&lun->lun_lock); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_start_stop(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_start_stop_unit *cdb; int retval; CTL_DEBUG_PRINT(("ctl_start_stop\n")); cdb = (struct scsi_start_stop_unit *)ctsio->cdb; if ((cdb->how & SSS_PC_MASK) == 0) { if ((lun->flags & CTL_LUN_PR_RESERVED) && (cdb->how & SSS_START) == 0) { uint32_t residx; residx = ctl_get_initindex(&ctsio->io_hdr.nexus); if (ctl_get_prkey(lun, residx) == 0 || (lun->pr_res_idx != residx && lun->pr_res_type < 4)) { ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } } if ((cdb->how & SSS_LOEJ) && (lun->flags & CTL_LUN_REMOVABLE) == 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 4, /*bit_valid*/ 1, /*bit*/ 1); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if ((cdb->how & SSS_START) == 0 && (cdb->how & SSS_LOEJ) && lun->prevent_count > 0) { /* "Medium removal prevented" */ ctl_set_sense(ctsio, /*current_error*/ 1, /*sense_key*/(lun->flags & CTL_LUN_NO_MEDIA) ? SSD_KEY_NOT_READY : SSD_KEY_ILLEGAL_REQUEST, /*asc*/ 0x53, /*ascq*/ 0x02, SSD_ELEM_NONE); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } } retval = lun->backend->config_write((union ctl_io *)ctsio); return (retval); } int ctl_prevent_allow(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_prevent *cdb; int retval; uint32_t initidx; CTL_DEBUG_PRINT(("ctl_prevent_allow\n")); cdb = (struct scsi_prevent *)ctsio->cdb; if ((lun->flags & CTL_LUN_REMOVABLE) == 0 || lun->prevent == NULL) { ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } initidx = ctl_get_initindex(&ctsio->io_hdr.nexus); mtx_lock(&lun->lun_lock); if ((cdb->how & PR_PREVENT) && ctl_is_set(lun->prevent, initidx) == 0) { ctl_set_mask(lun->prevent, initidx); lun->prevent_count++; } else if ((cdb->how & PR_PREVENT) == 0 && ctl_is_set(lun->prevent, initidx)) { ctl_clear_mask(lun->prevent, initidx); lun->prevent_count--; } mtx_unlock(&lun->lun_lock); retval = lun->backend->config_write((union ctl_io *)ctsio); return (retval); } /* * We support the SYNCHRONIZE CACHE command (10 and 16 byte versions), but * we don't really do anything with the LBA and length fields if the user * passes them in. Instead we'll just flush out the cache for the entire * LUN. */ int ctl_sync_cache(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct ctl_lba_len_flags *lbalen; uint64_t starting_lba; uint32_t block_count; int retval; uint8_t byte2; CTL_DEBUG_PRINT(("ctl_sync_cache\n")); retval = 0; switch (ctsio->cdb[0]) { case SYNCHRONIZE_CACHE: { struct scsi_sync_cache *cdb; cdb = (struct scsi_sync_cache *)ctsio->cdb; starting_lba = scsi_4btoul(cdb->begin_lba); block_count = scsi_2btoul(cdb->lb_count); byte2 = cdb->byte2; break; } case SYNCHRONIZE_CACHE_16: { struct scsi_sync_cache_16 *cdb; cdb = (struct scsi_sync_cache_16 *)ctsio->cdb; starting_lba = scsi_8btou64(cdb->begin_lba); block_count = scsi_4btoul(cdb->lb_count); byte2 = cdb->byte2; break; } default: ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); goto bailout; break; /* NOTREACHED */ } /* * We check the LBA and length, but don't do anything with them. * A SYNCHRONIZE CACHE will cause the entire cache for this lun to * get flushed. This check will just help satisfy anyone who wants * to see an error for an out of range LBA. */ if ((starting_lba + block_count) > (lun->be_lun->maxlba + 1)) { ctl_set_lba_out_of_range(ctsio, MAX(starting_lba, lun->be_lun->maxlba + 1)); ctl_done((union ctl_io *)ctsio); goto bailout; } lbalen = (struct ctl_lba_len_flags *)&ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba = starting_lba; lbalen->len = block_count; lbalen->flags = byte2; retval = lun->backend->config_write((union ctl_io *)ctsio); bailout: return (retval); } int ctl_format(struct ctl_scsiio *ctsio) { struct scsi_format *cdb; int length, defect_list_len; CTL_DEBUG_PRINT(("ctl_format\n")); cdb = (struct scsi_format *)ctsio->cdb; length = 0; if (cdb->byte2 & SF_FMTDATA) { if (cdb->byte2 & SF_LONGLIST) length = sizeof(struct scsi_format_header_long); else length = sizeof(struct scsi_format_header_short); } if (((ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) && (length > 0)) { ctsio->kern_data_ptr = malloc(length, M_CTL, M_WAITOK); ctsio->kern_data_len = length; ctsio->kern_total_len = length; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } defect_list_len = 0; if (cdb->byte2 & SF_FMTDATA) { if (cdb->byte2 & SF_LONGLIST) { struct scsi_format_header_long *header; header = (struct scsi_format_header_long *) ctsio->kern_data_ptr; defect_list_len = scsi_4btoul(header->defect_list_len); if (defect_list_len != 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); goto bailout; } } else { struct scsi_format_header_short *header; header = (struct scsi_format_header_short *) ctsio->kern_data_ptr; defect_list_len = scsi_2btoul(header->defect_list_len); if (defect_list_len != 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); goto bailout; } } } ctl_set_success(ctsio); bailout: if (ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) { free(ctsio->kern_data_ptr, M_CTL); ctsio->io_hdr.flags &= ~CTL_FLAG_ALLOCATED; } ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_read_buffer(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); uint64_t buffer_offset; uint32_t len; uint8_t byte2; static uint8_t descr[4]; static uint8_t echo_descr[4] = { 0 }; CTL_DEBUG_PRINT(("ctl_read_buffer\n")); switch (ctsio->cdb[0]) { case READ_BUFFER: { struct scsi_read_buffer *cdb; cdb = (struct scsi_read_buffer *)ctsio->cdb; buffer_offset = scsi_3btoul(cdb->offset); len = scsi_3btoul(cdb->length); byte2 = cdb->byte2; break; } case READ_BUFFER_16: { struct scsi_read_buffer_16 *cdb; cdb = (struct scsi_read_buffer_16 *)ctsio->cdb; buffer_offset = scsi_8btou64(cdb->offset); len = scsi_4btoul(cdb->length); byte2 = cdb->byte2; break; } default: /* This shouldn't happen. */ ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if (buffer_offset > CTL_WRITE_BUFFER_SIZE || buffer_offset + len > CTL_WRITE_BUFFER_SIZE) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 6, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if ((byte2 & RWB_MODE) == RWB_MODE_DESCR) { descr[0] = 0; scsi_ulto3b(CTL_WRITE_BUFFER_SIZE, &descr[1]); ctsio->kern_data_ptr = descr; len = min(len, sizeof(descr)); } else if ((byte2 & RWB_MODE) == RWB_MODE_ECHO_DESCR) { ctsio->kern_data_ptr = echo_descr; len = min(len, sizeof(echo_descr)); } else { if (lun->write_buffer == NULL) { lun->write_buffer = malloc(CTL_WRITE_BUFFER_SIZE, M_CTL, M_WAITOK); } ctsio->kern_data_ptr = lun->write_buffer + buffer_offset; } ctsio->kern_data_len = len; ctsio->kern_total_len = len; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctl_set_success(ctsio); ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_write_buffer(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_write_buffer *cdb; int buffer_offset, len; CTL_DEBUG_PRINT(("ctl_write_buffer\n")); cdb = (struct scsi_write_buffer *)ctsio->cdb; len = scsi_3btoul(cdb->length); buffer_offset = scsi_3btoul(cdb->offset); if (buffer_offset + len > CTL_WRITE_BUFFER_SIZE) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 6, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * If we've got a kernel request that hasn't been malloced yet, * malloc it and tell the caller the data buffer is here. */ if ((ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) { if (lun->write_buffer == NULL) { lun->write_buffer = malloc(CTL_WRITE_BUFFER_SIZE, M_CTL, M_WAITOK); } ctsio->kern_data_ptr = lun->write_buffer + buffer_offset; ctsio->kern_data_len = len; ctsio->kern_total_len = len; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_write_same_cont(union ctl_io *io) { struct ctl_lun *lun = CTL_LUN(io); struct ctl_scsiio *ctsio; struct ctl_lba_len_flags *lbalen; int retval; CTL_IO_ASSERT(io, SCSI); ctsio = &io->scsiio; ctsio->io_hdr.status = CTL_STATUS_NONE; lbalen = (struct ctl_lba_len_flags *) &ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba += lbalen->len; if ((lun->be_lun->maxlba + 1) - lbalen->lba <= UINT32_MAX) { ctsio->io_hdr.flags &= ~CTL_FLAG_IO_CONT; lbalen->len = (lun->be_lun->maxlba + 1) - lbalen->lba; } CTL_DEBUG_PRINT(("ctl_write_same_cont: calling config_write()\n")); retval = lun->backend->config_write((union ctl_io *)ctsio); return (retval); } int ctl_write_same(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct ctl_lba_len_flags *lbalen; const char *val; uint64_t lba, ival; uint32_t num_blocks; int len, retval; uint8_t byte2; CTL_DEBUG_PRINT(("ctl_write_same\n")); switch (ctsio->cdb[0]) { case WRITE_SAME_10: { struct scsi_write_same_10 *cdb; cdb = (struct scsi_write_same_10 *)ctsio->cdb; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_2btoul(cdb->length); byte2 = cdb->byte2; break; } case WRITE_SAME_16: { struct scsi_write_same_16 *cdb; cdb = (struct scsi_write_same_16 *)ctsio->cdb; lba = scsi_8btou64(cdb->addr); num_blocks = scsi_4btoul(cdb->length); byte2 = cdb->byte2; break; } default: /* * We got a command we don't support. This shouldn't * happen, commands should be filtered out above us. */ ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); break; /* NOTREACHED */ } /* ANCHOR flag can be used only together with UNMAP */ if ((byte2 & SWS_UNMAP) == 0 && (byte2 & SWS_ANCHOR) != 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 1, /*bit_valid*/ 1, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * The first check is to make sure we're in bounds, the second * check is to catch wrap-around problems. If the lba + num blocks * is less than the lba, then we've wrapped around and the block * range is invalid anyway. */ if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) || ((lba + num_blocks) < lba)) { ctl_set_lba_out_of_range(ctsio, MAX(lba, lun->be_lun->maxlba + 1)); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* Zero number of blocks means "to the last logical block" */ if (num_blocks == 0) { ival = UINT64_MAX; val = dnvlist_get_string(lun->be_lun->options, "write_same_max_lba", NULL); if (val != NULL) ctl_expand_number(val, &ival); if ((lun->be_lun->maxlba + 1) - lba > ival) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ ctsio->cdb[0] == WRITE_SAME_10 ? 7 : 10, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if ((lun->be_lun->maxlba + 1) - lba > UINT32_MAX) { ctsio->io_hdr.flags |= CTL_FLAG_IO_CONT; ctsio->io_cont = ctl_write_same_cont; num_blocks = 1 << 31; } else num_blocks = (lun->be_lun->maxlba + 1) - lba; } len = lun->be_lun->blocksize; /* * If we've got a kernel request that hasn't been malloced yet, * malloc it and tell the caller the data buffer is here. */ if ((byte2 & SWS_NDOB) == 0 && (ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) { ctsio->kern_data_ptr = malloc(len, M_CTL, M_WAITOK); ctsio->kern_data_len = len; ctsio->kern_total_len = len; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } lbalen = (struct ctl_lba_len_flags *)&ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba = lba; lbalen->len = num_blocks; lbalen->flags = byte2; retval = lun->backend->config_write((union ctl_io *)ctsio); return (retval); } int ctl_unmap(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_unmap *cdb; struct ctl_ptr_len_flags *ptrlen; struct scsi_unmap_header *hdr; struct scsi_unmap_desc *buf, *end, *endnz, *range; uint64_t lba; uint32_t num_blocks; int len, retval; uint8_t byte2; CTL_DEBUG_PRINT(("ctl_unmap\n")); cdb = (struct scsi_unmap *)ctsio->cdb; len = scsi_2btoul(cdb->length); byte2 = cdb->byte2; /* * If we've got a kernel request that hasn't been malloced yet, * malloc it and tell the caller the data buffer is here. */ if ((ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) { ctsio->kern_data_ptr = malloc(len, M_CTL, M_WAITOK); ctsio->kern_data_len = len; ctsio->kern_total_len = len; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } len = ctsio->kern_total_len - ctsio->kern_data_resid; hdr = (struct scsi_unmap_header *)ctsio->kern_data_ptr; if (len < sizeof (*hdr) || len < (scsi_2btoul(hdr->length) + sizeof(hdr->length)) || len < (scsi_2btoul(hdr->desc_length) + sizeof (*hdr)) || scsi_2btoul(hdr->desc_length) % sizeof(*buf) != 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 0, /*command*/ 0, /*field*/ 0, /*bit_valid*/ 0, /*bit*/ 0); goto done; } len = scsi_2btoul(hdr->desc_length); buf = (struct scsi_unmap_desc *)(hdr + 1); end = buf + len / sizeof(*buf); endnz = buf; for (range = buf; range < end; range++) { lba = scsi_8btou64(range->lba); num_blocks = scsi_4btoul(range->length); if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) || ((lba + num_blocks) < lba)) { ctl_set_lba_out_of_range(ctsio, MAX(lba, lun->be_lun->maxlba + 1)); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if (num_blocks != 0) endnz = range + 1; } /* * Block backend can not handle zero last range. * Filter it out and return if there is nothing left. */ len = (uint8_t *)endnz - (uint8_t *)buf; if (len == 0) { ctl_set_success(ctsio); goto done; } mtx_lock(&lun->lun_lock); ptrlen = (struct ctl_ptr_len_flags *) &ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; ptrlen->ptr = (void *)buf; ptrlen->len = len; ptrlen->flags = byte2; ctl_try_unblock_others(lun, (union ctl_io *)ctsio, FALSE); mtx_unlock(&lun->lun_lock); retval = lun->backend->config_write((union ctl_io *)ctsio); return (retval); done: if (ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) { free(ctsio->kern_data_ptr, M_CTL); ctsio->io_hdr.flags &= ~CTL_FLAG_ALLOCATED; } ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_default_page_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, uint8_t *page_ptr) { struct ctl_lun *lun = CTL_LUN(ctsio); uint8_t *current_cp; int set_ua; uint32_t initidx; initidx = ctl_get_initindex(&ctsio->io_hdr.nexus); set_ua = 0; current_cp = (page_index->page_data + (page_index->page_len * CTL_PAGE_CURRENT)); mtx_lock(&lun->lun_lock); if (memcmp(current_cp, page_ptr, page_index->page_len)) { memcpy(current_cp, page_ptr, page_index->page_len); set_ua = 1; } if (set_ua != 0) ctl_est_ua_all(lun, initidx, CTL_UA_MODE_CHANGE); mtx_unlock(&lun->lun_lock); if (set_ua) { ctl_isc_announce_mode(lun, ctl_get_initindex(&ctsio->io_hdr.nexus), page_index->page_code, page_index->subpage); } return (CTL_RETVAL_COMPLETE); } static void ctl_ie_timer(void *arg) { struct ctl_lun *lun = arg; uint64_t t; if (lun->ie_asc == 0) return; if (lun->MODE_IE.mrie == SIEP_MRIE_UA) ctl_est_ua_all(lun, -1, CTL_UA_IE); else lun->ie_reported = 0; if (lun->ie_reportcnt < scsi_4btoul(lun->MODE_IE.report_count)) { lun->ie_reportcnt++; t = scsi_4btoul(lun->MODE_IE.interval_timer); if (t == 0 || t == UINT32_MAX) t = 3000; /* 5 min */ callout_schedule_sbt(&lun->ie_callout, SBT_1S / 10 * t, SBT_1S / 10, 0); } } int ctl_ie_page_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, uint8_t *page_ptr) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_info_exceptions_page *pg; uint64_t t; (void)ctl_default_page_handler(ctsio, page_index, page_ptr); pg = (struct scsi_info_exceptions_page *)page_ptr; mtx_lock(&lun->lun_lock); if (pg->info_flags & SIEP_FLAGS_TEST) { lun->ie_asc = 0x5d; lun->ie_ascq = 0xff; if (pg->mrie == SIEP_MRIE_UA) { ctl_est_ua_all(lun, -1, CTL_UA_IE); lun->ie_reported = 1; } else { ctl_clr_ua_all(lun, -1, CTL_UA_IE); lun->ie_reported = -1; } lun->ie_reportcnt = 1; if (lun->ie_reportcnt < scsi_4btoul(pg->report_count)) { lun->ie_reportcnt++; t = scsi_4btoul(pg->interval_timer); if (t == 0 || t == UINT32_MAX) t = 3000; /* 5 min */ callout_reset_sbt(&lun->ie_callout, SBT_1S / 10 * t, SBT_1S / 10, ctl_ie_timer, lun, 0); } } else { lun->ie_asc = 0; lun->ie_ascq = 0; lun->ie_reported = 1; ctl_clr_ua_all(lun, -1, CTL_UA_IE); lun->ie_reportcnt = UINT32_MAX; callout_stop(&lun->ie_callout); } mtx_unlock(&lun->lun_lock); return (CTL_RETVAL_COMPLETE); } static int ctl_do_mode_select(union ctl_io *io) { struct ctl_lun *lun = CTL_LUN(io); struct scsi_mode_page_header *page_header; struct ctl_page_index *page_index; struct ctl_scsiio *ctsio; int page_len, page_len_offset, page_len_size; union ctl_modepage_info *modepage_info; uint16_t *len_left, *len_used; int retval, i; CTL_IO_ASSERT(io, SCSI); ctsio = &io->scsiio; page_index = NULL; page_len = 0; modepage_info = (union ctl_modepage_info *) ctsio->io_hdr.ctl_private[CTL_PRIV_MODEPAGE].bytes; len_left = &modepage_info->header.len_left; len_used = &modepage_info->header.len_used; do_next_page: page_header = (struct scsi_mode_page_header *) (ctsio->kern_data_ptr + *len_used); if (*len_left == 0) { free(ctsio->kern_data_ptr, M_CTL); ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } else if (*len_left < sizeof(struct scsi_mode_page_header)) { free(ctsio->kern_data_ptr, M_CTL); ctl_set_param_len_error(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } else if ((page_header->page_code & SMPH_SPF) && (*len_left < sizeof(struct scsi_mode_page_header_sp))) { free(ctsio->kern_data_ptr, M_CTL); ctl_set_param_len_error(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * XXX KDM should we do something with the block descriptor? */ for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { page_index = &lun->mode_pages.index[i]; if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; if ((page_index->page_code & SMPH_PC_MASK) != (page_header->page_code & SMPH_PC_MASK)) continue; /* * If neither page has a subpage code, then we've got a * match. */ if (((page_index->page_code & SMPH_SPF) == 0) && ((page_header->page_code & SMPH_SPF) == 0)) { page_len = page_header->page_length; break; } /* * If both pages have subpages, then the subpage numbers * have to match. */ if ((page_index->page_code & SMPH_SPF) && (page_header->page_code & SMPH_SPF)) { struct scsi_mode_page_header_sp *sph; sph = (struct scsi_mode_page_header_sp *)page_header; if (page_index->subpage == sph->subpage) { page_len = scsi_2btoul(sph->page_length); break; } } } /* * If we couldn't find the page, or if we don't have a mode select * handler for it, send back an error to the user. */ if ((i >= CTL_NUM_MODE_PAGES) || (page_index->select_handler == NULL)) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ *len_used, /*bit_valid*/ 0, /*bit*/ 0); free(ctsio->kern_data_ptr, M_CTL); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if (page_index->page_code & SMPH_SPF) { page_len_offset = 2; page_len_size = 2; } else { page_len_size = 1; page_len_offset = 1; } /* * If the length the initiator gives us isn't the one we specify in * the mode page header, or if they didn't specify enough data in * the CDB to avoid truncating this page, kick out the request. */ if (page_len != page_index->page_len - page_len_offset - page_len_size) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ *len_used + page_len_offset, /*bit_valid*/ 0, /*bit*/ 0); free(ctsio->kern_data_ptr, M_CTL); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if (*len_left < page_index->page_len) { free(ctsio->kern_data_ptr, M_CTL); ctl_set_param_len_error(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * Run through the mode page, checking to make sure that the bits * the user changed are actually legal for him to change. */ for (i = 0; i < page_index->page_len; i++) { uint8_t *user_byte, *change_mask, *current_byte; int bad_bit; int j; user_byte = (uint8_t *)page_header + i; change_mask = page_index->page_data + (page_index->page_len * CTL_PAGE_CHANGEABLE) + i; current_byte = page_index->page_data + (page_index->page_len * CTL_PAGE_CURRENT) + i; /* * Check to see whether the user set any bits in this byte * that he is not allowed to set. */ if ((*user_byte & ~(*change_mask)) == (*current_byte & ~(*change_mask))) continue; /* * Go through bit by bit to determine which one is illegal. */ bad_bit = 0; for (j = 7; j >= 0; j--) { if ((((1 << i) & ~(*change_mask)) & *user_byte) != (((1 << i) & ~(*change_mask)) & *current_byte)) { bad_bit = i; break; } } ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ *len_used + i, /*bit_valid*/ 1, /*bit*/ bad_bit); free(ctsio->kern_data_ptr, M_CTL); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * Decrement these before we call the page handler, since we may * end up getting called back one way or another before the handler * returns to this context. */ *len_left -= page_index->page_len; *len_used += page_index->page_len; retval = page_index->select_handler(ctsio, page_index, (uint8_t *)page_header); /* * If the page handler returns CTL_RETVAL_QUEUED, then we need to * wait until this queued command completes to finish processing * the mode page. If it returns anything other than * CTL_RETVAL_COMPLETE (e.g. CTL_RETVAL_ERROR), then it should have * already set the sense information, freed the data pointer, and * completed the io for us. */ if (retval != CTL_RETVAL_COMPLETE) goto bailout_no_done; /* * If the initiator sent us more than one page, parse the next one. */ if (*len_left > 0) goto do_next_page; ctl_set_success(ctsio); free(ctsio->kern_data_ptr, M_CTL); ctl_done((union ctl_io *)ctsio); bailout_no_done: return (CTL_RETVAL_COMPLETE); } int ctl_mode_select(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); union ctl_modepage_info *modepage_info; int bd_len, i, header_size, param_len, rtd; uint32_t initidx; initidx = ctl_get_initindex(&ctsio->io_hdr.nexus); switch (ctsio->cdb[0]) { case MODE_SELECT_6: { struct scsi_mode_select_6 *cdb; cdb = (struct scsi_mode_select_6 *)ctsio->cdb; rtd = (cdb->byte2 & SMS_RTD) ? 1 : 0; param_len = cdb->length; header_size = sizeof(struct scsi_mode_header_6); break; } case MODE_SELECT_10: { struct scsi_mode_select_10 *cdb; cdb = (struct scsi_mode_select_10 *)ctsio->cdb; rtd = (cdb->byte2 & SMS_RTD) ? 1 : 0; param_len = scsi_2btoul(cdb->length); header_size = sizeof(struct scsi_mode_header_10); break; } default: ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if (rtd) { if (param_len != 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 0, /*command*/ 1, /*field*/ 0, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* Revert to defaults. */ ctl_init_page_index(lun); mtx_lock(&lun->lun_lock); ctl_est_ua_all(lun, initidx, CTL_UA_MODE_CHANGE); mtx_unlock(&lun->lun_lock); for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { ctl_isc_announce_mode(lun, -1, lun->mode_pages.index[i].page_code & SMPH_PC_MASK, lun->mode_pages.index[i].subpage); } ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * From SPC-3: * "A parameter list length of zero indicates that the Data-Out Buffer * shall be empty. This condition shall not be considered as an error." */ if (param_len == 0) { ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * Since we'll hit this the first time through, prior to * allocation, we don't need to free a data buffer here. */ if (param_len < header_size) { ctl_set_param_len_error(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * Allocate the data buffer and grab the user's data. In theory, * we shouldn't have to sanity check the parameter list length here * because the maximum size is 64K. We should be able to malloc * that much without too many problems. */ if ((ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) { ctsio->kern_data_ptr = malloc(param_len, M_CTL, M_WAITOK); ctsio->kern_data_len = param_len; ctsio->kern_total_len = param_len; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } switch (ctsio->cdb[0]) { case MODE_SELECT_6: { struct scsi_mode_header_6 *mh6; mh6 = (struct scsi_mode_header_6 *)ctsio->kern_data_ptr; bd_len = mh6->blk_desc_len; break; } case MODE_SELECT_10: { struct scsi_mode_header_10 *mh10; mh10 = (struct scsi_mode_header_10 *)ctsio->kern_data_ptr; bd_len = scsi_2btoul(mh10->blk_desc_len); break; } default: panic("%s: Invalid CDB type %#x", __func__, ctsio->cdb[0]); } if (param_len < (header_size + bd_len)) { free(ctsio->kern_data_ptr, M_CTL); ctl_set_param_len_error(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * Set the IO_CONT flag, so that if this I/O gets passed to * ctl_config_write_done(), it'll get passed back to * ctl_do_mode_select() for further processing, or completion if * we're all done. */ ctsio->io_hdr.flags |= CTL_FLAG_IO_CONT; ctsio->io_cont = ctl_do_mode_select; modepage_info = (union ctl_modepage_info *) ctsio->io_hdr.ctl_private[CTL_PRIV_MODEPAGE].bytes; memset(modepage_info, 0, sizeof(*modepage_info)); modepage_info->header.len_left = param_len - header_size - bd_len; modepage_info->header.len_used = header_size + bd_len; return (ctl_do_mode_select((union ctl_io *)ctsio)); } int ctl_mode_sense(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); int pc, page_code, llba, subpage; int alloc_len, page_len, header_len, bd_len, total_len; void *block_desc; struct ctl_page_index *page_index; llba = 0; CTL_DEBUG_PRINT(("ctl_mode_sense\n")); switch (ctsio->cdb[0]) { case MODE_SENSE_6: { struct scsi_mode_sense_6 *cdb; cdb = (struct scsi_mode_sense_6 *)ctsio->cdb; header_len = sizeof(struct scsi_mode_hdr_6); if (cdb->byte2 & SMS_DBD) bd_len = 0; else bd_len = sizeof(struct scsi_mode_block_descr); header_len += bd_len; pc = (cdb->page & SMS_PAGE_CTRL_MASK) >> 6; page_code = cdb->page & SMS_PAGE_CODE; subpage = cdb->subpage; alloc_len = cdb->length; break; } case MODE_SENSE_10: { struct scsi_mode_sense_10 *cdb; cdb = (struct scsi_mode_sense_10 *)ctsio->cdb; header_len = sizeof(struct scsi_mode_hdr_10); if (cdb->byte2 & SMS_DBD) { bd_len = 0; } else if (lun->be_lun->lun_type == T_DIRECT) { if (cdb->byte2 & SMS10_LLBAA) { llba = 1; bd_len = sizeof(struct scsi_mode_block_descr_dlong); } else bd_len = sizeof(struct scsi_mode_block_descr_dshort); } else bd_len = sizeof(struct scsi_mode_block_descr); header_len += bd_len; pc = (cdb->page & SMS_PAGE_CTRL_MASK) >> 6; page_code = cdb->page & SMS_PAGE_CODE; subpage = cdb->subpage; alloc_len = scsi_2btoul(cdb->length); break; } default: ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); break; /* NOTREACHED */ } /* * We have to make a first pass through to calculate the size of * the pages that match the user's query. Then we allocate enough * memory to hold it, and actually copy the data into the buffer. */ switch (page_code) { case SMS_ALL_PAGES_PAGE: { u_int i; page_len = 0; /* * At the moment, values other than 0 and 0xff here are * reserved according to SPC-3. */ if ((subpage != SMS_SUBPAGE_PAGE_0) && (subpage != SMS_SUBPAGE_ALL)) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 3, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { page_index = &lun->mode_pages.index[i]; /* Make sure the page is supported for this dev type */ if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; /* * We don't use this subpage if the user didn't * request all subpages. */ if ((page_index->subpage != 0) && (subpage == SMS_SUBPAGE_PAGE_0)) continue; page_len += page_index->page_len; } break; } default: { u_int i; page_len = 0; for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { page_index = &lun->mode_pages.index[i]; /* Make sure the page is supported for this dev type */ if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; /* Look for the right page code */ if ((page_index->page_code & SMPH_PC_MASK) != page_code) continue; /* Look for the right subpage or the subpage wildcard*/ if ((page_index->subpage != subpage) && (subpage != SMS_SUBPAGE_ALL)) continue; page_len += page_index->page_len; } if (page_len == 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 5); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } break; } } total_len = header_len + page_len; ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; switch (ctsio->cdb[0]) { case MODE_SENSE_6: { struct scsi_mode_hdr_6 *header; header = (struct scsi_mode_hdr_6 *)ctsio->kern_data_ptr; header->datalen = MIN(total_len - 1, 254); if (lun->be_lun->lun_type == T_DIRECT) { header->dev_specific = 0x10; /* DPOFUA */ if ((lun->be_lun->flags & CTL_LUN_FLAG_READONLY) || (lun->MODE_CTRL.eca_and_aen & SCP_SWP) != 0) header->dev_specific |= 0x80; /* WP */ } header->block_descr_len = bd_len; block_desc = &header[1]; break; } case MODE_SENSE_10: { struct scsi_mode_hdr_10 *header; int datalen; header = (struct scsi_mode_hdr_10 *)ctsio->kern_data_ptr; datalen = MIN(total_len - 2, 65533); scsi_ulto2b(datalen, header->datalen); if (lun->be_lun->lun_type == T_DIRECT) { header->dev_specific = 0x10; /* DPOFUA */ if ((lun->be_lun->flags & CTL_LUN_FLAG_READONLY) || (lun->MODE_CTRL.eca_and_aen & SCP_SWP) != 0) header->dev_specific |= 0x80; /* WP */ } if (llba) header->flags |= SMH_LONGLBA; scsi_ulto2b(bd_len, header->block_descr_len); block_desc = &header[1]; break; } default: panic("%s: Invalid CDB type %#x", __func__, ctsio->cdb[0]); } /* * If we've got a disk, use its blocksize in the block * descriptor. Otherwise, just set it to 0. */ if (bd_len > 0) { if (lun->be_lun->lun_type == T_DIRECT) { if (llba) { struct scsi_mode_block_descr_dlong *bd = block_desc; if (lun->be_lun->maxlba != 0) scsi_u64to8b(lun->be_lun->maxlba + 1, bd->num_blocks); scsi_ulto4b(lun->be_lun->blocksize, bd->block_len); } else { struct scsi_mode_block_descr_dshort *bd = block_desc; if (lun->be_lun->maxlba != 0) scsi_ulto4b(MIN(lun->be_lun->maxlba+1, UINT32_MAX), bd->num_blocks); scsi_ulto3b(lun->be_lun->blocksize, bd->block_len); } } else { struct scsi_mode_block_descr *bd = block_desc; scsi_ulto3b(0, bd->block_len); } } switch (page_code) { case SMS_ALL_PAGES_PAGE: { int i, data_used; data_used = header_len; for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { struct ctl_page_index *page_index; page_index = &lun->mode_pages.index[i]; if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; /* * We don't use this subpage if the user didn't * request all subpages. We already checked (above) * to make sure the user only specified a subpage * of 0 or 0xff in the SMS_ALL_PAGES_PAGE case. */ if ((page_index->subpage != 0) && (subpage == SMS_SUBPAGE_PAGE_0)) continue; /* * Call the handler, if it exists, to update the * page to the latest values. */ if (page_index->sense_handler != NULL) page_index->sense_handler(ctsio, page_index,pc); memcpy(ctsio->kern_data_ptr + data_used, page_index->page_data + (page_index->page_len * pc), page_index->page_len); data_used += page_index->page_len; } break; } default: { int i, data_used; data_used = header_len; for (i = 0; i < CTL_NUM_MODE_PAGES; i++) { struct ctl_page_index *page_index; page_index = &lun->mode_pages.index[i]; /* Look for the right page code */ if ((page_index->page_code & SMPH_PC_MASK) != page_code) continue; /* Look for the right subpage or the subpage wildcard*/ if ((page_index->subpage != subpage) && (subpage != SMS_SUBPAGE_ALL)) continue; /* Make sure the page is supported for this dev type */ if (lun->be_lun->lun_type == T_DIRECT && (page_index->page_flags & CTL_PAGE_FLAG_DIRECT) == 0) continue; if (lun->be_lun->lun_type == T_PROCESSOR && (page_index->page_flags & CTL_PAGE_FLAG_PROC) == 0) continue; if (lun->be_lun->lun_type == T_CDROM && (page_index->page_flags & CTL_PAGE_FLAG_CDROM) == 0) continue; /* * Call the handler, if it exists, to update the * page to the latest values. */ if (page_index->sense_handler != NULL) page_index->sense_handler(ctsio, page_index,pc); memcpy(ctsio->kern_data_ptr + data_used, page_index->page_data + (page_index->page_len * pc), page_index->page_len); data_used += page_index->page_len; } break; } } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_temp_log_sense_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, int pc) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_log_temperature *data; const char *value; data = (struct scsi_log_temperature *)page_index->page_data; scsi_ulto2b(SLP_TEMPERATURE, data->hdr.param_code); data->hdr.param_control = SLP_LBIN; data->hdr.param_len = sizeof(struct scsi_log_temperature) - sizeof(struct scsi_log_param_header); if ((value = dnvlist_get_string(lun->be_lun->options, "temperature", NULL)) != NULL) data->temperature = strtol(value, NULL, 0); else data->temperature = 0xff; data++; scsi_ulto2b(SLP_REFTEMPERATURE, data->hdr.param_code); data->hdr.param_control = SLP_LBIN; data->hdr.param_len = sizeof(struct scsi_log_temperature) - sizeof(struct scsi_log_param_header); if ((value = dnvlist_get_string(lun->be_lun->options, "reftemperature", NULL)) != NULL) data->temperature = strtol(value, NULL, 0); else data->temperature = 0xff; return (0); } int ctl_lbp_log_sense_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, int pc) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_log_param_header *phdr; uint8_t *data; uint64_t val; data = page_index->page_data; if (lun->backend->lun_attr != NULL && (val = lun->backend->lun_attr(lun->be_lun, "blocksavail")) != UINT64_MAX) { phdr = (struct scsi_log_param_header *)data; scsi_ulto2b(0x0001, phdr->param_code); phdr->param_control = SLP_LBIN | SLP_LP; phdr->param_len = 8; data = (uint8_t *)(phdr + 1); scsi_ulto4b(val >> CTL_LBP_EXPONENT, data); data[4] = 0x02; /* per-pool */ data += phdr->param_len; } if (lun->backend->lun_attr != NULL && (val = lun->backend->lun_attr(lun->be_lun, "blocksused")) != UINT64_MAX) { phdr = (struct scsi_log_param_header *)data; scsi_ulto2b(0x0002, phdr->param_code); phdr->param_control = SLP_LBIN | SLP_LP; phdr->param_len = 8; data = (uint8_t *)(phdr + 1); scsi_ulto4b(val >> CTL_LBP_EXPONENT, data); data[4] = 0x01; /* per-LUN */ data += phdr->param_len; } if (lun->backend->lun_attr != NULL && (val = lun->backend->lun_attr(lun->be_lun, "poolblocksavail")) != UINT64_MAX) { phdr = (struct scsi_log_param_header *)data; scsi_ulto2b(0x00f1, phdr->param_code); phdr->param_control = SLP_LBIN | SLP_LP; phdr->param_len = 8; data = (uint8_t *)(phdr + 1); scsi_ulto4b(val >> CTL_LBP_EXPONENT, data); data[4] = 0x02; /* per-pool */ data += phdr->param_len; } if (lun->backend->lun_attr != NULL && (val = lun->backend->lun_attr(lun->be_lun, "poolblocksused")) != UINT64_MAX) { phdr = (struct scsi_log_param_header *)data; scsi_ulto2b(0x00f2, phdr->param_code); phdr->param_control = SLP_LBIN | SLP_LP; phdr->param_len = 8; data = (uint8_t *)(phdr + 1); scsi_ulto4b(val >> CTL_LBP_EXPONENT, data); data[4] = 0x02; /* per-pool */ data += phdr->param_len; } page_index->page_len = data - page_index->page_data; return (0); } int ctl_sap_log_sense_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, int pc) { struct ctl_lun *lun = CTL_LUN(ctsio); struct stat_page *data; struct bintime *t; data = (struct stat_page *)page_index->page_data; scsi_ulto2b(SLP_SAP, data->sap.hdr.param_code); data->sap.hdr.param_control = SLP_LBIN; data->sap.hdr.param_len = sizeof(struct scsi_log_stat_and_perf) - sizeof(struct scsi_log_param_header); scsi_u64to8b(lun->stats.operations[CTL_STATS_READ], data->sap.read_num); scsi_u64to8b(lun->stats.operations[CTL_STATS_WRITE], data->sap.write_num); if (lun->be_lun->blocksize > 0) { scsi_u64to8b(lun->stats.bytes[CTL_STATS_WRITE] / lun->be_lun->blocksize, data->sap.recvieved_lba); scsi_u64to8b(lun->stats.bytes[CTL_STATS_READ] / lun->be_lun->blocksize, data->sap.transmitted_lba); } t = &lun->stats.time[CTL_STATS_READ]; scsi_u64to8b((uint64_t)t->sec * 1000 + t->frac / (UINT64_MAX / 1000), data->sap.read_int); t = &lun->stats.time[CTL_STATS_WRITE]; scsi_u64to8b((uint64_t)t->sec * 1000 + t->frac / (UINT64_MAX / 1000), data->sap.write_int); scsi_u64to8b(0, data->sap.weighted_num); scsi_u64to8b(0, data->sap.weighted_int); scsi_ulto2b(SLP_IT, data->it.hdr.param_code); data->it.hdr.param_control = SLP_LBIN; data->it.hdr.param_len = sizeof(struct scsi_log_idle_time) - sizeof(struct scsi_log_param_header); #ifdef CTL_TIME_IO scsi_u64to8b(lun->idle_time / SBT_1MS, data->it.idle_int); #endif scsi_ulto2b(SLP_TI, data->ti.hdr.param_code); data->it.hdr.param_control = SLP_LBIN; data->ti.hdr.param_len = sizeof(struct scsi_log_time_interval) - sizeof(struct scsi_log_param_header); scsi_ulto4b(3, data->ti.exponent); scsi_ulto4b(1, data->ti.integer); return (0); } int ctl_ie_log_sense_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, int pc) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_log_informational_exceptions *data; const char *value; data = (struct scsi_log_informational_exceptions *)page_index->page_data; scsi_ulto2b(SLP_IE_GEN, data->hdr.param_code); data->hdr.param_control = SLP_LBIN; data->hdr.param_len = sizeof(struct scsi_log_informational_exceptions) - sizeof(struct scsi_log_param_header); data->ie_asc = lun->ie_asc; data->ie_ascq = lun->ie_ascq; if ((value = dnvlist_get_string(lun->be_lun->options, "temperature", NULL)) != NULL) data->temperature = strtol(value, NULL, 0); else data->temperature = 0xff; return (0); } int ctl_log_sense(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); int i, pc, page_code, subpage; int alloc_len, total_len; struct ctl_page_index *page_index; struct scsi_log_sense *cdb; struct scsi_log_header *header; CTL_DEBUG_PRINT(("ctl_log_sense\n")); cdb = (struct scsi_log_sense *)ctsio->cdb; pc = (cdb->page & SLS_PAGE_CTRL_MASK) >> 6; page_code = cdb->page & SLS_PAGE_CODE; subpage = cdb->subpage; alloc_len = scsi_2btoul(cdb->length); page_index = NULL; for (i = 0; i < CTL_NUM_LOG_PAGES; i++) { page_index = &lun->log_pages.index[i]; /* Look for the right page code */ if ((page_index->page_code & SL_PAGE_CODE) != page_code) continue; /* Look for the right subpage or the subpage wildcard*/ if (page_index->subpage != subpage) continue; break; } if (i >= CTL_NUM_LOG_PAGES) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } total_len = sizeof(struct scsi_log_header) + page_index->page_len; ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; header = (struct scsi_log_header *)ctsio->kern_data_ptr; header->page = page_index->page_code; if (page_index->page_code == SLS_LOGICAL_BLOCK_PROVISIONING) header->page |= SL_DS; if (page_index->subpage) { header->page |= SL_SPF; header->subpage = page_index->subpage; } scsi_ulto2b(page_index->page_len, header->datalen); /* * Call the handler, if it exists, to update the * page to the latest values. */ if (page_index->sense_handler != NULL) page_index->sense_handler(ctsio, page_index, pc); memcpy(header + 1, page_index->page_data, page_index->page_len); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_read_capacity(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_read_capacity *cdb; struct scsi_read_capacity_data *data; uint32_t lba; CTL_DEBUG_PRINT(("ctl_read_capacity\n")); cdb = (struct scsi_read_capacity *)ctsio->cdb; lba = scsi_4btoul(cdb->addr); if (((cdb->pmi & SRC_PMI) == 0) && (lba != 0)) { ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } ctsio->kern_data_ptr = malloc(sizeof(*data), M_CTL, M_WAITOK | M_ZERO); data = (struct scsi_read_capacity_data *)ctsio->kern_data_ptr; ctsio->kern_data_len = sizeof(*data); ctsio->kern_total_len = sizeof(*data); ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; /* * If the maximum LBA is greater than 0xfffffffe, the user must * issue a SERVICE ACTION IN (16) command, with the read capacity * serivce action set. */ if (lun->be_lun->maxlba > 0xfffffffe) scsi_ulto4b(0xffffffff, data->addr); else scsi_ulto4b(lun->be_lun->maxlba, data->addr); /* * XXX KDM this may not be 512 bytes... */ scsi_ulto4b(lun->be_lun->blocksize, data->length); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_read_capacity_16(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_read_capacity_16 *cdb; struct scsi_read_capacity_data_long *data; uint64_t lba; uint32_t alloc_len; CTL_DEBUG_PRINT(("ctl_read_capacity_16\n")); cdb = (struct scsi_read_capacity_16 *)ctsio->cdb; alloc_len = scsi_4btoul(cdb->alloc_len); lba = scsi_8btou64(cdb->addr); if ((cdb->reladr & SRC16_PMI) && (lba != 0)) { ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } ctsio->kern_data_ptr = malloc(sizeof(*data), M_CTL, M_WAITOK | M_ZERO); data = (struct scsi_read_capacity_data_long *)ctsio->kern_data_ptr; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(sizeof(*data), alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; scsi_u64to8b(lun->be_lun->maxlba, data->addr); /* XXX KDM this may not be 512 bytes... */ scsi_ulto4b(lun->be_lun->blocksize, data->length); data->prot_lbppbe = lun->be_lun->pblockexp & SRC16_LBPPBE; scsi_ulto2b(lun->be_lun->pblockoff & SRC16_LALBA_A, data->lalba_lbp); if (lun->be_lun->flags & CTL_LUN_FLAG_UNMAP) data->lalba_lbp[0] |= SRC16_LBPME | SRC16_LBPRZ; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_get_lba_status(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_get_lba_status *cdb; struct scsi_get_lba_status_data *data; struct ctl_lba_len_flags *lbalen; uint64_t lba; uint32_t alloc_len, total_len; int retval; CTL_DEBUG_PRINT(("ctl_get_lba_status\n")); cdb = (struct scsi_get_lba_status *)ctsio->cdb; lba = scsi_8btou64(cdb->addr); alloc_len = scsi_4btoul(cdb->alloc_len); if (lba > lun->be_lun->maxlba) { ctl_set_lba_out_of_range(ctsio, lba); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } total_len = sizeof(*data) + sizeof(data->descr[0]); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); data = (struct scsi_get_lba_status_data *)ctsio->kern_data_ptr; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* Fill dummy data in case backend can't tell anything. */ scsi_ulto4b(4 + sizeof(data->descr[0]), data->length); scsi_u64to8b(lba, data->descr[0].addr); scsi_ulto4b(MIN(UINT32_MAX, lun->be_lun->maxlba + 1 - lba), data->descr[0].length); data->descr[0].status = 0; /* Mapped or unknown. */ ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; lbalen = (struct ctl_lba_len_flags *)&ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba = lba; lbalen->len = total_len; lbalen->flags = 0; retval = lun->backend->config_read((union ctl_io *)ctsio); return (retval); } int ctl_read_defect(struct ctl_scsiio *ctsio) { struct scsi_read_defect_data_10 *ccb10; struct scsi_read_defect_data_12 *ccb12; struct scsi_read_defect_data_hdr_10 *data10; struct scsi_read_defect_data_hdr_12 *data12; uint32_t alloc_len, data_len; uint8_t format; CTL_DEBUG_PRINT(("ctl_read_defect\n")); if (ctsio->cdb[0] == READ_DEFECT_DATA_10) { ccb10 = (struct scsi_read_defect_data_10 *)&ctsio->cdb; format = ccb10->format; alloc_len = scsi_2btoul(ccb10->alloc_length); data_len = sizeof(*data10); } else { ccb12 = (struct scsi_read_defect_data_12 *)&ctsio->cdb; format = ccb12->format; alloc_len = scsi_4btoul(ccb12->alloc_length); data_len = sizeof(*data12); } if (alloc_len == 0) { ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; if (ctsio->cdb[0] == READ_DEFECT_DATA_10) { data10 = (struct scsi_read_defect_data_hdr_10 *) ctsio->kern_data_ptr; data10->format = format; scsi_ulto2b(0, data10->length); } else { data12 = (struct scsi_read_defect_data_hdr_12 *) ctsio->kern_data_ptr; data12->format = format; scsi_ulto2b(0, data12->generation); scsi_ulto4b(0, data12->length); } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_report_ident_info(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_report_ident_info *cdb; struct scsi_report_ident_info_data *rii_ptr; struct scsi_report_ident_info_descr *riid_ptr; const char *oii, *otii; int retval, alloc_len, total_len = 0, len = 0; CTL_DEBUG_PRINT(("ctl_report_ident_info\n")); cdb = (struct scsi_report_ident_info *)ctsio->cdb; retval = CTL_RETVAL_COMPLETE; total_len = sizeof(struct scsi_report_ident_info_data); switch (cdb->type) { case RII_LUII: oii = dnvlist_get_string(lun->be_lun->options, "ident_info", NULL); if (oii) len = strlen(oii); /* Approximately */ break; case RII_LUTII: otii = dnvlist_get_string(lun->be_lun->options, "text_ident_info", NULL); if (otii) len = strlen(otii) + 1; /* NULL-terminated */ break; case RII_IIS: len = 2 * sizeof(struct scsi_report_ident_info_descr); break; default: ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 11, /*bit_valid*/ 1, /*bit*/ 2); ctl_done((union ctl_io *)ctsio); return(retval); } total_len += len; alloc_len = scsi_4btoul(cdb->length); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; rii_ptr = (struct scsi_report_ident_info_data *)ctsio->kern_data_ptr; switch (cdb->type) { case RII_LUII: if (oii) { if (oii[0] == '0' && oii[1] == 'x') len = hex2bin(oii, (uint8_t *)(rii_ptr + 1), len); else strncpy((uint8_t *)(rii_ptr + 1), oii, len); } break; case RII_LUTII: if (otii) strlcpy((uint8_t *)(rii_ptr + 1), otii, len); break; case RII_IIS: riid_ptr = (struct scsi_report_ident_info_descr *)(rii_ptr + 1); riid_ptr->type = RII_LUII; scsi_ulto2b(0xffff, riid_ptr->length); riid_ptr++; riid_ptr->type = RII_LUTII; scsi_ulto2b(0xffff, riid_ptr->length); } scsi_ulto2b(len, rii_ptr->length); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return(retval); } int ctl_report_tagret_port_groups(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_maintenance_in *cdb; int retval; int alloc_len, ext, total_len = 0, g, pc, pg, ts, os; int num_ha_groups, num_target_ports, shared_group; struct ctl_port *port; struct scsi_target_group_data *rtg_ptr; struct scsi_target_group_data_extended *rtg_ext_ptr; struct scsi_target_port_group_descriptor *tpg_desc; CTL_DEBUG_PRINT(("ctl_report_tagret_port_groups\n")); cdb = (struct scsi_maintenance_in *)ctsio->cdb; retval = CTL_RETVAL_COMPLETE; switch (cdb->byte2 & STG_PDF_MASK) { case STG_PDF_LENGTH: ext = 0; break; case STG_PDF_EXTENDED: ext = 1; break; default: ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 5); ctl_done((union ctl_io *)ctsio); return(retval); } num_target_ports = 0; shared_group = (softc->is_single != 0); mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(port, &softc->port_list, links) { if ((port->status & CTL_PORT_STATUS_ONLINE) == 0) continue; if (ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; num_target_ports++; if (port->status & CTL_PORT_STATUS_HA_SHARED) shared_group = 1; } mtx_unlock(&softc->ctl_lock); num_ha_groups = (softc->is_single) ? 0 : NUM_HA_SHELVES; if (ext) total_len = sizeof(struct scsi_target_group_data_extended); else total_len = sizeof(struct scsi_target_group_data); total_len += sizeof(struct scsi_target_port_group_descriptor) * (shared_group + num_ha_groups) + sizeof(struct scsi_target_port_descriptor) * num_target_ports; alloc_len = scsi_4btoul(cdb->length); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; if (ext) { rtg_ext_ptr = (struct scsi_target_group_data_extended *) ctsio->kern_data_ptr; scsi_ulto4b(total_len - 4, rtg_ext_ptr->length); rtg_ext_ptr->format_type = 0x10; rtg_ext_ptr->implicit_transition_time = 0; tpg_desc = &rtg_ext_ptr->groups[0]; } else { rtg_ptr = (struct scsi_target_group_data *) ctsio->kern_data_ptr; scsi_ulto4b(total_len - 4, rtg_ptr->length); tpg_desc = &rtg_ptr->groups[0]; } mtx_lock(&softc->ctl_lock); pg = softc->port_min / softc->port_cnt; if (lun->flags & (CTL_LUN_PRIMARY_SC | CTL_LUN_PEER_SC_PRIMARY)) { /* Some shelf is known to be primary. */ if (softc->ha_link == CTL_HA_LINK_OFFLINE) os = TPG_ASYMMETRIC_ACCESS_UNAVAILABLE; else if (softc->ha_link == CTL_HA_LINK_UNKNOWN) os = TPG_ASYMMETRIC_ACCESS_TRANSITIONING; else if (softc->ha_mode == CTL_HA_MODE_ACT_STBY) os = TPG_ASYMMETRIC_ACCESS_STANDBY; else os = TPG_ASYMMETRIC_ACCESS_NONOPTIMIZED; if (lun->flags & CTL_LUN_PRIMARY_SC) { ts = TPG_ASYMMETRIC_ACCESS_OPTIMIZED; } else { ts = os; os = TPG_ASYMMETRIC_ACCESS_OPTIMIZED; } } else { /* No known primary shelf. */ if (softc->ha_link == CTL_HA_LINK_OFFLINE) { ts = TPG_ASYMMETRIC_ACCESS_UNAVAILABLE; os = TPG_ASYMMETRIC_ACCESS_OPTIMIZED; } else if (softc->ha_link == CTL_HA_LINK_UNKNOWN) { ts = TPG_ASYMMETRIC_ACCESS_TRANSITIONING; os = TPG_ASYMMETRIC_ACCESS_OPTIMIZED; } else { ts = os = TPG_ASYMMETRIC_ACCESS_TRANSITIONING; } } if (shared_group) { tpg_desc->pref_state = ts; tpg_desc->support = TPG_AO_SUP | TPG_AN_SUP | TPG_S_SUP | TPG_U_SUP | TPG_T_SUP; scsi_ulto2b(1, tpg_desc->target_port_group); tpg_desc->status = TPG_IMPLICIT; pc = 0; STAILQ_FOREACH(port, &softc->port_list, links) { if ((port->status & CTL_PORT_STATUS_ONLINE) == 0) continue; if (!softc->is_single && (port->status & CTL_PORT_STATUS_HA_SHARED) == 0) continue; if (ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; scsi_ulto2b(port->targ_port, tpg_desc->descriptors[pc]. relative_target_port_identifier); pc++; } tpg_desc->target_port_count = pc; tpg_desc = (struct scsi_target_port_group_descriptor *) &tpg_desc->descriptors[pc]; } for (g = 0; g < num_ha_groups; g++) { tpg_desc->pref_state = (g == pg) ? ts : os; tpg_desc->support = TPG_AO_SUP | TPG_AN_SUP | TPG_S_SUP | TPG_U_SUP | TPG_T_SUP; scsi_ulto2b(2 + g, tpg_desc->target_port_group); tpg_desc->status = TPG_IMPLICIT; pc = 0; STAILQ_FOREACH(port, &softc->port_list, links) { if (port->targ_port < g * softc->port_cnt || port->targ_port >= (g + 1) * softc->port_cnt) continue; if ((port->status & CTL_PORT_STATUS_ONLINE) == 0) continue; if (port->status & CTL_PORT_STATUS_HA_SHARED) continue; if (ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; scsi_ulto2b(port->targ_port, tpg_desc->descriptors[pc]. relative_target_port_identifier); pc++; } tpg_desc->target_port_count = pc; tpg_desc = (struct scsi_target_port_group_descriptor *) &tpg_desc->descriptors[pc]; } mtx_unlock(&softc->ctl_lock); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return(retval); } int ctl_report_supported_opcodes(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_report_supported_opcodes *cdb; const struct ctl_cmd_entry *entry, *sentry; struct scsi_report_supported_opcodes_all *all; struct scsi_report_supported_opcodes_descr *descr; struct scsi_report_supported_opcodes_one *one; int retval; int alloc_len, total_len; int opcode, service_action, i, j, num; CTL_DEBUG_PRINT(("ctl_report_supported_opcodes\n")); cdb = (struct scsi_report_supported_opcodes *)ctsio->cdb; retval = CTL_RETVAL_COMPLETE; opcode = cdb->requested_opcode; service_action = scsi_2btoul(cdb->requested_service_action); switch (cdb->options & RSO_OPTIONS_MASK) { case RSO_OPTIONS_ALL: num = 0; for (i = 0; i < 256; i++) { entry = &ctl_cmd_table[i]; if (entry->flags & CTL_CMD_FLAG_SA5) { for (j = 0; j < 32; j++) { sentry = &((const struct ctl_cmd_entry *) entry->execute)[j]; if (ctl_cmd_applicable( lun->be_lun->lun_type, sentry)) num++; } } else { if (ctl_cmd_applicable(lun->be_lun->lun_type, entry)) num++; } } total_len = sizeof(struct scsi_report_supported_opcodes_all) + num * sizeof(struct scsi_report_supported_opcodes_descr); break; case RSO_OPTIONS_OC: if (ctl_cmd_table[opcode].flags & CTL_CMD_FLAG_SA5) { ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 2); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } total_len = sizeof(struct scsi_report_supported_opcodes_one) + 32; break; case RSO_OPTIONS_OC_SA: if ((ctl_cmd_table[opcode].flags & CTL_CMD_FLAG_SA5) == 0 || service_action >= 32) { ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 2); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* FALLTHROUGH */ case RSO_OPTIONS_OC_ASA: total_len = sizeof(struct scsi_report_supported_opcodes_one) + 32; break; default: ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 2); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } alloc_len = scsi_4btoul(cdb->length); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; switch (cdb->options & RSO_OPTIONS_MASK) { case RSO_OPTIONS_ALL: all = (struct scsi_report_supported_opcodes_all *) ctsio->kern_data_ptr; num = 0; for (i = 0; i < 256; i++) { entry = &ctl_cmd_table[i]; if (entry->flags & CTL_CMD_FLAG_SA5) { for (j = 0; j < 32; j++) { sentry = &((const struct ctl_cmd_entry *) entry->execute)[j]; if (!ctl_cmd_applicable( lun->be_lun->lun_type, sentry)) continue; descr = &all->descr[num++]; descr->opcode = i; scsi_ulto2b(j, descr->service_action); descr->flags = RSO_SERVACTV; scsi_ulto2b(sentry->length, descr->cdb_length); } } else { if (!ctl_cmd_applicable(lun->be_lun->lun_type, entry)) continue; descr = &all->descr[num++]; descr->opcode = i; scsi_ulto2b(0, descr->service_action); descr->flags = 0; scsi_ulto2b(entry->length, descr->cdb_length); } } scsi_ulto4b( num * sizeof(struct scsi_report_supported_opcodes_descr), all->length); break; case RSO_OPTIONS_OC: one = (struct scsi_report_supported_opcodes_one *) ctsio->kern_data_ptr; entry = &ctl_cmd_table[opcode]; goto fill_one; case RSO_OPTIONS_OC_SA: one = (struct scsi_report_supported_opcodes_one *) ctsio->kern_data_ptr; entry = &ctl_cmd_table[opcode]; entry = &((const struct ctl_cmd_entry *) entry->execute)[service_action]; fill_one: if (ctl_cmd_applicable(lun->be_lun->lun_type, entry)) { one->support = 3; scsi_ulto2b(entry->length, one->cdb_length); one->cdb_usage[0] = opcode; memcpy(&one->cdb_usage[1], entry->usage, entry->length - 1); } else one->support = 1; break; case RSO_OPTIONS_OC_ASA: one = (struct scsi_report_supported_opcodes_one *) ctsio->kern_data_ptr; entry = &ctl_cmd_table[opcode]; if (entry->flags & CTL_CMD_FLAG_SA5) { entry = &((const struct ctl_cmd_entry *) entry->execute)[service_action]; } else if (service_action != 0) { one->support = 1; break; } goto fill_one; } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return(retval); } int ctl_report_supported_tmf(struct ctl_scsiio *ctsio) { struct scsi_report_supported_tmf *cdb; struct scsi_report_supported_tmf_ext_data *data; int retval; int alloc_len, total_len; CTL_DEBUG_PRINT(("ctl_report_supported_tmf\n")); cdb = (struct scsi_report_supported_tmf *)ctsio->cdb; retval = CTL_RETVAL_COMPLETE; if (cdb->options & RST_REPD) total_len = sizeof(struct scsi_report_supported_tmf_ext_data); else total_len = sizeof(struct scsi_report_supported_tmf_data); alloc_len = scsi_4btoul(cdb->length); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; data = (struct scsi_report_supported_tmf_ext_data *)ctsio->kern_data_ptr; data->byte1 |= RST_ATS | RST_ATSS | RST_CTSS | RST_LURS | RST_QTS | RST_TRS; data->byte2 |= RST_QAES | RST_QTSS | RST_ITNRS; data->length = total_len - 4; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (retval); } int ctl_report_timestamp(struct ctl_scsiio *ctsio) { struct scsi_report_timestamp *cdb; struct scsi_report_timestamp_data *data; struct timeval tv; int64_t timestamp; int retval; int alloc_len, total_len; CTL_DEBUG_PRINT(("ctl_report_timestamp\n")); cdb = (struct scsi_report_timestamp *)ctsio->cdb; retval = CTL_RETVAL_COMPLETE; total_len = sizeof(struct scsi_report_timestamp_data); alloc_len = scsi_4btoul(cdb->length); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; data = (struct scsi_report_timestamp_data *)ctsio->kern_data_ptr; scsi_ulto2b(sizeof(*data) - 2, data->length); data->origin = RTS_ORIG_OUTSIDE; getmicrotime(&tv); timestamp = (int64_t)tv.tv_sec * 1000 + tv.tv_usec / 1000; scsi_ulto4b(timestamp >> 16, data->timestamp); scsi_ulto2b(timestamp & 0xffff, &data->timestamp[4]); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (retval); } int ctl_persistent_reserve_in(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_per_res_in *cdb; int alloc_len, total_len = 0; /* struct scsi_per_res_in_rsrv in_data; */ uint64_t key; CTL_DEBUG_PRINT(("ctl_persistent_reserve_in\n")); cdb = (struct scsi_per_res_in *)ctsio->cdb; alloc_len = scsi_2btoul(cdb->length); retry: mtx_lock(&lun->lun_lock); switch (cdb->action) { case SPRI_RK: /* read keys */ total_len = sizeof(struct scsi_per_res_in_keys) + lun->pr_key_count * sizeof(struct scsi_per_res_key); break; case SPRI_RR: /* read reservation */ if (lun->flags & CTL_LUN_PR_RESERVED) total_len = sizeof(struct scsi_per_res_in_rsrv); else total_len = sizeof(struct scsi_per_res_in_header); break; case SPRI_RC: /* report capabilities */ total_len = sizeof(struct scsi_per_res_cap); break; case SPRI_RS: /* read full status */ total_len = sizeof(struct scsi_per_res_in_header) + (sizeof(struct scsi_per_res_in_full_desc) + 256) * lun->pr_key_count; break; default: panic("%s: Invalid PR type %#x", __func__, cdb->action); } mtx_unlock(&lun->lun_lock); ctsio->kern_data_ptr = malloc(total_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(total_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; mtx_lock(&lun->lun_lock); switch (cdb->action) { case SPRI_RK: { // read keys struct scsi_per_res_in_keys *res_keys; int i, key_count; res_keys = (struct scsi_per_res_in_keys*)ctsio->kern_data_ptr; /* * We had to drop the lock to allocate our buffer, which * leaves time for someone to come in with another * persistent reservation. (That is unlikely, though, * since this should be the only persistent reservation * command active right now.) */ if (total_len != (sizeof(struct scsi_per_res_in_keys) + (lun->pr_key_count * sizeof(struct scsi_per_res_key)))){ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); printf("%s: reservation length changed, retrying\n", __func__); goto retry; } scsi_ulto4b(lun->pr_generation, res_keys->header.generation); scsi_ulto4b(sizeof(struct scsi_per_res_key) * lun->pr_key_count, res_keys->header.length); for (i = 0, key_count = 0; i < CTL_MAX_INITIATORS; i++) { if ((key = ctl_get_prkey(lun, i)) == 0) continue; /* * We used lun->pr_key_count to calculate the * size to allocate. If it turns out the number of * initiators with the registered flag set is * larger than that (i.e. they haven't been kept in * sync), we've got a problem. */ if (key_count >= lun->pr_key_count) { key_count++; continue; } scsi_u64to8b(key, res_keys->keys[key_count].key); key_count++; } break; } case SPRI_RR: { // read reservation struct scsi_per_res_in_rsrv *res; int tmp_len, header_only; res = (struct scsi_per_res_in_rsrv *)ctsio->kern_data_ptr; scsi_ulto4b(lun->pr_generation, res->header.generation); if (lun->flags & CTL_LUN_PR_RESERVED) { tmp_len = sizeof(struct scsi_per_res_in_rsrv); scsi_ulto4b(sizeof(struct scsi_per_res_in_rsrv_data), res->header.length); header_only = 0; } else { tmp_len = sizeof(struct scsi_per_res_in_header); scsi_ulto4b(0, res->header.length); header_only = 1; } /* * We had to drop the lock to allocate our buffer, which * leaves time for someone to come in with another * persistent reservation. (That is unlikely, though, * since this should be the only persistent reservation * command active right now.) */ if (tmp_len != total_len) { mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); printf("%s: reservation status changed, retrying\n", __func__); goto retry; } /* * No reservation held, so we're done. */ if (header_only != 0) break; /* * If the registration is an All Registrants type, the key * is 0, since it doesn't really matter. */ if (lun->pr_res_idx != CTL_PR_ALL_REGISTRANTS) { scsi_u64to8b(ctl_get_prkey(lun, lun->pr_res_idx), res->data.reservation); } res->data.scopetype = lun->pr_res_type; break; } case SPRI_RC: //report capabilities { struct scsi_per_res_cap *res_cap; uint16_t type_mask; res_cap = (struct scsi_per_res_cap *)ctsio->kern_data_ptr; scsi_ulto2b(sizeof(*res_cap), res_cap->length); res_cap->flags1 = SPRI_CRH; res_cap->flags2 = SPRI_TMV | SPRI_ALLOW_5; type_mask = SPRI_TM_WR_EX_AR | SPRI_TM_EX_AC_RO | SPRI_TM_WR_EX_RO | SPRI_TM_EX_AC | SPRI_TM_WR_EX | SPRI_TM_EX_AC_AR; scsi_ulto2b(type_mask, res_cap->type_mask); break; } case SPRI_RS: { // read full status struct scsi_per_res_in_full *res_status; struct scsi_per_res_in_full_desc *res_desc; struct ctl_port *port; int i, len; res_status = (struct scsi_per_res_in_full*)ctsio->kern_data_ptr; /* * We had to drop the lock to allocate our buffer, which * leaves time for someone to come in with another * persistent reservation. (That is unlikely, though, * since this should be the only persistent reservation * command active right now.) */ if (total_len < (sizeof(struct scsi_per_res_in_header) + (sizeof(struct scsi_per_res_in_full_desc) + 256) * lun->pr_key_count)){ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); printf("%s: reservation length changed, retrying\n", __func__); goto retry; } scsi_ulto4b(lun->pr_generation, res_status->header.generation); res_desc = &res_status->desc[0]; for (i = 0; i < CTL_MAX_INITIATORS; i++) { if ((key = ctl_get_prkey(lun, i)) == 0) continue; scsi_u64to8b(key, res_desc->res_key.key); if ((lun->flags & CTL_LUN_PR_RESERVED) && (lun->pr_res_idx == i || lun->pr_res_idx == CTL_PR_ALL_REGISTRANTS)) { res_desc->flags = SPRI_FULL_R_HOLDER; res_desc->scopetype = lun->pr_res_type; } scsi_ulto2b(i / CTL_MAX_INIT_PER_PORT, res_desc->rel_trgt_port_id); len = 0; port = softc->ctl_ports[i / CTL_MAX_INIT_PER_PORT]; if (port != NULL) len = ctl_create_iid(port, i % CTL_MAX_INIT_PER_PORT, res_desc->transport_id); scsi_ulto4b(len, res_desc->additional_length); res_desc = (struct scsi_per_res_in_full_desc *) &res_desc->transport_id[len]; } scsi_ulto4b((uint8_t *)res_desc - (uint8_t *)&res_status->desc[0], res_status->header.length); break; } default: panic("%s: Invalid PR type %#x", __func__, cdb->action); } mtx_unlock(&lun->lun_lock); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * Returns 0 if ctl_persistent_reserve_out() should continue, non-zero if * it should return. */ static int ctl_pro_preempt(struct ctl_softc *softc, struct ctl_lun *lun, uint64_t res_key, uint64_t sa_res_key, uint8_t type, uint32_t residx, struct ctl_scsiio *ctsio, struct scsi_per_res_out *cdb, struct scsi_per_res_out_parms* param) { union ctl_ha_msg persis_io; int i; mtx_lock(&lun->lun_lock); if (sa_res_key == 0) { if (lun->pr_res_idx == CTL_PR_ALL_REGISTRANTS) { /* validate scope and type */ if ((cdb->scope_type & SPR_SCOPE_MASK) != SPR_LU_SCOPE) { mtx_unlock(&lun->lun_lock); ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 4); ctl_done((union ctl_io *)ctsio); return (1); } if (type>8 || type==2 || type==4 || type==0) { mtx_unlock(&lun->lun_lock); ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (1); } /* * Unregister everybody else and build UA for * them */ for(i = 0; i < CTL_MAX_INITIATORS; i++) { if (i == residx || ctl_get_prkey(lun, i) == 0) continue; ctl_clr_prkey(lun, i); ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } lun->pr_key_count = 1; lun->pr_res_type = type; if (lun->pr_res_type != SPR_TYPE_WR_EX_AR && lun->pr_res_type != SPR_TYPE_EX_AC_AR) lun->pr_res_idx = residx; lun->pr_generation++; mtx_unlock(&lun->lun_lock); /* send msg to other side */ persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_PREEMPT; persis_io.pr.pr_info.residx = lun->pr_res_idx; persis_io.pr.pr_info.res_type = type; memcpy(persis_io.pr.pr_info.sa_res_key, param->serv_act_res_key, sizeof(param->serv_act_res_key)); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } else { /* not all registrants */ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ 8, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (1); } } else if (lun->pr_res_idx == CTL_PR_ALL_REGISTRANTS || !(lun->flags & CTL_LUN_PR_RESERVED)) { int found = 0; if (res_key == sa_res_key) { /* special case */ /* * The spec implies this is not good but doesn't * say what to do. There are two choices either * generate a res conflict or check condition * with illegal field in parameter data. Since * that is what is done when the sa_res_key is * zero I'll take that approach since this has * to do with the sa_res_key. */ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ 8, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (1); } for (i = 0; i < CTL_MAX_INITIATORS; i++) { if (ctl_get_prkey(lun, i) != sa_res_key) continue; found = 1; ctl_clr_prkey(lun, i); lun->pr_key_count--; ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } if (!found) { mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } lun->pr_generation++; mtx_unlock(&lun->lun_lock); /* send msg to other side */ persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_PREEMPT; persis_io.pr.pr_info.residx = lun->pr_res_idx; persis_io.pr.pr_info.res_type = type; memcpy(persis_io.pr.pr_info.sa_res_key, param->serv_act_res_key, sizeof(param->serv_act_res_key)); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } else { /* Reserved but not all registrants */ /* sa_res_key is res holder */ if (sa_res_key == ctl_get_prkey(lun, lun->pr_res_idx)) { /* validate scope and type */ if ((cdb->scope_type & SPR_SCOPE_MASK) != SPR_LU_SCOPE) { mtx_unlock(&lun->lun_lock); ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 4); ctl_done((union ctl_io *)ctsio); return (1); } if (type>8 || type==2 || type==4 || type==0) { mtx_unlock(&lun->lun_lock); ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (1); } /* * Do the following: * if sa_res_key != res_key remove all * registrants w/sa_res_key and generate UA * for these registrants(Registrations * Preempted) if it wasn't an exclusive * reservation generate UA(Reservations * Preempted) for all other registered nexuses * if the type has changed. Establish the new * reservation and holder. If res_key and * sa_res_key are the same do the above * except don't unregister the res holder. */ for(i = 0; i < CTL_MAX_INITIATORS; i++) { if (i == residx || ctl_get_prkey(lun, i) == 0) continue; if (sa_res_key == ctl_get_prkey(lun, i)) { ctl_clr_prkey(lun, i); lun->pr_key_count--; ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } else if (type != lun->pr_res_type && (lun->pr_res_type == SPR_TYPE_WR_EX_RO || lun->pr_res_type == SPR_TYPE_EX_AC_RO)) { ctl_est_ua(lun, i, CTL_UA_RES_RELEASE); } } lun->pr_res_type = type; if (lun->pr_res_type != SPR_TYPE_WR_EX_AR && lun->pr_res_type != SPR_TYPE_EX_AC_AR) lun->pr_res_idx = residx; else lun->pr_res_idx = CTL_PR_ALL_REGISTRANTS; lun->pr_generation++; mtx_unlock(&lun->lun_lock); persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_PREEMPT; persis_io.pr.pr_info.residx = lun->pr_res_idx; persis_io.pr.pr_info.res_type = type; memcpy(persis_io.pr.pr_info.sa_res_key, param->serv_act_res_key, sizeof(param->serv_act_res_key)); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } else { /* * sa_res_key is not the res holder just * remove registrants */ int found=0; for (i = 0; i < CTL_MAX_INITIATORS; i++) { if (sa_res_key != ctl_get_prkey(lun, i)) continue; found = 1; ctl_clr_prkey(lun, i); lun->pr_key_count--; ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } if (!found) { mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (1); } lun->pr_generation++; mtx_unlock(&lun->lun_lock); persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_PREEMPT; persis_io.pr.pr_info.residx = lun->pr_res_idx; persis_io.pr.pr_info.res_type = type; memcpy(persis_io.pr.pr_info.sa_res_key, param->serv_act_res_key, sizeof(param->serv_act_res_key)); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } } return (0); } static void ctl_pro_preempt_other(struct ctl_lun *lun, union ctl_ha_msg *msg) { uint64_t sa_res_key; int i; sa_res_key = scsi_8btou64(msg->pr.pr_info.sa_res_key); if (lun->pr_res_idx == CTL_PR_ALL_REGISTRANTS || lun->pr_res_idx == CTL_PR_NO_RESERVATION || sa_res_key != ctl_get_prkey(lun, lun->pr_res_idx)) { if (sa_res_key == 0) { /* * Unregister everybody else and build UA for * them */ for(i = 0; i < CTL_MAX_INITIATORS; i++) { if (i == msg->pr.pr_info.residx || ctl_get_prkey(lun, i) == 0) continue; ctl_clr_prkey(lun, i); ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } lun->pr_key_count = 1; lun->pr_res_type = msg->pr.pr_info.res_type; if (lun->pr_res_type != SPR_TYPE_WR_EX_AR && lun->pr_res_type != SPR_TYPE_EX_AC_AR) lun->pr_res_idx = msg->pr.pr_info.residx; } else { for (i = 0; i < CTL_MAX_INITIATORS; i++) { if (sa_res_key == ctl_get_prkey(lun, i)) continue; ctl_clr_prkey(lun, i); lun->pr_key_count--; ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } } } else { for (i = 0; i < CTL_MAX_INITIATORS; i++) { if (i == msg->pr.pr_info.residx || ctl_get_prkey(lun, i) == 0) continue; if (sa_res_key == ctl_get_prkey(lun, i)) { ctl_clr_prkey(lun, i); lun->pr_key_count--; ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } else if (msg->pr.pr_info.res_type != lun->pr_res_type && (lun->pr_res_type == SPR_TYPE_WR_EX_RO || lun->pr_res_type == SPR_TYPE_EX_AC_RO)) { ctl_est_ua(lun, i, CTL_UA_RES_RELEASE); } } lun->pr_res_type = msg->pr.pr_info.res_type; if (lun->pr_res_type != SPR_TYPE_WR_EX_AR && lun->pr_res_type != SPR_TYPE_EX_AC_AR) lun->pr_res_idx = msg->pr.pr_info.residx; else lun->pr_res_idx = CTL_PR_ALL_REGISTRANTS; } lun->pr_generation++; } int ctl_persistent_reserve_out(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); int retval; uint32_t param_len; struct scsi_per_res_out *cdb; struct scsi_per_res_out_parms* param; uint32_t residx; uint64_t res_key, sa_res_key, key; uint8_t type; union ctl_ha_msg persis_io; int i; CTL_DEBUG_PRINT(("ctl_persistent_reserve_out\n")); cdb = (struct scsi_per_res_out *)ctsio->cdb; retval = CTL_RETVAL_COMPLETE; /* * We only support whole-LUN scope. The scope & type are ignored for * register, register and ignore existing key and clear. * We sometimes ignore scope and type on preempts too!! * Verify reservation type here as well. */ type = cdb->scope_type & SPR_TYPE_MASK; if ((cdb->action == SPRO_RESERVE) || (cdb->action == SPRO_RELEASE)) { if ((cdb->scope_type & SPR_SCOPE_MASK) != SPR_LU_SCOPE) { ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 4); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } if (type>8 || type==2 || type==4 || type==0) { ctl_set_invalid_field(/*ctsio*/ ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 1, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } } param_len = scsi_4btoul(cdb->length); if ((ctsio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) { ctsio->kern_data_ptr = malloc(param_len, M_CTL, M_WAITOK); ctsio->kern_data_len = param_len; ctsio->kern_total_len = param_len; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } param = (struct scsi_per_res_out_parms *)ctsio->kern_data_ptr; residx = ctl_get_initindex(&ctsio->io_hdr.nexus); res_key = scsi_8btou64(param->res_key.key); sa_res_key = scsi_8btou64(param->serv_act_res_key); /* * Validate the reservation key here except for SPRO_REG_IGNO * This must be done for all other service actions */ if ((cdb->action & SPRO_ACTION_MASK) != SPRO_REG_IGNO) { mtx_lock(&lun->lun_lock); if ((key = ctl_get_prkey(lun, residx)) != 0) { if (res_key != key) { /* * The current key passed in doesn't match * the one the initiator previously * registered. */ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } } else if ((cdb->action & SPRO_ACTION_MASK) != SPRO_REGISTER) { /* * We are not registered */ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } else if (res_key != 0) { /* * We are not registered and trying to register but * the register key isn't zero. */ mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } mtx_unlock(&lun->lun_lock); } switch (cdb->action & SPRO_ACTION_MASK) { case SPRO_REGISTER: case SPRO_REG_IGNO: { /* * We don't support any of these options, as we report in * the read capabilities request (see * ctl_persistent_reserve_in(), above). */ if ((param->flags & SPR_SPEC_I_PT) || (param->flags & SPR_ALL_TG_PT) || (param->flags & SPR_APTPL)) { int bit_ptr; if (param->flags & SPR_APTPL) bit_ptr = 0; else if (param->flags & SPR_ALL_TG_PT) bit_ptr = 2; else /* SPR_SPEC_I_PT */ bit_ptr = 3; free(ctsio->kern_data_ptr, M_CTL); ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 0, /*field*/ 20, /*bit_valid*/ 1, /*bit*/ bit_ptr); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } mtx_lock(&lun->lun_lock); /* * The initiator wants to clear the * key/unregister. */ if (sa_res_key == 0) { if ((res_key == 0 && (cdb->action & SPRO_ACTION_MASK) == SPRO_REGISTER) || ((cdb->action & SPRO_ACTION_MASK) == SPRO_REG_IGNO && ctl_get_prkey(lun, residx) == 0)) { mtx_unlock(&lun->lun_lock); goto done; } ctl_clr_prkey(lun, residx); lun->pr_key_count--; if (residx == lun->pr_res_idx) { lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_idx = CTL_PR_NO_RESERVATION; if ((lun->pr_res_type == SPR_TYPE_WR_EX_RO || lun->pr_res_type == SPR_TYPE_EX_AC_RO) && lun->pr_key_count) { /* * If the reservation is a registrants * only type we need to generate a UA * for other registered inits. The * sense code should be RESERVATIONS * RELEASED */ for (i = softc->init_min; i < softc->init_max; i++){ if (ctl_get_prkey(lun, i) == 0) continue; ctl_est_ua(lun, i, CTL_UA_RES_RELEASE); } } lun->pr_res_type = 0; } else if (lun->pr_res_idx == CTL_PR_ALL_REGISTRANTS) { if (lun->pr_key_count==0) { lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_type = 0; lun->pr_res_idx = CTL_PR_NO_RESERVATION; } } lun->pr_generation++; mtx_unlock(&lun->lun_lock); persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_UNREG_KEY; persis_io.pr.pr_info.residx = residx; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } else /* sa_res_key != 0 */ { /* * If we aren't registered currently then increment * the key count and set the registered flag. */ ctl_alloc_prkey(lun, residx); if (ctl_get_prkey(lun, residx) == 0) lun->pr_key_count++; ctl_set_prkey(lun, residx, sa_res_key); lun->pr_generation++; mtx_unlock(&lun->lun_lock); persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_REG_KEY; persis_io.pr.pr_info.residx = residx; memcpy(persis_io.pr.pr_info.sa_res_key, param->serv_act_res_key, sizeof(param->serv_act_res_key)); ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } break; } case SPRO_RESERVE: mtx_lock(&lun->lun_lock); if (lun->flags & CTL_LUN_PR_RESERVED) { /* * if this isn't the reservation holder and it's * not a "all registrants" type or if the type is * different then we have a conflict */ if ((lun->pr_res_idx != residx && lun->pr_res_idx != CTL_PR_ALL_REGISTRANTS) || lun->pr_res_type != type) { mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_reservation_conflict(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } mtx_unlock(&lun->lun_lock); } else /* create a reservation */ { /* * If it's not an "all registrants" type record * reservation holder */ if (type != SPR_TYPE_WR_EX_AR && type != SPR_TYPE_EX_AC_AR) lun->pr_res_idx = residx; /* Res holder */ else lun->pr_res_idx = CTL_PR_ALL_REGISTRANTS; lun->flags |= CTL_LUN_PR_RESERVED; lun->pr_res_type = type; mtx_unlock(&lun->lun_lock); /* send msg to other side */ persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_RESERVE; persis_io.pr.pr_info.residx = lun->pr_res_idx; persis_io.pr.pr_info.res_type = type; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); } break; case SPRO_RELEASE: mtx_lock(&lun->lun_lock); if ((lun->flags & CTL_LUN_PR_RESERVED) == 0) { /* No reservation exists return good status */ mtx_unlock(&lun->lun_lock); goto done; } /* * Is this nexus a reservation holder? */ if (lun->pr_res_idx != residx && lun->pr_res_idx != CTL_PR_ALL_REGISTRANTS) { /* * not a res holder return good status but * do nothing */ mtx_unlock(&lun->lun_lock); goto done; } if (lun->pr_res_type != type) { mtx_unlock(&lun->lun_lock); free(ctsio->kern_data_ptr, M_CTL); ctl_set_illegal_pr_release(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* okay to release */ lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_idx = CTL_PR_NO_RESERVATION; lun->pr_res_type = 0; /* * If this isn't an exclusive access reservation and NUAR * is not set, generate UA for all other registrants. */ if (type != SPR_TYPE_EX_AC && type != SPR_TYPE_WR_EX && (lun->MODE_CTRL.queue_flags & SCP_NUAR) == 0) { for (i = softc->init_min; i < softc->init_max; i++) { if (i == residx || ctl_get_prkey(lun, i) == 0) continue; ctl_est_ua(lun, i, CTL_UA_RES_RELEASE); } } mtx_unlock(&lun->lun_lock); /* Send msg to other side */ persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_RELEASE; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); break; case SPRO_CLEAR: /* send msg to other side */ mtx_lock(&lun->lun_lock); lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_type = 0; lun->pr_key_count = 0; lun->pr_res_idx = CTL_PR_NO_RESERVATION; ctl_clr_prkey(lun, residx); for (i = 0; i < CTL_MAX_INITIATORS; i++) if (ctl_get_prkey(lun, i) != 0) { ctl_clr_prkey(lun, i); ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } lun->pr_generation++; mtx_unlock(&lun->lun_lock); persis_io.hdr.nexus = ctsio->io_hdr.nexus; persis_io.hdr.msg_type = CTL_MSG_PERS_ACTION; persis_io.pr.pr_info.action = CTL_PR_CLEAR; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &persis_io, sizeof(persis_io.pr), M_WAITOK); break; case SPRO_PREEMPT: case SPRO_PRE_ABO: { int nretval; nretval = ctl_pro_preempt(softc, lun, res_key, sa_res_key, type, residx, ctsio, cdb, param); if (nretval != 0) return (CTL_RETVAL_COMPLETE); break; } default: panic("%s: Invalid PR type %#x", __func__, cdb->action); } done: free(ctsio->kern_data_ptr, M_CTL); ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (retval); } /* * This routine is for handling a message from the other SC pertaining to * persistent reserve out. All the error checking will have been done * so only performing the action need be done here to keep the two * in sync. */ static void ctl_hndl_per_res_out_on_other_sc(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); union ctl_ha_msg *msg = (union ctl_ha_msg *)&io->presio.pr_msg; struct ctl_lun *lun; int i; uint32_t residx, targ_lun; targ_lun = msg->hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); return; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if (lun->flags & CTL_LUN_DISABLED) { mtx_unlock(&lun->lun_lock); return; } residx = ctl_get_initindex(&msg->hdr.nexus); switch(msg->pr.pr_info.action) { case CTL_PR_REG_KEY: ctl_alloc_prkey(lun, msg->pr.pr_info.residx); if (ctl_get_prkey(lun, msg->pr.pr_info.residx) == 0) lun->pr_key_count++; ctl_set_prkey(lun, msg->pr.pr_info.residx, scsi_8btou64(msg->pr.pr_info.sa_res_key)); lun->pr_generation++; break; case CTL_PR_UNREG_KEY: ctl_clr_prkey(lun, msg->pr.pr_info.residx); lun->pr_key_count--; /* XXX Need to see if the reservation has been released */ /* if so do we need to generate UA? */ if (msg->pr.pr_info.residx == lun->pr_res_idx) { lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_idx = CTL_PR_NO_RESERVATION; if ((lun->pr_res_type == SPR_TYPE_WR_EX_RO || lun->pr_res_type == SPR_TYPE_EX_AC_RO) && lun->pr_key_count) { /* * If the reservation is a registrants * only type we need to generate a UA * for other registered inits. The * sense code should be RESERVATIONS * RELEASED */ for (i = softc->init_min; i < softc->init_max; i++) { if (ctl_get_prkey(lun, i) == 0) continue; ctl_est_ua(lun, i, CTL_UA_RES_RELEASE); } } lun->pr_res_type = 0; } else if (lun->pr_res_idx == CTL_PR_ALL_REGISTRANTS) { if (lun->pr_key_count==0) { lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_type = 0; lun->pr_res_idx = CTL_PR_NO_RESERVATION; } } lun->pr_generation++; break; case CTL_PR_RESERVE: lun->flags |= CTL_LUN_PR_RESERVED; lun->pr_res_type = msg->pr.pr_info.res_type; lun->pr_res_idx = msg->pr.pr_info.residx; break; case CTL_PR_RELEASE: /* * If this isn't an exclusive access reservation and NUAR * is not set, generate UA for all other registrants. */ if (lun->pr_res_type != SPR_TYPE_EX_AC && lun->pr_res_type != SPR_TYPE_WR_EX && (lun->MODE_CTRL.queue_flags & SCP_NUAR) == 0) { for (i = softc->init_min; i < softc->init_max; i++) { if (i == residx || ctl_get_prkey(lun, i) == 0) continue; ctl_est_ua(lun, i, CTL_UA_RES_RELEASE); } } lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_idx = CTL_PR_NO_RESERVATION; lun->pr_res_type = 0; break; case CTL_PR_PREEMPT: ctl_pro_preempt_other(lun, msg); break; case CTL_PR_CLEAR: lun->flags &= ~CTL_LUN_PR_RESERVED; lun->pr_res_type = 0; lun->pr_key_count = 0; lun->pr_res_idx = CTL_PR_NO_RESERVATION; for (i=0; i < CTL_MAX_INITIATORS; i++) { if (ctl_get_prkey(lun, i) == 0) continue; ctl_clr_prkey(lun, i); ctl_est_ua(lun, i, CTL_UA_REG_PREEMPT); } lun->pr_generation++; break; } mtx_unlock(&lun->lun_lock); } int ctl_read_write(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct ctl_lba_len_flags *lbalen; uint64_t lba; uint32_t num_blocks; int flags, retval; int isread; CTL_DEBUG_PRINT(("ctl_read_write: command: %#x\n", ctsio->cdb[0])); flags = 0; isread = ctsio->cdb[0] == READ_6 || ctsio->cdb[0] == READ_10 || ctsio->cdb[0] == READ_12 || ctsio->cdb[0] == READ_16; switch (ctsio->cdb[0]) { case READ_6: case WRITE_6: { struct scsi_rw_6 *cdb; cdb = (struct scsi_rw_6 *)ctsio->cdb; lba = scsi_3btoul(cdb->addr); /* only 5 bits are valid in the most significant address byte */ lba &= 0x1fffff; num_blocks = cdb->length; /* * This is correct according to SBC-2. */ if (num_blocks == 0) num_blocks = 256; break; } case READ_10: case WRITE_10: { struct scsi_rw_10 *cdb; cdb = (struct scsi_rw_10 *)ctsio->cdb; if (cdb->byte2 & SRW10_FUA) flags |= CTL_LLF_FUA; if (cdb->byte2 & SRW10_DPO) flags |= CTL_LLF_DPO; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_2btoul(cdb->length); break; } case WRITE_VERIFY_10: { struct scsi_write_verify_10 *cdb; cdb = (struct scsi_write_verify_10 *)ctsio->cdb; flags |= CTL_LLF_FUA; if (cdb->byte2 & SWV_DPO) flags |= CTL_LLF_DPO; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_2btoul(cdb->length); break; } case READ_12: case WRITE_12: { struct scsi_rw_12 *cdb; cdb = (struct scsi_rw_12 *)ctsio->cdb; if (cdb->byte2 & SRW12_FUA) flags |= CTL_LLF_FUA; if (cdb->byte2 & SRW12_DPO) flags |= CTL_LLF_DPO; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_4btoul(cdb->length); break; } case WRITE_VERIFY_12: { struct scsi_write_verify_12 *cdb; cdb = (struct scsi_write_verify_12 *)ctsio->cdb; flags |= CTL_LLF_FUA; if (cdb->byte2 & SWV_DPO) flags |= CTL_LLF_DPO; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_4btoul(cdb->length); break; } case READ_16: case WRITE_16: { struct scsi_rw_16 *cdb; cdb = (struct scsi_rw_16 *)ctsio->cdb; if (cdb->byte2 & SRW12_FUA) flags |= CTL_LLF_FUA; if (cdb->byte2 & SRW12_DPO) flags |= CTL_LLF_DPO; lba = scsi_8btou64(cdb->addr); num_blocks = scsi_4btoul(cdb->length); break; } case WRITE_ATOMIC_16: { struct scsi_write_atomic_16 *cdb; if (lun->be_lun->atomicblock == 0) { ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } cdb = (struct scsi_write_atomic_16 *)ctsio->cdb; if (cdb->byte2 & SRW12_FUA) flags |= CTL_LLF_FUA; if (cdb->byte2 & SRW12_DPO) flags |= CTL_LLF_DPO; lba = scsi_8btou64(cdb->addr); num_blocks = scsi_2btoul(cdb->length); if (num_blocks > lun->be_lun->atomicblock) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 12, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } break; } case WRITE_VERIFY_16: { struct scsi_write_verify_16 *cdb; cdb = (struct scsi_write_verify_16 *)ctsio->cdb; flags |= CTL_LLF_FUA; if (cdb->byte2 & SWV_DPO) flags |= CTL_LLF_DPO; lba = scsi_8btou64(cdb->addr); num_blocks = scsi_4btoul(cdb->length); break; } default: /* * We got a command we don't support. This shouldn't * happen, commands should be filtered out above us. */ ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); break; /* NOTREACHED */ } /* * The first check is to make sure we're in bounds, the second * check is to catch wrap-around problems. If the lba + num blocks * is less than the lba, then we've wrapped around and the block * range is invalid anyway. */ if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) || ((lba + num_blocks) < lba)) { ctl_set_lba_out_of_range(ctsio, MAX(lba, lun->be_lun->maxlba + 1)); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * According to SBC-3, a transfer length of 0 is not an error. * Note that this cannot happen with WRITE(6) or READ(6), since 0 * translates to 256 blocks for those commands. */ if (num_blocks == 0) { ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* Set FUA and/or DPO if caches are disabled. */ if (isread) { if ((lun->MODE_CACHING.flags1 & SCP_RCD) != 0) flags |= CTL_LLF_FUA | CTL_LLF_DPO; } else { if ((lun->MODE_CACHING.flags1 & SCP_WCE) == 0) flags |= CTL_LLF_FUA; } lbalen = (struct ctl_lba_len_flags *) &ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba = lba; lbalen->len = num_blocks; lbalen->flags = (isread ? CTL_LLF_READ : CTL_LLF_WRITE) | flags; ctsio->kern_total_len = num_blocks * lun->be_lun->blocksize; ctsio->kern_rel_offset = 0; CTL_DEBUG_PRINT(("ctl_read_write: calling data_submit()\n")); retval = lun->backend->data_submit((union ctl_io *)ctsio); return (retval); } static int ctl_cnw_cont(union ctl_io *io) { struct ctl_lun *lun = CTL_LUN(io); struct ctl_scsiio *ctsio; struct ctl_lba_len_flags *lbalen; int retval; CTL_IO_ASSERT(io, SCSI); ctsio = &io->scsiio; ctsio->io_hdr.status = CTL_STATUS_NONE; ctsio->io_hdr.flags &= ~CTL_FLAG_IO_CONT; lbalen = (struct ctl_lba_len_flags *) &ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->flags &= ~CTL_LLF_COMPARE; lbalen->flags |= CTL_LLF_WRITE; CTL_DEBUG_PRINT(("ctl_cnw_cont: calling data_submit()\n")); retval = lun->backend->data_submit((union ctl_io *)ctsio); return (retval); } int ctl_cnw(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct ctl_lba_len_flags *lbalen; uint64_t lba; uint32_t num_blocks; int flags, retval; CTL_DEBUG_PRINT(("ctl_cnw: command: %#x\n", ctsio->cdb[0])); flags = 0; switch (ctsio->cdb[0]) { case COMPARE_AND_WRITE: { struct scsi_compare_and_write *cdb; cdb = (struct scsi_compare_and_write *)ctsio->cdb; if (cdb->byte2 & SRW10_FUA) flags |= CTL_LLF_FUA; if (cdb->byte2 & SRW10_DPO) flags |= CTL_LLF_DPO; lba = scsi_8btou64(cdb->addr); num_blocks = cdb->length; break; } default: /* * We got a command we don't support. This shouldn't * happen, commands should be filtered out above us. */ ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); break; /* NOTREACHED */ } /* * The first check is to make sure we're in bounds, the second * check is to catch wrap-around problems. If the lba + num blocks * is less than the lba, then we've wrapped around and the block * range is invalid anyway. */ if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) || ((lba + num_blocks) < lba)) { ctl_set_lba_out_of_range(ctsio, MAX(lba, lun->be_lun->maxlba + 1)); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * According to SBC-3, a transfer length of 0 is not an error. */ if (num_blocks == 0) { ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* Set FUA if write cache is disabled. */ if ((lun->MODE_CACHING.flags1 & SCP_WCE) == 0) flags |= CTL_LLF_FUA; ctsio->kern_total_len = 2 * num_blocks * lun->be_lun->blocksize; ctsio->kern_rel_offset = 0; /* * Set the IO_CONT flag, so that if this I/O gets passed to * ctl_data_submit_done(), it'll get passed back to * ctl_ctl_cnw_cont() for further processing. */ ctsio->io_hdr.flags |= CTL_FLAG_IO_CONT; ctsio->io_cont = ctl_cnw_cont; lbalen = (struct ctl_lba_len_flags *) &ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba = lba; lbalen->len = num_blocks; lbalen->flags = CTL_LLF_COMPARE | flags; CTL_DEBUG_PRINT(("ctl_cnw: calling data_submit()\n")); retval = lun->backend->data_submit((union ctl_io *)ctsio); return (retval); } int ctl_verify(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct ctl_lba_len_flags *lbalen; uint64_t lba; uint32_t num_blocks; int bytchk, flags; int retval; CTL_DEBUG_PRINT(("ctl_verify: command: %#x\n", ctsio->cdb[0])); bytchk = 0; flags = CTL_LLF_FUA; switch (ctsio->cdb[0]) { case VERIFY_10: { struct scsi_verify_10 *cdb; cdb = (struct scsi_verify_10 *)ctsio->cdb; if (cdb->byte2 & SVFY_BYTCHK) bytchk = 1; if (cdb->byte2 & SVFY_DPO) flags |= CTL_LLF_DPO; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_2btoul(cdb->length); break; } case VERIFY_12: { struct scsi_verify_12 *cdb; cdb = (struct scsi_verify_12 *)ctsio->cdb; if (cdb->byte2 & SVFY_BYTCHK) bytchk = 1; if (cdb->byte2 & SVFY_DPO) flags |= CTL_LLF_DPO; lba = scsi_4btoul(cdb->addr); num_blocks = scsi_4btoul(cdb->length); break; } case VERIFY_16: { struct scsi_rw_16 *cdb; cdb = (struct scsi_rw_16 *)ctsio->cdb; if (cdb->byte2 & SVFY_BYTCHK) bytchk = 1; if (cdb->byte2 & SVFY_DPO) flags |= CTL_LLF_DPO; lba = scsi_8btou64(cdb->addr); num_blocks = scsi_4btoul(cdb->length); break; } default: /* * We got a command we don't support. This shouldn't * happen, commands should be filtered out above us. */ ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * The first check is to make sure we're in bounds, the second * check is to catch wrap-around problems. If the lba + num blocks * is less than the lba, then we've wrapped around and the block * range is invalid anyway. */ if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) || ((lba + num_blocks) < lba)) { ctl_set_lba_out_of_range(ctsio, MAX(lba, lun->be_lun->maxlba + 1)); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * According to SBC-3, a transfer length of 0 is not an error. */ if (num_blocks == 0) { ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } lbalen = (struct ctl_lba_len_flags *) &ctsio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; lbalen->lba = lba; lbalen->len = num_blocks; if (bytchk) { lbalen->flags = CTL_LLF_COMPARE | flags; ctsio->kern_total_len = num_blocks * lun->be_lun->blocksize; } else { lbalen->flags = CTL_LLF_VERIFY | flags; ctsio->kern_total_len = 0; } ctsio->kern_rel_offset = 0; CTL_DEBUG_PRINT(("ctl_verify: calling data_submit()\n")); retval = lun->backend->data_submit((union ctl_io *)ctsio); return (retval); } int ctl_report_luns(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_port *port = CTL_PORT(ctsio); struct ctl_lun *lun, *request_lun = CTL_LUN(ctsio); struct scsi_report_luns *cdb; struct scsi_report_luns_data *lun_data; int num_filled, num_luns, num_port_luns, retval; uint32_t alloc_len, lun_datalen; uint32_t initidx, targ_lun_id, lun_id; retval = CTL_RETVAL_COMPLETE; cdb = (struct scsi_report_luns *)ctsio->cdb; CTL_DEBUG_PRINT(("ctl_report_luns\n")); num_luns = 0; num_port_luns = port->lun_map ? port->lun_map_size : ctl_max_luns; mtx_lock(&softc->ctl_lock); for (targ_lun_id = 0; targ_lun_id < num_port_luns; targ_lun_id++) { if (ctl_lun_map_from_port(port, targ_lun_id) != UINT32_MAX) num_luns++; } mtx_unlock(&softc->ctl_lock); switch (cdb->select_report) { case RPL_REPORT_DEFAULT: case RPL_REPORT_ALL: case RPL_REPORT_NONSUBSID: break; case RPL_REPORT_WELLKNOWN: case RPL_REPORT_ADMIN: case RPL_REPORT_CONGLOM: num_luns = 0; break; default: ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (retval); break; /* NOTREACHED */ } alloc_len = scsi_4btoul(cdb->length); /* * The initiator has to allocate at least 16 bytes for this request, * so he can at least get the header and the first LUN. Otherwise * we reject the request (per SPC-3 rev 14, section 6.21). */ if (alloc_len < (sizeof(struct scsi_report_luns_data) + sizeof(struct scsi_report_luns_lundata))) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 6, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (retval); } lun_datalen = sizeof(*lun_data) + (num_luns * sizeof(struct scsi_report_luns_lundata)); ctsio->kern_data_ptr = malloc(lun_datalen, M_CTL, M_WAITOK | M_ZERO); lun_data = (struct scsi_report_luns_data *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; initidx = ctl_get_initindex(&ctsio->io_hdr.nexus); mtx_lock(&softc->ctl_lock); for (targ_lun_id = 0, num_filled = 0; targ_lun_id < num_port_luns && num_filled < num_luns; targ_lun_id++) { lun_id = ctl_lun_map_from_port(port, targ_lun_id); if (lun_id == UINT32_MAX) continue; lun = softc->ctl_luns[lun_id]; if (lun == NULL) continue; be64enc(lun_data->luns[num_filled++].lundata, ctl_encode_lun(targ_lun_id)); /* * According to SPC-3, rev 14 section 6.21: * * "The execution of a REPORT LUNS command to any valid and * installed logical unit shall clear the REPORTED LUNS DATA * HAS CHANGED unit attention condition for all logical * units of that target with respect to the requesting * initiator. A valid and installed logical unit is one * having a PERIPHERAL QUALIFIER of 000b in the standard * INQUIRY data (see 6.4.2)." * * If request_lun is NULL, the LUN this report luns command * was issued to is either disabled or doesn't exist. In that * case, we shouldn't clear any pending lun change unit * attention. */ if (request_lun != NULL) { mtx_lock(&lun->lun_lock); ctl_clr_ua(lun, initidx, CTL_UA_LUN_CHANGE); mtx_unlock(&lun->lun_lock); } } mtx_unlock(&softc->ctl_lock); /* * It's quite possible that we've returned fewer LUNs than we allocated * space for. Trim it. */ lun_datalen = sizeof(*lun_data) + (num_filled * sizeof(struct scsi_report_luns_lundata)); ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(lun_datalen, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * We set this to the actual data length, regardless of how much * space we actually have to return results. If the user looks at * this value, he'll know whether or not he allocated enough space * and reissue the command if necessary. We don't support well * known logical units, so if the user asks for that, return none. */ scsi_ulto4b(lun_datalen - 8, lun_data->length); /* * We can only return SCSI_STATUS_CHECK_COND when we can't satisfy * this request. */ ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (retval); } int ctl_request_sense(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_request_sense *cdb; struct scsi_sense_data *sense_ptr, *ps; uint32_t initidx; int have_error; u_int sense_len = SSD_FULL_SIZE; scsi_sense_data_type sense_format; ctl_ua_type ua_type; uint8_t asc = 0, ascq = 0; cdb = (struct scsi_request_sense *)ctsio->cdb; CTL_DEBUG_PRINT(("ctl_request_sense\n")); /* * Determine which sense format the user wants. */ if (cdb->byte2 & SRS_DESC) sense_format = SSD_TYPE_DESC; else sense_format = SSD_TYPE_FIXED; ctsio->kern_data_ptr = malloc(sizeof(*sense_ptr), M_CTL, M_WAITOK); sense_ptr = (struct scsi_sense_data *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; /* * struct scsi_sense_data, which is currently set to 256 bytes, is * larger than the largest allowed value for the length field in the * REQUEST SENSE CDB, which is 252 bytes as of SPC-4. */ ctsio->kern_data_len = cdb->length; ctsio->kern_total_len = cdb->length; /* * If we don't have a LUN, we don't have any pending sense. */ if (lun == NULL || ((lun->flags & CTL_LUN_PRIMARY_SC) == 0 && softc->ha_link < CTL_HA_LINK_UNKNOWN)) { /* "Logical unit not supported" */ ctl_set_sense_data(sense_ptr, &sense_len, NULL, sense_format, /*current_error*/ 1, /*sense_key*/ SSD_KEY_ILLEGAL_REQUEST, /*asc*/ 0x25, /*ascq*/ 0x00, SSD_ELEM_NONE); goto send; } have_error = 0; initidx = ctl_get_initindex(&ctsio->io_hdr.nexus); /* * Check for pending sense, and then for pending unit attentions. * Pending sense gets returned first, then pending unit attentions. */ mtx_lock(&lun->lun_lock); ps = lun->pending_sense[initidx / CTL_MAX_INIT_PER_PORT]; if (ps != NULL) ps += initidx % CTL_MAX_INIT_PER_PORT; if (ps != NULL && ps->error_code != 0) { scsi_sense_data_type stored_format; /* * Check to see which sense format was used for the stored * sense data. */ stored_format = scsi_sense_type(ps); /* * If the user requested a different sense format than the * one we stored, then we need to convert it to the other * format. If we're going from descriptor to fixed format * sense data, we may lose things in translation, depending * on what options were used. * * If the stored format is SSD_TYPE_NONE (i.e. invalid), * for some reason we'll just copy it out as-is. */ if ((stored_format == SSD_TYPE_FIXED) && (sense_format == SSD_TYPE_DESC)) ctl_sense_to_desc((struct scsi_sense_data_fixed *) ps, (struct scsi_sense_data_desc *)sense_ptr); else if ((stored_format == SSD_TYPE_DESC) && (sense_format == SSD_TYPE_FIXED)) ctl_sense_to_fixed((struct scsi_sense_data_desc *) ps, (struct scsi_sense_data_fixed *)sense_ptr); else memcpy(sense_ptr, ps, sizeof(*sense_ptr)); ps->error_code = 0; have_error = 1; } else { ua_type = ctl_build_ua(lun, initidx, sense_ptr, &sense_len, sense_format); if (ua_type != CTL_UA_NONE) have_error = 1; } if (have_error == 0) { /* * Report informational exception if have one and allowed. */ if (lun->MODE_IE.mrie != SIEP_MRIE_NO) { asc = lun->ie_asc; ascq = lun->ie_ascq; } ctl_set_sense_data(sense_ptr, &sense_len, lun, sense_format, /*current_error*/ 1, /*sense_key*/ SSD_KEY_NO_SENSE, /*asc*/ asc, /*ascq*/ ascq, SSD_ELEM_NONE); } mtx_unlock(&lun->lun_lock); send: /* * We report the SCSI status as OK, since the status of the command * itself is OK. We're reporting sense as parameter data. */ ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_tur(struct ctl_scsiio *ctsio) { CTL_DEBUG_PRINT(("ctl_tur\n")); ctl_set_success(ctsio); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * SCSI VPD page 0x00, the Supported VPD Pages page. */ static int ctl_inquiry_evpd_supported(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_supported_pages *pages; int sup_page_size; int p; sup_page_size = sizeof(struct scsi_vpd_supported_pages) * SCSI_EVPD_NUM_SUPPORTED_PAGES; ctsio->kern_data_ptr = malloc(sup_page_size, M_CTL, M_WAITOK | M_ZERO); pages = (struct scsi_vpd_supported_pages *)ctsio->kern_data_ptr; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(sup_page_size, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) pages->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else pages->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; p = 0; /* Supported VPD pages */ pages->page_list[p++] = SVPD_SUPPORTED_PAGES; /* Serial Number */ pages->page_list[p++] = SVPD_UNIT_SERIAL_NUMBER; /* Device Identification */ pages->page_list[p++] = SVPD_DEVICE_ID; /* Extended INQUIRY Data */ pages->page_list[p++] = SVPD_EXTENDED_INQUIRY_DATA; /* Mode Page Policy */ pages->page_list[p++] = SVPD_MODE_PAGE_POLICY; /* SCSI Ports */ pages->page_list[p++] = SVPD_SCSI_PORTS; /* Third-party Copy */ pages->page_list[p++] = SVPD_SCSI_TPC; /* SCSI Feature Sets */ pages->page_list[p++] = SVPD_SCSI_SFS; if (lun != NULL && lun->be_lun->lun_type == T_DIRECT) { /* Block limits */ pages->page_list[p++] = SVPD_BLOCK_LIMITS; /* Block Device Characteristics */ pages->page_list[p++] = SVPD_BDC; /* Logical Block Provisioning */ pages->page_list[p++] = SVPD_LBP; } pages->length = p; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * SCSI VPD page 0x80, the Unit Serial Number page. */ static int ctl_inquiry_evpd_serial(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_unit_serial_number *sn_ptr; int data_len; data_len = 4 + CTL_SN_LEN; ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); sn_ptr = (struct scsi_vpd_unit_serial_number *)ctsio->kern_data_ptr; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) sn_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else sn_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; sn_ptr->page_code = SVPD_UNIT_SERIAL_NUMBER; sn_ptr->length = CTL_SN_LEN; /* * If we don't have a LUN, we just leave the serial number as * all spaces. */ if (lun != NULL) { strncpy((char *)sn_ptr->serial_num, (char *)lun->be_lun->serial_num, CTL_SN_LEN); } else memset(sn_ptr->serial_num, 0x20, CTL_SN_LEN); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * SCSI VPD page 0x86, the Extended INQUIRY Data page. */ static int ctl_inquiry_evpd_eid(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_extended_inquiry_data *eid_ptr; int data_len; data_len = sizeof(struct scsi_vpd_extended_inquiry_data); ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); eid_ptr = (struct scsi_vpd_extended_inquiry_data *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. */ if (lun != NULL) eid_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else eid_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; eid_ptr->page_code = SVPD_EXTENDED_INQUIRY_DATA; scsi_ulto2b(data_len - 4, eid_ptr->page_length); /* * We support head of queue, ordered and simple tags. */ eid_ptr->flags2 = SVPD_EID_HEADSUP | SVPD_EID_ORDSUP | SVPD_EID_SIMPSUP; /* * Volatile cache supported. */ eid_ptr->flags3 = SVPD_EID_V_SUP; /* * This means that we clear the REPORTED LUNS DATA HAS CHANGED unit * attention for a particular IT nexus on all LUNs once we report * it to that nexus once. This bit is required as of SPC-4. */ eid_ptr->flags4 = SVPD_EID_LUICLR; /* * We support revert to defaults (RTD) bit in MODE SELECT. */ eid_ptr->flags5 = SVPD_EID_RTD_SUP; /* * XXX KDM in order to correctly answer this, we would need * information from the SIM to determine how much sense data it * can send. So this would really be a path inquiry field, most * likely. This can be set to a maximum of 252 according to SPC-4, * but the hardware may or may not be able to support that much. * 0 just means that the maximum sense data length is not reported. */ eid_ptr->max_sense_length = 0; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_inquiry_evpd_mpp(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_mode_page_policy *mpp_ptr; int data_len; data_len = sizeof(struct scsi_vpd_mode_page_policy) + sizeof(struct scsi_vpd_mode_page_policy_descr); ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); mpp_ptr = (struct scsi_vpd_mode_page_policy *)ctsio->kern_data_ptr; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. */ if (lun != NULL) mpp_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else mpp_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; mpp_ptr->page_code = SVPD_MODE_PAGE_POLICY; scsi_ulto2b(data_len - 4, mpp_ptr->page_length); mpp_ptr->descr[0].page_code = 0x3f; mpp_ptr->descr[0].subpage_code = 0xff; mpp_ptr->descr[0].policy = SVPD_MPP_SHARED; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * SCSI VPD page 0x83, the Device Identification page. */ static int ctl_inquiry_evpd_devid(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_port *port = CTL_PORT(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_device_id *devid_ptr; struct scsi_vpd_id_descriptor *desc; int data_len, g; uint8_t proto; data_len = sizeof(struct scsi_vpd_device_id) + sizeof(struct scsi_vpd_id_descriptor) + sizeof(struct scsi_vpd_id_rel_trgt_port_id) + sizeof(struct scsi_vpd_id_descriptor) + sizeof(struct scsi_vpd_id_trgt_port_grp_id); if (lun && lun->lun_devid) data_len += lun->lun_devid->len; if (port && port->port_devid) data_len += port->port_devid->len; if (port && port->target_devid) data_len += port->target_devid->len; ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); devid_ptr = (struct scsi_vpd_device_id *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. */ if (lun != NULL) devid_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else devid_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; devid_ptr->page_code = SVPD_DEVICE_ID; scsi_ulto2b(data_len - 4, devid_ptr->length); if (port && port->port_type == CTL_PORT_FC) proto = SCSI_PROTO_FC << 4; else if (port && port->port_type == CTL_PORT_SAS) proto = SCSI_PROTO_SAS << 4; else if (port && port->port_type == CTL_PORT_ISCSI) proto = SCSI_PROTO_ISCSI << 4; else proto = SCSI_PROTO_SPI << 4; desc = (struct scsi_vpd_id_descriptor *)devid_ptr->desc_list; /* * We're using a LUN association here. i.e., this device ID is a * per-LUN identifier. */ if (lun && lun->lun_devid) { memcpy(desc, lun->lun_devid->data, lun->lun_devid->len); desc = (struct scsi_vpd_id_descriptor *)((uint8_t *)desc + lun->lun_devid->len); } /* * This is for the WWPN which is a port association. */ if (port && port->port_devid) { memcpy(desc, port->port_devid->data, port->port_devid->len); desc = (struct scsi_vpd_id_descriptor *)((uint8_t *)desc + port->port_devid->len); } /* * This is for the Relative Target Port(type 4h) identifier */ desc->proto_codeset = proto | SVPD_ID_CODESET_BINARY; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_PORT | SVPD_ID_TYPE_RELTARG; desc->length = 4; scsi_ulto2b(ctsio->io_hdr.nexus.targ_port, &desc->identifier[2]); desc = (struct scsi_vpd_id_descriptor *)(&desc->identifier[0] + sizeof(struct scsi_vpd_id_rel_trgt_port_id)); /* * This is for the Target Port Group(type 5h) identifier */ desc->proto_codeset = proto | SVPD_ID_CODESET_BINARY; desc->id_type = SVPD_ID_PIV | SVPD_ID_ASSOC_PORT | SVPD_ID_TYPE_TPORTGRP; desc->length = 4; if (softc->is_single || (port && port->status & CTL_PORT_STATUS_HA_SHARED)) g = 1; else g = 2 + ctsio->io_hdr.nexus.targ_port / softc->port_cnt; scsi_ulto2b(g, &desc->identifier[2]); desc = (struct scsi_vpd_id_descriptor *)(&desc->identifier[0] + sizeof(struct scsi_vpd_id_trgt_port_grp_id)); /* * This is for the Target identifier */ if (port && port->target_devid) { memcpy(desc, port->target_devid->data, port->target_devid->len); } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_inquiry_evpd_scsi_ports(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_scsi_ports *sp; struct scsi_vpd_port_designation *pd; struct scsi_vpd_port_designation_cont *pdc; struct ctl_port *port; int data_len, num_target_ports, iid_len, id_len; num_target_ports = 0; iid_len = 0; id_len = 0; mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(port, &softc->port_list, links) { if ((port->status & CTL_PORT_STATUS_ONLINE) == 0) continue; if (lun != NULL && ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; num_target_ports++; if (port->init_devid) iid_len += port->init_devid->len; if (port->port_devid) id_len += port->port_devid->len; } mtx_unlock(&softc->ctl_lock); data_len = sizeof(struct scsi_vpd_scsi_ports) + num_target_ports * (sizeof(struct scsi_vpd_port_designation) + sizeof(struct scsi_vpd_port_designation_cont)) + iid_len + id_len; ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); sp = (struct scsi_vpd_scsi_ports *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) sp->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else sp->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; sp->page_code = SVPD_SCSI_PORTS; scsi_ulto2b(data_len - sizeof(struct scsi_vpd_scsi_ports), sp->page_length); pd = &sp->design[0]; mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(port, &softc->port_list, links) { if ((port->status & CTL_PORT_STATUS_ONLINE) == 0) continue; if (lun != NULL && ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; scsi_ulto2b(port->targ_port, pd->relative_port_id); if (port->init_devid) { iid_len = port->init_devid->len; memcpy(pd->initiator_transportid, port->init_devid->data, port->init_devid->len); } else iid_len = 0; scsi_ulto2b(iid_len, pd->initiator_transportid_length); pdc = (struct scsi_vpd_port_designation_cont *) (&pd->initiator_transportid[iid_len]); if (port->port_devid) { id_len = port->port_devid->len; memcpy(pdc->target_port_descriptors, port->port_devid->data, port->port_devid->len); } else id_len = 0; scsi_ulto2b(id_len, pdc->target_port_descriptors_length); pd = (struct scsi_vpd_port_designation *) ((uint8_t *)pdc->target_port_descriptors + id_len); } mtx_unlock(&softc->ctl_lock); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_inquiry_evpd_sfs(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_sfs *sfs_ptr; int sfs_page_size, n; sfs_page_size = sizeof(*sfs_ptr) + 5 * 2; ctsio->kern_data_ptr = malloc(sfs_page_size, M_CTL, M_WAITOK | M_ZERO); sfs_ptr = (struct scsi_vpd_sfs *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(sfs_page_size, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) sfs_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else sfs_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; sfs_ptr->page_code = SVPD_SCSI_SFS; n = 0; /* Discovery 2016 */ scsi_ulto2b(0x0001, &sfs_ptr->codes[2 * n++]); if (lun != NULL && lun->be_lun->lun_type == T_DIRECT) { /* SBC Base 2016 */ scsi_ulto2b(0x0101, &sfs_ptr->codes[2 * n++]); /* SBC Base 2010 */ scsi_ulto2b(0x0102, &sfs_ptr->codes[2 * n++]); if (lun->be_lun->flags & CTL_LUN_FLAG_UNMAP) { /* Basic Provisioning 2016 */ scsi_ulto2b(0x0103, &sfs_ptr->codes[2 * n++]); } /* Drive Maintenance 2016 */ //scsi_ulto2b(0x0104, &sfs_ptr->codes[2 * n++]); } scsi_ulto2b(4 + 2 * n, sfs_ptr->page_length); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_inquiry_evpd_block_limits(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_block_limits *bl_ptr; const char *val; uint64_t ival; ctsio->kern_data_ptr = malloc(sizeof(*bl_ptr), M_CTL, M_WAITOK | M_ZERO); bl_ptr = (struct scsi_vpd_block_limits *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_sg_entries = 0; ctsio->kern_data_len = min(sizeof(*bl_ptr), alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) bl_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else bl_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; bl_ptr->page_code = SVPD_BLOCK_LIMITS; scsi_ulto2b(sizeof(*bl_ptr) - 4, bl_ptr->page_length); bl_ptr->max_cmp_write_len = 0xff; scsi_ulto4b(0xffffffff, bl_ptr->max_txfer_len); if (lun != NULL) { scsi_ulto4b(lun->be_lun->opttxferlen, bl_ptr->opt_txfer_len); if (lun->be_lun->flags & CTL_LUN_FLAG_UNMAP) { ival = 0xffffffff; val = dnvlist_get_string(lun->be_lun->options, "unmap_max_lba", NULL); if (val != NULL) ctl_expand_number(val, &ival); scsi_ulto4b(ival, bl_ptr->max_unmap_lba_cnt); ival = 0xffffffff; val = dnvlist_get_string(lun->be_lun->options, "unmap_max_descr", NULL); if (val != NULL) ctl_expand_number(val, &ival); scsi_ulto4b(ival, bl_ptr->max_unmap_blk_cnt); if (lun->be_lun->ublockexp != 0) { scsi_ulto4b((1 << lun->be_lun->ublockexp), bl_ptr->opt_unmap_grain); scsi_ulto4b(0x80000000 | lun->be_lun->ublockoff, bl_ptr->unmap_grain_align); } } scsi_ulto4b(lun->be_lun->atomicblock, bl_ptr->max_atomic_transfer_length); scsi_ulto4b(0, bl_ptr->atomic_alignment); scsi_ulto4b(0, bl_ptr->atomic_transfer_length_granularity); scsi_ulto4b(0, bl_ptr->max_atomic_transfer_length_with_atomic_boundary); scsi_ulto4b(0, bl_ptr->max_atomic_boundary_size); ival = UINT64_MAX; val = dnvlist_get_string(lun->be_lun->options, "write_same_max_lba", NULL); if (val != NULL) ctl_expand_number(val, &ival); scsi_u64to8b(ival, bl_ptr->max_write_same_length); if (lun->be_lun->maxlba + 1 > ival) bl_ptr->flags |= SVPD_BL_WSNZ; } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_inquiry_evpd_bdc(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_block_device_characteristics *bdc_ptr; const char *value; u_int i; ctsio->kern_data_ptr = malloc(sizeof(*bdc_ptr), M_CTL, M_WAITOK | M_ZERO); bdc_ptr = (struct scsi_vpd_block_device_characteristics *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(sizeof(*bdc_ptr), alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) bdc_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else bdc_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; bdc_ptr->page_code = SVPD_BDC; scsi_ulto2b(sizeof(*bdc_ptr) - 4, bdc_ptr->page_length); if (lun != NULL && (value = dnvlist_get_string(lun->be_lun->options, "rpm", NULL)) != NULL) i = strtol(value, NULL, 0); else i = CTL_DEFAULT_ROTATION_RATE; scsi_ulto2b(i, bdc_ptr->medium_rotation_rate); if (lun != NULL && (value = dnvlist_get_string(lun->be_lun->options, "formfactor", NULL)) != NULL) i = strtol(value, NULL, 0); else i = 0; bdc_ptr->wab_wac_ff = (i & 0x0f); bdc_ptr->flags = SVPD_RBWZ | SVPD_FUAB | SVPD_VBULS; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static int ctl_inquiry_evpd_lbp(struct ctl_scsiio *ctsio, int alloc_len) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_vpd_logical_block_prov *lbp_ptr; const char *value; ctsio->kern_data_ptr = malloc(sizeof(*lbp_ptr), M_CTL, M_WAITOK | M_ZERO); lbp_ptr = (struct scsi_vpd_logical_block_prov *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(sizeof(*lbp_ptr), alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; /* * The control device is always connected. The disk device, on the * other hand, may not be online all the time. Need to change this * to figure out whether the disk device is actually online or not. */ if (lun != NULL) lbp_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; else lbp_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | T_DIRECT; lbp_ptr->page_code = SVPD_LBP; scsi_ulto2b(sizeof(*lbp_ptr) - 4, lbp_ptr->page_length); lbp_ptr->threshold_exponent = CTL_LBP_EXPONENT; if (lun != NULL && lun->be_lun->flags & CTL_LUN_FLAG_UNMAP) { lbp_ptr->flags = SVPD_LBP_UNMAP | SVPD_LBP_WS16 | SVPD_LBP_WS10 | SVPD_LBP_RZ | SVPD_LBP_ANC_SUP; value = dnvlist_get_string(lun->be_lun->options, "provisioning_type", NULL); if (value != NULL) { if (strcmp(value, "resource") == 0) lbp_ptr->prov_type = SVPD_LBP_RESOURCE; else if (strcmp(value, "thin") == 0) lbp_ptr->prov_type = SVPD_LBP_THIN; } else lbp_ptr->prov_type = SVPD_LBP_THIN; } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } /* * INQUIRY with the EVPD bit set. */ static int ctl_inquiry_evpd(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_inquiry *cdb; int alloc_len, retval; cdb = (struct scsi_inquiry *)ctsio->cdb; alloc_len = scsi_2btoul(cdb->length); switch (cdb->page_code) { case SVPD_SUPPORTED_PAGES: retval = ctl_inquiry_evpd_supported(ctsio, alloc_len); break; case SVPD_UNIT_SERIAL_NUMBER: retval = ctl_inquiry_evpd_serial(ctsio, alloc_len); break; case SVPD_DEVICE_ID: retval = ctl_inquiry_evpd_devid(ctsio, alloc_len); break; case SVPD_EXTENDED_INQUIRY_DATA: retval = ctl_inquiry_evpd_eid(ctsio, alloc_len); break; case SVPD_MODE_PAGE_POLICY: retval = ctl_inquiry_evpd_mpp(ctsio, alloc_len); break; case SVPD_SCSI_PORTS: retval = ctl_inquiry_evpd_scsi_ports(ctsio, alloc_len); break; case SVPD_SCSI_TPC: retval = ctl_inquiry_evpd_tpc(ctsio, alloc_len); break; case SVPD_SCSI_SFS: retval = ctl_inquiry_evpd_sfs(ctsio, alloc_len); break; case SVPD_BLOCK_LIMITS: if (lun == NULL || lun->be_lun->lun_type != T_DIRECT) goto err; retval = ctl_inquiry_evpd_block_limits(ctsio, alloc_len); break; case SVPD_BDC: if (lun == NULL || lun->be_lun->lun_type != T_DIRECT) goto err; retval = ctl_inquiry_evpd_bdc(ctsio, alloc_len); break; case SVPD_LBP: if (lun == NULL || lun->be_lun->lun_type != T_DIRECT) goto err; retval = ctl_inquiry_evpd_lbp(ctsio, alloc_len); break; default: err: ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); retval = CTL_RETVAL_COMPLETE; break; } return (retval); } /* * Standard INQUIRY data. */ static int ctl_inquiry_std(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_port *port = CTL_PORT(ctsio); struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_inquiry_data *inq_ptr; struct scsi_inquiry *cdb; const char *val; uint32_t alloc_len, data_len; ctl_port_type port_type; port_type = port->port_type; if (port_type == CTL_PORT_IOCTL || port_type == CTL_PORT_INTERNAL) port_type = CTL_PORT_SCSI; cdb = (struct scsi_inquiry *)ctsio->cdb; alloc_len = scsi_2btoul(cdb->length); /* * We malloc the full inquiry data size here and fill it * in. If the user only asks for less, we'll give him * that much. */ data_len = offsetof(struct scsi_inquiry_data, vendor_specific1); ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); inq_ptr = (struct scsi_inquiry_data *)ctsio->kern_data_ptr; ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; if (lun != NULL) { if ((lun->flags & CTL_LUN_PRIMARY_SC) || softc->ha_link >= CTL_HA_LINK_UNKNOWN) { inq_ptr->device = (SID_QUAL_LU_CONNECTED << 5) | lun->be_lun->lun_type; } else { inq_ptr->device = (SID_QUAL_LU_OFFLINE << 5) | lun->be_lun->lun_type; } if (lun->flags & CTL_LUN_REMOVABLE) inq_ptr->dev_qual2 |= SID_RMB; } else inq_ptr->device = (SID_QUAL_BAD_LU << 5) | T_NODEVICE; /* RMB in byte 2 is 0 */ inq_ptr->version = SCSI_REV_SPC5; /* * According to SAM-3, even if a device only supports a single * level of LUN addressing, it should still set the HISUP bit: * * 4.9.1 Logical unit numbers overview * * All logical unit number formats described in this standard are * hierarchical in structure even when only a single level in that * hierarchy is used. The HISUP bit shall be set to one in the * standard INQUIRY data (see SPC-2) when any logical unit number * format described in this standard is used. Non-hierarchical * formats are outside the scope of this standard. * * Therefore we set the HiSup bit here. * * The response format is 2, per SPC-3. */ inq_ptr->response_format = SID_HiSup | 2; inq_ptr->additional_length = data_len - (offsetof(struct scsi_inquiry_data, additional_length) + 1); CTL_DEBUG_PRINT(("additional_length = %d\n", inq_ptr->additional_length)); inq_ptr->spc3_flags = SPC3_SID_3PC | SPC3_SID_TPGS_IMPLICIT; if (port_type == CTL_PORT_SCSI) inq_ptr->spc2_flags = SPC2_SID_ADDR16; inq_ptr->spc2_flags |= SPC2_SID_MultiP; inq_ptr->flags = SID_CmdQue; if (port_type == CTL_PORT_SCSI) inq_ptr->flags |= SID_WBus16 | SID_Sync; /* * Per SPC-3, unused bytes in ASCII strings are filled with spaces. * We have 8 bytes for the vendor name, and 16 bytes for the device * name and 4 bytes for the revision. */ if (lun == NULL || (val = dnvlist_get_string(lun->be_lun->options, "vendor", NULL)) == NULL) { strncpy(inq_ptr->vendor, CTL_VENDOR, sizeof(inq_ptr->vendor)); } else { memset(inq_ptr->vendor, ' ', sizeof(inq_ptr->vendor)); strncpy(inq_ptr->vendor, val, min(sizeof(inq_ptr->vendor), strlen(val))); } if (lun == NULL) { strncpy(inq_ptr->product, CTL_DIRECT_PRODUCT, sizeof(inq_ptr->product)); } else if ((val = dnvlist_get_string(lun->be_lun->options, "product", NULL)) == NULL) { switch (lun->be_lun->lun_type) { case T_DIRECT: strncpy(inq_ptr->product, CTL_DIRECT_PRODUCT, sizeof(inq_ptr->product)); break; case T_PROCESSOR: strncpy(inq_ptr->product, CTL_PROCESSOR_PRODUCT, sizeof(inq_ptr->product)); break; case T_CDROM: strncpy(inq_ptr->product, CTL_CDROM_PRODUCT, sizeof(inq_ptr->product)); break; default: strncpy(inq_ptr->product, CTL_UNKNOWN_PRODUCT, sizeof(inq_ptr->product)); break; } } else { memset(inq_ptr->product, ' ', sizeof(inq_ptr->product)); strncpy(inq_ptr->product, val, min(sizeof(inq_ptr->product), strlen(val))); } /* * XXX make this a macro somewhere so it automatically gets * incremented when we make changes. */ if (lun == NULL || (val = dnvlist_get_string(lun->be_lun->options, "revision", NULL)) == NULL) { strncpy(inq_ptr->revision, "0001", sizeof(inq_ptr->revision)); } else { memset(inq_ptr->revision, ' ', sizeof(inq_ptr->revision)); strncpy(inq_ptr->revision, val, min(sizeof(inq_ptr->revision), strlen(val))); } /* * For parallel SCSI, we support double transition and single * transition clocking. We also support QAS (Quick Arbitration * and Selection) and Information Unit transfers on both the * control and array devices. */ if (port_type == CTL_PORT_SCSI) inq_ptr->spi3data = SID_SPI_CLOCK_DT_ST | SID_SPI_QAS | SID_SPI_IUS; /* SAM-6 (no version claimed) */ scsi_ulto2b(0x00C0, inq_ptr->version1); /* SPC-5 (no version claimed) */ scsi_ulto2b(0x05C0, inq_ptr->version2); if (port_type == CTL_PORT_FC) { /* FCP-2 ANSI INCITS.350:2003 */ scsi_ulto2b(0x0917, inq_ptr->version3); } else if (port_type == CTL_PORT_SCSI) { /* SPI-4 ANSI INCITS.362:200x */ scsi_ulto2b(0x0B56, inq_ptr->version3); } else if (port_type == CTL_PORT_ISCSI) { /* iSCSI (no version claimed) */ scsi_ulto2b(0x0960, inq_ptr->version3); } else if (port_type == CTL_PORT_SAS) { /* SAS (no version claimed) */ scsi_ulto2b(0x0BE0, inq_ptr->version3); } else if (port_type == CTL_PORT_UMASS) { /* USB Mass Storage Class Bulk-Only Transport, Revision 1.0 */ scsi_ulto2b(0x1730, inq_ptr->version3); } if (lun == NULL) { /* SBC-4 (no version claimed) */ scsi_ulto2b(0x0600, inq_ptr->version4); } else { switch (lun->be_lun->lun_type) { case T_DIRECT: /* SBC-4 (no version claimed) */ scsi_ulto2b(0x0600, inq_ptr->version4); break; case T_PROCESSOR: break; case T_CDROM: /* MMC-6 (no version claimed) */ scsi_ulto2b(0x04E0, inq_ptr->version4); break; default: break; } } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_inquiry(struct ctl_scsiio *ctsio) { struct scsi_inquiry *cdb; int retval; CTL_DEBUG_PRINT(("ctl_inquiry\n")); cdb = (struct scsi_inquiry *)ctsio->cdb; if (cdb->byte2 & SI_EVPD) retval = ctl_inquiry_evpd(ctsio); else if (cdb->page_code == 0) retval = ctl_inquiry_std(ctsio); else { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 2, /*bit_valid*/ 0, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } return (retval); } int ctl_get_config(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_get_config_header *hdr; struct scsi_get_config_feature *feature; struct scsi_get_config *cdb; uint32_t alloc_len, data_len; int rt, starting; cdb = (struct scsi_get_config *)ctsio->cdb; rt = (cdb->rt & SGC_RT_MASK); starting = scsi_2btoul(cdb->starting_feature); alloc_len = scsi_2btoul(cdb->length); data_len = sizeof(struct scsi_get_config_header) + sizeof(struct scsi_get_config_feature) + 8 + sizeof(struct scsi_get_config_feature) + 8 + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 8 + sizeof(struct scsi_get_config_feature) + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 4 + sizeof(struct scsi_get_config_feature) + 4; ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; hdr = (struct scsi_get_config_header *)ctsio->kern_data_ptr; if (lun->flags & CTL_LUN_NO_MEDIA) scsi_ulto2b(0x0000, hdr->current_profile); else scsi_ulto2b(0x0010, hdr->current_profile); feature = (struct scsi_get_config_feature *)(hdr + 1); if (starting > 0x003b) goto done; if (starting > 0x003a) goto f3b; if (starting > 0x002b) goto f3a; if (starting > 0x002a) goto f2b; if (starting > 0x001f) goto f2a; if (starting > 0x001e) goto f1f; if (starting > 0x001d) goto f1e; if (starting > 0x0010) goto f1d; if (starting > 0x0003) goto f10; if (starting > 0x0002) goto f3; if (starting > 0x0001) goto f2; if (starting > 0x0000) goto f1; /* Profile List */ scsi_ulto2b(0x0000, feature->feature_code); feature->flags = SGC_F_PERSISTENT | SGC_F_CURRENT; feature->add_length = 8; scsi_ulto2b(0x0008, &feature->feature_data[0]); /* CD-ROM */ feature->feature_data[2] = 0x00; scsi_ulto2b(0x0010, &feature->feature_data[4]); /* DVD-ROM */ feature->feature_data[6] = 0x01; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f1: /* Core */ scsi_ulto2b(0x0001, feature->feature_code); feature->flags = 0x08 | SGC_F_PERSISTENT | SGC_F_CURRENT; feature->add_length = 8; scsi_ulto4b(0x00000000, &feature->feature_data[0]); feature->feature_data[4] = 0x03; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f2: /* Morphing */ scsi_ulto2b(0x0002, feature->feature_code); feature->flags = 0x04 | SGC_F_PERSISTENT | SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x02; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f3: /* Removable Medium */ scsi_ulto2b(0x0003, feature->feature_code); feature->flags = 0x04 | SGC_F_PERSISTENT | SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x39; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; if (rt == SGC_RT_CURRENT && (lun->flags & CTL_LUN_NO_MEDIA)) goto done; f10: /* Random Read */ scsi_ulto2b(0x0010, feature->feature_code); feature->flags = 0x00; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 8; scsi_ulto4b(lun->be_lun->blocksize, &feature->feature_data[0]); scsi_ulto2b(1, &feature->feature_data[4]); feature->feature_data[6] = 0x00; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f1d: /* Multi-Read */ scsi_ulto2b(0x001D, feature->feature_code); feature->flags = 0x00; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 0; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f1e: /* CD Read */ scsi_ulto2b(0x001E, feature->feature_code); feature->flags = 0x00; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x00; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f1f: /* DVD Read */ scsi_ulto2b(0x001F, feature->feature_code); feature->flags = 0x08; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x01; feature->feature_data[2] = 0x03; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f2a: /* DVD+RW */ scsi_ulto2b(0x002A, feature->feature_code); feature->flags = 0x04; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x00; feature->feature_data[1] = 0x00; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f2b: /* DVD+R */ scsi_ulto2b(0x002B, feature->feature_code); feature->flags = 0x00; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x00; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f3a: /* DVD+RW Dual Layer */ scsi_ulto2b(0x003A, feature->feature_code); feature->flags = 0x00; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x00; feature->feature_data[1] = 0x00; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; f3b: /* DVD+R Dual Layer */ scsi_ulto2b(0x003B, feature->feature_code); feature->flags = 0x00; if ((lun->flags & CTL_LUN_NO_MEDIA) == 0) feature->flags |= SGC_F_CURRENT; feature->add_length = 4; feature->feature_data[0] = 0x00; feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; done: data_len = (uint8_t *)feature - (uint8_t *)hdr; if (rt == SGC_RT_SPECIFIC && data_len > 4) { feature = (struct scsi_get_config_feature *)(hdr + 1); if (scsi_2btoul(feature->feature_code) == starting) feature = (struct scsi_get_config_feature *) &feature->feature_data[feature->add_length]; data_len = (uint8_t *)feature - (uint8_t *)hdr; } scsi_ulto4b(data_len - 4, hdr->data_length); ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_get_event_status(struct ctl_scsiio *ctsio) { struct scsi_get_event_status_header *hdr; struct scsi_get_event_status *cdb; uint32_t alloc_len, data_len; cdb = (struct scsi_get_event_status *)ctsio->cdb; if ((cdb->byte2 & SGESN_POLLED) == 0) { ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 1, /*bit_valid*/ 1, /*bit*/ 0); ctl_done((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } alloc_len = scsi_2btoul(cdb->length); data_len = sizeof(struct scsi_get_event_status_header); ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; hdr = (struct scsi_get_event_status_header *)ctsio->kern_data_ptr; scsi_ulto2b(0, hdr->descr_length); hdr->nea_class = SGESN_NEA; hdr->supported_class = 0; ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } int ctl_mechanism_status(struct ctl_scsiio *ctsio) { struct scsi_mechanism_status_header *hdr; struct scsi_mechanism_status *cdb; uint32_t alloc_len, data_len; cdb = (struct scsi_mechanism_status *)ctsio->cdb; alloc_len = scsi_2btoul(cdb->length); data_len = sizeof(struct scsi_mechanism_status_header); ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; hdr = (struct scsi_mechanism_status_header *)ctsio->kern_data_ptr; hdr->state1 = 0x00; hdr->state2 = 0xe0; scsi_ulto3b(0, hdr->lba); hdr->slots_num = 0; scsi_ulto2b(0, hdr->slots_length); ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } static void ctl_ultomsf(uint32_t lba, uint8_t *buf) { lba += 150; buf[0] = 0; buf[1] = bin2bcd((lba / 75) / 60); buf[2] = bin2bcd((lba / 75) % 60); buf[3] = bin2bcd(lba % 75); } int ctl_read_toc(struct ctl_scsiio *ctsio) { struct ctl_lun *lun = CTL_LUN(ctsio); struct scsi_read_toc_hdr *hdr; struct scsi_read_toc_type01_descr *descr; struct scsi_read_toc *cdb; uint32_t alloc_len, data_len; int format, msf; cdb = (struct scsi_read_toc *)ctsio->cdb; msf = (cdb->byte2 & CD_MSF) != 0; format = cdb->format; alloc_len = scsi_2btoul(cdb->data_len); data_len = sizeof(struct scsi_read_toc_hdr); if (format == 0) data_len += 2 * sizeof(struct scsi_read_toc_type01_descr); else data_len += sizeof(struct scsi_read_toc_type01_descr); ctsio->kern_data_ptr = malloc(data_len, M_CTL, M_WAITOK | M_ZERO); ctsio->kern_sg_entries = 0; ctsio->kern_rel_offset = 0; ctsio->kern_data_len = min(data_len, alloc_len); ctsio->kern_total_len = ctsio->kern_data_len; hdr = (struct scsi_read_toc_hdr *)ctsio->kern_data_ptr; if (format == 0) { scsi_ulto2b(0x12, hdr->data_length); hdr->first = 1; hdr->last = 1; descr = (struct scsi_read_toc_type01_descr *)(hdr + 1); descr->addr_ctl = 0x14; descr->track_number = 1; if (msf) ctl_ultomsf(0, descr->track_start); else scsi_ulto4b(0, descr->track_start); descr++; descr->addr_ctl = 0x14; descr->track_number = 0xaa; if (msf) ctl_ultomsf(lun->be_lun->maxlba+1, descr->track_start); else scsi_ulto4b(lun->be_lun->maxlba+1, descr->track_start); } else { scsi_ulto2b(0x0a, hdr->data_length); hdr->first = 1; hdr->last = 1; descr = (struct scsi_read_toc_type01_descr *)(hdr + 1); descr->addr_ctl = 0x14; descr->track_number = 1; if (msf) ctl_ultomsf(0, descr->track_start); else scsi_ulto4b(0, descr->track_start); } ctl_set_success(ctsio); ctsio->io_hdr.flags |= CTL_FLAG_ALLOCATED; ctsio->be_move_done = ctl_config_move_done; ctl_datamove((union ctl_io *)ctsio); return (CTL_RETVAL_COMPLETE); } +/* + * For NVMe commands, parse the LBA and length. + */ +static bool +ctl_nvme_get_lba_len(struct ctl_nvmeio *ctnio, uint64_t *lba, uint32_t *len) +{ + CTL_IO_ASSERT(ctnio, NVME); + + switch (ctnio->cmd.opc) { + case NVME_OPC_WRITE: + case NVME_OPC_READ: + case NVME_OPC_WRITE_UNCORRECTABLE: + case NVME_OPC_COMPARE: + case NVME_OPC_WRITE_ZEROES: + case NVME_OPC_VERIFY: + *lba = (uint64_t)le32toh(ctnio->cmd.cdw11) << 32 | + le32toh(ctnio->cmd.cdw10); + *len = (le32toh(ctnio->cmd.cdw12) & 0xffff) + 1; + return (true); + default: + *lba = 0; + *len = 0; + return (false); + } +} + +static bool +ctl_nvme_fua(struct ctl_nvmeio *ctnio) +{ + return ((le32toh(ctnio->cmd.cdw12) & (1U << 30)) != 0); +} + +int +ctl_nvme_identify(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + size_t len; + int retval; + uint8_t cns; + + CTL_DEBUG_PRINT(("ctl_nvme_identify\n")); + + CTL_IO_ASSERT(ctnio, NVME_ADMIN); + MPASS(ctnio->cmd.opc == NVME_OPC_IDENTIFY); + + /* + * The data buffer for Identify is always 4096 bytes, see + * 5.51.1 in NVMe base specification 1.4. + */ + len = 4096; + + ctnio->kern_data_ptr = malloc(len, M_CTL, M_WAITOK); + ctnio->kern_data_len = len; + ctnio->kern_total_len = len; + ctnio->kern_rel_offset = 0; + ctnio->kern_sg_entries = 0; + + ctl_nvme_set_success(ctnio); + ctnio->io_hdr.flags |= CTL_FLAG_ALLOCATED; + ctnio->be_move_done = ctl_config_move_done; + + /* + * If we don't have a LUN, return an empty result for CNS == 0. + */ + if (lun == NULL) { + cns = le32toh(ctnio->cmd.cdw10) & 0xff; + switch (cns) { + case 0: + memset(ctnio->kern_data_ptr, 0, len); + ctl_datamove((union ctl_io *)ctnio); + break; + default: + ctl_nvme_set_invalid_field(ctnio); + break; + } + return (CTL_RETVAL_COMPLETE); + } + + retval = lun->backend->config_read((union ctl_io *)ctnio); + return (retval); +} + +int +ctl_nvme_flush(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + int retval; + + CTL_DEBUG_PRINT(("ctl_nvme_flush\n")); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_FLUSH); + + /* + * NVMe flushes always flush the entire namespace, not an LBA + * range. + */ + retval = lun->backend->config_write((union ctl_io *)ctnio); + + return (retval); +} + +int +ctl_nvme_read_write(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + struct ctl_lba_len_flags *lbalen; + uint64_t lba; + uint32_t num_blocks; + int flags, retval; + bool isread; + + CTL_DEBUG_PRINT(("ctl_nvme_read_write: command: %#x\n", + ctnio->cmd.opc)); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_WRITE || + ctnio->cmd.opc == NVME_OPC_READ); + + flags = 0; + isread = ctnio->cmd.opc == NVME_OPC_READ; + ctl_nvme_get_lba_len(ctnio, &lba, &num_blocks); + + /* + * The first check is to make sure we're in bounds, the second + * check is to catch wrap-around problems. If the lba + num blocks + * is less than the lba, then we've wrapped around and the block + * range is invalid anyway. + */ + if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) + || ((lba + num_blocks) < lba)) { + ctl_nvme_set_lba_out_of_range(ctnio); + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + + /* + * Set FUA and/or DPO if caches are disabled. + * + * For a read this may not be quite correct for the block + * backend as any earlier writes to the LBA range should be + * flushed to backing store as part of the read. + */ + if (ctl_nvme_fua(ctnio)) { + flags |= CTL_LLF_FUA; + if (isread) + flags |= CTL_LLF_DPO; + } + + lbalen = (struct ctl_lba_len_flags *) + &ctnio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; + lbalen->lba = lba; + lbalen->len = num_blocks; + lbalen->flags = (isread ? CTL_LLF_READ : CTL_LLF_WRITE) | flags; + + ctnio->kern_total_len = num_blocks * lun->be_lun->blocksize; + ctnio->kern_rel_offset = 0; + + CTL_DEBUG_PRINT(("ctl_nvme_read_write: calling data_submit()\n")); + + retval = lun->backend->data_submit((union ctl_io *)ctnio); + return (retval); +} + +int +ctl_nvme_write_uncorrectable(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + struct ctl_lba_len_flags *lbalen; + uint64_t lba; + uint32_t num_blocks; + int retval; + + CTL_DEBUG_PRINT(("ctl_nvme_write_uncorrectable\n")); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_WRITE_UNCORRECTABLE); + + ctl_nvme_get_lba_len(ctnio, &lba, &num_blocks); + + /* + * The first check is to make sure we're in bounds, the second + * check is to catch wrap-around problems. If the lba + num blocks + * is less than the lba, then we've wrapped around and the block + * range is invalid anyway. + */ + if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) + || ((lba + num_blocks) < lba)) { + ctl_nvme_set_lba_out_of_range(ctnio); + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + + lbalen = (struct ctl_lba_len_flags *) + &ctnio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; + lbalen->lba = lba; + lbalen->len = num_blocks; + lbalen->flags = 0; + retval = lun->backend->config_write((union ctl_io *)ctnio); + + return (retval); +} + +int +ctl_nvme_compare(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + struct ctl_lba_len_flags *lbalen; + uint64_t lba; + uint32_t num_blocks; + int flags; + int retval; + + CTL_DEBUG_PRINT(("ctl_nvme_compare\n")); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_COMPARE); + + flags = 0; + ctl_nvme_get_lba_len(ctnio, &lba, &num_blocks); + if (ctl_nvme_fua(ctnio)) + flags |= CTL_LLF_FUA; + + /* + * The first check is to make sure we're in bounds, the second + * check is to catch wrap-around problems. If the lba + num blocks + * is less than the lba, then we've wrapped around and the block + * range is invalid anyway. + */ + if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) + || ((lba + num_blocks) < lba)) { + ctl_nvme_set_lba_out_of_range(ctnio); + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + + lbalen = (struct ctl_lba_len_flags *) + &ctnio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; + lbalen->lba = lba; + lbalen->len = num_blocks; + lbalen->flags = CTL_LLF_COMPARE | flags; + ctnio->kern_total_len = num_blocks * lun->be_lun->blocksize; + ctnio->kern_rel_offset = 0; + + CTL_DEBUG_PRINT(("ctl_nvme_compare: calling data_submit()\n")); + retval = lun->backend->data_submit((union ctl_io *)ctnio); + return (retval); +} + +int +ctl_nvme_write_zeroes(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + struct ctl_lba_len_flags *lbalen; + uint64_t lba; + uint32_t num_blocks; + int retval; + + CTL_DEBUG_PRINT(("ctl_nvme_write_zeroes\n")); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_WRITE_ZEROES); + + ctl_nvme_get_lba_len(ctnio, &lba, &num_blocks); + + /* + * The first check is to make sure we're in bounds, the second + * check is to catch wrap-around problems. If the lba + num blocks + * is less than the lba, then we've wrapped around and the block + * range is invalid anyway. + */ + if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) + || ((lba + num_blocks) < lba)) { + ctl_nvme_set_lba_out_of_range(ctnio); + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + + lbalen = (struct ctl_lba_len_flags *) + &ctnio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; + lbalen->lba = lba; + lbalen->len = num_blocks; + lbalen->flags = 0; + retval = lun->backend->config_write((union ctl_io *)ctnio); + + return (retval); +} + +int +ctl_nvme_dataset_management(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + struct nvme_dsm_range *r; + uint64_t lba; + uint32_t len, num_blocks; + u_int i, ranges; + int retval; + + CTL_DEBUG_PRINT(("ctl_nvme_dataset_management\n")); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_DATASET_MANAGEMENT); + + ranges = le32toh(ctnio->cmd.cdw10) & 0xff; + len = ranges * sizeof(struct nvme_dsm_range); + + /* + * If we've got a kernel request that hasn't been malloced yet, + * malloc it and tell the caller the data buffer is here. + */ + if ((ctnio->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0) { + ctnio->kern_data_ptr = malloc(len, M_CTL, M_WAITOK); + ctnio->kern_data_len = len; + ctnio->kern_total_len = len; + ctnio->kern_rel_offset = 0; + ctnio->kern_sg_entries = 0; + ctnio->io_hdr.flags |= CTL_FLAG_ALLOCATED; + ctnio->be_move_done = ctl_config_move_done; + ctl_datamove((union ctl_io *)ctnio); + + return (CTL_RETVAL_COMPLETE); + } + + /* + * Require a flat buffer of the correct size. + */ + if (ctnio->kern_sg_entries > 0 || + ctnio->kern_total_len - ctnio->kern_data_resid != len) + return (CTL_RETVAL_ERROR); + + /* + * Verify that none of the ranges are out of bounds. + */ + r = (struct nvme_dsm_range *)ctnio->kern_data_ptr; + for (i = 0; i < ranges; i++) { + lba = le64toh(r[i].starting_lba); + num_blocks = le32toh(r[i].length); + if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) + || ((lba + num_blocks) < lba)) { + ctl_nvme_set_lba_out_of_range(ctnio); + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + } + + CTL_DEBUG_PRINT(("ctl_nvme_dataset_management: calling config_write()\n")); + retval = lun->backend->config_write((union ctl_io *)ctnio); + return (retval); +} + +int +ctl_nvme_verify(struct ctl_nvmeio *ctnio) +{ + struct ctl_lun *lun = CTL_LUN(ctnio); + struct ctl_lba_len_flags *lbalen; + uint64_t lba; + uint32_t num_blocks; + int flags; + int retval; + + CTL_DEBUG_PRINT(("ctl_nvme_verify\n")); + + CTL_IO_ASSERT(ctnio, NVME); + MPASS(ctnio->cmd.opc == NVME_OPC_VERIFY); + + flags = 0; + ctl_nvme_get_lba_len(ctnio, &lba, &num_blocks); + if (ctl_nvme_fua(ctnio)) + flags |= CTL_LLF_FUA; + + /* + * The first check is to make sure we're in bounds, the second + * check is to catch wrap-around problems. If the lba + num blocks + * is less than the lba, then we've wrapped around and the block + * range is invalid anyway. + */ + if (((lba + num_blocks) > (lun->be_lun->maxlba + 1)) + || ((lba + num_blocks) < lba)) { + ctl_nvme_set_lba_out_of_range(ctnio); + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + + lbalen = (struct ctl_lba_len_flags *) + &ctnio->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; + lbalen->lba = lba; + lbalen->len = num_blocks; + lbalen->flags = CTL_LLF_VERIFY | flags; + ctnio->kern_total_len = 0; + ctnio->kern_rel_offset = 0; + + CTL_DEBUG_PRINT(("ctl_nvme_verify: calling data_submit()\n")); + retval = lun->backend->data_submit((union ctl_io *)ctnio); + return (retval); +} + +static const struct ctl_nvme_cmd_entry * +ctl_nvme_get_cmd_entry(struct ctl_nvmeio *ctnio) +{ + const struct ctl_nvme_cmd_entry *entry; + + switch (ctnio->io_hdr.io_type) { + case CTL_IO_NVME: + entry = &nvme_nvm_cmd_table[ctnio->cmd.opc]; + break; + case CTL_IO_NVME_ADMIN: + entry = &nvme_admin_cmd_table[ctnio->cmd.opc]; + break; + default: + __assert_unreachable(); + } + return (entry); +} + +static const struct ctl_nvme_cmd_entry * +ctl_nvme_validate_command(struct ctl_nvmeio *ctnio) +{ + const struct ctl_nvme_cmd_entry *entry; + + entry = ctl_nvme_get_cmd_entry(ctnio); + if (entry->execute == NULL) { + ctl_nvme_set_invalid_opcode(ctnio); + ctl_done((union ctl_io *)ctnio); + return (NULL); + } + + /* Validate fused commands. */ + switch (NVMEV(NVME_CMD_FUSE, ctnio->cmd.fuse)) { + case NVME_FUSE_NORMAL: + break; + case NVME_FUSE_FIRST: + if (ctnio->io_hdr.io_type != CTL_IO_NVME || + ctnio->cmd.opc != NVME_OPC_COMPARE) { + ctl_nvme_set_invalid_field(ctnio); + ctl_done((union ctl_io *)ctnio); + return (NULL); + } + break; + case NVME_FUSE_SECOND: + if (ctnio->io_hdr.io_type != CTL_IO_NVME || + ctnio->cmd.opc != NVME_OPC_COMPARE) { + ctl_nvme_set_invalid_field(ctnio); + ctl_done((union ctl_io *)ctnio); + return (NULL); + } + break; + default: + ctl_nvme_set_invalid_field(ctnio); + ctl_done((union ctl_io *)ctnio); + return (NULL); + } + + return (entry); +} + +/* + * This is a simpler version of ctl_scsiio_lun_check that fails + * requests on a LUN without active media. + * + * Returns true if the command has been completed with an error. + */ +static bool +ctl_nvmeio_lun_check(struct ctl_lun *lun, + const struct ctl_nvme_cmd_entry *entry, struct ctl_nvmeio *ctnio) +{ + mtx_assert(&lun->lun_lock, MA_OWNED); + + if ((entry->flags & CTL_CMD_FLAG_OK_ON_NO_MEDIA) == 0) { + if ((lun->flags & (CTL_LUN_EJECTED | CTL_LUN_NO_MEDIA | + CTL_LUN_STOPPED)) != 0) { + ctl_nvme_set_namespace_not_ready(ctnio); + return (true); + } + } + + return (false); +} + +/* + * Check for blockage against the OOA (Order Of Arrival) queue. + * Assumptions: + * - pending_io is generally either incoming, or on the blocked queue + * - starting I/O is the I/O we want to start the check with. + */ +static ctl_action +ctl_nvme_check_ooa(struct ctl_lun *lun, union ctl_io *pending_io, + union ctl_io **starting_io, union ctl_io **aborted_io) +{ + union ctl_io *ooa_io = *starting_io; + + CTL_IO_ASSERT(pending_io, NVME, NVME_ADMIN); + + mtx_assert(&lun->lun_lock, MA_OWNED); + + *aborted_io = NULL; + + /* + * Aborted commands are not going to be executed and may even + * not report completion, so we don't care about their order. + * Let them complete ASAP to clean the OOA queue. + */ + if (__predict_false(pending_io->io_hdr.flags & CTL_FLAG_ABORT)) + return (CTL_ACTION_PASS); + + /* + * NVMe has rather simple command ordering requirements. In + * particular, there is no requirement on the controller to + * enforce a specific order for overlapping LBAs. The only + * constraint is that fused operations (Compare and Write), + * must be completed as a unit. + * + * To support fused operations, the following strategy is used: + * - the first half of a fused command is not enqueued to rtr + * until the second half is enqueued + * - the second half of a fused command blocks on the first + * half of a fuse command + * - subsequent commands block on the second half of the + * fused command + */ + + /* + * Is the previously submitted command the first half of a + * fused operation? + */ + if (ooa_io != NULL && + NVMEV(NVME_CMD_FUSE, ooa_io->nvmeio.cmd.fuse) == NVME_FUSE_FIRST) { + /* + * If this is the second half, enqueue the first half + * and block the second half on the first half. + */ + if (NVMEV(NVME_CMD_FUSE, pending_io->nvmeio.cmd.fuse) == + NVME_FUSE_SECOND) { + /* + * XXX: Do we need to wait for other rtr requests + * to drain so this is truly atomic? + */ + return (CTL_ACTION_FUSED); + } + + /* Abort the first half. */ + ctl_nvme_set_missing_fused_command(&ooa_io->nvmeio); + *aborted_io = ooa_io; + } else { + switch (NVMEV(NVME_CMD_FUSE, pending_io->nvmeio.cmd.fuse)) { + case NVME_FUSE_FIRST: + /* First half, wait for the second half. */ + return (CTL_ACTION_SKIP); + case NVME_FUSE_SECOND: + /* Second half without a matching first half, abort. */ + ctl_nvme_set_missing_fused_command(&pending_io->nvmeio); + *aborted_io = pending_io; + return (CTL_ACTION_SKIP); + } + } + + /* + * Scan the OOA queue looking for the most recent second half + * of a fused op. + */ + for (; ooa_io != NULL; + ooa_io = (union ctl_io *)LIST_NEXT(&ooa_io->io_hdr, ooa_links)) { + if (NVMEV(NVME_CMD_FUSE, ooa_io->nvmeio.cmd.fuse) == + NVME_FUSE_SECOND) { + *starting_io = ooa_io; + return (CTL_ACTION_BLOCK); + } + } + + *starting_io = NULL; + return (CTL_ACTION_PASS); +} + +static void +ctl_nvmeio_precheck(struct ctl_nvmeio *ctnio) +{ + struct ctl_softc *softc = CTL_SOFTC(ctnio); + struct ctl_lun *lun; + const struct ctl_nvme_cmd_entry *entry; + union ctl_io *bio, *aborted_io; + uint32_t targ_lun; + + lun = NULL; + targ_lun = ctnio->io_hdr.nexus.targ_mapped_lun; + if (targ_lun < ctl_max_luns) + lun = softc->ctl_luns[targ_lun]; + if (lun != NULL) { + /* + * If the LUN is invalid, pretend that it doesn't exist. + * It will go away as soon as all pending I/O has been + * completed. + */ + mtx_lock(&lun->lun_lock); + if (lun->flags & CTL_LUN_DISABLED) { + mtx_unlock(&lun->lun_lock); + lun = NULL; + } + } + CTL_LUN(ctnio) = lun; + if (lun != NULL) { + CTL_BACKEND_LUN(ctnio) = lun->be_lun; + + /* + * Every I/O goes into the OOA queue for a particular LUN, + * and stays there until completion. + */ +#ifdef CTL_TIME_IO + if (LIST_EMPTY(&lun->ooa_queue)) + lun->idle_time += getsbinuptime() - lun->last_busy; +#endif + LIST_INSERT_HEAD(&lun->ooa_queue, &ctnio->io_hdr, ooa_links); + } + + /* Get command entry and return error if it is unsupported. */ + entry = ctl_nvme_validate_command(ctnio); + if (entry == NULL) { + if (lun) + mtx_unlock(&lun->lun_lock); + return; + } + + ctnio->io_hdr.flags &= ~CTL_FLAG_DATA_MASK; + ctnio->io_hdr.flags |= entry->flags & CTL_FLAG_DATA_MASK; + + /* All NVMe commands other than IDENTIFY require a LUN. */ + if (lun == NULL) { + if (entry->flags & CTL_CMD_FLAG_OK_ON_NO_LUN) { + ctnio->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; + ctl_enqueue_rtr((union ctl_io *)ctnio); + return; + } + + ctl_nvme_set_invalid_namespace(ctnio); + ctl_done((union ctl_io *)ctnio); + CTL_DEBUG_PRINT(("ctl_nvmeio_precheck: bailing out due to invalid LUN\n")); + return; + } else { + /* + * NVMe namespaces can only be backed by T_DIRECT LUNs. + */ + if (lun->be_lun->lun_type != T_DIRECT) { + mtx_unlock(&lun->lun_lock); + ctl_nvme_set_invalid_namespace(ctnio); + ctl_done((union ctl_io *)ctnio); + return; + } + } + + if (ctl_nvmeio_lun_check(lun, entry, ctnio) != 0) { + mtx_unlock(&lun->lun_lock); + ctl_done((union ctl_io *)ctnio); + return; + } + + bio = (union ctl_io *)LIST_NEXT(&ctnio->io_hdr, ooa_links); + switch (ctl_nvme_check_ooa(lun, (union ctl_io *)ctnio, &bio, + &aborted_io)) { + case CTL_ACTION_PASS: + ctnio->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; + mtx_unlock(&lun->lun_lock); + ctl_enqueue_rtr((union ctl_io *)ctnio); + break; + case CTL_ACTION_FUSED: + /* Block the second half on the first half. */ + ctnio->io_hdr.blocker = bio; + TAILQ_INSERT_TAIL(&bio->io_hdr.blocked_queue, &ctnio->io_hdr, + blocked_links); + + /* Pass the first half. */ + bio->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; + mtx_unlock(&lun->lun_lock); + ctl_enqueue_rtr(bio); + break; + case CTL_ACTION_SKIP: + mtx_unlock(&lun->lun_lock); + break; + case CTL_ACTION_BLOCK: + ctnio->io_hdr.blocker = bio; + TAILQ_INSERT_TAIL(&bio->io_hdr.blocked_queue, &ctnio->io_hdr, + blocked_links); + mtx_unlock(&lun->lun_lock); + break; + default: + __assert_unreachable(); + } + if (aborted_io != NULL) + ctl_done(aborted_io); +} + +static int +ctl_nvmeio(struct ctl_nvmeio *ctnio) +{ + const struct ctl_nvme_cmd_entry *entry; + int retval; + + CTL_DEBUG_PRINT(("ctl_nvmeio %s opc=%02X\n", + ctnio->io_hdr.io_type == CTL_IO_NVME ? "nvm" : "admin", + ctnio->cmd.opc)); + + entry = ctl_nvme_get_cmd_entry(ctnio); + MPASS(entry != NULL); + + /* + * If this I/O has been aborted, just send it straight to + * ctl_done() without executing it. + */ + if (ctnio->io_hdr.flags & CTL_FLAG_ABORT) { + ctl_done((union ctl_io *)ctnio); + return (CTL_RETVAL_COMPLETE); + } + + /* + * All the checks should have been handled by ctl_nvmeio_precheck(). + * We should be clear now to just execute the I/O. + */ + retval = entry->execute(ctnio); + + return (retval); +} + /* * For known CDB types, parse the LBA and length. */ static int ctl_get_lba_len(union ctl_io *io, uint64_t *lba, uint64_t *len) { CTL_IO_ASSERT(io, SCSI); switch (io->scsiio.cdb[0]) { case COMPARE_AND_WRITE: { struct scsi_compare_and_write *cdb; cdb = (struct scsi_compare_and_write *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = cdb->length; break; } case READ_6: case WRITE_6: { struct scsi_rw_6 *cdb; cdb = (struct scsi_rw_6 *)io->scsiio.cdb; *lba = scsi_3btoul(cdb->addr); /* only 5 bits are valid in the most significant address byte */ *lba &= 0x1fffff; *len = cdb->length; break; } case READ_10: case WRITE_10: { struct scsi_rw_10 *cdb; cdb = (struct scsi_rw_10 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_2btoul(cdb->length); break; } case WRITE_VERIFY_10: { struct scsi_write_verify_10 *cdb; cdb = (struct scsi_write_verify_10 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_2btoul(cdb->length); break; } case READ_12: case WRITE_12: { struct scsi_rw_12 *cdb; cdb = (struct scsi_rw_12 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case WRITE_VERIFY_12: { struct scsi_write_verify_12 *cdb; cdb = (struct scsi_write_verify_12 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case READ_16: case WRITE_16: { struct scsi_rw_16 *cdb; cdb = (struct scsi_rw_16 *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case WRITE_ATOMIC_16: { struct scsi_write_atomic_16 *cdb; cdb = (struct scsi_write_atomic_16 *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = scsi_2btoul(cdb->length); break; } case WRITE_VERIFY_16: { struct scsi_write_verify_16 *cdb; cdb = (struct scsi_write_verify_16 *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case WRITE_SAME_10: { struct scsi_write_same_10 *cdb; cdb = (struct scsi_write_same_10 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_2btoul(cdb->length); break; } case WRITE_SAME_16: { struct scsi_write_same_16 *cdb; cdb = (struct scsi_write_same_16 *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case VERIFY_10: { struct scsi_verify_10 *cdb; cdb = (struct scsi_verify_10 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_2btoul(cdb->length); break; } case VERIFY_12: { struct scsi_verify_12 *cdb; cdb = (struct scsi_verify_12 *)io->scsiio.cdb; *lba = scsi_4btoul(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case VERIFY_16: { struct scsi_verify_16 *cdb; cdb = (struct scsi_verify_16 *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = scsi_4btoul(cdb->length); break; } case UNMAP: { *lba = 0; *len = UINT64_MAX; break; } case SERVICE_ACTION_IN: { /* GET LBA STATUS */ struct scsi_get_lba_status *cdb; cdb = (struct scsi_get_lba_status *)io->scsiio.cdb; *lba = scsi_8btou64(cdb->addr); *len = UINT32_MAX; break; } default: *lba = 0; *len = UINT64_MAX; return (1); } return (0); } static ctl_action ctl_extent_check_lba(uint64_t lba1, uint64_t len1, uint64_t lba2, uint64_t len2, bool seq) { uint64_t endlba1, endlba2; endlba1 = lba1 + len1 - (seq ? 0 : 1); endlba2 = lba2 + len2 - 1; if ((endlba1 < lba2) || (endlba2 < lba1)) return (CTL_ACTION_PASS); else return (CTL_ACTION_BLOCK); } static int ctl_extent_check_unmap(union ctl_io *io, uint64_t lba2, uint64_t len2) { struct ctl_ptr_len_flags *ptrlen; struct scsi_unmap_desc *buf, *end, *range; uint64_t lba; uint32_t len; CTL_IO_ASSERT(io, SCSI); /* If not UNMAP -- go other way. */ if (io->scsiio.cdb[0] != UNMAP) return (CTL_ACTION_SKIP); /* If UNMAP without data -- block and wait for data. */ ptrlen = (struct ctl_ptr_len_flags *) &io->io_hdr.ctl_private[CTL_PRIV_LBA_LEN]; if ((io->io_hdr.flags & CTL_FLAG_ALLOCATED) == 0 || ptrlen->ptr == NULL) return (CTL_ACTION_BLOCK); /* UNMAP with data -- check for collision. */ buf = (struct scsi_unmap_desc *)ptrlen->ptr; end = buf + ptrlen->len / sizeof(*buf); for (range = buf; range < end; range++) { lba = scsi_8btou64(range->lba); len = scsi_4btoul(range->length); if ((lba < lba2 + len2) && (lba + len > lba2)) return (CTL_ACTION_BLOCK); } return (CTL_ACTION_PASS); } static ctl_action ctl_extent_check(union ctl_io *io1, union ctl_io *io2, bool seq) { uint64_t lba1, lba2; uint64_t len1, len2; int retval; retval = ctl_get_lba_len(io2, &lba2, &len2); KASSERT(retval == 0, ("ctl_get_lba_len() error")); retval = ctl_extent_check_unmap(io1, lba2, len2); if (retval != CTL_ACTION_SKIP) return (retval); retval = ctl_get_lba_len(io1, &lba1, &len1); KASSERT(retval == 0, ("ctl_get_lba_len() error")); if (seq && (io1->io_hdr.flags & CTL_FLAG_SERSEQ_DONE)) seq = FALSE; return (ctl_extent_check_lba(lba1, len1, lba2, len2, seq)); } static ctl_action ctl_seq_check(union ctl_io *io1, union ctl_io *io2) { uint64_t lba1, lba2; uint64_t len1, len2; int retval __diagused; if (io1->io_hdr.flags & CTL_FLAG_SERSEQ_DONE) return (CTL_ACTION_PASS); retval = ctl_get_lba_len(io1, &lba1, &len1); KASSERT(retval == 0, ("ctl_get_lba_len() error")); retval = ctl_get_lba_len(io2, &lba2, &len2); KASSERT(retval == 0, ("ctl_get_lba_len() error")); if (lba1 + len1 == lba2) return (CTL_ACTION_BLOCK); return (CTL_ACTION_PASS); } static ctl_action ctl_check_for_blockage(struct ctl_lun *lun, union ctl_io *pending_io, const uint8_t *serialize_row, union ctl_io *ooa_io) { CTL_IO_ASSERT(pending_io, SCSI); CTL_IO_ASSERT(ooa_io, SCSI); /* * The initiator attempted multiple untagged commands at the same * time. Can't do that. */ if (__predict_false(pending_io->scsiio.tag_type == CTL_TAG_UNTAGGED) && __predict_false(ooa_io->scsiio.tag_type == CTL_TAG_UNTAGGED) && ((pending_io->io_hdr.nexus.targ_port == ooa_io->io_hdr.nexus.targ_port) && (pending_io->io_hdr.nexus.initid == ooa_io->io_hdr.nexus.initid)) && ((ooa_io->io_hdr.flags & (CTL_FLAG_ABORT | CTL_FLAG_STATUS_SENT)) == 0)) return (CTL_ACTION_OVERLAP); /* * The initiator attempted to send multiple tagged commands with * the same ID. (It's fine if different initiators have the same * tag ID.) * * Even if all of those conditions are true, we don't kill the I/O * if the command ahead of us has been aborted. We won't end up * sending it to the FETD, and it's perfectly legal to resend a * command with the same tag number as long as the previous * instance of this tag number has been aborted somehow. */ if (__predict_true(pending_io->scsiio.tag_type != CTL_TAG_UNTAGGED) && __predict_true(ooa_io->scsiio.tag_type != CTL_TAG_UNTAGGED) && __predict_false(pending_io->scsiio.tag_num == ooa_io->scsiio.tag_num) && ((pending_io->io_hdr.nexus.targ_port == ooa_io->io_hdr.nexus.targ_port) && (pending_io->io_hdr.nexus.initid == ooa_io->io_hdr.nexus.initid)) && ((ooa_io->io_hdr.flags & (CTL_FLAG_ABORT | CTL_FLAG_STATUS_SENT)) == 0)) return (CTL_ACTION_OVERLAP_TAG); /* * If we get a head of queue tag, SAM-3 says that we should * immediately execute it. * * What happens if this command would normally block for some other * reason? e.g. a request sense with a head of queue tag * immediately after a write. Normally that would block, but this * will result in its getting executed immediately... * * We currently return "pass" instead of "skip", so we'll end up * going through the rest of the queue to check for overlapped tags. * * XXX KDM check for other types of blockage first?? */ if (__predict_false(pending_io->scsiio.tag_type == CTL_TAG_HEAD_OF_QUEUE)) return (CTL_ACTION_PASS); /* * Simple tags get blocked until all head of queue and ordered tags * ahead of them have completed. I'm lumping untagged commands in * with simple tags here. XXX KDM is that the right thing to do? */ if (__predict_false(ooa_io->scsiio.tag_type == CTL_TAG_ORDERED) || __predict_false(ooa_io->scsiio.tag_type == CTL_TAG_HEAD_OF_QUEUE)) return (CTL_ACTION_BLOCK); /* Unsupported command in OOA queue. */ if (__predict_false(ooa_io->scsiio.seridx == CTL_SERIDX_INVLD)) return (CTL_ACTION_PASS); switch (serialize_row[ooa_io->scsiio.seridx]) { case CTL_SER_SEQ: if (lun->be_lun->serseq != CTL_LUN_SERSEQ_OFF) return (ctl_seq_check(ooa_io, pending_io)); /* FALLTHROUGH */ case CTL_SER_PASS: return (CTL_ACTION_PASS); case CTL_SER_EXTENTOPT: if ((lun->MODE_CTRL.queue_flags & SCP_QUEUE_ALG_MASK) == SCP_QUEUE_ALG_UNRESTRICTED) return (CTL_ACTION_PASS); /* FALLTHROUGH */ case CTL_SER_EXTENT: return (ctl_extent_check(ooa_io, pending_io, (lun->be_lun->serseq == CTL_LUN_SERSEQ_ON))); case CTL_SER_BLOCKOPT: if ((lun->MODE_CTRL.queue_flags & SCP_QUEUE_ALG_MASK) == SCP_QUEUE_ALG_UNRESTRICTED) return (CTL_ACTION_PASS); /* FALLTHROUGH */ case CTL_SER_BLOCK: return (CTL_ACTION_BLOCK); default: __assert_unreachable(); } } /* * Check for blockage or overlaps against the OOA (Order Of Arrival) queue. * Assumptions: * - pending_io is generally either incoming, or on the blocked queue * - starting I/O is the I/O we want to start the check with. */ static ctl_action ctl_check_ooa(struct ctl_lun *lun, union ctl_io *pending_io, union ctl_io **starting_io) { union ctl_io *ooa_io = *starting_io; const uint8_t *serialize_row; ctl_action action; CTL_IO_ASSERT(pending_io, SCSI); mtx_assert(&lun->lun_lock, MA_OWNED); /* * Aborted commands are not going to be executed and may even * not report completion, so we don't care about their order. * Let them complete ASAP to clean the OOA queue. */ if (__predict_false(pending_io->io_hdr.flags & CTL_FLAG_ABORT)) return (CTL_ACTION_SKIP); /* * Ordered tags have to block until all items ahead of them have * completed. If we get called with an ordered tag, we always * block, if something else is ahead of us in the queue. */ if ((pending_io->scsiio.tag_type == CTL_TAG_ORDERED) && (ooa_io != NULL)) return (CTL_ACTION_BLOCK); serialize_row = ctl_serialize_table[pending_io->scsiio.seridx]; /* * Run back along the OOA queue, starting with the current * blocked I/O and going through every I/O before it on the * queue. If starting_io is NULL, we'll just end up returning * CTL_ACTION_PASS. */ for (; ooa_io != NULL; ooa_io = (union ctl_io *)LIST_NEXT(&ooa_io->io_hdr, ooa_links)) { action = ctl_check_for_blockage(lun, pending_io, serialize_row, ooa_io); if (action != CTL_ACTION_PASS) { *starting_io = ooa_io; return (action); } } *starting_io = NULL; return (CTL_ACTION_PASS); } /* * Try to unblock the specified I/O. * * skip parameter allows explicitly skip present blocker of the I/O, * starting from the previous one on OOA queue. It can be used when * we know for sure that the blocker I/O does no longer count. */ static void -ctl_try_unblock_io(struct ctl_lun *lun, union ctl_io *io, bool skip) +ctl_scsi_try_unblock_io(struct ctl_lun *lun, union ctl_io *io, bool skip) { struct ctl_softc *softc = lun->ctl_softc; union ctl_io *bio, *obio; const struct ctl_cmd_entry *entry; union ctl_ha_msg msg_info; ctl_action action; CTL_IO_ASSERT(io, SCSI); mtx_assert(&lun->lun_lock, MA_OWNED); if (io->io_hdr.blocker == NULL) return; obio = bio = io->io_hdr.blocker; if (skip) bio = (union ctl_io *)LIST_NEXT(&bio->io_hdr, ooa_links); action = ctl_check_ooa(lun, io, &bio); if (action == CTL_ACTION_BLOCK) { /* Still blocked, but may be by different I/O now. */ if (bio != obio) { TAILQ_REMOVE(&obio->io_hdr.blocked_queue, &io->io_hdr, blocked_links); TAILQ_INSERT_TAIL(&bio->io_hdr.blocked_queue, &io->io_hdr, blocked_links); io->io_hdr.blocker = bio; } return; } /* No longer blocked, one way or another. */ TAILQ_REMOVE(&obio->io_hdr.blocked_queue, &io->io_hdr, blocked_links); io->io_hdr.blocker = NULL; switch (action) { case CTL_ACTION_PASS: case CTL_ACTION_SKIP: /* Serializing commands from the other SC retire there. */ if ((io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC) && (softc->ha_mode != CTL_HA_MODE_XFER)) { io->io_hdr.flags &= ~CTL_FLAG_IO_ACTIVE; msg_info.hdr.original_sc = io->io_hdr.remote_io; msg_info.hdr.serializing_sc = io; msg_info.hdr.msg_type = CTL_MSG_R2R; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.hdr), M_NOWAIT); break; } /* * Check this I/O for LUN state changes that may have happened * while this command was blocked. The LUN state may have been * changed by a command ahead of us in the queue. */ entry = ctl_get_cmd_entry(&io->scsiio, NULL); if (ctl_scsiio_lun_check(lun, entry, &io->scsiio) != 0) { ctl_done(io); break; } io->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; ctl_enqueue_rtr(io); break; default: __assert_unreachable(); case CTL_ACTION_OVERLAP: ctl_set_overlapped_cmd(&io->scsiio); goto error; case CTL_ACTION_OVERLAP_TAG: ctl_set_overlapped_tag(&io->scsiio, io->scsiio.tag_num & 0xff); error: /* Serializing commands from the other SC are done here. */ if ((io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC) && (softc->ha_mode != CTL_HA_MODE_XFER)) { ctl_try_unblock_others(lun, io, TRUE); LIST_REMOVE(&io->io_hdr, ooa_links); ctl_copy_sense_data_back(io, &msg_info); msg_info.hdr.original_sc = io->io_hdr.remote_io; msg_info.hdr.serializing_sc = NULL; msg_info.hdr.msg_type = CTL_MSG_BAD_JUJU; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.scsi), M_WAITOK); ctl_free_io(io); break; } ctl_done(io); break; } } +static void +ctl_nvme_try_unblock_io(struct ctl_lun *lun, union ctl_io *io, bool skip) +{ + union ctl_io *bio; + const struct ctl_nvme_cmd_entry *entry; + + CTL_IO_ASSERT(io, NVME, NVME_ADMIN); + + mtx_assert(&lun->lun_lock, MA_OWNED); + + if (io->io_hdr.blocker == NULL) + return; + + /* + * If this is the second half of a fused operation, it should + * be the only io on the blocked list. If the first half + * failed, complete the second half with an appropriate error. + */ + bio = io->io_hdr.blocker; + if (NVMEV(NVME_CMD_FUSE, io->nvmeio.cmd.fuse) == NVME_FUSE_SECOND) { + MPASS(io == + (union ctl_io *)TAILQ_FIRST(&bio->io_hdr.blocked_queue)); + MPASS(TAILQ_NEXT(&io->io_hdr, blocked_links) == NULL); + + TAILQ_REMOVE(&bio->io_hdr.blocked_queue, &io->io_hdr, + blocked_links); + if (bio->io_hdr.status != CTL_SUCCESS) { + ctl_nvme_set_failed_fused_command(&io->nvmeio); + ctl_done(io); + return; + } + } else { + /* + * This must be a command that was blocked on the + * second half of a fused operation. + */ + MPASS(NVMEV(NVME_CMD_FUSE, bio->nvmeio.cmd.fuse) == + NVME_FUSE_SECOND); + TAILQ_REMOVE(&bio->io_hdr.blocked_queue, &io->io_hdr, + blocked_links); + } + + entry = ctl_nvme_get_cmd_entry(&io->nvmeio); + if (ctl_nvmeio_lun_check(lun, entry, &io->nvmeio) != 0) { + ctl_done(io); + return; + } + + io->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; + ctl_enqueue_rtr(io); +} + +static void +ctl_try_unblock_io(struct ctl_lun *lun, union ctl_io *io, bool skip) +{ + switch (io->io_hdr.io_type) { + case CTL_IO_SCSI: + return (ctl_scsi_try_unblock_io(lun, io, skip)); + case CTL_IO_NVME: + case CTL_IO_NVME_ADMIN: + return (ctl_nvme_try_unblock_io(lun, io, skip)); + default: + __assert_unreachable(); + } +} + /* * Try to unblock I/Os blocked by the specified I/O. * * skip parameter allows explicitly skip the specified I/O as blocker, * starting from the previous one on the OOA queue. It can be used when * we know for sure that the specified I/O does no longer count (done). * It has to be still on OOA queue though so that we know where to start. */ static void ctl_try_unblock_others(struct ctl_lun *lun, union ctl_io *bio, bool skip) { union ctl_io *io, *next_io; mtx_assert(&lun->lun_lock, MA_OWNED); for (io = (union ctl_io *)TAILQ_FIRST(&bio->io_hdr.blocked_queue); io != NULL; io = next_io) { next_io = (union ctl_io *)TAILQ_NEXT(&io->io_hdr, blocked_links); KASSERT(io->io_hdr.blocker != NULL, ("I/O %p on blocked list without blocker", io)); ctl_try_unblock_io(lun, io, skip); } KASSERT(!skip || TAILQ_EMPTY(&bio->io_hdr.blocked_queue), ("blocked_queue is not empty after skipping %p", bio)); } /* * This routine (with one exception) checks LUN flags that can be set by * commands ahead of us in the OOA queue. These flags have to be checked * when a command initially comes in, and when we pull a command off the * blocked queue and are preparing to execute it. The reason we have to * check these flags for commands on the blocked queue is that the LUN * state may have been changed by a command ahead of us while we're on the * blocked queue. * * Ordering is somewhat important with these checks, so please pay * careful attention to the placement of any new checks. */ static int ctl_scsiio_lun_check(struct ctl_lun *lun, const struct ctl_cmd_entry *entry, struct ctl_scsiio *ctsio) { struct ctl_softc *softc = lun->ctl_softc; int retval; uint32_t residx; retval = 0; mtx_assert(&lun->lun_lock, MA_OWNED); /* * If this shelf is a secondary shelf controller, we may have to * reject some commands disallowed by HA mode and link state. */ if ((lun->flags & CTL_LUN_PRIMARY_SC) == 0) { if (softc->ha_link == CTL_HA_LINK_OFFLINE && (entry->flags & CTL_CMD_FLAG_OK_ON_UNAVAIL) == 0) { ctl_set_lun_unavail(ctsio); retval = 1; goto bailout; } if ((lun->flags & CTL_LUN_PEER_SC_PRIMARY) == 0 && (entry->flags & CTL_CMD_FLAG_OK_ON_UNAVAIL) == 0) { ctl_set_lun_transit(ctsio); retval = 1; goto bailout; } if (softc->ha_mode == CTL_HA_MODE_ACT_STBY && (entry->flags & CTL_CMD_FLAG_OK_ON_STANDBY) == 0) { ctl_set_lun_standby(ctsio); retval = 1; goto bailout; } /* The rest of checks are only done on executing side */ if (softc->ha_mode == CTL_HA_MODE_XFER) goto bailout; } if (entry->pattern & CTL_LUN_PAT_WRITE) { if (lun->be_lun->flags & CTL_LUN_FLAG_READONLY) { ctl_set_hw_write_protected(ctsio); retval = 1; goto bailout; } if ((lun->MODE_CTRL.eca_and_aen & SCP_SWP) != 0) { ctl_set_sense(ctsio, /*current_error*/ 1, /*sense_key*/ SSD_KEY_DATA_PROTECT, /*asc*/ 0x27, /*ascq*/ 0x02, SSD_ELEM_NONE); retval = 1; goto bailout; } } /* * Check for a reservation conflict. If this command isn't allowed * even on reserved LUNs, and if this initiator isn't the one who * reserved us, reject the command with a reservation conflict. */ residx = ctl_get_initindex(&ctsio->io_hdr.nexus); if ((lun->flags & CTL_LUN_RESERVED) && ((entry->flags & CTL_CMD_FLAG_ALLOW_ON_RESV) == 0)) { if (lun->res_idx != residx) { ctl_set_reservation_conflict(ctsio); retval = 1; goto bailout; } } if ((lun->flags & CTL_LUN_PR_RESERVED) == 0 || (entry->flags & CTL_CMD_FLAG_ALLOW_ON_PR_RESV)) { /* No reservation or command is allowed. */; } else if ((entry->flags & CTL_CMD_FLAG_ALLOW_ON_PR_WRESV) && (lun->pr_res_type == SPR_TYPE_WR_EX || lun->pr_res_type == SPR_TYPE_WR_EX_RO || lun->pr_res_type == SPR_TYPE_WR_EX_AR)) { /* The command is allowed for Write Exclusive resv. */; } else { /* * if we aren't registered or it's a res holder type * reservation and this isn't the res holder then set a * conflict. */ if (ctl_get_prkey(lun, residx) == 0 || (residx != lun->pr_res_idx && lun->pr_res_type < 4)) { ctl_set_reservation_conflict(ctsio); retval = 1; goto bailout; } } if ((entry->flags & CTL_CMD_FLAG_OK_ON_NO_MEDIA) == 0) { if (lun->flags & CTL_LUN_EJECTED) ctl_set_lun_ejected(ctsio); else if (lun->flags & CTL_LUN_NO_MEDIA) { if (lun->flags & CTL_LUN_REMOVABLE) ctl_set_lun_no_media(ctsio); else ctl_set_lun_int_reqd(ctsio); } else if (lun->flags & CTL_LUN_STOPPED) ctl_set_lun_stopped(ctsio); else goto bailout; retval = 1; goto bailout; } bailout: return (retval); } static void ctl_failover_io(union ctl_io *io, int have_lock) { CTL_IO_ASSERT(io, SCSI); ctl_set_busy(&io->scsiio); ctl_done(io); } static void ctl_failover_lun(union ctl_io *rio) { struct ctl_softc *softc = CTL_SOFTC(rio); struct ctl_lun *lun; struct ctl_io_hdr *io, *next_io; uint32_t targ_lun; targ_lun = rio->io_hdr.nexus.targ_mapped_lun; CTL_DEBUG_PRINT(("FAILOVER for lun %u\n", targ_lun)); /* Find and lock the LUN. */ mtx_lock(&softc->ctl_lock); if (targ_lun > ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); return; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if (lun->flags & CTL_LUN_DISABLED) { mtx_unlock(&lun->lun_lock); return; } if (softc->ha_mode == CTL_HA_MODE_XFER) { LIST_FOREACH_SAFE(io, &lun->ooa_queue, ooa_links, next_io) { /* We are master */ if (io->flags & CTL_FLAG_FROM_OTHER_SC) { if (io->flags & CTL_FLAG_IO_ACTIVE) { io->flags |= CTL_FLAG_ABORT | CTL_FLAG_FAILOVER; ctl_try_unblock_io(lun, (union ctl_io *)io, FALSE); } else { /* This can be only due to DATAMOVE */ io->msg_type = CTL_MSG_DATAMOVE_DONE; io->flags &= ~CTL_FLAG_DMA_INPROG; io->flags |= CTL_FLAG_IO_ACTIVE; io->port_status = 31340; ctl_enqueue_isc((union ctl_io *)io); } } else /* We are slave */ if (io->flags & CTL_FLAG_SENT_2OTHER_SC) { io->flags &= ~CTL_FLAG_SENT_2OTHER_SC; if (io->flags & CTL_FLAG_IO_ACTIVE) { io->flags |= CTL_FLAG_FAILOVER; } else { ctl_set_busy(&((union ctl_io *)io)-> scsiio); ctl_done((union ctl_io *)io); } } } } else { /* SERIALIZE modes */ LIST_FOREACH_SAFE(io, &lun->ooa_queue, ooa_links, next_io) { /* We are master */ if (io->flags & CTL_FLAG_FROM_OTHER_SC) { if (io->blocker != NULL) { TAILQ_REMOVE(&io->blocker->io_hdr.blocked_queue, io, blocked_links); io->blocker = NULL; } ctl_try_unblock_others(lun, (union ctl_io *)io, TRUE); LIST_REMOVE(io, ooa_links); ctl_free_io((union ctl_io *)io); } else /* We are slave */ if (io->flags & CTL_FLAG_SENT_2OTHER_SC) { io->flags &= ~CTL_FLAG_SENT_2OTHER_SC; if (!(io->flags & CTL_FLAG_IO_ACTIVE)) { ctl_set_busy(&((union ctl_io *)io)-> scsiio); ctl_done((union ctl_io *)io); } } } } mtx_unlock(&lun->lun_lock); } static void ctl_scsiio_precheck(struct ctl_scsiio *ctsio) { struct ctl_softc *softc = CTL_SOFTC(ctsio); struct ctl_lun *lun; const struct ctl_cmd_entry *entry; union ctl_io *bio; uint32_t initidx, targ_lun; lun = NULL; targ_lun = ctsio->io_hdr.nexus.targ_mapped_lun; if (targ_lun < ctl_max_luns) lun = softc->ctl_luns[targ_lun]; if (lun) { /* * If the LUN is invalid, pretend that it doesn't exist. * It will go away as soon as all pending I/O has been * completed. */ mtx_lock(&lun->lun_lock); if (lun->flags & CTL_LUN_DISABLED) { mtx_unlock(&lun->lun_lock); lun = NULL; } } CTL_LUN(ctsio) = lun; if (lun) { CTL_BACKEND_LUN(ctsio) = lun->be_lun; /* * Every I/O goes into the OOA queue for a particular LUN, * and stays there until completion. */ #ifdef CTL_TIME_IO if (LIST_EMPTY(&lun->ooa_queue)) lun->idle_time += getsbinuptime() - lun->last_busy; #endif LIST_INSERT_HEAD(&lun->ooa_queue, &ctsio->io_hdr, ooa_links); } /* Get command entry and return error if it is unsuppotyed. */ entry = ctl_validate_command(ctsio); if (entry == NULL) { if (lun) mtx_unlock(&lun->lun_lock); return; } ctsio->io_hdr.flags &= ~CTL_FLAG_DATA_MASK; ctsio->io_hdr.flags |= entry->flags & CTL_FLAG_DATA_MASK; /* * Check to see whether we can send this command to LUNs that don't * exist. This should pretty much only be the case for inquiry * and request sense. Further checks, below, really require having * a LUN, so we can't really check the command anymore. Just put * it on the rtr queue. */ if (lun == NULL) { if (entry->flags & CTL_CMD_FLAG_OK_ON_NO_LUN) { ctsio->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; ctl_enqueue_rtr((union ctl_io *)ctsio); return; } ctl_set_unsupported_lun(ctsio); ctl_done((union ctl_io *)ctsio); CTL_DEBUG_PRINT(("ctl_scsiio_precheck: bailing out due to invalid LUN\n")); return; } else { /* * Make sure we support this particular command on this LUN. * e.g., we don't support writes to the control LUN. */ if (!ctl_cmd_applicable(lun->be_lun->lun_type, entry)) { mtx_unlock(&lun->lun_lock); ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return; } } initidx = ctl_get_initindex(&ctsio->io_hdr.nexus); /* * If we've got a request sense, it'll clear the contingent * allegiance condition. Otherwise, if we have a CA condition for * this initiator, clear it, because it sent down a command other * than request sense. */ if (ctsio->cdb[0] != REQUEST_SENSE) { struct scsi_sense_data *ps; ps = lun->pending_sense[initidx / CTL_MAX_INIT_PER_PORT]; if (ps != NULL) ps[initidx % CTL_MAX_INIT_PER_PORT].error_code = 0; } /* * If the command has this flag set, it handles its own unit * attention reporting, we shouldn't do anything. Otherwise we * check for any pending unit attentions, and send them back to the * initiator. We only do this when a command initially comes in, * not when we pull it off the blocked queue. * * According to SAM-3, section 5.3.2, the order that things get * presented back to the host is basically unit attentions caused * by some sort of reset event, busy status, reservation conflicts * or task set full, and finally any other status. * * One issue here is that some of the unit attentions we report * don't fall into the "reset" category (e.g. "reported luns data * has changed"). So reporting it here, before the reservation * check, may be technically wrong. I guess the only thing to do * would be to check for and report the reset events here, and then * check for the other unit attention types after we check for a * reservation conflict. * * XXX KDM need to fix this */ if ((entry->flags & CTL_CMD_FLAG_NO_SENSE) == 0) { ctl_ua_type ua_type; u_int sense_len = 0; ua_type = ctl_build_ua(lun, initidx, &ctsio->sense_data, &sense_len, SSD_TYPE_NONE); if (ua_type != CTL_UA_NONE) { mtx_unlock(&lun->lun_lock); ctsio->scsi_status = SCSI_STATUS_CHECK_COND; ctsio->io_hdr.status = CTL_SCSI_ERROR | CTL_AUTOSENSE; ctsio->sense_len = sense_len; ctl_done((union ctl_io *)ctsio); return; } } if (ctl_scsiio_lun_check(lun, entry, ctsio) != 0) { mtx_unlock(&lun->lun_lock); ctl_done((union ctl_io *)ctsio); return; } /* * XXX CHD this is where we want to send IO to other side if * this LUN is secondary on this SC. We will need to make a copy * of the IO and flag the IO on this side as SENT_2OTHER and the flag * the copy we send as FROM_OTHER. * We also need to stuff the address of the original IO so we can * find it easily. Something similar will need be done on the other * side so when we are done we can find the copy. */ if ((lun->flags & CTL_LUN_PRIMARY_SC) == 0 && (lun->flags & CTL_LUN_PEER_SC_PRIMARY) != 0 && (entry->flags & CTL_CMD_FLAG_RUN_HERE) == 0) { union ctl_ha_msg msg_info; int isc_retval; ctsio->io_hdr.flags |= CTL_FLAG_SENT_2OTHER_SC; ctsio->io_hdr.flags &= ~CTL_FLAG_IO_ACTIVE; mtx_unlock(&lun->lun_lock); msg_info.hdr.msg_type = CTL_MSG_SERIALIZE; msg_info.hdr.original_sc = (union ctl_io *)ctsio; msg_info.hdr.serializing_sc = NULL; msg_info.hdr.nexus = ctsio->io_hdr.nexus; msg_info.scsi.tag_num = ctsio->tag_num; msg_info.scsi.tag_type = ctsio->tag_type; memcpy(msg_info.scsi.cdb, ctsio->cdb, CTL_MAX_CDBLEN); msg_info.scsi.cdb_len = ctsio->cdb_len; msg_info.scsi.priority = ctsio->priority; if ((isc_retval = ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.scsi) - sizeof(msg_info.scsi.sense_data), M_WAITOK)) > CTL_HA_STATUS_SUCCESS) { ctsio->io_hdr.flags &= ~CTL_FLAG_SENT_2OTHER_SC; ctsio->io_hdr.flags |= CTL_FLAG_IO_ACTIVE; ctl_set_busy(ctsio); ctl_done((union ctl_io *)ctsio); return; } return; } bio = (union ctl_io *)LIST_NEXT(&ctsio->io_hdr, ooa_links); switch (ctl_check_ooa(lun, (union ctl_io *)ctsio, &bio)) { case CTL_ACTION_PASS: case CTL_ACTION_SKIP: ctsio->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; mtx_unlock(&lun->lun_lock); ctl_enqueue_rtr((union ctl_io *)ctsio); break; case CTL_ACTION_BLOCK: ctsio->io_hdr.blocker = bio; TAILQ_INSERT_TAIL(&bio->io_hdr.blocked_queue, &ctsio->io_hdr, blocked_links); mtx_unlock(&lun->lun_lock); break; case CTL_ACTION_OVERLAP: mtx_unlock(&lun->lun_lock); ctl_set_overlapped_cmd(ctsio); ctl_done((union ctl_io *)ctsio); break; case CTL_ACTION_OVERLAP_TAG: mtx_unlock(&lun->lun_lock); ctl_set_overlapped_tag(ctsio, ctsio->tag_num & 0xff); ctl_done((union ctl_io *)ctsio); break; default: __assert_unreachable(); } } const struct ctl_cmd_entry * ctl_get_cmd_entry(struct ctl_scsiio *ctsio, int *sa) { const struct ctl_cmd_entry *entry; int service_action; entry = &ctl_cmd_table[ctsio->cdb[0]]; if (sa) *sa = ((entry->flags & CTL_CMD_FLAG_SA5) != 0); if (entry->flags & CTL_CMD_FLAG_SA5) { service_action = ctsio->cdb[1] & SERVICE_ACTION_MASK; entry = &((const struct ctl_cmd_entry *) entry->execute)[service_action]; } return (entry); } const struct ctl_cmd_entry * ctl_validate_command(struct ctl_scsiio *ctsio) { const struct ctl_cmd_entry *entry; int i, sa; uint8_t diff; entry = ctl_get_cmd_entry(ctsio, &sa); ctsio->seridx = entry->seridx; if (entry->execute == NULL) { if (sa) ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ 1, /*bit_valid*/ 1, /*bit*/ 4); else ctl_set_invalid_opcode(ctsio); ctl_done((union ctl_io *)ctsio); return (NULL); } KASSERT(entry->length > 0, ("Not defined length for command 0x%02x/0x%02x", ctsio->cdb[0], ctsio->cdb[1])); for (i = 1; i < entry->length; i++) { diff = ctsio->cdb[i] & ~entry->usage[i - 1]; if (diff == 0) continue; ctl_set_invalid_field(ctsio, /*sks_valid*/ 1, /*command*/ 1, /*field*/ i, /*bit_valid*/ 1, /*bit*/ fls(diff) - 1); ctl_done((union ctl_io *)ctsio); return (NULL); } return (entry); } static int ctl_cmd_applicable(uint8_t lun_type, const struct ctl_cmd_entry *entry) { switch (lun_type) { case T_DIRECT: if ((entry->flags & CTL_CMD_FLAG_OK_ON_DIRECT) == 0) return (0); break; case T_PROCESSOR: if ((entry->flags & CTL_CMD_FLAG_OK_ON_PROC) == 0) return (0); break; case T_CDROM: if ((entry->flags & CTL_CMD_FLAG_OK_ON_CDROM) == 0) return (0); break; default: return (0); } return (1); } static int ctl_scsiio(struct ctl_scsiio *ctsio) { int retval; const struct ctl_cmd_entry *entry; retval = CTL_RETVAL_COMPLETE; CTL_DEBUG_PRINT(("ctl_scsiio cdb[0]=%02X\n", ctsio->cdb[0])); entry = ctl_get_cmd_entry(ctsio, NULL); /* * If this I/O has been aborted, just send it straight to * ctl_done() without executing it. */ if (ctsio->io_hdr.flags & CTL_FLAG_ABORT) { ctl_done((union ctl_io *)ctsio); goto bailout; } /* * All the checks should have been handled by ctl_scsiio_precheck(). * We should be clear now to just execute the I/O. */ retval = entry->execute(ctsio); bailout: return (retval); } static int ctl_target_reset(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_port *port = CTL_PORT(io); struct ctl_lun *lun; uint32_t initidx; ctl_ua_type ua_type; if (!(io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC)) { union ctl_ha_msg msg_info; msg_info.hdr.nexus = io->io_hdr.nexus; msg_info.task.task_action = io->taskio.task_action; msg_info.hdr.msg_type = CTL_MSG_MANAGE_TASKS; msg_info.hdr.original_sc = NULL; msg_info.hdr.serializing_sc = NULL; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.task), M_WAITOK); } initidx = ctl_get_initindex(&io->io_hdr.nexus); if (io->taskio.task_action == CTL_TASK_TARGET_RESET) ua_type = CTL_UA_TARG_RESET; else ua_type = CTL_UA_BUS_RESET; mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(lun, &softc->lun_list, links) { if (port != NULL && ctl_lun_map_to_port(port, lun->lun) == UINT32_MAX) continue; ctl_do_lun_reset(lun, initidx, ua_type); } mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; return (0); } /* * The LUN should always be set. The I/O is optional, and is used to * distinguish between I/Os sent by this initiator, and by other * initiators. We set unit attention for initiators other than this one. * SAM-3 is vague on this point. It does say that a unit attention should * be established for other initiators when a LUN is reset (see section * 5.7.3), but it doesn't specifically say that the unit attention should * be established for this particular initiator when a LUN is reset. Here * is the relevant text, from SAM-3 rev 8: * * 5.7.2 When a SCSI initiator port aborts its own tasks * * When a SCSI initiator port causes its own task(s) to be aborted, no * notification that the task(s) have been aborted shall be returned to * the SCSI initiator port other than the completion response for the * command or task management function action that caused the task(s) to * be aborted and notification(s) associated with related effects of the * action (e.g., a reset unit attention condition). * * XXX KDM for now, we're setting unit attention for all initiators. */ static void ctl_do_lun_reset(struct ctl_lun *lun, uint32_t initidx, ctl_ua_type ua_type) { struct ctl_io_hdr *xioh; int i; mtx_lock(&lun->lun_lock); /* Abort tasks. */ LIST_FOREACH(xioh, &lun->ooa_queue, ooa_links) { xioh->flags |= CTL_FLAG_ABORT | CTL_FLAG_ABORT_STATUS; ctl_try_unblock_io(lun, (union ctl_io *)xioh, FALSE); } /* Clear CA. */ for (i = 0; i < ctl_max_ports; i++) { free(lun->pending_sense[i], M_CTL); lun->pending_sense[i] = NULL; } /* Clear reservation. */ lun->flags &= ~CTL_LUN_RESERVED; /* Clear prevent media removal. */ if (lun->prevent) { for (i = 0; i < CTL_MAX_INITIATORS; i++) ctl_clear_mask(lun->prevent, i); lun->prevent_count = 0; } /* Clear TPC status */ ctl_tpc_lun_clear(lun, -1); /* Establish UA. */ #if 0 ctl_est_ua_all(lun, initidx, ua_type); #else ctl_est_ua_all(lun, -1, ua_type); #endif mtx_unlock(&lun->lun_lock); } static int ctl_lun_reset(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_lun *lun; uint32_t targ_lun, initidx; targ_lun = io->io_hdr.nexus.targ_mapped_lun; initidx = ctl_get_initindex(&io->io_hdr.nexus); mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_LUN_DOES_NOT_EXIST; return (1); } ctl_do_lun_reset(lun, initidx, CTL_UA_LUN_RESET); mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; if ((io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC) == 0) { union ctl_ha_msg msg_info; msg_info.hdr.msg_type = CTL_MSG_MANAGE_TASKS; msg_info.hdr.nexus = io->io_hdr.nexus; msg_info.task.task_action = CTL_TASK_LUN_RESET; msg_info.hdr.original_sc = NULL; msg_info.hdr.serializing_sc = NULL; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.task), M_WAITOK); } return (0); } static void ctl_abort_tasks_lun(struct ctl_lun *lun, uint32_t targ_port, uint32_t init_id, int other_sc) { struct ctl_io_hdr *xioh; mtx_assert(&lun->lun_lock, MA_OWNED); /* * Run through the OOA queue and attempt to find the given I/O. * The target port, initiator ID, tag type and tag number have to * match the values that we got from the initiator. If we have an * untagged command to abort, simply abort the first untagged command * we come to. We only allow one untagged command at a time of course. */ LIST_FOREACH(xioh, &lun->ooa_queue, ooa_links) { union ctl_io *xio = (union ctl_io *)xioh; + if ((targ_port == UINT32_MAX || targ_port == xioh->nexus.targ_port) && (init_id == UINT32_MAX || init_id == xioh->nexus.initid)) { if (targ_port != xioh->nexus.targ_port || init_id != xioh->nexus.initid) xioh->flags |= CTL_FLAG_ABORT_STATUS; xioh->flags |= CTL_FLAG_ABORT; if (!other_sc && !(lun->flags & CTL_LUN_PRIMARY_SC)) { union ctl_ha_msg msg_info; CTL_IO_ASSERT(xio, SCSI); msg_info.hdr.nexus = xioh->nexus; msg_info.task.task_action = CTL_TASK_ABORT_TASK; msg_info.task.tag_num = xio->scsiio.tag_num; msg_info.task.tag_type = xio->scsiio.tag_type; msg_info.hdr.msg_type = CTL_MSG_MANAGE_TASKS; msg_info.hdr.original_sc = NULL; msg_info.hdr.serializing_sc = NULL; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.task), M_NOWAIT); } ctl_try_unblock_io(lun, xio, FALSE); } } } static int ctl_abort_task_set(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_lun *lun; uint32_t targ_lun; /* * Look up the LUN. */ targ_lun = io->io_hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_LUN_DOES_NOT_EXIST; return (1); } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); if (io->taskio.task_action == CTL_TASK_ABORT_TASK_SET) { ctl_abort_tasks_lun(lun, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.initid, (io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC) != 0); } else { /* CTL_TASK_CLEAR_TASK_SET */ ctl_abort_tasks_lun(lun, UINT32_MAX, UINT32_MAX, (io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC) != 0); } mtx_unlock(&lun->lun_lock); io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; return (0); } static void ctl_i_t_nexus_loss(struct ctl_softc *softc, uint32_t initidx, ctl_ua_type ua_type) { struct ctl_lun *lun; struct scsi_sense_data *ps; uint32_t p, i; p = initidx / CTL_MAX_INIT_PER_PORT; i = initidx % CTL_MAX_INIT_PER_PORT; mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(lun, &softc->lun_list, links) { mtx_lock(&lun->lun_lock); /* Abort tasks. */ ctl_abort_tasks_lun(lun, p, i, 1); /* Clear CA. */ ps = lun->pending_sense[p]; if (ps != NULL) ps[i].error_code = 0; /* Clear reservation. */ if ((lun->flags & CTL_LUN_RESERVED) && (lun->res_idx == initidx)) lun->flags &= ~CTL_LUN_RESERVED; /* Clear prevent media removal. */ if (lun->prevent && ctl_is_set(lun->prevent, initidx)) { ctl_clear_mask(lun->prevent, initidx); lun->prevent_count--; } /* Clear TPC status */ ctl_tpc_lun_clear(lun, initidx); /* Establish UA. */ ctl_est_ua(lun, initidx, ua_type); mtx_unlock(&lun->lun_lock); } mtx_unlock(&softc->ctl_lock); } static int ctl_i_t_nexus_reset(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); uint32_t initidx; if (!(io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC)) { union ctl_ha_msg msg_info; msg_info.hdr.nexus = io->io_hdr.nexus; msg_info.task.task_action = CTL_TASK_I_T_NEXUS_RESET; msg_info.hdr.msg_type = CTL_MSG_MANAGE_TASKS; msg_info.hdr.original_sc = NULL; msg_info.hdr.serializing_sc = NULL; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.task), M_WAITOK); } initidx = ctl_get_initindex(&io->io_hdr.nexus); ctl_i_t_nexus_loss(softc, initidx, CTL_UA_I_T_NEXUS_LOSS); io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; return (0); } static int ctl_abort_task(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_io_hdr *xioh; struct ctl_lun *lun; uint32_t targ_lun; /* * Look up the LUN. */ targ_lun = io->io_hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_LUN_DOES_NOT_EXIST; return (1); } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); /* * Run through the OOA queue and attempt to find the given I/O. * The target port, initiator ID, tag type and tag number have to * match the values that we got from the initiator. If we have an * untagged command to abort, simply abort the first untagged command * we come to. We only allow one untagged command at a time of course. */ LIST_FOREACH(xioh, &lun->ooa_queue, ooa_links) { union ctl_io *xio = (union ctl_io *)xioh; CTL_IO_ASSERT(xio, SCSI); if ((xioh->nexus.targ_port != io->io_hdr.nexus.targ_port) || (xioh->nexus.initid != io->io_hdr.nexus.initid) || (xioh->flags & CTL_FLAG_ABORT)) continue; /* * If the abort says that the task is untagged, the * task in the queue must be untagged. Otherwise, * we just check to see whether the tag numbers * match. This is because the QLogic firmware * doesn't pass back the tag type in an abort * request. */ #if 0 if (((xio->scsiio.tag_type == CTL_TAG_UNTAGGED) && (io->taskio.tag_type == CTL_TAG_UNTAGGED)) || (xio->scsiio.tag_num == io->taskio.tag_num)) { #else /* * XXX KDM we've got problems with FC, because it * doesn't send down a tag type with aborts. So we * can only really go by the tag number... * This may cause problems with parallel SCSI. * Need to figure that out!! */ if (xio->scsiio.tag_num == io->taskio.tag_num) { #endif xioh->flags |= CTL_FLAG_ABORT; if ((io->io_hdr.flags & CTL_FLAG_FROM_OTHER_SC) == 0 && !(lun->flags & CTL_LUN_PRIMARY_SC)) { union ctl_ha_msg msg_info; msg_info.hdr.nexus = io->io_hdr.nexus; msg_info.task.task_action = CTL_TASK_ABORT_TASK; msg_info.task.tag_num = io->taskio.tag_num; msg_info.task.tag_type = io->taskio.tag_type; msg_info.hdr.msg_type = CTL_MSG_MANAGE_TASKS; msg_info.hdr.original_sc = NULL; msg_info.hdr.serializing_sc = NULL; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg_info, sizeof(msg_info.task), M_NOWAIT); } ctl_try_unblock_io(lun, xio, FALSE); } } mtx_unlock(&lun->lun_lock); io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; return (0); } static int ctl_query_task(union ctl_io *io, int task_set) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_io_hdr *xioh; struct ctl_lun *lun; int found = 0; uint32_t targ_lun; targ_lun = io->io_hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_LUN_DOES_NOT_EXIST; return (1); } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); LIST_FOREACH(xioh, &lun->ooa_queue, ooa_links) { union ctl_io *xio = (union ctl_io *)xioh; CTL_IO_ASSERT(xio, SCSI); if ((xioh->nexus.targ_port != io->io_hdr.nexus.targ_port) || (xioh->nexus.initid != io->io_hdr.nexus.initid) || (xioh->flags & CTL_FLAG_ABORT)) continue; if (task_set || xio->scsiio.tag_num == io->taskio.tag_num) { found = 1; break; } } mtx_unlock(&lun->lun_lock); if (found) io->taskio.task_status = CTL_TASK_FUNCTION_SUCCEEDED; else io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; return (0); } static int ctl_query_async_event(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_lun *lun; ctl_ua_type ua; uint32_t targ_lun, initidx; targ_lun = io->io_hdr.nexus.targ_mapped_lun; mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); io->taskio.task_status = CTL_TASK_LUN_DOES_NOT_EXIST; return (1); } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); initidx = ctl_get_initindex(&io->io_hdr.nexus); ua = ctl_build_qae(lun, initidx, io->taskio.task_resp); mtx_unlock(&lun->lun_lock); if (ua != CTL_UA_NONE) io->taskio.task_status = CTL_TASK_FUNCTION_SUCCEEDED; else io->taskio.task_status = CTL_TASK_FUNCTION_COMPLETE; return (0); } static void ctl_run_task(union ctl_io *io) { int retval = 1; CTL_DEBUG_PRINT(("ctl_run_task\n")); KASSERT(io->io_hdr.io_type == CTL_IO_TASK, ("ctl_run_task: Unextected io_type %d\n", io->io_hdr.io_type)); io->taskio.task_status = CTL_TASK_FUNCTION_NOT_SUPPORTED; bzero(io->taskio.task_resp, sizeof(io->taskio.task_resp)); switch (io->taskio.task_action) { case CTL_TASK_ABORT_TASK: retval = ctl_abort_task(io); break; case CTL_TASK_ABORT_TASK_SET: case CTL_TASK_CLEAR_TASK_SET: retval = ctl_abort_task_set(io); break; case CTL_TASK_CLEAR_ACA: break; case CTL_TASK_I_T_NEXUS_RESET: retval = ctl_i_t_nexus_reset(io); break; case CTL_TASK_LUN_RESET: retval = ctl_lun_reset(io); break; case CTL_TASK_TARGET_RESET: case CTL_TASK_BUS_RESET: retval = ctl_target_reset(io); break; case CTL_TASK_PORT_LOGIN: break; case CTL_TASK_PORT_LOGOUT: break; case CTL_TASK_QUERY_TASK: retval = ctl_query_task(io, 0); break; case CTL_TASK_QUERY_TASK_SET: retval = ctl_query_task(io, 1); break; case CTL_TASK_QUERY_ASYNC_EVENT: retval = ctl_query_async_event(io); break; default: printf("%s: got unknown task management event %d\n", __func__, io->taskio.task_action); break; } if (retval == 0) io->io_hdr.status = CTL_SUCCESS; else io->io_hdr.status = CTL_ERROR; ctl_done(io); } /* * For HA operation. Handle commands that come in from the other * controller. */ static void ctl_handle_isc(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_lun *lun; const struct ctl_cmd_entry *entry; uint32_t targ_lun; CTL_IO_ASSERT(io, SCSI); targ_lun = io->io_hdr.nexus.targ_mapped_lun; switch (io->io_hdr.msg_type) { case CTL_MSG_SERIALIZE: ctl_serialize_other_sc_cmd(&io->scsiio); break; case CTL_MSG_R2R: /* Only used in SER_ONLY mode. */ entry = ctl_get_cmd_entry(&io->scsiio, NULL); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { ctl_done(io); break; } mtx_lock(&lun->lun_lock); if (ctl_scsiio_lun_check(lun, entry, &io->scsiio) != 0) { mtx_unlock(&lun->lun_lock); ctl_done(io); break; } io->io_hdr.flags |= CTL_FLAG_IS_WAS_ON_RTR; mtx_unlock(&lun->lun_lock); ctl_enqueue_rtr(io); break; case CTL_MSG_FINISH_IO: if (softc->ha_mode == CTL_HA_MODE_XFER) { ctl_done(io); break; } if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { ctl_free_io(io); break; } mtx_lock(&lun->lun_lock); ctl_try_unblock_others(lun, io, TRUE); LIST_REMOVE(&io->io_hdr, ooa_links); mtx_unlock(&lun->lun_lock); ctl_free_io(io); break; case CTL_MSG_PERS_ACTION: ctl_hndl_per_res_out_on_other_sc(io); ctl_free_io(io); break; case CTL_MSG_BAD_JUJU: ctl_done(io); break; case CTL_MSG_DATAMOVE: /* Only used in XFER mode */ ctl_datamove_remote(io); break; case CTL_MSG_DATAMOVE_DONE: /* Only used in XFER mode */ ctl_datamove_done(io, false); break; case CTL_MSG_FAILOVER: ctl_failover_lun(io); ctl_free_io(io); break; default: printf("%s: Invalid message type %d\n", __func__, io->io_hdr.msg_type); ctl_free_io(io); break; } } /* * Returns the match type in the case of a match, or CTL_LUN_PAT_NONE if * there is no match. */ static ctl_lun_error_pattern ctl_cmd_pattern_match(struct ctl_scsiio *ctsio, struct ctl_error_desc *desc) { const struct ctl_cmd_entry *entry; ctl_lun_error_pattern filtered_pattern, pattern; pattern = desc->error_pattern; /* * XXX KDM we need more data passed into this function to match a * custom pattern, and we actually need to implement custom pattern * matching. */ if (pattern & CTL_LUN_PAT_CMD) return (CTL_LUN_PAT_CMD); if ((pattern & CTL_LUN_PAT_MASK) == CTL_LUN_PAT_ANY) return (CTL_LUN_PAT_ANY); entry = ctl_get_cmd_entry(ctsio, NULL); filtered_pattern = entry->pattern & pattern; /* * If the user requested specific flags in the pattern (e.g. * CTL_LUN_PAT_RANGE), make sure the command supports all of those * flags. * * If the user did not specify any flags, it doesn't matter whether * or not the command supports the flags. */ if ((filtered_pattern & ~CTL_LUN_PAT_MASK) != (pattern & ~CTL_LUN_PAT_MASK)) return (CTL_LUN_PAT_NONE); /* * If the user asked for a range check, see if the requested LBA * range overlaps with this command's LBA range. */ if (filtered_pattern & CTL_LUN_PAT_RANGE) { uint64_t lba1; uint64_t len1; ctl_action action; int retval; retval = ctl_get_lba_len((union ctl_io *)ctsio, &lba1, &len1); if (retval != 0) return (CTL_LUN_PAT_NONE); action = ctl_extent_check_lba(lba1, len1, desc->lba_range.lba, desc->lba_range.len, FALSE); /* * A "pass" means that the LBA ranges don't overlap, so * this doesn't match the user's range criteria. */ if (action == CTL_ACTION_PASS) return (CTL_LUN_PAT_NONE); } return (filtered_pattern); } static void ctl_inject_error(struct ctl_lun *lun, union ctl_io *io) { struct ctl_error_desc *desc, *desc2; CTL_IO_ASSERT(io, SCSI); mtx_assert(&lun->lun_lock, MA_OWNED); STAILQ_FOREACH_SAFE(desc, &lun->error_list, links, desc2) { ctl_lun_error_pattern pattern; /* * Check to see whether this particular command matches * the pattern in the descriptor. */ pattern = ctl_cmd_pattern_match(&io->scsiio, desc); if ((pattern & CTL_LUN_PAT_MASK) == CTL_LUN_PAT_NONE) continue; switch (desc->lun_error & CTL_LUN_INJ_TYPE) { case CTL_LUN_INJ_ABORTED: ctl_set_aborted(&io->scsiio); break; case CTL_LUN_INJ_MEDIUM_ERR: ctl_set_medium_error(&io->scsiio, (io->io_hdr.flags & CTL_FLAG_DATA_MASK) != CTL_FLAG_DATA_OUT); break; case CTL_LUN_INJ_UA: /* 29h/00h POWER ON, RESET, OR BUS DEVICE RESET * OCCURRED */ ctl_set_ua(&io->scsiio, 0x29, 0x00); break; case CTL_LUN_INJ_CUSTOM: /* * We're assuming the user knows what he is doing. * Just copy the sense information without doing * checks. */ bcopy(&desc->custom_sense, &io->scsiio.sense_data, MIN(sizeof(desc->custom_sense), sizeof(io->scsiio.sense_data))); io->scsiio.scsi_status = SCSI_STATUS_CHECK_COND; io->scsiio.sense_len = SSD_FULL_SIZE; io->io_hdr.status = CTL_SCSI_ERROR | CTL_AUTOSENSE; break; case CTL_LUN_INJ_NONE: default: /* * If this is an error injection type we don't know * about, clear the continuous flag (if it is set) * so it will get deleted below. */ desc->lun_error &= ~CTL_LUN_INJ_CONTINUOUS; break; } /* * By default, each error injection action is a one-shot */ if (desc->lun_error & CTL_LUN_INJ_CONTINUOUS) continue; STAILQ_REMOVE(&lun->error_list, desc, ctl_error_desc, links); free(desc, M_CTL); } } #ifdef CTL_IO_DELAY static void ctl_datamove_timer_wakeup(void *arg) { union ctl_io *io; io = (union ctl_io *)arg; ctl_datamove(io); } #endif /* CTL_IO_DELAY */ static void ctl_datamove_done_process(union ctl_io *io) { #ifdef CTL_TIME_IO struct bintime cur_bt; getbinuptime(&cur_bt); bintime_sub(&cur_bt, &io->io_hdr.dma_start_bt); bintime_add(&io->io_hdr.dma_bt, &cur_bt); #endif io->io_hdr.num_dmas++; if ((io->io_hdr.port_status != 0) && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_STATUS_NONE || (io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS)) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 1, /*retry_count*/ io->io_hdr.port_status); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: if (io->io_hdr.flags & CTL_FLAG_ABORT) ctl_nvme_set_command_aborted(&io->nvmeio); else ctl_nvme_set_data_transfer_error(&io->nvmeio); break; default: __assert_unreachable(); } } else if (ctl_kern_data_resid(io) != 0 && (io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_OUT && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_STATUS_NONE || (io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS)) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: ctl_set_invalid_field_ciu(&io->scsiio); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: ctl_nvme_set_data_transfer_error(&io->nvmeio); break; default: __assert_unreachable(); } } else if (ctl_debug & CTL_DEBUG_CDB_DATA) ctl_data_print(io); } void ctl_datamove_done(union ctl_io *io, bool samethr) { ctl_datamove_done_process(io); ctl_be_move_done(io, samethr); } void ctl_datamove(union ctl_io *io) { void (*fe_datamove)(union ctl_io *io); mtx_assert(&((struct ctl_softc *)CTL_SOFTC(io))->ctl_lock, MA_NOTOWNED); CTL_DEBUG_PRINT(("ctl_datamove\n")); /* No data transferred yet. Frontend must update this when done. */ ctl_set_kern_data_resid(io, ctl_kern_data_len(io)); #ifdef CTL_TIME_IO getbinuptime(&io->io_hdr.dma_start_bt); #endif /* CTL_TIME_IO */ #ifdef CTL_IO_DELAY if (io->io_hdr.flags & CTL_FLAG_DELAY_DONE) { io->io_hdr.flags &= ~CTL_FLAG_DELAY_DONE; } else { struct ctl_lun *lun; lun = CTL_LUN(io); if ((lun != NULL) && (lun->delay_info.datamove_delay > 0)) { callout_init(&io->io_hdr.delay_callout, /*mpsafe*/ 1); io->io_hdr.flags |= CTL_FLAG_DELAY_DONE; callout_reset(&io->io_hdr.delay_callout, lun->delay_info.datamove_delay * hz, ctl_datamove_timer_wakeup, io); if (lun->delay_info.datamove_type == CTL_DELAY_TYPE_ONESHOT) lun->delay_info.datamove_delay = 0; return; } } #endif /* * This command has been aborted. Set the port status, so we fail * the data move. */ if (io->io_hdr.flags & CTL_FLAG_ABORT) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: printf("ctl_datamove: tag 0x%jx on (%u:%u:%u) aborted\n", io->scsiio.tag_num, io->io_hdr.nexus.initid, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.targ_lun); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: printf("ctl_datamove: CID 0x%x on (%u:%u:%u) aborted\n", le16toh(io->nvmeio.cmd.cid), io->io_hdr.nexus.initid, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.targ_lun); break; default: __assert_unreachable(); } io->io_hdr.port_status = 31337; ctl_datamove_done_process(io); ctl_be_move_done(io, true); return; } /* Don't confuse frontend with zero length data move. */ if (ctl_kern_data_len(io) == 0) { ctl_datamove_done_process(io); ctl_be_move_done(io, true); return; } fe_datamove = CTL_PORT(io)->fe_datamove; fe_datamove(io); } static void ctl_send_datamove_done(union ctl_io *io, int have_lock) { union ctl_ha_msg msg; #ifdef CTL_TIME_IO struct bintime cur_bt; #endif CTL_IO_ASSERT(io, SCSI); memset(&msg, 0, sizeof(msg)); msg.hdr.msg_type = CTL_MSG_DATAMOVE_DONE; msg.hdr.original_sc = io; msg.hdr.serializing_sc = io->io_hdr.remote_io; msg.hdr.nexus = io->io_hdr.nexus; msg.hdr.status = io->io_hdr.status; msg.scsi.kern_data_resid = io->scsiio.kern_data_resid; msg.scsi.tag_num = io->scsiio.tag_num; msg.scsi.tag_type = io->scsiio.tag_type; msg.scsi.scsi_status = io->scsiio.scsi_status; memcpy(&msg.scsi.sense_data, &io->scsiio.sense_data, io->scsiio.sense_len); msg.scsi.sense_len = io->scsiio.sense_len; msg.scsi.port_status = io->io_hdr.port_status; io->io_hdr.flags &= ~CTL_FLAG_IO_ACTIVE; if (io->io_hdr.flags & CTL_FLAG_FAILOVER) { ctl_failover_io(io, /*have_lock*/ have_lock); return; } ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.scsi) - sizeof(msg.scsi.sense_data) + msg.scsi.sense_len, M_WAITOK); #ifdef CTL_TIME_IO getbinuptime(&cur_bt); bintime_sub(&cur_bt, &io->io_hdr.dma_start_bt); bintime_add(&io->io_hdr.dma_bt, &cur_bt); #endif io->io_hdr.num_dmas++; } /* * The DMA to the remote side is done, now we need to tell the other side * we're done so it can continue with its data movement. */ static void ctl_datamove_remote_write_cb(struct ctl_ha_dt_req *rq) { union ctl_io *io; uint32_t i; io = rq->context; CTL_IO_ASSERT(io, SCSI); if (rq->ret != CTL_HA_STATUS_SUCCESS) { printf("%s: ISC DMA write failed with error %d", __func__, rq->ret); ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 1, /*retry_count*/ rq->ret); } ctl_dt_req_free(rq); for (i = 0; i < io->scsiio.kern_sg_entries; i++) free(CTL_LSGLT(io)[i].addr, M_CTL); free(CTL_RSGL(io), M_CTL); CTL_RSGL(io) = NULL; CTL_LSGL(io) = NULL; /* * The data is in local and remote memory, so now we need to send * status (good or back) back to the other side. */ ctl_send_datamove_done(io, /*have_lock*/ 0); } /* * We've moved the data from the host/controller into local memory. Now we * need to push it over to the remote controller's memory. */ static int ctl_datamove_remote_dm_write_cb(union ctl_io *io, bool samethr) { int retval; retval = ctl_datamove_remote_xfer(io, CTL_HA_DT_CMD_WRITE, ctl_datamove_remote_write_cb); return (retval); } static void ctl_datamove_remote_write(union ctl_io *io) { int retval; void (*fe_datamove)(union ctl_io *io); CTL_IO_ASSERT(io, SCSI); /* * - Get the data from the host/HBA into local memory. * - DMA memory from the local controller to the remote controller. * - Send status back to the remote controller. */ retval = ctl_datamove_remote_sgl_setup(io); if (retval != 0) return; /* Switch the pointer over so the FETD knows what to do */ io->scsiio.kern_data_ptr = (uint8_t *)CTL_LSGL(io); /* * Use a custom move done callback, since we need to send completion * back to the other controller, not to the backend on this side. */ io->scsiio.be_move_done = ctl_datamove_remote_dm_write_cb; fe_datamove = CTL_PORT(io)->fe_datamove; fe_datamove(io); } static int ctl_datamove_remote_dm_read_cb(union ctl_io *io, bool samethr) { uint32_t i; CTL_IO_ASSERT(io, SCSI); for (i = 0; i < io->scsiio.kern_sg_entries; i++) free(CTL_LSGLT(io)[i].addr, M_CTL); free(CTL_RSGL(io), M_CTL); CTL_RSGL(io) = NULL; CTL_LSGL(io) = NULL; /* * The read is done, now we need to send status (good or bad) back * to the other side. */ ctl_send_datamove_done(io, /*have_lock*/ 0); return (0); } static void ctl_datamove_remote_read_cb(struct ctl_ha_dt_req *rq) { union ctl_io *io; void (*fe_datamove)(union ctl_io *io); io = rq->context; CTL_IO_ASSERT(io, SCSI); if (rq->ret != CTL_HA_STATUS_SUCCESS) { printf("%s: ISC DMA read failed with error %d\n", __func__, rq->ret); ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 1, /*retry_count*/ rq->ret); } ctl_dt_req_free(rq); /* Switch the pointer over so the FETD knows what to do */ io->scsiio.kern_data_ptr = (uint8_t *)CTL_LSGL(io); /* * Use a custom move done callback, since we need to send completion * back to the other controller, not to the backend on this side. */ io->scsiio.be_move_done = ctl_datamove_remote_dm_read_cb; /* XXX KDM add checks like the ones in ctl_datamove? */ fe_datamove = CTL_PORT(io)->fe_datamove; fe_datamove(io); } static int ctl_datamove_remote_sgl_setup(union ctl_io *io) { struct ctl_sg_entry *local_sglist; uint32_t len_to_go; int retval; int i; CTL_IO_ASSERT(io, SCSI); retval = 0; local_sglist = CTL_LSGL(io); len_to_go = io->scsiio.kern_data_len; /* * The difficult thing here is that the size of the various * S/G segments may be different than the size from the * remote controller. That'll make it harder when DMAing * the data back to the other side. */ for (i = 0; len_to_go > 0; i++) { local_sglist[i].len = MIN(len_to_go, CTL_HA_DATAMOVE_SEGMENT); local_sglist[i].addr = malloc(local_sglist[i].len, M_CTL, M_WAITOK); len_to_go -= local_sglist[i].len; } /* * Reset the number of S/G entries accordingly. The original * number of S/G entries is available in rem_sg_entries. */ io->scsiio.kern_sg_entries = i; return (retval); } static int ctl_datamove_remote_xfer(union ctl_io *io, unsigned command, ctl_ha_dt_cb callback) { struct ctl_ha_dt_req *rq; struct ctl_sg_entry *remote_sglist, *local_sglist; uint32_t local_used, remote_used, total_used; int i, j, isc_ret; rq = ctl_dt_req_alloc(); CTL_IO_ASSERT(io, SCSI); /* * If we failed to allocate the request, and if the DMA didn't fail * anyway, set busy status. This is just a resource allocation * failure. */ if ((rq == NULL) && ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_STATUS_NONE && (io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS)) ctl_set_busy(&io->scsiio); if ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_STATUS_NONE && (io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS) { if (rq != NULL) ctl_dt_req_free(rq); /* * The data move failed. We need to return status back * to the other controller. No point in trying to DMA * data to the remote controller. */ ctl_send_datamove_done(io, /*have_lock*/ 0); return (1); } local_sglist = CTL_LSGL(io); remote_sglist = CTL_RSGL(io); local_used = 0; remote_used = 0; total_used = 0; /* * Pull/push the data over the wire from/to the other controller. * This takes into account the possibility that the local and * remote sglists may not be identical in terms of the size of * the elements and the number of elements. * * One fundamental assumption here is that the length allocated for * both the local and remote sglists is identical. Otherwise, we've * essentially got a coding error of some sort. */ isc_ret = CTL_HA_STATUS_SUCCESS; for (i = 0, j = 0; total_used < io->scsiio.kern_data_len; ) { uint32_t cur_len; uint8_t *tmp_ptr; rq->command = command; rq->context = io; /* * Both pointers should be aligned. But it is possible * that the allocation length is not. They should both * also have enough slack left over at the end, though, * to round up to the next 8 byte boundary. */ cur_len = MIN(local_sglist[i].len - local_used, remote_sglist[j].len - remote_used); rq->size = cur_len; tmp_ptr = (uint8_t *)local_sglist[i].addr; tmp_ptr += local_used; #if 0 /* Use physical addresses when talking to ISC hardware */ if ((io->io_hdr.flags & CTL_FLAG_BUS_ADDR) == 0) { /* XXX KDM use busdma */ rq->local = vtophys(tmp_ptr); } else rq->local = tmp_ptr; #else KASSERT((io->io_hdr.flags & CTL_FLAG_BUS_ADDR) == 0, ("HA does not support BUS_ADDR")); rq->local = tmp_ptr; #endif tmp_ptr = (uint8_t *)remote_sglist[j].addr; tmp_ptr += remote_used; rq->remote = tmp_ptr; rq->callback = NULL; local_used += cur_len; if (local_used >= local_sglist[i].len) { i++; local_used = 0; } remote_used += cur_len; if (remote_used >= remote_sglist[j].len) { j++; remote_used = 0; } total_used += cur_len; if (total_used >= io->scsiio.kern_data_len) rq->callback = callback; isc_ret = ctl_dt_single(rq); if (isc_ret > CTL_HA_STATUS_SUCCESS) break; } if (isc_ret != CTL_HA_STATUS_WAIT) { rq->ret = isc_ret; callback(rq); } return (0); } static void ctl_datamove_remote_read(union ctl_io *io) { int retval; uint32_t i; /* * This will send an error to the other controller in the case of a * failure. */ retval = ctl_datamove_remote_sgl_setup(io); if (retval != 0) return; retval = ctl_datamove_remote_xfer(io, CTL_HA_DT_CMD_READ, ctl_datamove_remote_read_cb); if (retval != 0) { /* * Make sure we free memory if there was an error.. The * ctl_datamove_remote_xfer() function will send the * datamove done message, or call the callback with an * error if there is a problem. */ for (i = 0; i < ctl_kern_sg_entries(io); i++) free(CTL_LSGLT(io)[i].addr, M_CTL); free(CTL_RSGL(io), M_CTL); CTL_RSGL(io) = NULL; CTL_LSGL(io) = NULL; } } /* * Process a datamove request from the other controller. This is used for * XFER mode only, not SER_ONLY mode. For writes, we DMA into local memory * first. Once that is complete, the data gets DMAed into the remote * controller's memory. For reads, we DMA from the remote controller's * memory into our memory first, and then move it out to the FETD. */ static void ctl_datamove_remote(union ctl_io *io) { CTL_IO_ASSERT(io, SCSI); mtx_assert(&((struct ctl_softc *)CTL_SOFTC(io))->ctl_lock, MA_NOTOWNED); if (io->io_hdr.flags & CTL_FLAG_FAILOVER) { ctl_failover_io(io, /*have_lock*/ 0); return; } /* * Note that we look for an aborted I/O here, but don't do some of * the other checks that ctl_datamove() normally does. * We don't need to run the datamove delay code, since that should * have been done if need be on the other controller. */ if (io->io_hdr.flags & CTL_FLAG_ABORT) { printf("%s: tag 0x%jx on (%u:%u:%u) aborted\n", __func__, io->scsiio.tag_num, io->io_hdr.nexus.initid, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.targ_lun); io->io_hdr.port_status = 31338; ctl_send_datamove_done(io, /*have_lock*/ 0); return; } if ((io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_OUT) ctl_datamove_remote_write(io); else if ((io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_IN) ctl_datamove_remote_read(io); else { io->io_hdr.port_status = 31339; ctl_send_datamove_done(io, /*have_lock*/ 0); } } static void ctl_process_done(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_port *port = CTL_PORT(io); struct ctl_lun *lun = CTL_LUN(io); void (*fe_done)(union ctl_io *io); union ctl_ha_msg msg; CTL_DEBUG_PRINT(("ctl_process_done\n")); fe_done = port->fe_done; #ifdef CTL_TIME_IO if ((time_uptime - io->io_hdr.start_time) > ctl_time_io_secs) { char str[256]; char path_str[64]; struct sbuf sb; ctl_scsi_path_string(&io->io_hdr, path_str, sizeof(path_str)); sbuf_new(&sb, str, sizeof(str), SBUF_FIXEDLEN); ctl_io_sbuf(io, &sb); sbuf_cat(&sb, path_str); sbuf_printf(&sb, "ctl_process_done: %jd seconds\n", (intmax_t)time_uptime - io->io_hdr.start_time); sbuf_finish(&sb); printf("%s", sbuf_data(&sb)); } #endif /* CTL_TIME_IO */ switch (io->io_hdr.io_type) { case CTL_IO_SCSI: case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: break; case CTL_IO_TASK: if (ctl_debug & CTL_DEBUG_INFO) ctl_io_error_print(io, NULL); fe_done(io); return; default: panic("%s: Invalid CTL I/O type %d\n", __func__, io->io_hdr.io_type); } if (lun == NULL) { CTL_DEBUG_PRINT(("NULL LUN for lun %d\n", io->io_hdr.nexus.targ_mapped_lun)); goto bailout; } mtx_lock(&lun->lun_lock); /* * Check to see if we have any informational exception and status * of this command can be modified to report it in form of either * RECOVERED ERROR or NO SENSE, depending on MRIE mode page field. */ if (lun->ie_reported == 0 && lun->ie_asc != 0 && io->io_hdr.status == CTL_SUCCESS && (io->io_hdr.flags & CTL_FLAG_STATUS_SENT) == 0) { uint8_t mrie = lun->MODE_IE.mrie; uint8_t per = ((lun->MODE_RWER.byte3 & SMS_RWER_PER) || (lun->MODE_VER.byte3 & SMS_VER_PER)); CTL_IO_ASSERT(io, SCSI); if (((mrie == SIEP_MRIE_REC_COND && per) || mrie == SIEP_MRIE_REC_UNCOND || mrie == SIEP_MRIE_NO_SENSE) && (ctl_get_cmd_entry(&io->scsiio, NULL)->flags & CTL_CMD_FLAG_NO_SENSE) == 0) { ctl_set_sense(&io->scsiio, /*current_error*/ 1, /*sense_key*/ (mrie == SIEP_MRIE_NO_SENSE) ? SSD_KEY_NO_SENSE : SSD_KEY_RECOVERED_ERROR, /*asc*/ lun->ie_asc, /*ascq*/ lun->ie_ascq, SSD_ELEM_NONE); lun->ie_reported = 1; } } else if (lun->ie_reported < 0) lun->ie_reported = 0; /* * Check to see if we have any errors to inject here. We only * inject errors for commands that don't already have errors set. */ if (!STAILQ_EMPTY(&lun->error_list) && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS) && ((io->io_hdr.flags & CTL_FLAG_STATUS_SENT) == 0)) ctl_inject_error(lun, io); /* * XXX KDM how do we treat commands that aren't completed * successfully? * * XXX KDM should we also track I/O latency? */ if ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_SUCCESS && (io->io_hdr.io_type == CTL_IO_SCSI || io->io_hdr.io_type == CTL_IO_NVME || io->io_hdr.io_type == CTL_IO_NVME_ADMIN)) { int type; #ifdef CTL_TIME_IO struct bintime bt; getbinuptime(&bt); bintime_sub(&bt, &io->io_hdr.start_bt); #endif if ((io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_IN) type = CTL_STATS_READ; else if ((io->io_hdr.flags & CTL_FLAG_DATA_MASK) == CTL_FLAG_DATA_OUT) type = CTL_STATS_WRITE; else type = CTL_STATS_NO_IO; lun->stats.bytes[type] += ctl_kern_total_len(io); lun->stats.operations[type] ++; lun->stats.dmas[type] += io->io_hdr.num_dmas; #ifdef CTL_TIME_IO bintime_add(&lun->stats.dma_time[type], &io->io_hdr.dma_bt); bintime_add(&lun->stats.time[type], &bt); #endif mtx_lock(&port->port_lock); port->stats.bytes[type] += ctl_kern_total_len(io); port->stats.operations[type] ++; port->stats.dmas[type] += io->io_hdr.num_dmas; #ifdef CTL_TIME_IO bintime_add(&port->stats.dma_time[type], &io->io_hdr.dma_bt); bintime_add(&port->stats.time[type], &bt); #endif mtx_unlock(&port->port_lock); } /* * Run through the blocked queue of this I/O and see if anything * can be unblocked, now that this I/O is done and will be removed. * We need to do it before removal to have OOA position to start. */ ctl_try_unblock_others(lun, io, TRUE); /* * Remove this from the OOA queue. */ LIST_REMOVE(&io->io_hdr, ooa_links); #ifdef CTL_TIME_IO if (LIST_EMPTY(&lun->ooa_queue)) lun->last_busy = getsbinuptime(); #endif /* * If the LUN has been invalidated, free it if there is nothing * left on its OOA queue. */ if ((lun->flags & CTL_LUN_INVALID) && LIST_EMPTY(&lun->ooa_queue)) { mtx_unlock(&lun->lun_lock); ctl_free_lun(lun); } else mtx_unlock(&lun->lun_lock); bailout: /* * If this command has been aborted, make sure we set the status * properly. The FETD is responsible for freeing the I/O and doing * whatever it needs to do to clean up its state. */ if (io->io_hdr.flags & CTL_FLAG_ABORT) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: ctl_set_task_aborted(&io->scsiio); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: ctl_nvme_set_command_aborted(&io->nvmeio); break; default: __assert_unreachable(); } } /* * If enabled, print command error status. */ if ((io->io_hdr.status & CTL_STATUS_MASK) != CTL_SUCCESS && (ctl_debug & CTL_DEBUG_INFO) != 0) ctl_io_error_print(io, NULL); /* * Tell the FETD or the other shelf controller we're done with this * command. Note that only SCSI commands get to this point. Task * management commands are completed above. */ if ((softc->ha_mode != CTL_HA_MODE_XFER) && (io->io_hdr.flags & CTL_FLAG_SENT_2OTHER_SC)) { memset(&msg, 0, sizeof(msg)); msg.hdr.msg_type = CTL_MSG_FINISH_IO; msg.hdr.serializing_sc = io->io_hdr.remote_io; msg.hdr.nexus = io->io_hdr.nexus; ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.scsi) - sizeof(msg.scsi.sense_data), M_WAITOK); } fe_done(io); } /* * Front end should call this if it doesn't do autosense. When the request * sense comes back in from the initiator, we'll dequeue this and send it. */ int ctl_queue_sense(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_port *port = CTL_PORT(io); struct ctl_lun *lun; struct scsi_sense_data *ps; uint32_t initidx, p, targ_lun; CTL_DEBUG_PRINT(("ctl_queue_sense\n")); CTL_IO_ASSERT(io, SCSI); targ_lun = ctl_lun_map_from_port(port, io->io_hdr.nexus.targ_lun); /* * LUN lookup will likely move to the ctl_work_thread() once we * have our new queueing infrastructure (that doesn't put things on * a per-LUN queue initially). That is so that we can handle * things like an INQUIRY to a LUN that we don't have enabled. We * can't deal with that right now. * If we don't have a LUN for this, just toss the sense information. */ mtx_lock(&softc->ctl_lock); if (targ_lun >= ctl_max_luns || (lun = softc->ctl_luns[targ_lun]) == NULL) { mtx_unlock(&softc->ctl_lock); goto bailout; } mtx_lock(&lun->lun_lock); mtx_unlock(&softc->ctl_lock); initidx = ctl_get_initindex(&io->io_hdr.nexus); p = initidx / CTL_MAX_INIT_PER_PORT; if (lun->pending_sense[p] == NULL) { lun->pending_sense[p] = malloc(sizeof(*ps) * CTL_MAX_INIT_PER_PORT, M_CTL, M_NOWAIT | M_ZERO); } if ((ps = lun->pending_sense[p]) != NULL) { ps += initidx % CTL_MAX_INIT_PER_PORT; memset(ps, 0, sizeof(*ps)); memcpy(ps, &io->scsiio.sense_data, io->scsiio.sense_len); } mtx_unlock(&lun->lun_lock); bailout: ctl_free_io(io); return (CTL_RETVAL_COMPLETE); } /* * Primary command inlet from frontend ports. All SCSI and task I/O * requests must go through this function. */ int ctl_queue(union ctl_io *io) { struct ctl_port *port = CTL_PORT(io); - CTL_DEBUG_PRINT(("ctl_queue cdb[0]=%02X\n", io->scsiio.cdb[0])); + switch (io->io_hdr.io_type) { + case CTL_IO_SCSI: + case CTL_IO_TASK: + CTL_DEBUG_PRINT(("ctl_queue cdb[0]=%02X\n", io->scsiio.cdb[0])); + break; + case CTL_IO_NVME: + CTL_DEBUG_PRINT(("ctl_queue nvme nvm cmd=%02X\n", + io->nvmeio.cmd.opc)); + break; + case CTL_IO_NVME_ADMIN: + CTL_DEBUG_PRINT(("ctl_queue nvme admin cmd=%02X\n", + io->nvmeio.cmd.opc)); + break; + default: + break; + } #ifdef CTL_TIME_IO io->io_hdr.start_time = time_uptime; getbinuptime(&io->io_hdr.start_bt); #endif /* CTL_TIME_IO */ /* Map FE-specific LUN ID into global one. */ io->io_hdr.nexus.targ_mapped_lun = ctl_lun_map_from_port(port, io->io_hdr.nexus.targ_lun); switch (io->io_hdr.io_type) { case CTL_IO_SCSI: case CTL_IO_TASK: + case CTL_IO_NVME: + case CTL_IO_NVME_ADMIN: if (ctl_debug & CTL_DEBUG_CDB) ctl_io_print(io); ctl_enqueue_incoming(io); break; default: printf("ctl_queue: unknown I/O type %d\n", io->io_hdr.io_type); return (EINVAL); } return (CTL_RETVAL_COMPLETE); } int ctl_run(union ctl_io *io) { struct ctl_port *port = CTL_PORT(io); CTL_DEBUG_PRINT(("ctl_run cdb[0]=%02X\n", io->scsiio.cdb[0])); #ifdef CTL_TIME_IO io->io_hdr.start_time = time_uptime; getbinuptime(&io->io_hdr.start_bt); #endif /* CTL_TIME_IO */ /* Map FE-specific LUN ID into global one. */ io->io_hdr.nexus.targ_mapped_lun = ctl_lun_map_from_port(port, io->io_hdr.nexus.targ_lun); switch (io->io_hdr.io_type) { case CTL_IO_SCSI: if (ctl_debug & CTL_DEBUG_CDB) ctl_io_print(io); ctl_scsiio_precheck(&io->scsiio); break; case CTL_IO_TASK: if (ctl_debug & CTL_DEBUG_CDB) ctl_io_print(io); ctl_run_task(io); break; + case CTL_IO_NVME: + case CTL_IO_NVME_ADMIN: + if (ctl_debug & CTL_DEBUG_CDB) + ctl_io_print(io); + ctl_nvmeio_precheck(&io->nvmeio); + break; default: printf("ctl_run: unknown I/O type %d\n", io->io_hdr.io_type); return (EINVAL); } return (CTL_RETVAL_COMPLETE); } #ifdef CTL_IO_DELAY static void ctl_done_timer_wakeup(void *arg) { union ctl_io *io; io = (union ctl_io *)arg; ctl_done(io); } #endif /* CTL_IO_DELAY */ void ctl_serseq_done(union ctl_io *io) { struct ctl_lun *lun = CTL_LUN(io); /* This is racy, but should not be a problem. */ if (!TAILQ_EMPTY(&io->io_hdr.blocked_queue)) { mtx_lock(&lun->lun_lock); io->io_hdr.flags |= CTL_FLAG_SERSEQ_DONE; ctl_try_unblock_others(lun, io, FALSE); mtx_unlock(&lun->lun_lock); } else io->io_hdr.flags |= CTL_FLAG_SERSEQ_DONE; } void ctl_done(union ctl_io *io) { /* * Enable this to catch duplicate completion issues. */ #if 0 if (io->io_hdr.flags & CTL_FLAG_ALREADY_DONE) { switch (io->io_hdr.io_type) { case CTL_IO_SCSI: case CTL_IO_TASK: printf("%s: type %d msg %d cdb %x iptl: " "%u:%u:%u tag 0x%04lx " "flag %#x status %x\n", __func__, io->io_hdr.io_type, io->io_hdr.msg_type, io->scsiio.cdb[0], io->io_hdr.nexus.initid, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.targ_lun, (io->io_hdr.io_type == CTL_IO_TASK) ? io->taskio.tag_num : io->scsiio.tag_num, io->io_hdr.flags, io->io_hdr.status); break; case CTL_IO_NVME: case CTL_IO_NVME_ADMIN: printf("%s: type %d msg %d opc %x iptl: " "%u:%u:%u cid 0x%04x " "flag %#x status %x\n", __func__, io->io_hdr.io_type, io->io_hdr.msg_type, io->nvmeio.cmd.opc, io->io_hdr.nexus.initid, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.targ_lun, io->nvmeio.cmd.cid, io->io_hdr.flags, io->io_hdr.status); break; default: printf("%s: type %d msg %d iptl: " "%u:%u:%u flag %#x status %x\n", __func__, io->io_hdr.io_type, io->io_hdr.msg_type, io->io_hdr.nexus.initid, io->io_hdr.nexus.targ_port, io->io_hdr.nexus.targ_lun, io->io_hdr.flags, io->io_hdr.status); break; } } else io->io_hdr.flags |= CTL_FLAG_ALREADY_DONE; #endif /* * This is an internal copy of an I/O, and should not go through * the normal done processing logic. */ if (io->io_hdr.flags & CTL_FLAG_INT_COPY) return; #ifdef CTL_IO_DELAY if (io->io_hdr.flags & CTL_FLAG_DELAY_DONE) { io->io_hdr.flags &= ~CTL_FLAG_DELAY_DONE; } else { struct ctl_lun *lun = CTL_LUN(io); if ((lun != NULL) && (lun->delay_info.done_delay > 0)) { callout_init(&io->io_hdr.delay_callout, /*mpsafe*/ 1); io->io_hdr.flags |= CTL_FLAG_DELAY_DONE; callout_reset(&io->io_hdr.delay_callout, lun->delay_info.done_delay * hz, ctl_done_timer_wakeup, io); if (lun->delay_info.done_type == CTL_DELAY_TYPE_ONESHOT) lun->delay_info.done_delay = 0; return; } } #endif /* CTL_IO_DELAY */ ctl_enqueue_done(io); } static void ctl_work_thread(void *arg) { struct ctl_thread *thr = (struct ctl_thread *)arg; struct ctl_softc *softc = thr->ctl_softc; union ctl_io *io; int retval; CTL_DEBUG_PRINT(("ctl_work_thread starting\n")); thread_lock(curthread); sched_prio(curthread, PUSER - 1); thread_unlock(curthread); while (!softc->shutdown) { /* * We handle the queues in this order: * - ISC * - done queue (to free up resources, unblock other commands) * - incoming queue * - RtR queue * * If those queues are empty, we break out of the loop and * go to sleep. */ mtx_lock(&thr->queue_lock); io = (union ctl_io *)STAILQ_FIRST(&thr->isc_queue); if (io != NULL) { STAILQ_REMOVE_HEAD(&thr->isc_queue, links); mtx_unlock(&thr->queue_lock); ctl_handle_isc(io); continue; } io = (union ctl_io *)STAILQ_FIRST(&thr->done_queue); if (io != NULL) { STAILQ_REMOVE_HEAD(&thr->done_queue, links); /* clear any blocked commands, call fe_done */ mtx_unlock(&thr->queue_lock); ctl_process_done(io); continue; } io = (union ctl_io *)STAILQ_FIRST(&thr->incoming_queue); if (io != NULL) { STAILQ_REMOVE_HEAD(&thr->incoming_queue, links); mtx_unlock(&thr->queue_lock); - if (io->io_hdr.io_type == CTL_IO_TASK) + switch (io->io_hdr.io_type) { + case CTL_IO_TASK: ctl_run_task(io); - else + break; + case CTL_IO_SCSI: ctl_scsiio_precheck(&io->scsiio); + break; + case CTL_IO_NVME: + case CTL_IO_NVME_ADMIN: + ctl_nvmeio_precheck(&io->nvmeio); + break; + default: + __assert_unreachable(); + } continue; } io = (union ctl_io *)STAILQ_FIRST(&thr->rtr_queue); if (io != NULL) { STAILQ_REMOVE_HEAD(&thr->rtr_queue, links); mtx_unlock(&thr->queue_lock); - retval = ctl_scsiio(&io->scsiio); - if (retval != CTL_RETVAL_COMPLETE) - CTL_DEBUG_PRINT(("ctl_scsiio failed\n")); + switch (io->io_hdr.io_type) { + case CTL_IO_SCSI: + retval = ctl_scsiio(&io->scsiio); + if (retval != CTL_RETVAL_COMPLETE) + CTL_DEBUG_PRINT(("ctl_scsiio failed\n")); + break; + case CTL_IO_NVME: + case CTL_IO_NVME_ADMIN: + retval = ctl_nvmeio(&io->nvmeio); + if (retval != CTL_RETVAL_COMPLETE) + CTL_DEBUG_PRINT(("ctl_nvmeio failed\n")); + break; + default: + __assert_unreachable(); + } continue; } /* Sleep until we have something to do. */ mtx_sleep(thr, &thr->queue_lock, PDROP, "-", 0); } thr->thread = NULL; kthread_exit(); } static void ctl_thresh_thread(void *arg) { struct ctl_softc *softc = (struct ctl_softc *)arg; struct ctl_lun *lun; struct ctl_logical_block_provisioning_page *page; const char *attr; union ctl_ha_msg msg; uint64_t thres, val; int i, e, set; CTL_DEBUG_PRINT(("ctl_thresh_thread starting\n")); thread_lock(curthread); sched_prio(curthread, PUSER - 1); thread_unlock(curthread); while (!softc->shutdown) { mtx_lock(&softc->ctl_lock); STAILQ_FOREACH(lun, &softc->lun_list, links) { if ((lun->flags & CTL_LUN_DISABLED) || (lun->flags & CTL_LUN_NO_MEDIA) || lun->backend->lun_attr == NULL) continue; if ((lun->flags & CTL_LUN_PRIMARY_SC) == 0 && softc->ha_mode == CTL_HA_MODE_XFER) continue; if ((lun->MODE_RWER.byte8 & SMS_RWER_LBPERE) == 0) continue; e = 0; page = &lun->MODE_LBP; for (i = 0; i < CTL_NUM_LBP_THRESH; i++) { if ((page->descr[i].flags & SLBPPD_ENABLED) == 0) continue; thres = scsi_4btoul(page->descr[i].count); thres <<= CTL_LBP_EXPONENT; switch (page->descr[i].resource) { case 0x01: attr = "blocksavail"; break; case 0x02: attr = "blocksused"; break; case 0xf1: attr = "poolblocksavail"; break; case 0xf2: attr = "poolblocksused"; break; default: continue; } mtx_unlock(&softc->ctl_lock); // XXX val = lun->backend->lun_attr(lun->be_lun, attr); mtx_lock(&softc->ctl_lock); if (val == UINT64_MAX) continue; if ((page->descr[i].flags & SLBPPD_ARMING_MASK) == SLBPPD_ARMING_INC) e = (val >= thres); else e = (val <= thres); if (e) break; } mtx_lock(&lun->lun_lock); if (e) { scsi_u64to8b((uint8_t *)&page->descr[i] - (uint8_t *)page, lun->ua_tpt_info); if (lun->lasttpt == 0 || time_uptime - lun->lasttpt >= CTL_LBP_UA_PERIOD) { lun->lasttpt = time_uptime; ctl_est_ua_all(lun, -1, CTL_UA_THIN_PROV_THRES); set = 1; } else set = 0; } else { lun->lasttpt = 0; ctl_clr_ua_all(lun, -1, CTL_UA_THIN_PROV_THRES); set = -1; } mtx_unlock(&lun->lun_lock); if (set != 0 && lun->ctl_softc->ha_mode == CTL_HA_MODE_XFER) { /* Send msg to other side. */ bzero(&msg.ua, sizeof(msg.ua)); msg.hdr.msg_type = CTL_MSG_UA; msg.hdr.nexus.initid = -1; msg.hdr.nexus.targ_port = -1; msg.hdr.nexus.targ_lun = lun->lun; msg.hdr.nexus.targ_mapped_lun = lun->lun; msg.ua.ua_all = 1; msg.ua.ua_set = (set > 0); msg.ua.ua_type = CTL_UA_THIN_PROV_THRES; memcpy(msg.ua.ua_info, lun->ua_tpt_info, 8); mtx_unlock(&softc->ctl_lock); // XXX ctl_ha_msg_send(CTL_HA_CHAN_CTL, &msg, sizeof(msg.ua), M_WAITOK); mtx_lock(&softc->ctl_lock); } } mtx_sleep(&softc->thresh_thread, &softc->ctl_lock, PDROP, "-", CTL_LBP_PERIOD * hz); } softc->thresh_thread = NULL; kthread_exit(); } static void ctl_enqueue_incoming(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_thread *thr; u_int idx; idx = (io->io_hdr.nexus.targ_port * 127 + io->io_hdr.nexus.initid) % worker_threads; thr = &softc->threads[idx]; mtx_lock(&thr->queue_lock); STAILQ_INSERT_TAIL(&thr->incoming_queue, &io->io_hdr, links); mtx_unlock(&thr->queue_lock); wakeup(thr); } static void ctl_enqueue_rtr(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_thread *thr; thr = &softc->threads[io->io_hdr.nexus.targ_mapped_lun % worker_threads]; mtx_lock(&thr->queue_lock); STAILQ_INSERT_TAIL(&thr->rtr_queue, &io->io_hdr, links); mtx_unlock(&thr->queue_lock); wakeup(thr); } static void ctl_enqueue_done(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_thread *thr; thr = &softc->threads[io->io_hdr.nexus.targ_mapped_lun % worker_threads]; mtx_lock(&thr->queue_lock); STAILQ_INSERT_TAIL(&thr->done_queue, &io->io_hdr, links); mtx_unlock(&thr->queue_lock); wakeup(thr); } static void ctl_enqueue_isc(union ctl_io *io) { struct ctl_softc *softc = CTL_SOFTC(io); struct ctl_thread *thr; thr = &softc->threads[io->io_hdr.nexus.targ_mapped_lun % worker_threads]; mtx_lock(&thr->queue_lock); STAILQ_INSERT_TAIL(&thr->isc_queue, &io->io_hdr, links); mtx_unlock(&thr->queue_lock); wakeup(thr); } /* * vim: ts=8 */ diff --git a/sys/cam/ctl/ctl_nvme_cmd_table.c b/sys/cam/ctl/ctl_nvme_cmd_table.c new file mode 100644 index 000000000000..39e60de62b7f --- /dev/null +++ b/sys/cam/ctl/ctl_nvme_cmd_table.c @@ -0,0 +1,35 @@ +/*- + * SPDX-License-Identifier: BSD-2-Clause + * + * Copyright (c) 2023 Chelsio Communications, Inc. + */ + +#include + +#include +#include +#include +#include +#include + +/* Administrative Command Set (CTL_IO_NVME_ADMIN). */ +const struct ctl_nvme_cmd_entry nvme_admin_cmd_table[256] = +{ + [NVME_OPC_IDENTIFY] = { ctl_nvme_identify, CTL_FLAG_DATA_IN | + CTL_CMD_FLAG_OK_ON_NO_LUN }, +}; + +/* NVM Command Set (CTL_IO_NVME). */ +const struct ctl_nvme_cmd_entry nvme_nvm_cmd_table[256] = +{ + [NVME_OPC_FLUSH] = { ctl_nvme_flush, CTL_FLAG_DATA_NONE }, + [NVME_OPC_WRITE] = { ctl_nvme_read_write, CTL_FLAG_DATA_OUT }, + [NVME_OPC_READ] = { ctl_nvme_read_write, CTL_FLAG_DATA_IN }, + [NVME_OPC_WRITE_UNCORRECTABLE] = { ctl_nvme_write_uncorrectable, + CTL_FLAG_DATA_NONE }, + [NVME_OPC_COMPARE] = { ctl_nvme_compare, CTL_FLAG_DATA_OUT }, + [NVME_OPC_WRITE_ZEROES] = { ctl_nvme_write_zeroes, CTL_FLAG_DATA_NONE }, + [NVME_OPC_DATASET_MANAGEMENT] = { ctl_nvme_dataset_management, + CTL_FLAG_DATA_OUT }, + [NVME_OPC_VERIFY] = { ctl_nvme_verify, CTL_FLAG_DATA_NONE }, +}; diff --git a/sys/cam/ctl/ctl_private.h b/sys/cam/ctl/ctl_private.h index 9dfe979bcb7f..cd7e499c60a6 100644 --- a/sys/cam/ctl/ctl_private.h +++ b/sys/cam/ctl/ctl_private.h @@ -1,486 +1,504 @@ /*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2003, 2004, 2005, 2008 Silicon Graphics International Corp. * Copyright (c) 2014-2017 Alexander Motin * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. * * $Id: //depot/users/kenm/FreeBSD-test2/sys/cam/ctl/ctl_private.h#7 $ */ /* * CAM Target Layer driver private data structures/definitions. * * Author: Ken Merry */ #ifndef _CTL_PRIVATE_H_ #define _CTL_PRIVATE_H_ #include #include #include #include /* * SCSI vendor and product names. */ #define CTL_VENDOR "FREEBSD " #define CTL_DIRECT_PRODUCT "CTLDISK " #define CTL_PROCESSOR_PRODUCT "CTLPROCESSOR " #define CTL_CDROM_PRODUCT "CTLCDROM " #define CTL_UNKNOWN_PRODUCT "CTLDEVICE " #define CTL_POOL_ENTRIES_OTHER_SC 200 struct ctl_io_pool { char name[64]; uint32_t id; struct ctl_softc *ctl_softc; struct uma_zone *zone; }; typedef enum { CTL_SER_SEQ, CTL_SER_PASS, CTL_SER_EXTENTOPT, CTL_SER_EXTENT, CTL_SER_BLOCKOPT, CTL_SER_BLOCK, } ctl_serialize_action; typedef enum { CTL_ACTION_PASS, CTL_ACTION_SKIP, CTL_ACTION_BLOCK, CTL_ACTION_OVERLAP, - CTL_ACTION_OVERLAP_TAG + CTL_ACTION_OVERLAP_TAG, + CTL_ACTION_FUSED, } ctl_action; /* * WARNING: Keep the bottom nibble here free, we OR in the data direction * flags for each command. * * Note: "OK_ON_NO_LUN" == we don't have to have a lun configured * "OK_ON_BOTH" == we have to have a lun configured * "SA5" == command has 5-bit service action at byte 1 */ typedef enum { CTL_CMD_FLAG_NONE = 0x0000, CTL_CMD_FLAG_NO_SENSE = 0x0010, CTL_CMD_FLAG_ALLOW_ON_RESV = 0x0020, CTL_CMD_FLAG_ALLOW_ON_PR_RESV = 0x0040, CTL_CMD_FLAG_ALLOW_ON_PR_WRESV = 0x0080, CTL_CMD_FLAG_OK_ON_PROC = 0x0100, CTL_CMD_FLAG_OK_ON_DIRECT = 0x0200, CTL_CMD_FLAG_OK_ON_CDROM = 0x0400, CTL_CMD_FLAG_OK_ON_BOTH = 0x0700, CTL_CMD_FLAG_OK_ON_NO_LUN = 0x0800, CTL_CMD_FLAG_OK_ON_NO_MEDIA = 0x1000, CTL_CMD_FLAG_OK_ON_STANDBY = 0x2000, CTL_CMD_FLAG_OK_ON_UNAVAIL = 0x4000, CTL_CMD_FLAG_SA5 = 0x8000, CTL_CMD_FLAG_RUN_HERE = 0x10000 } ctl_cmd_flags; typedef enum { CTL_SERIDX_TUR = 0, CTL_SERIDX_READ, CTL_SERIDX_WRITE, CTL_SERIDX_UNMAP, CTL_SERIDX_SYNC, CTL_SERIDX_MD_SNS, CTL_SERIDX_MD_SEL, CTL_SERIDX_RQ_SNS, CTL_SERIDX_INQ, CTL_SERIDX_RD_CAP, CTL_SERIDX_RES, CTL_SERIDX_LOG_SNS, CTL_SERIDX_FORMAT, CTL_SERIDX_START, /* TBD: others to be filled in as needed */ CTL_SERIDX_COUNT, /* LAST, not a normal code, provides # codes */ CTL_SERIDX_INVLD = CTL_SERIDX_COUNT } ctl_seridx; typedef int ctl_opfunc(struct ctl_scsiio *ctsio); struct ctl_cmd_entry { ctl_opfunc *execute; ctl_seridx seridx; ctl_cmd_flags flags; ctl_lun_error_pattern pattern; uint8_t length; /* CDB length */ uint8_t usage[15]; /* Mask of allowed CDB bits * after the opcode byte. */ }; +/* Only data flags are currently used for NVMe commands. */ +struct ctl_nvme_cmd_entry { + int (*execute)(struct ctl_nvmeio *); + ctl_io_flags flags; +}; + typedef enum { CTL_LUN_NONE = 0x000, CTL_LUN_CONTROL = 0x001, CTL_LUN_RESERVED = 0x002, CTL_LUN_INVALID = 0x004, CTL_LUN_DISABLED = 0x008, CTL_LUN_STOPPED = 0x020, CTL_LUN_NO_MEDIA = 0x040, CTL_LUN_EJECTED = 0x080, CTL_LUN_PR_RESERVED = 0x100, CTL_LUN_PRIMARY_SC = 0x200, CTL_LUN_READONLY = 0x800, CTL_LUN_PEER_SC_PRIMARY = 0x1000, CTL_LUN_REMOVABLE = 0x2000 } ctl_lun_flags; typedef enum { CTLBLOCK_FLAG_NONE = 0x00, CTLBLOCK_FLAG_INVALID = 0x01 } ctlblock_flags; union ctl_softcs { struct ctl_softc *ctl_softc; struct ctlblock_softc *ctlblock_softc; }; /* * Mode page defaults. */ #define CTL_DEFAULT_ROTATION_RATE SVPD_NON_ROTATING struct ctl_page_index; typedef int ctl_modesen_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, int pc); typedef int ctl_modesel_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, uint8_t *page_ptr); typedef enum { CTL_PAGE_FLAG_NONE = 0x00, CTL_PAGE_FLAG_DIRECT = 0x01, CTL_PAGE_FLAG_PROC = 0x02, CTL_PAGE_FLAG_CDROM = 0x04, CTL_PAGE_FLAG_ALL = 0x07 } ctl_page_flags; struct ctl_page_index { uint8_t page_code; uint8_t subpage; uint16_t page_len; uint8_t *page_data; ctl_page_flags page_flags; ctl_modesen_handler *sense_handler; ctl_modesel_handler *select_handler; }; #define CTL_PAGE_CURRENT 0x00 #define CTL_PAGE_CHANGEABLE 0x01 #define CTL_PAGE_DEFAULT 0x02 #define CTL_PAGE_SAVED 0x03 #define CTL_NUM_LBP_PARAMS 4 #define CTL_NUM_LBP_THRESH 4 #define CTL_LBP_EXPONENT 11 /* 2048 sectors */ #define CTL_LBP_PERIOD 10 /* 10 seconds */ #define CTL_LBP_UA_PERIOD 300 /* 5 minutes */ struct ctl_logical_block_provisioning_page { struct scsi_logical_block_provisioning_page main; struct scsi_logical_block_provisioning_page_descr descr[CTL_NUM_LBP_THRESH]; }; static const struct ctl_page_index page_index_template[] = { {SMS_RW_ERROR_RECOVERY_PAGE, 0, sizeof(struct scsi_da_rw_recovery_page), NULL, CTL_PAGE_FLAG_DIRECT | CTL_PAGE_FLAG_CDROM, NULL, ctl_default_page_handler}, {SMS_VERIFY_ERROR_RECOVERY_PAGE, 0, sizeof(struct scsi_da_verify_recovery_page), NULL, CTL_PAGE_FLAG_DIRECT | CTL_PAGE_FLAG_CDROM, NULL, ctl_default_page_handler}, {SMS_CACHING_PAGE, 0, sizeof(struct scsi_caching_page), NULL, CTL_PAGE_FLAG_DIRECT | CTL_PAGE_FLAG_CDROM, NULL, ctl_default_page_handler}, {SMS_CONTROL_MODE_PAGE, 0, sizeof(struct scsi_control_page), NULL, CTL_PAGE_FLAG_ALL, NULL, ctl_default_page_handler}, {SMS_CONTROL_MODE_PAGE | SMPH_SPF, 0x01, sizeof(struct scsi_control_ext_page), NULL, CTL_PAGE_FLAG_ALL, NULL, ctl_default_page_handler}, {SMS_INFO_EXCEPTIONS_PAGE, 0, sizeof(struct scsi_info_exceptions_page), NULL, CTL_PAGE_FLAG_ALL, NULL, ctl_ie_page_handler}, {SMS_INFO_EXCEPTIONS_PAGE | SMPH_SPF, 0x02, sizeof(struct ctl_logical_block_provisioning_page), NULL, CTL_PAGE_FLAG_DIRECT, NULL, ctl_default_page_handler}, {SMS_CDDVD_CAPS_PAGE, 0, sizeof(struct scsi_cddvd_capabilities_page), NULL, CTL_PAGE_FLAG_CDROM, NULL, NULL}, }; #define CTL_NUM_MODE_PAGES sizeof(page_index_template)/ \ sizeof(page_index_template[0]) struct ctl_mode_pages { struct scsi_da_rw_recovery_page rw_er_page[4]; struct scsi_da_verify_recovery_page verify_er_page[4]; struct scsi_caching_page caching_page[4]; struct scsi_control_page control_page[4]; struct scsi_control_ext_page control_ext_page[4]; struct scsi_info_exceptions_page ie_page[4]; struct ctl_logical_block_provisioning_page lbp_page[4]; struct scsi_cddvd_capabilities_page cddvd_page[4]; struct ctl_page_index index[CTL_NUM_MODE_PAGES]; }; #define MODE_RWER mode_pages.rw_er_page[CTL_PAGE_CURRENT] #define MODE_VER mode_pages.verify_er_page[CTL_PAGE_CURRENT] #define MODE_CACHING mode_pages.caching_page[CTL_PAGE_CURRENT] #define MODE_CTRL mode_pages.control_page[CTL_PAGE_CURRENT] #define MODE_CTRLE mode_pages.control_ext_page[CTL_PAGE_CURRENT] #define MODE_IE mode_pages.ie_page[CTL_PAGE_CURRENT] #define MODE_LBP mode_pages.lbp_page[CTL_PAGE_CURRENT] #define MODE_CDDVD mode_pages.cddvd_page[CTL_PAGE_CURRENT] static const struct ctl_page_index log_page_index_template[] = { {SLS_SUPPORTED_PAGES_PAGE, 0, 0, NULL, CTL_PAGE_FLAG_ALL, NULL, NULL}, {SLS_SUPPORTED_PAGES_PAGE, SLS_SUPPORTED_SUBPAGES_SUBPAGE, 0, NULL, CTL_PAGE_FLAG_ALL, NULL, NULL}, {SLS_TEMPERATURE, 0, 0, NULL, CTL_PAGE_FLAG_DIRECT, ctl_temp_log_sense_handler, NULL}, {SLS_LOGICAL_BLOCK_PROVISIONING, 0, 0, NULL, CTL_PAGE_FLAG_DIRECT, ctl_lbp_log_sense_handler, NULL}, {SLS_STAT_AND_PERF, 0, 0, NULL, CTL_PAGE_FLAG_ALL, ctl_sap_log_sense_handler, NULL}, {SLS_IE_PAGE, 0, 0, NULL, CTL_PAGE_FLAG_ALL, ctl_ie_log_sense_handler, NULL}, }; #define CTL_NUM_LOG_PAGES sizeof(log_page_index_template)/ \ sizeof(log_page_index_template[0]) struct ctl_log_pages { uint8_t pages_page[CTL_NUM_LOG_PAGES]; uint8_t subpages_page[CTL_NUM_LOG_PAGES * 2]; uint8_t lbp_page[12*CTL_NUM_LBP_PARAMS]; struct stat_page { struct scsi_log_stat_and_perf sap; struct scsi_log_idle_time it; struct scsi_log_time_interval ti; } stat_page; struct scsi_log_temperature temp_page[2]; struct scsi_log_informational_exceptions ie_page; struct ctl_page_index index[CTL_NUM_LOG_PAGES]; }; struct ctl_lun_delay_info { ctl_delay_type datamove_type; uint32_t datamove_delay; ctl_delay_type done_type; uint32_t done_delay; }; #define CTL_PR_ALL_REGISTRANTS 0xFFFFFFFF #define CTL_PR_NO_RESERVATION 0xFFFFFFF0 struct ctl_devid { int len; uint8_t data[]; }; #define NUM_HA_SHELVES 2 #define CTL_WRITE_BUFFER_SIZE 262144 struct tpc_list; struct ctl_lun { struct mtx lun_lock; uint64_t lun; ctl_lun_flags flags; STAILQ_HEAD(,ctl_error_desc) error_list; uint64_t error_serial; struct ctl_softc *ctl_softc; struct ctl_be_lun *be_lun; struct ctl_backend_driver *backend; struct ctl_lun_delay_info delay_info; #ifdef CTL_TIME_IO sbintime_t idle_time; sbintime_t last_busy; #endif LIST_HEAD(ctl_ooaq, ctl_io_hdr) ooa_queue; STAILQ_ENTRY(ctl_lun) links; struct scsi_sense_data **pending_sense; ctl_ua_type **pending_ua; uint8_t ua_tpt_info[8]; time_t lasttpt; uint8_t ie_asc; /* Informational exceptions */ uint8_t ie_ascq; int ie_reported; /* Already reported */ uint32_t ie_reportcnt; /* REPORT COUNT */ struct callout ie_callout; /* INTERVAL TIMER */ struct ctl_mode_pages mode_pages; struct ctl_log_pages log_pages; struct ctl_io_stats stats; uint32_t res_idx; uint32_t pr_generation; uint64_t **pr_keys; int pr_key_count; uint32_t pr_res_idx; uint8_t pr_res_type; int prevent_count; uint32_t *prevent; uint8_t *write_buffer; struct ctl_devid *lun_devid; TAILQ_HEAD(tpc_lists, tpc_list) tpc_lists; }; typedef enum { CTL_FLAG_ACTIVE_SHELF = 0x04 } ctl_gen_flags; #define CTL_MAX_THREADS 16 struct ctl_thread { struct mtx_padalign queue_lock; struct ctl_softc *ctl_softc; struct thread *thread; STAILQ_HEAD(, ctl_io_hdr) incoming_queue; STAILQ_HEAD(, ctl_io_hdr) rtr_queue; STAILQ_HEAD(, ctl_io_hdr) done_queue; STAILQ_HEAD(, ctl_io_hdr) isc_queue; }; struct tpc_token; struct ctl_softc { struct mtx ctl_lock; struct cdev *dev; int num_luns; ctl_gen_flags flags; ctl_ha_mode ha_mode; int ha_id; int is_single; ctl_ha_link_state ha_link; int port_min; int port_max; int port_cnt; int init_min; int init_max; struct sysctl_ctx_list sysctl_ctx; struct sysctl_oid *sysctl_tree; void *othersc_pool; struct proc *ctl_proc; uint32_t *ctl_lun_mask; struct ctl_lun **ctl_luns; uint32_t *ctl_port_mask; STAILQ_HEAD(, ctl_lun) lun_list; uint32_t num_frontends; STAILQ_HEAD(, ctl_frontend) fe_list; uint32_t num_ports; STAILQ_HEAD(, ctl_port) port_list; struct ctl_port **ctl_ports; uint32_t num_backends; STAILQ_HEAD(, ctl_backend_driver) be_list; struct uma_zone *io_zone; uint32_t cur_pool_id; int shutdown; struct ctl_thread threads[CTL_MAX_THREADS]; struct thread *thresh_thread; TAILQ_HEAD(tpc_tokens, tpc_token) tpc_tokens; struct callout tpc_timeout; struct mtx tpc_lock; }; #ifdef _KERNEL extern const struct ctl_cmd_entry ctl_cmd_table[256]; +extern const struct ctl_nvme_cmd_entry nvme_admin_cmd_table[256]; +extern const struct ctl_nvme_cmd_entry nvme_nvm_cmd_table[256]; uint32_t ctl_get_initindex(struct ctl_nexus *nexus); int ctl_lun_map_init(struct ctl_port *port); int ctl_lun_map_deinit(struct ctl_port *port); int ctl_lun_map_set(struct ctl_port *port, uint32_t plun, uint32_t glun); int ctl_lun_map_unset(struct ctl_port *port, uint32_t plun); uint32_t ctl_lun_map_from_port(struct ctl_port *port, uint32_t plun); uint32_t ctl_lun_map_to_port(struct ctl_port *port, uint32_t glun); int ctl_pool_create(struct ctl_softc *ctl_softc, const char *pool_name, uint32_t total_ctl_io, void **npool); void ctl_pool_free(struct ctl_io_pool *pool); int ctl_scsi_release(struct ctl_scsiio *ctsio); int ctl_scsi_reserve(struct ctl_scsiio *ctsio); int ctl_start_stop(struct ctl_scsiio *ctsio); int ctl_prevent_allow(struct ctl_scsiio *ctsio); int ctl_sync_cache(struct ctl_scsiio *ctsio); int ctl_format(struct ctl_scsiio *ctsio); int ctl_read_buffer(struct ctl_scsiio *ctsio); int ctl_write_buffer(struct ctl_scsiio *ctsio); int ctl_write_same(struct ctl_scsiio *ctsio); int ctl_unmap(struct ctl_scsiio *ctsio); int ctl_mode_select(struct ctl_scsiio *ctsio); int ctl_mode_sense(struct ctl_scsiio *ctsio); int ctl_log_sense(struct ctl_scsiio *ctsio); int ctl_read_capacity(struct ctl_scsiio *ctsio); int ctl_read_capacity_16(struct ctl_scsiio *ctsio); int ctl_read_defect(struct ctl_scsiio *ctsio); int ctl_read_toc(struct ctl_scsiio *ctsio); int ctl_read_write(struct ctl_scsiio *ctsio); int ctl_cnw(struct ctl_scsiio *ctsio); int ctl_report_luns(struct ctl_scsiio *ctsio); int ctl_request_sense(struct ctl_scsiio *ctsio); int ctl_tur(struct ctl_scsiio *ctsio); int ctl_verify(struct ctl_scsiio *ctsio); int ctl_inquiry(struct ctl_scsiio *ctsio); int ctl_get_config(struct ctl_scsiio *ctsio); int ctl_get_event_status(struct ctl_scsiio *ctsio); int ctl_mechanism_status(struct ctl_scsiio *ctsio); int ctl_persistent_reserve_in(struct ctl_scsiio *ctsio); int ctl_persistent_reserve_out(struct ctl_scsiio *ctsio); int ctl_report_ident_info(struct ctl_scsiio *ctsio); int ctl_report_tagret_port_groups(struct ctl_scsiio *ctsio); int ctl_report_supported_opcodes(struct ctl_scsiio *ctsio); int ctl_report_supported_tmf(struct ctl_scsiio *ctsio); int ctl_report_timestamp(struct ctl_scsiio *ctsio); int ctl_get_lba_status(struct ctl_scsiio *ctsio); +int ctl_nvme_identify(struct ctl_nvmeio *ctnio); +int ctl_nvme_flush(struct ctl_nvmeio *ctnio); +int ctl_nvme_read_write(struct ctl_nvmeio *ctnio); +int ctl_nvme_write_uncorrectable(struct ctl_nvmeio *ctnio); +int ctl_nvme_compare(struct ctl_nvmeio *ctnio); +int ctl_nvme_write_zeroes(struct ctl_nvmeio *ctnio); +int ctl_nvme_dataset_management(struct ctl_nvmeio *ctnio); +int ctl_nvme_verify(struct ctl_nvmeio *ctnio); + void ctl_tpc_init(struct ctl_softc *softc); void ctl_tpc_shutdown(struct ctl_softc *softc); void ctl_tpc_lun_init(struct ctl_lun *lun); void ctl_tpc_lun_clear(struct ctl_lun *lun, uint32_t initidx); void ctl_tpc_lun_shutdown(struct ctl_lun *lun); int ctl_inquiry_evpd_tpc(struct ctl_scsiio *ctsio, int alloc_len); int ctl_receive_copy_status_lid1(struct ctl_scsiio *ctsio); int ctl_receive_copy_failure_details(struct ctl_scsiio *ctsio); int ctl_receive_copy_status_lid4(struct ctl_scsiio *ctsio); int ctl_receive_copy_operating_parameters(struct ctl_scsiio *ctsio); int ctl_extended_copy_lid1(struct ctl_scsiio *ctsio); int ctl_extended_copy_lid4(struct ctl_scsiio *ctsio); int ctl_copy_operation_abort(struct ctl_scsiio *ctsio); int ctl_populate_token(struct ctl_scsiio *ctsio); int ctl_write_using_token(struct ctl_scsiio *ctsio); int ctl_receive_rod_token_information(struct ctl_scsiio *ctsio); int ctl_report_all_rod_tokens(struct ctl_scsiio *ctsio); #endif /* _KERNEL */ #endif /* _CTL_PRIVATE_H_ */ /* * vim: ts=8 */ diff --git a/sys/conf/files b/sys/conf/files index 266018c5c70d..b23ec357a302 100644 --- a/sys/conf/files +++ b/sys/conf/files @@ -1,5267 +1,5268 @@ # # The long compile-with and dependency lines are required because of # limitations in config: backslash-newline doesn't work in strings, and # dependency lines other than the first are silently ignored. # acpi_quirks.h optional acpi \ dependency "$S/tools/acpi_quirks2h.awk $S/dev/acpica/acpi_quirks" \ compile-with "${AWK} -f $S/tools/acpi_quirks2h.awk $S/dev/acpica/acpi_quirks" \ no-obj no-implicit-rule before-depend \ clean "acpi_quirks.h" bhnd_nvram_map.h optional bhnd \ dependency "$S/dev/bhnd/tools/nvram_map_gen.sh $S/dev/bhnd/tools/nvram_map_gen.awk $S/dev/bhnd/nvram/nvram_map" \ compile-with "sh $S/dev/bhnd/tools/nvram_map_gen.sh $S/dev/bhnd/nvram/nvram_map -h" \ no-obj no-implicit-rule before-depend \ clean "bhnd_nvram_map.h" bhnd_nvram_map_data.h optional bhnd \ dependency "$S/dev/bhnd/tools/nvram_map_gen.sh $S/dev/bhnd/tools/nvram_map_gen.awk $S/dev/bhnd/nvram/nvram_map" \ compile-with "sh $S/dev/bhnd/tools/nvram_map_gen.sh $S/dev/bhnd/nvram/nvram_map -d" \ no-obj no-implicit-rule before-depend \ clean "bhnd_nvram_map_data.h" fdt_static_dtb.h optional fdt fdt_dtb_static \ compile-with "sh -c 'MACHINE=${MACHINE} $S/tools/fdt/make_dtbh.sh ${FDT_DTS_FILE} ${.CURDIR}'" \ dependency "${FDT_DTS_FILE:T:R}.dtb" \ no-obj no-implicit-rule before-depend \ clean "fdt_static_dtb.h" feeder_eq_gen.h optional sound \ dependency "$S/tools/sound/feeder_eq_mkfilter.awk" \ compile-with "${AWK} -f $S/tools/sound/feeder_eq_mkfilter.awk -- ${FEEDER_EQ_PRESETS} > feeder_eq_gen.h" \ no-obj no-implicit-rule before-depend \ clean "feeder_eq_gen.h" feeder_rate_gen.h optional sound \ dependency "$S/tools/sound/feeder_rate_mkfilter.awk" \ compile-with "${AWK} -f $S/tools/sound/feeder_rate_mkfilter.awk -- ${FEEDER_RATE_PRESETS} > feeder_rate_gen.h" \ no-obj no-implicit-rule before-depend \ clean "feeder_rate_gen.h" font.h optional sc_dflt_font \ compile-with "uudecode < ${SRCTOP}/share/syscons/fonts/${SC_DFLT_FONT}-8x16.fnt && file2c 'u_char dflt_font_16[16*256] = {' '};' < ${SC_DFLT_FONT}-8x16 > font.h && uudecode < ${SRCTOP}/share/syscons/fonts/${SC_DFLT_FONT}-8x14.fnt && file2c 'u_char dflt_font_14[14*256] = {' '};' < ${SC_DFLT_FONT}-8x14 >> font.h && uudecode < ${SRCTOP}/share/syscons/fonts/${SC_DFLT_FONT}-8x8.fnt && file2c 'u_char dflt_font_8[8*256] = {' '};' < ${SC_DFLT_FONT}-8x8 >> font.h" \ no-obj no-implicit-rule before-depend \ clean "font.h ${SC_DFLT_FONT}-8x14 ${SC_DFLT_FONT}-8x16 ${SC_DFLT_FONT}-8x8" snd_fxdiv_gen.h optional sound \ dependency "$S/tools/sound/snd_fxdiv_gen.awk" \ compile-with "${AWK} -f $S/tools/sound/snd_fxdiv_gen.awk -- > snd_fxdiv_gen.h" \ no-obj no-implicit-rule before-depend \ clean "snd_fxdiv_gen.h" miidevs.h optional miibus | mii \ dependency "$S/tools/miidevs2h.awk $S/dev/mii/miidevs" \ compile-with "${AWK} -f $S/tools/miidevs2h.awk $S/dev/mii/miidevs" \ no-obj no-implicit-rule before-depend \ clean "miidevs.h" kbdmuxmap.h optional kbdmux_dflt_keymap \ compile-with "${KEYMAP} -L ${KBDMUX_DFLT_KEYMAP} | ${KEYMAP_FIX} > ${.TARGET}" \ no-obj no-implicit-rule before-depend \ clean "kbdmuxmap.h" teken_state.h optional sc | vt \ dependency "$S/teken/gensequences $S/teken/sequences" \ compile-with "${AWK} -f $S/teken/gensequences $S/teken/sequences > teken_state.h" \ no-obj no-implicit-rule before-depend \ clean "teken_state.h" ukbdmap.h optional ukbd_dflt_keymap \ compile-with "${KEYMAP} -L ${UKBD_DFLT_KEYMAP} | ${KEYMAP_FIX} > ${.TARGET}" \ no-obj no-implicit-rule before-depend \ clean "ukbdmap.h" usbdevs.h optional usb | hid \ dependency "$S/tools/usbdevs2h.awk $S/dev/usb/usbdevs" \ compile-with "${AWK} -f $S/tools/usbdevs2h.awk $S/dev/usb/usbdevs -h" \ no-obj no-implicit-rule before-depend \ clean "usbdevs.h" usbdevs_data.h optional usb \ dependency "$S/tools/usbdevs2h.awk $S/dev/usb/usbdevs" \ compile-with "${AWK} -f $S/tools/usbdevs2h.awk $S/dev/usb/usbdevs -d" \ no-obj no-implicit-rule before-depend \ clean "usbdevs_data.h" sdiodevs.h optional mmccam \ dependency "$S/tools/sdiodevs2h.awk $S/dev/sdio/sdiodevs" \ compile-with "${AWK} -f $S/tools/sdiodevs2h.awk $S/dev/sdio/sdiodevs -h" \ no-obj no-implicit-rule before-depend \ clean "sdiodevs.h" sdiodevs_data.h optional mmccam \ dependency "$S/tools/sdiodevs2h.awk $S/dev/sdio/sdiodevs" \ compile-with "${AWK} -f $S/tools/sdiodevs2h.awk $S/dev/sdio/sdiodevs -d" \ no-obj no-implicit-rule before-depend \ clean "sdiodevs_data.h" cam/cam.c optional scbus cam/cam_compat.c optional scbus cam/cam_iosched.c optional scbus cam/cam_periph.c optional scbus cam/cam_queue.c optional scbus cam/cam_sim.c optional scbus cam/cam_xpt.c optional scbus cam/ata/ata_all.c optional scbus cam/ata/ata_xpt.c optional scbus cam/ata/ata_pmp.c optional scbus cam/nvme/nvme_all.c optional scbus cam/nvme/nvme_da.c optional nda | da cam/nvme/nvme_xpt.c optional scbus cam/scsi/scsi_xpt.c optional scbus cam/scsi/scsi_all.c optional scbus cam/scsi/scsi_cd.c optional cd cam/scsi/scsi_ch.c optional ch cam/ata/ata_da.c optional ada | da cam/ctl/ctl.c optional ctl cam/ctl/ctl_backend.c optional ctl cam/ctl/ctl_backend_block.c optional ctl cam/ctl/ctl_backend_ramdisk.c optional ctl cam/ctl/ctl_cmd_table.c optional ctl cam/ctl/ctl_frontend.c optional ctl cam/ctl/ctl_frontend_cam_sim.c optional ctl cam/ctl/ctl_frontend_ioctl.c optional ctl cam/ctl/ctl_frontend_iscsi.c optional ctl cfiscsi cam/ctl/ctl_ha.c optional ctl cam/ctl/ctl_nvme_all.c optional ctl +cam/ctl/ctl_nvme_cmd_table.c optional ctl cam/ctl/ctl_scsi_all.c optional ctl cam/ctl/ctl_tpc.c optional ctl cam/ctl/ctl_tpc_local.c optional ctl cam/ctl/ctl_error.c optional ctl cam/ctl/ctl_util.c optional ctl cam/ctl/scsi_ctl.c optional ctl cam/mmc/mmc_xpt.c optional scbus mmccam cam/mmc/mmc_sim.c optional scbus mmccam cam/mmc/mmc_sim_if.m optional scbus mmccam cam/mmc/mmc_da.c optional scbus mmccam da cam/scsi/scsi_da.c optional da cam/scsi/scsi_pass.c optional pass cam/scsi/scsi_pt.c optional pt cam/scsi/scsi_sa.c optional sa cam/scsi/scsi_enc.c optional ses cam/scsi/scsi_enc_ses.c optional ses cam/scsi/scsi_enc_safte.c optional ses cam/scsi/scsi_sg.c optional sg cam/scsi/scsi_targ_bh.c optional targbh cam/scsi/scsi_target.c optional targ cam/scsi/smp_all.c optional scbus # shared between zfs and dtrace cddl/compat/opensolaris/kern/opensolaris.c optional dtrace compile-with "${CDDL_C}" cddl/compat/opensolaris/kern/opensolaris_proc.c optional zfs | dtrace compile-with "${CDDL_C}" contrib/openzfs/module/os/freebsd/spl/spl_misc.c optional zfs | dtrace compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_cmn_err.c optional zfs | dtrace compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_taskq.c optional zfs | dtrace compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_kmem.c optional zfs | dtrace compile-with "${ZFS_C}" #zfs solaris portability layer contrib/openzfs/module/os/freebsd/spl/acl_common.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/callb.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/list.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_acl.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_dtrace.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_kstat.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_policy.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_procfs_list.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_string.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_sunddi.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_sysevent.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_uio.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_vfs.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_vm.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_zlib.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/spl/spl_zone.c optional zfs compile-with "${ZFS_C}" # zfs specific #zfs avl contrib/openzfs/module/avl/avl.c optional zfs compile-with "${ZFS_C}" # zfs lua support contrib/openzfs/module/lua/lapi.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lauxlib.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lbaselib.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lcode.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lcompat.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lcorolib.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lctype.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/ldebug.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/ldo.c optional zfs compile-with "${ZFS_C} ${NO_WINFINITE_RECURSION}" contrib/openzfs/module/lua/lfunc.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lgc.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/llex.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lmem.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lobject.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lopcodes.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lparser.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lstate.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lstring.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lstrlib.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/ltable.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/ltablib.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/ltm.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lvm.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/lua/lzio.c optional zfs compile-with "${ZFS_C}" # zfs nvpair support contrib/openzfs/module/nvpair/fnvpair.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/nvpair/nvpair.c optional zfs compile-with "${ZFS_RPC_C} ${NO_WSTRINGOP_OVERREAD}" contrib/openzfs/module/nvpair/nvpair_alloc_fixed.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/nvpair/nvpair_alloc_spl.c optional zfs compile-with "${ZFS_C}" #zfs platform compatibility code contrib/openzfs/module/os/freebsd/zfs/abd_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/arc_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/crypto_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/dmu_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/event_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/hkdf.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/kmod_core.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/spa_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/sysctl_os.c optional zfs compile-with "${ZFS_C} -include $S/modules/zfs/zfs_config.h" contrib/openzfs/module/os/freebsd/zfs/vdev_file.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/vdev_label_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/vdev_geom.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_acl.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_ctldir.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_debug.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_dir.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_file_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_ioctl_compat.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_ioctl_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_racct.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_vfsops.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_vnops_os.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zfs_znode.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zio_crypt.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/os/freebsd/zfs/zvol_os.c optional zfs compile-with "${ZFS_C}" #zfs unicode support contrib/openzfs/module/unicode/uconv.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/unicode/u8_textprep.c optional zfs compile-with "${ZFS_C}" #zfs checksums / zcommon contrib/openzfs/module/zcommon/cityhash.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfeature_common.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_comutil.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_deleg.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_fletcher.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_fletcher_superscalar.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_fletcher_superscalar4.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_namecheck.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zfs_prop.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zpool_prop.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zcommon/zprop_common.c optional zfs compile-with "${ZFS_C}" # zfs edon-r hash support contrib/openzfs/module/icp/algs/edonr/edonr.c optional zfs compile-with "${ZFS_C}" # zfs blake3 hash support contrib/openzfs/module/icp/algs/blake3/blake3.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/icp/algs/blake3/blake3_generic.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/icp/algs/blake3/blake3_impl.c optional zfs compile-with "${ZFS_C}" # zfs sha2 hash support contrib/openzfs/module/icp/algs/sha2/sha2_generic.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/icp/algs/sha2/sha256_impl.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/icp/algs/sha2/sha512_impl.c optional zfs compile-with "${ZFS_C}" #zfs core common code contrib/openzfs/module/zfs/abd.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/aggsum.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/arc.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/blake3_zfs.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/blkptr.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/bplist.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/bpobj.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/bptree.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/brt.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/btree.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/bqueue.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dbuf.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dbuf_stats.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dataset_kstats.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/ddt.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/ddt_stats.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/ddt_zap.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_diff.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_object.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_objset.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_recv.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_redact.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_send.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_traverse.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_tx.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dmu_zfetch.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dnode.c optional zfs compile-with "${ZFS_C} ${NO_WUNUSED_BUT_SET_VARIABLE}" \ warning "kernel contains CDDL licensed ZFS filesystem" contrib/openzfs/module/zfs/dnode_sync.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_bookmark.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_crypt.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_dataset.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_deadlist.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_deleg.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_destroy.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_dir.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_pool.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_prop.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_scan.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_synctask.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/dsl_userhold.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/edonr_zfs.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/fm.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/gzip.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/lzjb.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/lz4.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/lz4_zfs.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/metaslab.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/mmp.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/multilist.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/objlist.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/pathname.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/range_tree.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/refcount.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/rrwlock.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/sa.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/sha2_zfs.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/skein_zfs.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_checkpoint.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_config.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_errlog.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_history.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_log_spacemap.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_misc.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/spa_stats.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/space_map.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/space_reftree.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/txg.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/uberblock.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/unique.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_draid.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_draid_rand.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_indirect.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_indirect_births.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_indirect_mapping.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_initialize.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_label.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_mirror.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_missing.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_queue.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_raidz.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_raidz_math.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_raidz_math_scalar.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_rebuild.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_removal.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_root.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/vdev_trim.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zap.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zap_leaf.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zap_micro.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zcp.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zcp_get.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zcp_global.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zcp_iter.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zcp_set.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zcp_synctask.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfeature.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_byteswap.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_chksum.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_fm.c optional zfs compile-with "${ZFS_C} ${NO_WUNUSED_BUT_SET_VARIABLE}" contrib/openzfs/module/zfs/zfs_fuid.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_impl.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_ioctl.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_log.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_onexit.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_quota.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_ratelimit.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_replay.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_rlock.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_sa.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zfs_vnops.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zstd/zfs_zstd.c optional zfs zstdio compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zil.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zio.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zio_checksum.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zio_compress.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zio_inject.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zle.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zrlock.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zthr.c optional zfs compile-with "${ZFS_C}" contrib/openzfs/module/zfs/zvol.c optional zfs compile-with "${ZFS_C}" # dtrace specific cddl/contrib/opensolaris/uts/common/dtrace/dtrace.c optional dtrace compile-with "${DTRACE_C}" \ warning "kernel contains CDDL licensed DTRACE" cddl/contrib/opensolaris/uts/common/dtrace/dtrace_xoroshiro128_plus.c optional dtrace compile-with "${DTRACE_C}" cddl/dev/dtmalloc/dtmalloc.c optional dtmalloc | dtraceall compile-with "${CDDL_C}" cddl/dev/profile/profile.c optional dtrace_profile | dtraceall compile-with "${CDDL_C}" cddl/dev/sdt/sdt.c optional dtrace_sdt | dtraceall compile-with "${CDDL_C}" cddl/dev/fbt/fbt.c optional dtrace_fbt | dtraceall compile-with "${FBT_C}" cddl/dev/systrace/systrace.c optional dtrace_systrace | dtraceall compile-with "${CDDL_C}" cddl/dev/prototype.c optional dtrace_prototype | dtraceall compile-with "${CDDL_C}" fs/nfsclient/nfs_clkdtrace.c optional dtnfscl nfscl | dtraceall nfscl compile-with "${CDDL_C}" compat/freebsd32/freebsd32_abort2.c optional compat_freebsd32 compat/freebsd32/freebsd32_capability.c optional compat_freebsd32 compat/freebsd32/freebsd32_ioctl.c optional compat_freebsd32 compat/freebsd32/freebsd32_misc.c optional compat_freebsd32 compat/freebsd32/freebsd32_syscalls.c optional compat_freebsd32 compat/freebsd32/freebsd32_sysent.c optional compat_freebsd32 contrib/ck/src/ck_array.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_barrier_centralized.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_barrier_combining.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_barrier_dissemination.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_barrier_mcs.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_barrier_tournament.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_epoch.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_hp.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_hs.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_ht.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/ck/src/ck_rhs.c standard compile-with "${NORMAL_C} -I$S/contrib/ck/include" contrib/dev/acpica/common/ahids.c optional acpi acpi_debug contrib/dev/acpica/common/ahuuids.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbcmds.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbconvert.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbdisply.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbexec.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbhistry.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbinput.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbmethod.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbnames.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbobject.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbstats.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbtest.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbutils.c optional acpi acpi_debug contrib/dev/acpica/components/debugger/dbxface.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmbuffer.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmcstyle.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmdeferred.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmnames.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmopcode.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmresrc.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmresrcl.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmresrcl2.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmresrcs.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmutils.c optional acpi acpi_debug contrib/dev/acpica/components/disassembler/dmwalk.c optional acpi acpi_debug contrib/dev/acpica/components/dispatcher/dsargs.c optional acpi contrib/dev/acpica/components/dispatcher/dscontrol.c optional acpi contrib/dev/acpica/components/dispatcher/dsdebug.c optional acpi contrib/dev/acpica/components/dispatcher/dsfield.c optional acpi contrib/dev/acpica/components/dispatcher/dsinit.c optional acpi contrib/dev/acpica/components/dispatcher/dsmethod.c optional acpi contrib/dev/acpica/components/dispatcher/dsmthdat.c optional acpi contrib/dev/acpica/components/dispatcher/dsobject.c optional acpi contrib/dev/acpica/components/dispatcher/dsopcode.c optional acpi contrib/dev/acpica/components/dispatcher/dspkginit.c optional acpi contrib/dev/acpica/components/dispatcher/dsutils.c optional acpi contrib/dev/acpica/components/dispatcher/dswexec.c optional acpi contrib/dev/acpica/components/dispatcher/dswload.c optional acpi contrib/dev/acpica/components/dispatcher/dswload2.c optional acpi contrib/dev/acpica/components/dispatcher/dswscope.c optional acpi contrib/dev/acpica/components/dispatcher/dswstate.c optional acpi contrib/dev/acpica/components/events/evevent.c optional acpi contrib/dev/acpica/components/events/evglock.c optional acpi contrib/dev/acpica/components/events/evgpe.c optional acpi contrib/dev/acpica/components/events/evgpeblk.c optional acpi contrib/dev/acpica/components/events/evgpeinit.c optional acpi contrib/dev/acpica/components/events/evgpeutil.c optional acpi contrib/dev/acpica/components/events/evhandler.c optional acpi contrib/dev/acpica/components/events/evmisc.c optional acpi contrib/dev/acpica/components/events/evregion.c optional acpi contrib/dev/acpica/components/events/evrgnini.c optional acpi contrib/dev/acpica/components/events/evsci.c optional acpi contrib/dev/acpica/components/events/evxface.c optional acpi contrib/dev/acpica/components/events/evxfevnt.c optional acpi contrib/dev/acpica/components/events/evxfgpe.c optional acpi contrib/dev/acpica/components/events/evxfregn.c optional acpi contrib/dev/acpica/components/executer/exconcat.c optional acpi contrib/dev/acpica/components/executer/exconfig.c optional acpi contrib/dev/acpica/components/executer/exconvrt.c optional acpi contrib/dev/acpica/components/executer/excreate.c optional acpi contrib/dev/acpica/components/executer/exdebug.c optional acpi contrib/dev/acpica/components/executer/exdump.c optional acpi contrib/dev/acpica/components/executer/exfield.c optional acpi contrib/dev/acpica/components/executer/exfldio.c optional acpi contrib/dev/acpica/components/executer/exmisc.c optional acpi contrib/dev/acpica/components/executer/exmutex.c optional acpi contrib/dev/acpica/components/executer/exnames.c optional acpi contrib/dev/acpica/components/executer/exoparg1.c optional acpi contrib/dev/acpica/components/executer/exoparg2.c optional acpi contrib/dev/acpica/components/executer/exoparg3.c optional acpi contrib/dev/acpica/components/executer/exoparg6.c optional acpi contrib/dev/acpica/components/executer/exprep.c optional acpi contrib/dev/acpica/components/executer/exregion.c optional acpi contrib/dev/acpica/components/executer/exresnte.c optional acpi contrib/dev/acpica/components/executer/exresolv.c optional acpi contrib/dev/acpica/components/executer/exresop.c optional acpi contrib/dev/acpica/components/executer/exserial.c optional acpi contrib/dev/acpica/components/executer/exstore.c optional acpi contrib/dev/acpica/components/executer/exstoren.c optional acpi contrib/dev/acpica/components/executer/exstorob.c optional acpi contrib/dev/acpica/components/executer/exsystem.c optional acpi contrib/dev/acpica/components/executer/extrace.c optional acpi contrib/dev/acpica/components/executer/exutils.c optional acpi contrib/dev/acpica/components/hardware/hwacpi.c optional acpi contrib/dev/acpica/components/hardware/hwesleep.c optional acpi contrib/dev/acpica/components/hardware/hwgpe.c optional acpi contrib/dev/acpica/components/hardware/hwpci.c optional acpi contrib/dev/acpica/components/hardware/hwregs.c optional acpi contrib/dev/acpica/components/hardware/hwsleep.c optional acpi contrib/dev/acpica/components/hardware/hwtimer.c optional acpi contrib/dev/acpica/components/hardware/hwvalid.c optional acpi contrib/dev/acpica/components/hardware/hwxface.c optional acpi contrib/dev/acpica/components/hardware/hwxfsleep.c optional acpi contrib/dev/acpica/components/namespace/nsaccess.c optional acpi \ compile-with "${NORMAL_C} ${NO_WUNUSED_BUT_SET_VARIABLE}" contrib/dev/acpica/components/namespace/nsalloc.c optional acpi contrib/dev/acpica/components/namespace/nsarguments.c optional acpi contrib/dev/acpica/components/namespace/nsconvert.c optional acpi contrib/dev/acpica/components/namespace/nsdump.c optional acpi contrib/dev/acpica/components/namespace/nseval.c optional acpi contrib/dev/acpica/components/namespace/nsinit.c optional acpi contrib/dev/acpica/components/namespace/nsload.c optional acpi contrib/dev/acpica/components/namespace/nsnames.c optional acpi contrib/dev/acpica/components/namespace/nsobject.c optional acpi contrib/dev/acpica/components/namespace/nsparse.c optional acpi contrib/dev/acpica/components/namespace/nspredef.c optional acpi contrib/dev/acpica/components/namespace/nsprepkg.c optional acpi contrib/dev/acpica/components/namespace/nsrepair.c optional acpi contrib/dev/acpica/components/namespace/nsrepair2.c optional acpi contrib/dev/acpica/components/namespace/nssearch.c optional acpi contrib/dev/acpica/components/namespace/nsutils.c optional acpi contrib/dev/acpica/components/namespace/nswalk.c optional acpi contrib/dev/acpica/components/namespace/nsxfeval.c optional acpi contrib/dev/acpica/components/namespace/nsxfname.c optional acpi contrib/dev/acpica/components/namespace/nsxfobj.c optional acpi contrib/dev/acpica/components/parser/psargs.c optional acpi contrib/dev/acpica/components/parser/psloop.c optional acpi contrib/dev/acpica/components/parser/psobject.c optional acpi contrib/dev/acpica/components/parser/psopcode.c optional acpi contrib/dev/acpica/components/parser/psopinfo.c optional acpi contrib/dev/acpica/components/parser/psparse.c optional acpi contrib/dev/acpica/components/parser/psscope.c optional acpi contrib/dev/acpica/components/parser/pstree.c optional acpi contrib/dev/acpica/components/parser/psutils.c optional acpi contrib/dev/acpica/components/parser/pswalk.c optional acpi contrib/dev/acpica/components/parser/psxface.c optional acpi contrib/dev/acpica/components/resources/rsaddr.c optional acpi contrib/dev/acpica/components/resources/rscalc.c optional acpi contrib/dev/acpica/components/resources/rscreate.c optional acpi contrib/dev/acpica/components/resources/rsdump.c optional acpi acpi_debug contrib/dev/acpica/components/resources/rsdumpinfo.c optional acpi contrib/dev/acpica/components/resources/rsinfo.c optional acpi contrib/dev/acpica/components/resources/rsio.c optional acpi contrib/dev/acpica/components/resources/rsirq.c optional acpi contrib/dev/acpica/components/resources/rslist.c optional acpi contrib/dev/acpica/components/resources/rsmemory.c optional acpi contrib/dev/acpica/components/resources/rsmisc.c optional acpi contrib/dev/acpica/components/resources/rsserial.c optional acpi contrib/dev/acpica/components/resources/rsutils.c optional acpi contrib/dev/acpica/components/resources/rsxface.c optional acpi contrib/dev/acpica/components/tables/tbdata.c optional acpi contrib/dev/acpica/components/tables/tbfadt.c optional acpi contrib/dev/acpica/components/tables/tbfind.c optional acpi contrib/dev/acpica/components/tables/tbinstal.c optional acpi contrib/dev/acpica/components/tables/tbprint.c optional acpi contrib/dev/acpica/components/tables/tbutils.c optional acpi contrib/dev/acpica/components/tables/tbxface.c optional acpi contrib/dev/acpica/components/tables/tbxfload.c optional acpi contrib/dev/acpica/components/tables/tbxfroot.c optional acpi contrib/dev/acpica/components/utilities/utaddress.c optional acpi contrib/dev/acpica/components/utilities/utalloc.c optional acpi contrib/dev/acpica/components/utilities/utascii.c optional acpi contrib/dev/acpica/components/utilities/utbuffer.c optional acpi contrib/dev/acpica/components/utilities/utcache.c optional acpi contrib/dev/acpica/components/utilities/utcksum.c optional acpi contrib/dev/acpica/components/utilities/utcopy.c optional acpi contrib/dev/acpica/components/utilities/utdebug.c optional acpi contrib/dev/acpica/components/utilities/utdecode.c optional acpi contrib/dev/acpica/components/utilities/utdelete.c optional acpi contrib/dev/acpica/components/utilities/uterror.c optional acpi contrib/dev/acpica/components/utilities/uteval.c optional acpi contrib/dev/acpica/components/utilities/utexcep.c optional acpi contrib/dev/acpica/components/utilities/utglobal.c optional acpi contrib/dev/acpica/components/utilities/uthex.c optional acpi contrib/dev/acpica/components/utilities/utids.c optional acpi contrib/dev/acpica/components/utilities/utinit.c optional acpi contrib/dev/acpica/components/utilities/utlock.c optional acpi contrib/dev/acpica/components/utilities/utmath.c optional acpi contrib/dev/acpica/components/utilities/utmisc.c optional acpi contrib/dev/acpica/components/utilities/utmutex.c optional acpi contrib/dev/acpica/components/utilities/utnonansi.c optional acpi contrib/dev/acpica/components/utilities/utobject.c optional acpi contrib/dev/acpica/components/utilities/utosi.c optional acpi contrib/dev/acpica/components/utilities/utownerid.c optional acpi contrib/dev/acpica/components/utilities/utpredef.c optional acpi contrib/dev/acpica/components/utilities/utresdecode.c optional acpi acpi_debug contrib/dev/acpica/components/utilities/utresrc.c optional acpi contrib/dev/acpica/components/utilities/utstate.c optional acpi contrib/dev/acpica/components/utilities/utstring.c optional acpi contrib/dev/acpica/components/utilities/utstrsuppt.c optional acpi contrib/dev/acpica/components/utilities/utstrtoul64.c optional acpi contrib/dev/acpica/components/utilities/utuuid.c optional acpi acpi_debug contrib/dev/acpica/components/utilities/utxface.c optional acpi contrib/dev/acpica/components/utilities/utxferror.c optional acpi contrib/dev/acpica/components/utilities/utxfinit.c optional acpi contrib/dev/acpica/os_specific/service_layers/osgendbg.c optional acpi acpi_debug netpfil/ipfilter/netinet/fil.c optional ipfilter inet \ compile-with "${NORMAL_C} ${NO_WSELF_ASSIGN} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_auth.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_fil_freebsd.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_frag.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_log.c optional ipfilter inet \ compile-with "${NORMAL_C} -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_nat.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_proxy.c optional ipfilter inet \ compile-with "${NORMAL_C} ${NO_WSELF_ASSIGN} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_state.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_lookup.c optional ipfilter inet \ compile-with "${NORMAL_C} ${NO_WSELF_ASSIGN} -Wno-unused -Wno-error -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_pool.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_htable.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter ${NO_WTAUTOLOGICAL_POINTER_COMPARE}" netpfil/ipfilter/netinet/ip_sync.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/mlfk_ipl.c optional ipfilter inet \ compile-with "${NORMAL_C} -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_nat6.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_rules.c optional ipfilter inet \ compile-with "${NORMAL_C} -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_scan.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/ip_dstlist.c optional ipfilter inet \ compile-with "${NORMAL_C} -Wno-unused -I$S/netpfil/ipfilter" netpfil/ipfilter/netinet/radix_ipf.c optional ipfilter inet \ compile-with "${NORMAL_C} -I$S/netpfil/ipfilter" contrib/libfdt/fdt.c optional fdt contrib/libfdt/fdt_ro.c optional fdt contrib/libfdt/fdt_rw.c optional fdt contrib/libfdt/fdt_strerror.c optional fdt contrib/libfdt/fdt_sw.c optional fdt contrib/libfdt/fdt_wip.c optional fdt contrib/libnv/cnvlist.c standard contrib/libnv/dnvlist.c standard contrib/libnv/nvlist.c standard contrib/libnv/bsd_nvpair.c standard # xz dev/xz/xz_mod.c optional xz \ compile-with "${NORMAL_C} -DXZ_USE_CRC64 -I$S/contrib/xz-embedded/freebsd/ -I$S/contrib/xz-embedded/linux/lib/xz/ -I$S/contrib/xz-embedded/linux/include/linux/" contrib/xz-embedded/linux/lib/xz/xz_crc32.c optional xz \ compile-with "${NORMAL_C} -DXZ_USE_CRC64 -I$S/contrib/xz-embedded/freebsd/ -I$S/contrib/xz-embedded/linux/lib/xz/ -I$S/contrib/xz-embedded/linux/include/linux/" contrib/xz-embedded/linux/lib/xz/xz_crc64.c optional xz \ compile-with "${NORMAL_C} -DXZ_USE_CRC64 -I$S/contrib/xz-embedded/freebsd/ -I$S/contrib/xz-embedded/linux/lib/xz/ -I$S/contrib/xz-embedded/linux/include/linux/" contrib/xz-embedded/linux/lib/xz/xz_dec_bcj.c optional xz \ compile-with "${NORMAL_C} -DXZ_USE_CRC64 -I$S/contrib/xz-embedded/freebsd/ -I$S/contrib/xz-embedded/linux/lib/xz/ -I$S/contrib/xz-embedded/linux/include/linux/" contrib/xz-embedded/linux/lib/xz/xz_dec_lzma2.c optional xz \ compile-with "${NORMAL_C} -DXZ_USE_CRC64 -I$S/contrib/xz-embedded/freebsd/ -I$S/contrib/xz-embedded/linux/lib/xz/ -I$S/contrib/xz-embedded/linux/include/linux/" contrib/xz-embedded/linux/lib/xz/xz_dec_stream.c optional xz \ compile-with "${NORMAL_C} -DXZ_USE_CRC64 -I$S/contrib/xz-embedded/freebsd/ -I$S/contrib/xz-embedded/linux/lib/xz/ -I$S/contrib/xz-embedded/linux/include/linux/" # Zstd contrib/zstd/lib/freebsd/zstd_kmalloc.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/common/zstd_common.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/common/fse_decompress.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/common/entropy_common.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/common/error_private.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/common/xxhash.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_compress.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_compress_literals.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_compress_sequences.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_compress_superblock.c optional zstdio compile-with "${ZSTD_C} ${NO_WUNUSED_BUT_SET_VARIABLE}" contrib/zstd/lib/compress/fse_compress.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/hist.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/huf_compress.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_double_fast.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_fast.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_lazy.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_ldm.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/compress/zstd_opt.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/decompress/zstd_ddict.c optional zstdio compile-with ${ZSTD_C} contrib/zstd/lib/decompress/zstd_decompress.c optional zstdio compile-with ${ZSTD_C} # See comment in sys/conf/kern.pre.mk contrib/zstd/lib/decompress/zstd_decompress_block.c optional zstdio \ compile-with "${ZSTD_C} ${ZSTD_DECOMPRESS_BLOCK_FLAGS}" contrib/zstd/lib/decompress/huf_decompress.c optional zstdio compile-with "${ZSTD_C} ${NO_WBITWISE_INSTEAD_OF_LOGICAL}" # Blake 2 contrib/libb2/blake2b-ref.c optional crypto | !random_loadable random_fenestrasx \ compile-with "${NORMAL_C} -I$S/crypto/blake2 -Wno-cast-qual -DSUFFIX=_ref -Wno-unused-function" contrib/libb2/blake2s-ref.c optional crypto \ compile-with "${NORMAL_C} -I$S/crypto/blake2 -Wno-cast-qual -DSUFFIX=_ref -Wno-unused-function" crypto/blake2/blake2-sw.c optional crypto \ compile-with "${NORMAL_C} -I$S/crypto/blake2 -Wno-cast-qual" crypto/camellia/camellia.c optional crypto crypto/camellia/camellia-api.c optional crypto crypto/chacha20/chacha.c standard crypto/chacha20/chacha-sw.c optional crypto crypto/chacha20_poly1305.c optional crypto crypto/curve25519.c optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include -I$S/crypto/libsodium" crypto/des/des_ecb.c optional netsmb crypto/des/des_setkey.c optional netsmb crypto/openssl/ossl.c optional ossl crypto/openssl/ossl_aes.c optional ossl crypto/openssl/ossl_chacha20.c optional ossl crypto/openssl/ossl_poly1305.c optional ossl crypto/openssl/ossl_sha1.c optional ossl crypto/openssl/ossl_sha256.c optional ossl crypto/openssl/ossl_sha512.c optional ossl crypto/rc4/rc4.c optional netgraph_mppc_encryption crypto/rijndael/rijndael-alg-fst.c optional crypto | ekcd | geom_bde | \ !random_loadable | wlan_ccmp crypto/rijndael/rijndael-api-fst.c optional ekcd | geom_bde | !random_loadable crypto/rijndael/rijndael-api.c optional crypto | wlan_ccmp crypto/sha1.c optional carp | crypto | ether | \ netgraph_mppc_encryption | sctp crypto/sha2/sha256c.c optional crypto | ekcd | geom_bde | \ !random_loadable | sctp | zfs crypto/sha2/sha512c.c optional crypto | geom_bde | zfs crypto/skein/skein.c optional crypto | zfs crypto/skein/skein_block.c optional crypto | zfs crypto/siphash/siphash.c optional inet | inet6 | wg crypto/siphash/siphash_test.c optional inet | inet6 | wg ddb/db_access.c optional ddb ddb/db_break.c optional ddb ddb/db_capture.c optional ddb ddb/db_command.c optional ddb ddb/db_ctf.c optional ddb ddb/db_examine.c optional ddb ddb/db_expr.c optional ddb ddb/db_input.c optional ddb ddb/db_lex.c optional ddb ddb/db_main.c optional ddb ddb/db_output.c optional ddb ddb/db_pprint.c optional ddb ddb/db_print.c optional ddb ddb/db_ps.c optional ddb ddb/db_run.c optional ddb ddb/db_script.c optional ddb ddb/db_sym.c optional ddb ddb/db_thread.c optional ddb ddb/db_textdump.c optional ddb ddb/db_variables.c optional ddb ddb/db_watch.c optional ddb ddb/db_write_cmd.c optional ddb dev/aac/aac.c optional aac dev/aac/aac_cam.c optional aacp aac dev/aac/aac_debug.c optional aac dev/aac/aac_disk.c optional aac dev/aac/aac_pci.c optional aac pci dev/aacraid/aacraid.c optional aacraid dev/aacraid/aacraid_cam.c optional aacraid scbus dev/aacraid/aacraid_debug.c optional aacraid dev/aacraid/aacraid_pci.c optional aacraid pci dev/acpi_support/acpi_wmi.c optional acpi_wmi acpi dev/acpi_support/acpi_asus.c optional acpi_asus acpi dev/acpi_support/acpi_asus_wmi.c optional acpi_asus_wmi acpi dev/acpi_support/acpi_fujitsu.c optional acpi_fujitsu acpi dev/acpi_support/acpi_hp.c optional acpi_hp acpi dev/acpi_support/acpi_ibm.c optional acpi_ibm acpi dev/acpi_support/acpi_panasonic.c optional acpi_panasonic acpi dev/acpi_support/acpi_sony.c optional acpi_sony acpi dev/acpi_support/acpi_toshiba.c optional acpi_toshiba acpi dev/acpi_support/atk0110.c optional aibs acpi dev/acpica/Osd/OsdDebug.c optional acpi dev/acpica/Osd/OsdHardware.c optional acpi dev/acpica/Osd/OsdInterrupt.c optional acpi dev/acpica/Osd/OsdMemory.c optional acpi dev/acpica/Osd/OsdSchedule.c optional acpi dev/acpica/Osd/OsdStream.c optional acpi dev/acpica/Osd/OsdSynch.c optional acpi dev/acpica/Osd/OsdTable.c optional acpi dev/acpica/acpi.c optional acpi dev/acpica/acpi_acad.c optional acpi dev/acpica/acpi_apei.c optional acpi dev/acpica/acpi_battery.c optional acpi dev/acpica/acpi_button.c optional acpi dev/acpica/acpi_cmbat.c optional acpi dev/acpica/acpi_cpu.c optional acpi dev/acpica/acpi_ec.c optional acpi dev/acpica/acpi_ged.c optional acpi_ged acpi dev/acpica/acpi_isab.c optional acpi isa dev/acpica/acpi_lid.c optional acpi dev/acpica/acpi_package.c optional acpi dev/acpica/acpi_perf.c optional acpi dev/acpica/acpi_powerres.c optional acpi dev/acpica/acpi_quirk.c optional acpi dev/acpica/acpi_resource.c optional acpi dev/acpica/acpi_container.c optional acpi dev/acpica/acpi_smbat.c optional acpi dev/acpica/acpi_thermal.c optional acpi dev/acpica/acpi_throttle.c optional acpi dev/acpica/acpi_video.c optional acpi_video acpi dev/acpica/acpi_dock.c optional acpi_dock acpi dev/adlink/adlink.c optional adlink dev/ae/if_ae.c optional ae pci dev/age/if_age.c optional age pci dev/agp/agp.c optional agp pci dev/agp/agp_if.m optional agp pci dev/ahci/ahci.c optional ahci dev/ahci/ahciem.c optional ahci dev/ahci/ahci_pci.c optional ahci pci dev/aic7xxx/ahc_isa.c optional ahc isa dev/aic7xxx/ahc_pci.c optional ahc pci \ compile-with "${NORMAL_C} ${NO_WCONSTANT_CONVERSION}" dev/aic7xxx/ahd_pci.c optional ahd pci \ compile-with "${NORMAL_C} ${NO_WCONSTANT_CONVERSION}" dev/aic7xxx/aic7770.c optional ahc dev/aic7xxx/aic79xx.c optional ahd pci dev/aic7xxx/aic79xx_osm.c optional ahd pci dev/aic7xxx/aic79xx_pci.c optional ahd pci dev/aic7xxx/aic79xx_reg_print.c optional ahd pci ahd_reg_pretty_print dev/aic7xxx/aic7xxx.c optional ahc dev/aic7xxx/aic7xxx_93cx6.c optional ahc dev/aic7xxx/aic7xxx_osm.c optional ahc dev/aic7xxx/aic7xxx_pci.c optional ahc pci dev/aic7xxx/aic7xxx_reg_print.c optional ahc ahc_reg_pretty_print dev/al_eth/al_eth.c optional al_eth fdt \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" dev/al_eth/al_init_eth_lm.c optional al_eth fdt \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" dev/al_eth/al_init_eth_kr.c optional al_eth fdt \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_iofic.c optional al_iofic \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_serdes_25g.c optional al_serdes \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_serdes_hssp.c optional al_serdes \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_udma_config.c optional al_udma \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_udma_debug.c optional al_udma \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_udma_iofic.c optional al_udma \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_hal_udma_main.c optional al_udma \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/al_serdes.c optional al_serdes \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/eth/al_hal_eth_kr.c optional al_eth \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" contrib/alpine-hal/eth/al_hal_eth_main.c optional al_eth \ no-depend \ compile-with "${CC} -c -o ${.TARGET} ${CFLAGS} -I$S/contrib/alpine-hal -I$S/contrib/alpine-hal/eth ${.IMPSRC}" dev/alc/if_alc.c optional alc pci dev/ale/if_ale.c optional ale pci dev/alpm/alpm.c optional alpm pci dev/altera/avgen/altera_avgen.c optional altera_avgen dev/altera/avgen/altera_avgen_fdt.c optional altera_avgen fdt dev/altera/avgen/altera_avgen_nexus.c optional altera_avgen dev/altera/msgdma/msgdma.c optional altera_msgdma xdma dev/altera/sdcard/altera_sdcard.c optional altera_sdcard dev/altera/sdcard/altera_sdcard_disk.c optional altera_sdcard dev/altera/sdcard/altera_sdcard_io.c optional altera_sdcard dev/altera/sdcard/altera_sdcard_fdt.c optional altera_sdcard fdt dev/altera/sdcard/altera_sdcard_nexus.c optional altera_sdcard dev/altera/softdma/softdma.c optional altera_softdma xdma fdt dev/altera/pio/pio.c optional altera_pio dev/altera/pio/pio_if.m optional altera_pio dev/amdpm/amdpm.c optional amdpm pci | nfpm pci dev/amdsmb/amdsmb.c optional amdsmb pci # dev/ata/ata_if.m optional ata | atacore dev/ata/ata-all.c optional ata | atacore dev/ata/ata-dma.c optional ata | atacore dev/ata/ata-lowlevel.c optional ata | atacore dev/ata/ata-sata.c optional ata | atacore dev/ata/ata-isa.c optional ata isa | ataisa dev/ata/ata-pci.c optional ata pci | atapci dev/ata/chipsets/ata-acard.c optional ata pci | ataacard dev/ata/chipsets/ata-acerlabs.c optional ata pci | ataacerlabs dev/ata/chipsets/ata-amd.c optional ata pci | ataamd dev/ata/chipsets/ata-ati.c optional ata pci | ataati dev/ata/chipsets/ata-cenatek.c optional ata pci | atacenatek dev/ata/chipsets/ata-cypress.c optional ata pci | atacypress dev/ata/chipsets/ata-cyrix.c optional ata pci | atacyrix dev/ata/chipsets/ata-highpoint.c optional ata pci | atahighpoint dev/ata/chipsets/ata-intel.c optional ata pci | ataintel dev/ata/chipsets/ata-ite.c optional ata pci | ataite dev/ata/chipsets/ata-jmicron.c optional ata pci | atajmicron dev/ata/chipsets/ata-marvell.c optional ata pci | atamarvell dev/ata/chipsets/ata-micron.c optional ata pci | atamicron dev/ata/chipsets/ata-national.c optional ata pci | atanational dev/ata/chipsets/ata-netcell.c optional ata pci | atanetcell dev/ata/chipsets/ata-nvidia.c optional ata pci | atanvidia dev/ata/chipsets/ata-promise.c optional ata pci | atapromise dev/ata/chipsets/ata-serverworks.c optional ata pci | ataserverworks dev/ata/chipsets/ata-siliconimage.c optional ata pci | atasiliconimage | ataati dev/ata/chipsets/ata-sis.c optional ata pci | atasis dev/ata/chipsets/ata-via.c optional ata pci | atavia # dev/ath/if_ath.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_alq.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_beacon.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_btcoex.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_btcoex_mci.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_debug.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_descdma.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_keycache.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_ioctl.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_led.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_lna_div.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_pci.c optional ath pci \ compile-with "${ATH_C}" dev/ath/if_ath_tx.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_tx_edma.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_tx_ht.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_tdma.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_sysctl.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_rx.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_rx_edma.c optional ath \ compile-with "${ATH_C}" dev/ath/if_ath_spectral.c optional ath \ compile-with "${ATH_C}" dev/ath/ah_osdep.c optional ath \ compile-with "${ATH_C}" # dev/ath/ath_hal/ah.c optional ath \ compile-with "${ATH_C}" dev/ath/ath_hal/ah_eeprom_v1.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C}" dev/ath/ath_hal/ah_eeprom_v3.c optional ath_hal | ath_ar5211 | ath_ar5212 \ compile-with "${ATH_C}" dev/ath/ath_hal/ah_eeprom_v14.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 \ compile-with "${ATH_C}" dev/ath/ath_hal/ah_eeprom_v4k.c \ optional ath_hal | ath_ar9285 \ compile-with "${ATH_C}" dev/ath/ath_hal/ah_eeprom_9287.c \ optional ath_hal | ath_ar9287 \ compile-with "${ATH_C}" dev/ath/ath_hal/ah_regdomain.c optional ath \ compile-with "${ATH_C} ${NO_WSHIFT_COUNT_NEGATIVE} ${NO_WSHIFT_COUNT_OVERFLOW}" # ar5210 dev/ath/ath_hal/ar5210/ar5210_attach.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_beacon.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_interrupts.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_keycache.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_misc.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_phy.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_power.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_recv.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_reset.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5210/ar5210_xmit.c optional ath_hal | ath_ar5210 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar5211 dev/ath/ath_hal/ar5211/ar5211_attach.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_beacon.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_interrupts.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_keycache.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_misc.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_phy.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_power.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_recv.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_reset.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5211/ar5211_xmit.c optional ath_hal | ath_ar5211 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar5212 dev/ath/ath_hal/ar5212/ar5212_ani.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_attach.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_beacon.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_eeprom.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_gpio.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_interrupts.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_keycache.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_misc.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_phy.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_power.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_recv.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_reset.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_rfgain.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5212_xmit.c \ optional ath_hal | ath_ar5212 | ath_ar5416 | ath_ar9160 | ath_ar9280 | \ ath_ar9285 ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar5416 (depends on ar5212) dev/ath/ath_hal/ar5416/ar5416_ani.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_attach.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_beacon.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_btcoex.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_cal.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_cal_iq.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_cal_adcgain.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_cal_adcdc.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_eeprom.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_gpio.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_interrupts.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_keycache.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_misc.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_phy.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_power.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_radar.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_recv.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_reset.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_spectral.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar5416_xmit.c \ optional ath_hal | ath_ar5416 | ath_ar9160 | ath_ar9280 | ath_ar9285 | \ ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar9160 (depends on ar5416) dev/ath/ath_hal/ar9001/ar9160_attach.c optional ath_hal | ath_ar9160 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar9280 (depends on ar5416) dev/ath/ath_hal/ar9002/ar9280_attach.c optional ath_hal | ath_ar9280 | \ ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9280_olc.c optional ath_hal | ath_ar9280 | \ ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar9285 (depends on ar5416 and ar9280) dev/ath/ath_hal/ar9002/ar9285_attach.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9285_btcoex.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9285_reset.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9285_cal.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9285_phy.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9285_diversity.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar9287 (depends on ar5416) dev/ath/ath_hal/ar9002/ar9287_attach.c optional ath_hal | ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9287_reset.c optional ath_hal | ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9287_cal.c optional ath_hal | ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9287_olc.c optional ath_hal | ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ar9300 contrib/dev/ath/ath_hal/ar9300/ar9300_ani.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_attach.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_beacon.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_eeprom.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal ${NO_WCONSTANT_CONVERSION}" contrib/dev/ath/ath_hal/ar9300/ar9300_freebsd.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_gpio.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_interrupts.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_keycache.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_mci.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_misc.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_paprd.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_phy.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_power.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_radar.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_radio.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_recv.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_recv_ds.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_reset.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal ${NO_WSOMETIMES_UNINITIALIZED} -Wno-unused-function" contrib/dev/ath/ath_hal/ar9300/ar9300_stub.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_stub_funcs.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_spectral.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_timer.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_xmit.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" contrib/dev/ath/ath_hal/ar9300/ar9300_xmit_ds.c optional ath_hal | ath_ar9300 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal -I$S/contrib/dev/ath/ath_hal" # rf backends dev/ath/ath_hal/ar5212/ar2316.c optional ath_rf2316 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar2317.c optional ath_rf2317 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar2413.c optional ath_hal | ath_rf2413 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar2425.c optional ath_hal | ath_rf2425 | ath_rf2417 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5111.c optional ath_hal | ath_rf5111 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5112.c optional ath_hal | ath_rf5112 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5212/ar5413.c optional ath_hal | ath_rf5413 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar5416/ar2133.c optional ath_hal | ath_ar5416 | \ ath_ar9130 | ath_ar9160 | ath_ar9280 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9280.c optional ath_hal | ath_ar9280 | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9285.c optional ath_hal | ath_ar9285 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" dev/ath/ath_hal/ar9002/ar9287.c optional ath_hal | ath_ar9287 \ compile-with "${ATH_C} -I$S/dev/ath/ath_hal" # ath rate control algorithms dev/ath/ath_rate/amrr/amrr.c optional ath_rate_amrr \ compile-with "${ATH_C}" dev/ath/ath_rate/onoe/onoe.c optional ath_rate_onoe \ compile-with "${ATH_C}" dev/ath/ath_rate/sample/sample.c optional ath_rate_sample \ compile-with "${ATH_C}" # ath DFS modules dev/ath/ath_dfs/null/dfs_null.c optional ath \ compile-with "${ATH_C}" # dev/backlight/backlight_if.m optional backlight | compat_linuxkpi dev/backlight/backlight.c optional backlight | compat_linuxkpi dev/bce/if_bce.c optional bce dev/bfe/if_bfe.c optional bfe dev/bge/if_bge.c optional bge dev/bhnd/bhnd.c optional bhnd dev/bhnd/bhnd_erom.c optional bhnd dev/bhnd/bhnd_erom_if.m optional bhnd dev/bhnd/bhnd_subr.c optional bhnd dev/bhnd/bhnd_bus_if.m optional bhnd dev/bhnd/bhndb/bhnd_bhndb.c optional bhndb bhnd dev/bhnd/bhndb/bhndb.c optional bhndb bhnd dev/bhnd/bhndb/bhndb_bus_if.m optional bhndb bhnd dev/bhnd/bhndb/bhndb_hwdata.c optional bhndb bhnd dev/bhnd/bhndb/bhndb_if.m optional bhndb bhnd dev/bhnd/bhndb/bhndb_pci.c optional bhndb_pci bhndb bhnd pci dev/bhnd/bhndb/bhndb_pci_hwdata.c optional bhndb_pci bhndb bhnd pci dev/bhnd/bhndb/bhndb_pci_sprom.c optional bhndb_pci bhndb bhnd pci dev/bhnd/bhndb/bhndb_subr.c optional bhndb bhnd dev/bhnd/bcma/bcma.c optional bcma bhnd dev/bhnd/bcma/bcma_bhndb.c optional bcma bhnd bhndb dev/bhnd/bcma/bcma_erom.c optional bcma bhnd dev/bhnd/bcma/bcma_subr.c optional bcma bhnd dev/bhnd/cores/chipc/bhnd_chipc_if.m optional bhnd dev/bhnd/cores/chipc/bhnd_sprom_chipc.c optional bhnd dev/bhnd/cores/chipc/bhnd_pmu_chipc.c optional bhnd dev/bhnd/cores/chipc/chipc.c optional bhnd dev/bhnd/cores/chipc/chipc_cfi.c optional bhnd cfi dev/bhnd/cores/chipc/chipc_gpio.c optional bhnd gpio dev/bhnd/cores/chipc/chipc_slicer.c optional bhnd cfi | bhnd spibus dev/bhnd/cores/chipc/chipc_spi.c optional bhnd spibus dev/bhnd/cores/chipc/chipc_subr.c optional bhnd dev/bhnd/cores/chipc/pwrctl/bhnd_pwrctl.c optional bhnd dev/bhnd/cores/chipc/pwrctl/bhnd_pwrctl_if.m optional bhnd dev/bhnd/cores/chipc/pwrctl/bhnd_pwrctl_hostb_if.m optional bhnd dev/bhnd/cores/chipc/pwrctl/bhnd_pwrctl_subr.c optional bhnd dev/bhnd/cores/pci/bhnd_pci.c optional bhnd pci dev/bhnd/cores/pci/bhnd_pci_hostb.c optional bhndb bhnd pci dev/bhnd/cores/pci/bhnd_pcib.c optional bhnd_pcib bhnd pci dev/bhnd/cores/pcie2/bhnd_pcie2.c optional bhnd pci dev/bhnd/cores/pcie2/bhnd_pcie2_hostb.c optional bhndb bhnd pci dev/bhnd/cores/pcie2/bhnd_pcie2b.c optional bhnd_pcie2b bhnd pci dev/bhnd/cores/pmu/bhnd_pmu.c optional bhnd dev/bhnd/cores/pmu/bhnd_pmu_core.c optional bhnd dev/bhnd/cores/pmu/bhnd_pmu_if.m optional bhnd dev/bhnd/cores/pmu/bhnd_pmu_subr.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data_bcm.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data_bcmraw.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data_btxt.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data_sprom.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data_sprom_subr.c optional bhnd dev/bhnd/nvram/bhnd_nvram_data_tlv.c optional bhnd dev/bhnd/nvram/bhnd_nvram_if.m optional bhnd dev/bhnd/nvram/bhnd_nvram_io.c optional bhnd dev/bhnd/nvram/bhnd_nvram_iobuf.c optional bhnd dev/bhnd/nvram/bhnd_nvram_ioptr.c optional bhnd dev/bhnd/nvram/bhnd_nvram_iores.c optional bhnd dev/bhnd/nvram/bhnd_nvram_plist.c optional bhnd dev/bhnd/nvram/bhnd_nvram_store.c optional bhnd dev/bhnd/nvram/bhnd_nvram_store_subr.c optional bhnd dev/bhnd/nvram/bhnd_nvram_subr.c optional bhnd dev/bhnd/nvram/bhnd_nvram_value.c optional bhnd dev/bhnd/nvram/bhnd_nvram_value_fmts.c optional bhnd dev/bhnd/nvram/bhnd_nvram_value_prf.c optional bhnd dev/bhnd/nvram/bhnd_nvram_value_subr.c optional bhnd dev/bhnd/nvram/bhnd_sprom.c optional bhnd dev/bhnd/siba/siba.c optional siba bhnd dev/bhnd/siba/siba_bhndb.c optional siba bhnd bhndb dev/bhnd/siba/siba_erom.c optional siba bhnd dev/bhnd/siba/siba_subr.c optional siba bhnd # dev/bnxt/bnxt_hwrm.c optional bnxt iflib pci dev/bnxt/bnxt_mgmt.c optional bnxt iflib pci dev/bnxt/bnxt_sysctl.c optional bnxt iflib pci dev/bnxt/bnxt_txrx.c optional bnxt iflib pci dev/bnxt/if_bnxt.c optional bnxt iflib pci dev/bwi/bwimac.c optional bwi dev/bwi/bwiphy.c optional bwi dev/bwi/bwirf.c optional bwi dev/bwi/if_bwi.c optional bwi dev/bwi/if_bwi_pci.c optional bwi pci dev/bwn/if_bwn.c optional bwn bhnd dev/bwn/if_bwn_pci.c optional bwn pci bhnd bhndb bhndb_pci dev/bwn/if_bwn_phy_common.c optional bwn bhnd dev/bwn/if_bwn_phy_g.c optional bwn bhnd dev/bwn/if_bwn_phy_lp.c optional bwn bhnd dev/bwn/if_bwn_phy_n.c optional bwn bhnd dev/bwn/if_bwn_util.c optional bwn bhnd dev/cadence/if_cgem.c optional cgem fdt dev/cardbus/card_if.m standard dev/cardbus/cardbus.c optional cardbus dev/cardbus/cardbus_cis.c optional cardbus dev/cardbus/cardbus_device.c optional cardbus dev/cardbus/power_if.m standard dev/cas/if_cas.c optional cas dev/cfi/cfi_bus_fdt.c optional cfi fdt dev/cfi/cfi_bus_nexus.c optional cfi dev/cfi/cfi_core.c optional cfi dev/cfi/cfi_dev.c optional cfi dev/cfi/cfi_disk.c optional cfid dev/chromebook_platform/chromebook_platform.c optional chromebook_platform dev/ciss/ciss.c optional ciss dev/clk/clk.c optional clk dev/clk/clkdev_if.m optional clk dev/clk/clknode_if.m optional clk dev/clk/clk_bus.c optional clk fdt dev/clk/clk_div.c optional clk dev/clk/clk_fixed.c optional clk dev/clk/clk_gate.c optional clk dev/clk/clk_link.c optional clk dev/clk/clk_mux.c optional clk dev/cpufreq/ichss.c optional cpufreq pci dev/cxgb/cxgb_main.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/cxgb_sge.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_mc5.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_vsc7323.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_vsc8211.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_ael1002.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_aq100x.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_mv88e1xxx.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_xgmac.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_t3_hw.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/common/cxgb_tn1010.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/sys/uipc_mvec.c optional cxgb pci \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgb/cxgb_t3fw.c optional cxgb cxgb_t3fw \ compile-with "${NORMAL_C} -I$S/dev/cxgb" dev/cxgbe/t4_clip.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_filter.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_if.m optional cxgbe pci dev/cxgbe/t4_iov.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_mp_ring.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_main.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_netmap.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_sched.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_sge.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_smt.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_l2t.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_tracer.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/t4_vf.c optional cxgbev pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/common/t4_hw.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/common/t4vf_hw.c optional cxgbev pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/crypto/t6_kern_tls.c optional cxgbe pci kern_tls \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/crypto/t4_keyctx.c optional cxgbe pci \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/cudbg/cudbg_common.c optional cxgbe \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/cudbg/cudbg_flash_utils.c optional cxgbe \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/cudbg/cudbg_lib.c optional cxgbe \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/cudbg/cudbg_wtp.c optional cxgbe \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/cudbg/fastlz.c optional cxgbe \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cxgbe/cudbg/fastlz_api.c optional cxgbe \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" t4fw_cfg.c optional cxgbe \ compile-with "${AWK} -f $S/tools/fw_stub.awk t4fw_cfg.fw:t4fw_cfg t4fw_cfg_uwire.fw:t4fw_cfg_uwire t4fw.fw:t4fw -mt4fw_cfg -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "t4fw_cfg.c" t4fw_cfg.fwo optional cxgbe \ dependency "t4fw_cfg.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t4fw_cfg.fwo" t4fw_cfg.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t4fw_cfg.txt" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t4fw_cfg.fw" t4fw_cfg_uwire.fwo optional cxgbe \ dependency "t4fw_cfg_uwire.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t4fw_cfg_uwire.fwo" t4fw_cfg_uwire.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t4fw_cfg_uwire.txt" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t4fw_cfg_uwire.fw" t4fw.fwo optional cxgbe \ dependency "t4fw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t4fw.fwo" t4fw.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t4fw-1.27.5.0.bin" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t4fw.fw" t5fw_cfg.c optional cxgbe \ compile-with "${AWK} -f $S/tools/fw_stub.awk t5fw_cfg.fw:t5fw_cfg t5fw_cfg_uwire.fw:t5fw_cfg_uwire t5fw.fw:t5fw -mt5fw_cfg -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "t5fw_cfg.c" t5fw_cfg.fwo optional cxgbe \ dependency "t5fw_cfg.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t5fw_cfg.fwo" t5fw_cfg.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t5fw_cfg.txt" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t5fw_cfg.fw" t5fw_cfg_uwire.fwo optional cxgbe \ dependency "t5fw_cfg_uwire.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t5fw_cfg_uwire.fwo" t5fw_cfg_uwire.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t5fw_cfg_uwire.txt" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t5fw_cfg_uwire.fw" t5fw.fwo optional cxgbe \ dependency "t5fw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t5fw.fwo" t5fw.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t5fw-1.27.5.0.bin" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t5fw.fw" t6fw_cfg.c optional cxgbe \ compile-with "${AWK} -f $S/tools/fw_stub.awk t6fw_cfg.fw:t6fw_cfg t6fw_cfg_uwire.fw:t6fw_cfg_uwire t6fw.fw:t6fw -mt6fw_cfg -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "t6fw_cfg.c" t6fw_cfg.fwo optional cxgbe \ dependency "t6fw_cfg.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t6fw_cfg.fwo" t6fw_cfg.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t6fw_cfg.txt" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t6fw_cfg.fw" t6fw_cfg_uwire.fwo optional cxgbe \ dependency "t6fw_cfg_uwire.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t6fw_cfg_uwire.fwo" t6fw_cfg_uwire.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t6fw_cfg_uwire.txt" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t6fw_cfg_uwire.fw" t6fw.fwo optional cxgbe \ dependency "t6fw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "t6fw.fwo" t6fw.fw optional cxgbe \ dependency "$S/dev/cxgbe/firmware/t6fw-1.27.5.0.bin" \ compile-with "${CP} ${.ALLSRC} ${.TARGET}" \ no-obj no-implicit-rule \ clean "t6fw.fw" dev/cxgbe/crypto/t4_crypto.c optional ccr \ compile-with "${NORMAL_C} -I$S/dev/cxgbe" dev/cyapa/cyapa.c optional cyapa iicbus dev/dc/if_dc.c optional dc pci dev/dc/dcphy.c optional dc pci dev/dc/pnphy.c optional dc pci dev/dcons/dcons.c optional dcons dev/dcons/dcons_crom.c optional dcons_crom dev/dcons/dcons_os.c optional dcons dev/dialog/da9063/da9063_if.m optional da9063_pmic dev/dialog/da9063/da9063_iic.c optional da9063_pmic iicbus fdt dev/dialog/da9063/da9063_rtc.c optional da9063_rtc fdt dev/drm2/drm_agpsupport.c optional drm2 dev/drm2/drm_auth.c optional drm2 dev/drm2/drm_bufs.c optional drm2 dev/drm2/drm_buffer.c optional drm2 dev/drm2/drm_context.c optional drm2 dev/drm2/drm_crtc.c optional drm2 dev/drm2/drm_crtc_helper.c optional drm2 dev/drm2/drm_dma.c optional drm2 dev/drm2/drm_dp_helper.c optional drm2 dev/drm2/drm_dp_iic_helper.c optional drm2 dev/drm2/drm_drv.c optional drm2 dev/drm2/drm_edid.c optional drm2 dev/drm2/drm_fb_helper.c optional drm2 dev/drm2/drm_fops.c optional drm2 dev/drm2/drm_gem.c optional drm2 dev/drm2/drm_gem_names.c optional drm2 dev/drm2/drm_global.c optional drm2 dev/drm2/drm_hashtab.c optional drm2 dev/drm2/drm_ioctl.c optional drm2 dev/drm2/drm_irq.c optional drm2 dev/drm2/drm_linux_list_sort.c optional drm2 dev/drm2/drm_lock.c optional drm2 dev/drm2/drm_memory.c optional drm2 dev/drm2/drm_mm.c optional drm2 dev/drm2/drm_modes.c optional drm2 dev/drm2/drm_pci.c optional drm2 dev/drm2/drm_platform.c optional drm2 dev/drm2/drm_scatter.c optional drm2 dev/drm2/drm_stub.c optional drm2 dev/drm2/drm_sysctl.c optional drm2 dev/drm2/drm_vm.c optional drm2 dev/drm2/drm_os_freebsd.c optional drm2 dev/drm2/ttm/ttm_agp_backend.c optional drm2 dev/drm2/ttm/ttm_lock.c optional drm2 dev/drm2/ttm/ttm_object.c optional drm2 dev/drm2/ttm/ttm_tt.c optional drm2 dev/drm2/ttm/ttm_bo_util.c optional drm2 dev/drm2/ttm/ttm_bo.c optional drm2 dev/drm2/ttm/ttm_bo_manager.c optional drm2 dev/drm2/ttm/ttm_execbuf_util.c optional drm2 dev/drm2/ttm/ttm_memory.c optional drm2 dev/drm2/ttm/ttm_page_alloc.c optional drm2 dev/drm2/ttm/ttm_bo_vm.c optional drm2 dev/dwc/if_dwc.c optional dwc fdt dev/dwc/if_dwc_if.m optional dwc fdt dev/dwc/dwc1000_core.c optional dwc fdt dev/dwc/dwc1000_dma.c optional dwc fdt dev/efidev/efidev.c optional efirt efidev dev/efidev/efirt.c optional efirt dev/efidev/efirtc.c optional efirt efirtc dev/e1000/if_em.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/em_txrx.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/igb_txrx.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_80003es2lan.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_82540.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_82541.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_82542.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_82543.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_82571.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_82575.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_ich8lan.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_i210.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_api.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_base.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_mac.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_manage.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_nvm.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_phy.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_vf.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_mbx.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/e1000/e1000_osdep.c optional em \ compile-with "${NORMAL_C} -I$S/dev/e1000" dev/et/if_et.c optional et dev/ena/ena.c optional ena \ compile-with "${NORMAL_C} -I$S/contrib" dev/ena/ena_datapath.c optional ena \ compile-with "${NORMAL_C} -I$S/contrib" dev/ena/ena_netmap.c optional ena \ compile-with "${NORMAL_C} -I$S/contrib" dev/ena/ena_rss.c optional ena \ compile-with "${NORMAL_C} -I$S/contrib" dev/ena/ena_sysctl.c optional ena \ compile-with "${NORMAL_C} -I$S/contrib" contrib/ena-com/ena_com.c optional ena contrib/ena-com/ena_eth_com.c optional ena dev/etherswitch/arswitch/arswitch.c optional arswitch dev/etherswitch/arswitch/arswitch_reg.c optional arswitch dev/etherswitch/arswitch/arswitch_phy.c optional arswitch dev/etherswitch/arswitch/arswitch_8216.c optional arswitch dev/etherswitch/arswitch/arswitch_8226.c optional arswitch dev/etherswitch/arswitch/arswitch_8316.c optional arswitch dev/etherswitch/arswitch/arswitch_8327.c optional arswitch dev/etherswitch/arswitch/arswitch_vlans.c optional arswitch dev/etherswitch/etherswitch.c optional etherswitch dev/etherswitch/etherswitch_if.m optional etherswitch dev/etherswitch/ip17x/ip17x.c optional ip17x dev/etherswitch/ip17x/ip175c.c optional ip17x dev/etherswitch/ip17x/ip175d.c optional ip17x dev/etherswitch/ip17x/ip17x_phy.c optional ip17x dev/etherswitch/ip17x/ip17x_vlans.c optional ip17x dev/etherswitch/miiproxy.c optional miiproxy dev/etherswitch/rtl8366/rtl8366rb.c optional rtl8366rb dev/etherswitch/e6000sw/e6000sw.c optional e6000sw fdt dev/etherswitch/e6000sw/e6060sw.c optional e6060sw dev/etherswitch/infineon/adm6996fc.c optional adm6996fc dev/etherswitch/micrel/ksz8995ma.c optional ksz8995ma dev/etherswitch/ukswitch/ukswitch.c optional ukswitch dev/evdev/cdev.c optional evdev dev/evdev/evdev.c optional evdev dev/evdev/evdev_mt.c optional evdev dev/evdev/evdev_utils.c optional evdev dev/evdev/uinput.c optional evdev uinput dev/exca/exca.c optional cbb dev/fb/fbd.c optional fbd | vt dev/fb/fb_if.m standard dev/fb/splash.c optional sc splash dev/fdt/fdt_clock.c optional fdt fdt_clock dev/fdt/fdt_clock_if.m optional fdt fdt_clock dev/fdt/fdt_common.c optional fdt dev/fdt/fdt_pinctrl.c optional fdt fdt_pinctrl dev/fdt/fdt_pinctrl_if.m optional fdt fdt_pinctrl dev/fdt/fdt_slicer.c optional fdt cfi | fdt mx25l | fdt n25q | fdt at45d dev/fdt/fdt_static_dtb.S optional fdt fdt_dtb_static \ dependency "${FDT_DTS_FILE:T:R}.dtb" dev/fdt/simplebus.c optional fdt dev/fdt/simple_mfd.c optional syscon fdt dev/filemon/filemon.c optional filemon dev/firewire/firewire.c optional firewire dev/firewire/fwcrom.c optional firewire dev/firewire/fwdev.c optional firewire dev/firewire/fwdma.c optional firewire dev/firewire/fwmem.c optional firewire dev/firewire/fwohci.c optional firewire dev/firewire/fwohci_pci.c optional firewire pci dev/firewire/if_fwe.c optional fwe dev/firewire/if_fwip.c optional fwip dev/firewire/sbp.c optional sbp dev/firewire/sbp_targ.c optional sbp_targ dev/flash/at45d.c optional at45d dev/flash/cqspi.c optional cqspi fdt xdma dev/flash/mx25l.c optional mx25l dev/flash/n25q.c optional n25q fdt dev/flash/qspi_if.m optional cqspi fdt | n25q fdt dev/fxp/if_fxp.c optional fxp dev/fxp/inphy.c optional fxp dev/gem/if_gem.c optional gem dev/gem/if_gem_pci.c optional gem pci dev/gve/gve_adminq.c optional gve dev/gve/gve_main.c optional gve dev/gve/gve_qpl.c optional gve dev/gve/gve_rx.c optional gve dev/gve/gve_sysctl.c optional gve dev/gve/gve_tx.c optional gve dev/gve/gve_utils.c optional gve dev/goldfish/goldfish_rtc.c optional goldfish_rtc fdt dev/gpio/dwgpio/dwgpio.c optional gpio dwgpio fdt dev/gpio/dwgpio/dwgpio_bus.c optional gpio dwgpio fdt dev/gpio/dwgpio/dwgpio_if.m optional gpio dwgpio fdt dev/gpio/gpiobacklight.c optional gpiobacklight fdt dev/gpio/gpiokeys.c optional gpiokeys fdt dev/gpio/gpiokeys_codes.c optional gpiokeys fdt dev/gpio/gpiobus.c optional gpio \ dependency "gpiobus_if.h" dev/gpio/gpioc.c optional gpio \ dependency "gpio_if.h" dev/gpio/gpioiic.c optional gpioiic dev/gpio/gpioled.c optional gpioled !fdt dev/gpio/gpioled_fdt.c optional gpioled fdt dev/gpio/gpiomdio.c optional gpiomdio mii_bitbang dev/gpio/gpiopower.c optional gpiopower fdt dev/gpio/gpioregulator.c optional gpioregulator fdt dev/gpio/gpiospi.c optional gpiospi dev/gpio/gpioths.c optional gpioths dev/gpio/gpio_if.m optional gpio dev/gpio/gpiobus_if.m optional gpio dev/gpio/gpiopps.c optional gpiopps fdt dev/gpio/ofw_gpiobus.c optional fdt gpio dev/hid/bcm5974.c optional bcm5974 dev/hid/hconf.c optional hconf dev/hid/hcons.c optional hcons dev/hid/hgame.c optional hgame dev/hid/hid.c optional hid dev/hid/hid_if.m optional hid dev/hid/hidbus.c optional hidbus dev/hid/hidmap.c optional hidmap dev/hid/hidquirk.c optional hid dev/hid/hidraw.c optional hidraw dev/hid/hkbd.c optional hkbd dev/hid/hms.c optional hms dev/hid/hmt.c optional hmt hconf dev/hid/hpen.c optional hpen dev/hid/hsctrl.c optional hsctrl dev/hid/ietp.c optional ietp dev/hid/ps4dshock.c optional ps4dshock dev/hid/xb360gp.c optional xb360gp dev/hifn/hifn7751.c optional hifn dev/hptiop/hptiop.c optional hptiop scbus dev/hwpmc/hwpmc_logging.c optional hwpmc dev/hwpmc/hwpmc_mod.c optional hwpmc dev/hwpmc/hwpmc_soft.c optional hwpmc dev/hwreset/hwreset.c optional hwreset dev/hwreset/hwreset_array.c optional hwreset dev/hwreset/hwreset_if.m optional hwreset dev/ichiic/ig4_acpi.c optional ig4 acpi iicbus dev/ichiic/ig4_iic.c optional ig4 iicbus dev/ichiic/ig4_pci.c optional ig4 pci iicbus dev/ichsmb/ichsmb.c optional ichsmb dev/ichsmb/ichsmb_pci.c optional ichsmb pci dev/ida/ida.c optional ida dev/ida/ida_disk.c optional ida dev/ida/ida_pci.c optional ida pci dev/iicbus/acpi_iicbus.c optional acpi iicbus | acpi compat_linuxkpi dev/iicbus/icee.c optional icee dev/iicbus/if_ic.c optional ic dev/iicbus/iic.c optional iic dev/iicbus/iic_recover_bus.c optional iicbus | compat_linuxkpi dev/iicbus/iicbb.c optional iicbb | compat_linuxkpi dev/iicbus/iicbb_if.m optional iicbb | compat_linuxkpi dev/iicbus/iicbus.c optional iicbus | compat_linuxkpi dev/iicbus/iicbus_if.m optional iicbus | compat_linuxkpi dev/iicbus/iichid.c optional iichid acpi hid iicbus dev/iicbus/iiconf.c optional iicbus | compat_linuxkpi dev/iicbus/iicsmb.c optional iicsmb \ dependency "iicbus_if.h" dev/iicbus/adc/ad7418.c optional ad7418 dev/iicbus/adc/ads111x.c optional ads111x dev/iicbus/adc/pcf8591.c optional pcf8591 dev/iicbus/controller/opencores/iicoc.c optional iicoc dev/iicbus/controller/opencores/iicoc_fdt.c optional iicoc fdt dev/iicbus/controller/opencores/iicoc_pci.c optional iicoc pci dev/iicbus/mux/iicmux.c optional iicmux dev/iicbus/mux/iicmux_if.m optional iicmux dev/iicbus/mux/iic_gpiomux.c optional iic_gpiomux fdt dev/iicbus/mux/ltc430x.c optional ltc430x dev/iicbus/mux/pca954x.c optional pca954x iicbus iicmux dev/iicbus/ofw_iicbus.c optional fdt iicbus dev/iicbus/ofw_iicbus_if.m optional fdt iicbus dev/iicbus/rtc/ds1307.c optional ds1307 dev/iicbus/rtc/ds13rtc.c optional ds13rtc | ds133x | ds1374 dev/iicbus/rtc/ds1672.c optional ds1672 dev/iicbus/rtc/ds3231.c optional ds3231 dev/iicbus/rtc/isl12xx.c optional isl12xx dev/iicbus/rtc/nxprtc.c optional nxprtc | pcf8563 dev/iicbus/rtc/pcf85063.c optional pcf85063 iicbus fdt dev/iicbus/rtc/rtc8583.c optional rtc8583 dev/iicbus/rtc/rv3032.c optional rv3032 iicbus fdt dev/iicbus/rtc/rx8803.c optional rx8803 iicbus fdt dev/iicbus/rtc/s35390a.c optional s35390a dev/iicbus/sensor/htu21.c optional htu21 dev/iicbus/sensor/lm75.c optional lm75 dev/iicbus/sensor/max44009.c optional max44009 dev/iicbus/gpio/pcf8574.c optional pcf8574 dev/iicbus/gpio/tca64xx.c optional tca64xx fdt gpio dev/iicbus/pmic/fan53555.c optional fan53555 fdt | tcs4525 fdt dev/iicbus/pmic/silergy/sy8106a.c optional sy8106a fdt dev/iicbus/pmic/silergy/syr827.c optional syr827 fdt dev/igc/if_igc.c optional igc iflib pci dev/igc/igc_api.c optional igc iflib pci dev/igc/igc_base.c optional igc iflib pci dev/igc/igc_i225.c optional igc iflib pci dev/igc/igc_mac.c optional igc iflib pci dev/igc/igc_nvm.c optional igc iflib pci dev/igc/igc_phy.c optional igc iflib pci dev/igc/igc_txrx.c optional igc iflib pci dev/intpm/intpm.c optional intpm pci # XXX Work around clang warning, until maintainer approves fix. dev/ips/ips.c optional ips \ compile-with "${NORMAL_C} ${NO_WSOMETIMES_UNINITIALIZED}" dev/ips/ips_commands.c optional ips dev/ips/ips_disk.c optional ips dev/ips/ips_ioctl.c optional ips dev/ips/ips_pci.c optional ips pci dev/ipw/if_ipw.c optional ipw ipwbssfw.c optional ipwbssfw | ipwfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk ipw_bss.fw:ipw_bss:130 -lintel_ipw -mipw_bss -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "ipwbssfw.c" ipw_bss.fwo optional ipwbssfw | ipwfw \ dependency "ipw_bss.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "ipw_bss.fwo" ipw_bss.fw optional ipwbssfw | ipwfw \ dependency "$S/contrib/dev/ipw/ipw2100-1.3.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "ipw_bss.fw" ipwibssfw.c optional ipwibssfw | ipwfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk ipw_ibss.fw:ipw_ibss:130 -lintel_ipw -mipw_ibss -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "ipwibssfw.c" ipw_ibss.fwo optional ipwibssfw | ipwfw \ dependency "ipw_ibss.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "ipw_ibss.fwo" ipw_ibss.fw optional ipwibssfw | ipwfw \ dependency "$S/contrib/dev/ipw/ipw2100-1.3-i.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "ipw_ibss.fw" ipwmonitorfw.c optional ipwmonitorfw | ipwfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk ipw_monitor.fw:ipw_monitor:130 -lintel_ipw -mipw_monitor -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "ipwmonitorfw.c" ipw_monitor.fwo optional ipwmonitorfw | ipwfw \ dependency "ipw_monitor.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "ipw_monitor.fwo" ipw_monitor.fw optional ipwmonitorfw | ipwfw \ dependency "$S/contrib/dev/ipw/ipw2100-1.3-p.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "ipw_monitor.fw" dev/iscsi/icl.c optional iscsi dev/iscsi/icl_conn_if.m optional cfiscsi | iscsi dev/iscsi/icl_soft.c optional iscsi dev/iscsi/icl_soft_proxy.c optional iscsi dev/iscsi/iscsi.c optional iscsi scbus dev/iser/icl_iser.c optional iser \ compile-with "${OFED_C} -DICL_KERNEL_PROXY" dev/iser/iser_initiator.c optional iser \ compile-with "${OFED_C} -DICL_KERNEL_PROXY" dev/iser/iser_memory.c optional iser \ compile-with "${OFED_C} -DICL_KERNEL_PROXY" dev/iser/iser_verbs.c optional iser \ compile-with "${OFED_C} -DICL_KERNEL_PROXY" dev/ismt/ismt.c optional ismt dev/isl/isl.c optional isl iicbus dev/isp/isp.c optional isp dev/isp/isp_freebsd.c optional isp dev/isp/isp_library.c optional isp dev/isp/isp_pci.c optional isp pci dev/isp/isp_target.c optional isp dev/ispfw/ispfw.c optional ispfw dev/iwi/if_iwi.c optional iwi iwibssfw.c optional iwibssfw | iwifw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwi_bss.fw:iwi_bss:300 -lintel_iwi -miwi_bss -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwibssfw.c" iwi_bss.fwo optional iwibssfw | iwifw \ dependency "iwi_bss.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwi_bss.fwo" iwi_bss.fw optional iwibssfw | iwifw \ dependency "$S/contrib/dev/iwi/ipw2200-bss.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwi_bss.fw" iwiibssfw.c optional iwiibssfw | iwifw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwi_ibss.fw:iwi_ibss:300 -lintel_iwi -miwi_ibss -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwiibssfw.c" iwi_ibss.fwo optional iwiibssfw | iwifw \ dependency "iwi_ibss.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwi_ibss.fwo" iwi_ibss.fw optional iwiibssfw | iwifw \ dependency "$S/contrib/dev/iwi/ipw2200-ibss.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwi_ibss.fw" iwimonitorfw.c optional iwimonitorfw | iwifw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwi_monitor.fw:iwi_monitor:300 -lintel_iwi -miwi_monitor -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwimonitorfw.c" iwi_monitor.fwo optional iwimonitorfw | iwifw \ dependency "iwi_monitor.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwi_monitor.fwo" iwi_monitor.fw optional iwimonitorfw | iwifw \ dependency "$S/contrib/dev/iwi/ipw2200-sniffer.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwi_monitor.fw" dev/iwm/if_iwm.c optional iwm dev/iwm/if_iwm_7000.c optional iwm dev/iwm/if_iwm_8000.c optional iwm dev/iwm/if_iwm_9000.c optional iwm dev/iwm/if_iwm_9260.c optional iwm dev/iwm/if_iwm_binding.c optional iwm dev/iwm/if_iwm_fw.c optional iwm dev/iwm/if_iwm_led.c optional iwm dev/iwm/if_iwm_mac_ctxt.c optional iwm dev/iwm/if_iwm_notif_wait.c optional iwm dev/iwm/if_iwm_pcie_trans.c optional iwm dev/iwm/if_iwm_phy_ctxt.c optional iwm dev/iwm/if_iwm_phy_db.c optional iwm dev/iwm/if_iwm_power.c optional iwm dev/iwm/if_iwm_scan.c optional iwm dev/iwm/if_iwm_sf.c optional iwm dev/iwm/if_iwm_sta.c optional iwm dev/iwm/if_iwm_time_event.c optional iwm dev/iwm/if_iwm_util.c optional iwm iwm3160fw.c optional iwm3160fw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm3160.fw:iwm3160fw -miwm3160fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm3160fw.c" iwm3160fw.fwo optional iwm3160fw | iwmfw \ dependency "iwm3160.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm3160fw.fwo" iwm3160.fw optional iwm3160fw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-3160-17.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm3160.fw" iwm3168fw.c optional iwm3168fw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm3168.fw:iwm3168fw -miwm3168fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm3168fw.c" iwm3168fw.fwo optional iwm3168fw | iwmfw \ dependency "iwm3168.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm3168fw.fwo" iwm3168.fw optional iwm3168fw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-3168-22.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm3168.fw" iwm7260fw.c optional iwm7260fw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm7260.fw:iwm7260fw -miwm7260fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm7260fw.c" iwm7260fw.fwo optional iwm7260fw | iwmfw \ dependency "iwm7260.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm7260fw.fwo" iwm7260.fw optional iwm7260fw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-7260-17.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm7260.fw" iwm7265fw.c optional iwm7265fw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm7265.fw:iwm7265fw -miwm7265fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm7265fw.c" iwm7265fw.fwo optional iwm7265fw | iwmfw \ dependency "iwm7265.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm7265fw.fwo" iwm7265.fw optional iwm7265fw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-7265-17.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm7265.fw" iwm7265Dfw.c optional iwm7265Dfw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm7265D.fw:iwm7265Dfw -miwm7265Dfw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm7265Dfw.c" iwm7265Dfw.fwo optional iwm7265Dfw | iwmfw \ dependency "iwm7265D.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm7265Dfw.fwo" iwm7265D.fw optional iwm7265Dfw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-7265D-17.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm7265D.fw" iwm8000Cfw.c optional iwm8000Cfw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm8000C.fw:iwm8000Cfw -miwm8000Cfw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm8000Cfw.c" iwm8000Cfw.fwo optional iwm8000Cfw | iwmfw \ dependency "iwm8000C.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm8000Cfw.fwo" iwm8000C.fw optional iwm8000Cfw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-8000C-16.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm8000C.fw" iwm8265.fw optional iwm8265fw | iwmfw \ dependency "$S/contrib/dev/iwm/iwm-8265-22.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwm8265.fw" iwm8265fw.c optional iwm8265fw | iwmfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwm8265.fw:iwm8265fw -miwm8265fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwm8265fw.c" iwm8265fw.fwo optional iwm8265fw | iwmfw \ dependency "iwm8265.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwm8265fw.fwo" dev/iwn/if_iwn.c optional iwn iwn1000fw.c optional iwn1000fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn1000.fw:iwn1000fw -miwn1000fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn1000fw.c" iwn1000fw.fwo optional iwn1000fw | iwnfw \ dependency "iwn1000.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn1000fw.fwo" iwn1000.fw optional iwn1000fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-1000-39.31.5.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn1000.fw" iwn100fw.c optional iwn100fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn100.fw:iwn100fw -miwn100fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn100fw.c" iwn100fw.fwo optional iwn100fw | iwnfw \ dependency "iwn100.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn100fw.fwo" iwn100.fw optional iwn100fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-100-39.31.5.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn100.fw" iwn105fw.c optional iwn105fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn105.fw:iwn105fw -miwn105fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn105fw.c" iwn105fw.fwo optional iwn105fw | iwnfw \ dependency "iwn105.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn105fw.fwo" iwn105.fw optional iwn105fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-105-6-18.168.6.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn105.fw" iwn135fw.c optional iwn135fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn135.fw:iwn135fw -miwn135fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn135fw.c" iwn135fw.fwo optional iwn135fw | iwnfw \ dependency "iwn135.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn135fw.fwo" iwn135.fw optional iwn135fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-135-6-18.168.6.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn135.fw" iwn2000fw.c optional iwn2000fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn2000.fw:iwn2000fw -miwn2000fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn2000fw.c" iwn2000fw.fwo optional iwn2000fw | iwnfw \ dependency "iwn2000.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn2000fw.fwo" iwn2000.fw optional iwn2000fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-2000-18.168.6.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn2000.fw" iwn2030fw.c optional iwn2030fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn2030.fw:iwn2030fw -miwn2030fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn2030fw.c" iwn2030fw.fwo optional iwn2030fw | iwnfw \ dependency "iwn2030.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn2030fw.fwo" iwn2030.fw optional iwn2030fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwnwifi-2030-18.168.6.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn2030.fw" iwn4965fw.c optional iwn4965fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn4965.fw:iwn4965fw -miwn4965fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn4965fw.c" iwn4965fw.fwo optional iwn4965fw | iwnfw \ dependency "iwn4965.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn4965fw.fwo" iwn4965.fw optional iwn4965fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-4965-228.61.2.24.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn4965.fw" iwn5000fw.c optional iwn5000fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn5000.fw:iwn5000fw -miwn5000fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn5000fw.c" iwn5000fw.fwo optional iwn5000fw | iwnfw \ dependency "iwn5000.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn5000fw.fwo" iwn5000.fw optional iwn5000fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-5000-8.83.5.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn5000.fw" iwn5150fw.c optional iwn5150fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn5150.fw:iwn5150fw -miwn5150fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn5150fw.c" iwn5150fw.fwo optional iwn5150fw | iwnfw \ dependency "iwn5150.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn5150fw.fwo" iwn5150.fw optional iwn5150fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-5150-8.24.2.2.fw.uu"\ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn5150.fw" iwn6000fw.c optional iwn6000fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn6000.fw:iwn6000fw -miwn6000fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn6000fw.c" iwn6000fw.fwo optional iwn6000fw | iwnfw \ dependency "iwn6000.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn6000fw.fwo" iwn6000.fw optional iwn6000fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-6000-9.221.4.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn6000.fw" iwn6000g2afw.c optional iwn6000g2afw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn6000g2a.fw:iwn6000g2afw -miwn6000g2afw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn6000g2afw.c" iwn6000g2afw.fwo optional iwn6000g2afw | iwnfw \ dependency "iwn6000g2a.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn6000g2afw.fwo" iwn6000g2a.fw optional iwn6000g2afw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-6000g2a-18.168.6.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn6000g2a.fw" iwn6000g2bfw.c optional iwn6000g2bfw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn6000g2b.fw:iwn6000g2bfw -miwn6000g2bfw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn6000g2bfw.c" iwn6000g2bfw.fwo optional iwn6000g2bfw | iwnfw \ dependency "iwn6000g2b.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn6000g2bfw.fwo" iwn6000g2b.fw optional iwn6000g2bfw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-6000g2b-18.168.6.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn6000g2b.fw" iwn6050fw.c optional iwn6050fw | iwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk iwn6050.fw:iwn6050fw -miwn6050fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "iwn6050fw.c" iwn6050fw.fwo optional iwn6050fw | iwnfw \ dependency "iwn6050.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "iwn6050fw.fwo" iwn6050.fw optional iwn6050fw | iwnfw \ dependency "$S/contrib/dev/iwn/iwlwifi-6050-41.28.5.1.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "iwn6050.fw" dev/ixgbe/if_ix.c optional ix inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe -DSMP" dev/ixgbe/if_ixv.c optional ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe -DSMP" dev/ixgbe/if_bypass.c optional ix inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/if_fdir.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/if_sriov.c optional ix inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ix_txrx.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_osdep.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_phy.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_api.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_common.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_mbx.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_vf.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_82598.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_82599.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_x540.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_x550.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_dcb.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_dcb_82598.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/ixgbe/ixgbe_dcb_82599.c optional ix inet | ixv inet \ compile-with "${NORMAL_C} -I$S/dev/ixgbe" dev/jedec_dimm/jedec_dimm.c optional jedec_dimm smbus dev/jme/if_jme.c optional jme pci dev/kbd/kbd.c optional atkbd | pckbd | sc | ukbd | vt | hkbd dev/kbdmux/kbdmux.c optional kbdmux dev/ksyms/ksyms.c optional ksyms dev/le/am7990.c optional le dev/le/am79900.c optional le dev/le/if_le_pci.c optional le pci dev/le/lance.c optional le dev/led/led.c standard dev/lge/if_lge.c optional lge dev/liquidio/base/cn23xx_pf_device.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_console.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_ctrl.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_device.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_droq.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_mem_ops.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_request_manager.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/base/lio_response_manager.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/lio_core.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/lio_ioctl.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/lio_main.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/lio_rss.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/lio_rxtx.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" dev/liquidio/lio_sysctl.c optional lio \ compile-with "${NORMAL_C} \ -I$S/dev/liquidio -I$S/dev/liquidio/base -DSMP" lio.c optional lio \ compile-with "${AWK} -f $S/tools/fw_stub.awk lio_23xx_nic.bin.fw:lio_23xx_nic.bin -mlio_23xx_nic.bin -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "lio.c" lio_23xx_nic.bin.fw.fwo optional lio \ dependency "lio_23xx_nic.bin.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "lio_23xx_nic.bin.fw.fwo" lio_23xx_nic.bin.fw optional lio \ dependency "$S/contrib/dev/liquidio/lio_23xx_nic.bin.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "lio_23xx_nic.bin.fw" dev/malo/if_malo.c optional malo dev/malo/if_malohal.c optional malo dev/malo/if_malo_pci.c optional malo pci dev/md/md.c optional md dev/mdio/mdio_if.m optional miiproxy | mdio dev/mdio/mdio.c optional miiproxy | mdio dev/mem/memdev.c optional mem dev/mem/memutil.c optional mem dev/mfi/mfi.c optional mfi dev/mfi/mfi_debug.c optional mfi dev/mfi/mfi_pci.c optional mfi pci dev/mfi/mfi_disk.c optional mfi dev/mfi/mfi_syspd.c optional mfi dev/mfi/mfi_tbolt.c optional mfi dev/mfi/mfi_cam.c optional mfip scbus dev/mii/acphy.c optional miibus | acphy dev/mii/amphy.c optional miibus | amphy dev/mii/atphy.c optional miibus | atphy dev/mii/axphy.c optional miibus | axphy dev/mii/bmtphy.c optional miibus | bmtphy dev/mii/brgphy.c optional miibus | brgphy dev/mii/ciphy.c optional miibus | ciphy dev/mii/dp83822phy.c optional miibus | dp83822phy dev/mii/dp83867phy.c optional miibus | dp83867phy dev/mii/e1000phy.c optional miibus | e1000phy dev/mii/gentbi.c optional miibus | gentbi dev/mii/icsphy.c optional miibus | icsphy dev/mii/ip1000phy.c optional miibus | ip1000phy dev/mii/jmphy.c optional miibus | jmphy dev/mii/lxtphy.c optional miibus | lxtphy dev/mii/mcommphy.c optional miibus | mcommphy dev/mii/micphy.c optional miibus fdt | micphy fdt dev/mii/mii.c optional miibus | mii dev/mii/mii_bitbang.c optional miibus | mii_bitbang dev/mii/mii_physubr.c optional miibus | mii dev/mii/mii_fdt.c optional miibus fdt | mii fdt dev/mii/miibus_if.m optional miibus | mii dev/mii/mv88e151x.c optional miibus | mv88e151x dev/mii/nsgphy.c optional miibus | nsgphy dev/mii/nsphy.c optional miibus | nsphy dev/mii/nsphyter.c optional miibus | nsphyter dev/mii/pnaphy.c optional miibus | pnaphy dev/mii/qsphy.c optional miibus | qsphy dev/mii/rdcphy.c optional miibus | rdcphy dev/mii/rgephy.c optional miibus | rgephy dev/mii/rlphy.c optional miibus | rlphy dev/mii/rlswitch.c optional rlswitch dev/mii/smcphy.c optional miibus | smcphy dev/mii/smscphy.c optional miibus | smscphy dev/mii/tdkphy.c optional miibus | tdkphy dev/mii/truephy.c optional miibus | truephy dev/mii/ukphy.c optional miibus | mii dev/mii/ukphy_subr.c optional miibus | mii dev/mii/vscphy.c optional miibus | vscphy dev/mii/xmphy.c optional miibus | xmphy dev/mlxfw/mlxfw_fsm.c optional mlxfw \ compile-with "${MLXFW_C}" dev/mlxfw/mlxfw_mfa2.c optional mlxfw \ compile-with "${MLXFW_C}" dev/mlxfw/mlxfw_mfa2_tlv_multi.c optional mlxfw \ compile-with "${MLXFW_C}" dev/mlx/mlx.c optional mlx dev/mlx/mlx_disk.c optional mlx dev/mlx/mlx_pci.c optional mlx pci dev/mmc/host/dwmmc.c optional dwmmc fdt dev/mmc/mmc_subr.c optional mmc | mmcsd !mmccam dev/mmc/mmc.c optional mmc !mmccam dev/mmc/mmcbr_if.m standard dev/mmc/mmcbus_if.m standard dev/mmc/mmcsd.c optional mmcsd !mmccam dev/mmc/mmc_fdt_helpers.c optional mmc regulator clk fdt | mmccam regulator clk fdt dev/mmc/mmc_helpers.c optional mmc gpio regulator clk | mmccam gpio regulator clk dev/mmc/mmc_pwrseq.c optional mmc clk regulator fdt | mmccam clk regulator fdt dev/mmc/mmc_pwrseq_if.m optional mmc clk regulator fdt | mmccam clk regulator fdt dev/mmcnull/mmcnull.c optional mmcnull dev/mpr/mpr.c optional mpr dev/mpr/mpr_config.c optional mpr # XXX Work around clang warning, until maintainer approves fix. dev/mpr/mpr_mapping.c optional mpr \ compile-with "${NORMAL_C} ${NO_WSOMETIMES_UNINITIALIZED}" dev/mpr/mpr_pci.c optional mpr pci dev/mpr/mpr_sas.c optional mpr \ compile-with "${NORMAL_C} ${NO_WUNNEEDED_INTERNAL_DECL}" dev/mpr/mpr_sas_lsi.c optional mpr dev/mpr/mpr_table.c optional mpr dev/mpr/mpr_user.c optional mpr dev/mps/mps.c optional mps dev/mps/mps_config.c optional mps # XXX Work around clang warning, until maintainer approves fix. dev/mps/mps_mapping.c optional mps \ compile-with "${NORMAL_C} ${NO_WSOMETIMES_UNINITIALIZED}" dev/mps/mps_pci.c optional mps pci dev/mps/mps_sas.c optional mps \ compile-with "${NORMAL_C} ${NO_WUNNEEDED_INTERNAL_DECL}" dev/mps/mps_sas_lsi.c optional mps dev/mps/mps_table.c optional mps dev/mps/mps_user.c optional mps dev/mpt/mpt.c optional mpt dev/mpt/mpt_cam.c optional mpt dev/mpt/mpt_debug.c optional mpt dev/mpt/mpt_pci.c optional mpt pci dev/mpt/mpt_raid.c optional mpt dev/mpt/mpt_user.c optional mpt dev/mrsas/mrsas.c optional mrsas dev/mrsas/mrsas_cam.c optional mrsas dev/mrsas/mrsas_ioctl.c optional mrsas dev/mrsas/mrsas_fp.c optional mrsas dev/msk/if_msk.c optional msk dev/mvs/mvs.c optional mvs dev/mvs/mvs_if.m optional mvs dev/mvs/mvs_pci.c optional mvs pci dev/mwl/if_mwl.c optional mwl dev/mwl/if_mwl_pci.c optional mwl pci dev/mwl/mwlhal.c optional mwl mwlfw.c optional mwlfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk mw88W8363.fw:mw88W8363fw mwlboot.fw:mwlboot -mmwl -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "mwlfw.c" mw88W8363.fwo optional mwlfw \ dependency "mw88W8363.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "mw88W8363.fwo" mw88W8363.fw optional mwlfw \ dependency "$S/contrib/dev/mwl/mw88W8363.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "mw88W8363.fw" mwlboot.fwo optional mwlfw \ dependency "mwlboot.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "mwlboot.fwo" mwlboot.fw optional mwlfw \ dependency "$S/contrib/dev/mwl/mwlboot.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "mwlboot.fw" dev/mxge/if_mxge.c optional mxge pci dev/mxge/mxge_eth_z8e.c optional mxge pci dev/mxge/mxge_ethp_z8e.c optional mxge pci dev/mxge/mxge_rss_eth_z8e.c optional mxge pci dev/mxge/mxge_rss_ethp_z8e.c optional mxge pci dev/my/if_my.c optional my dev/netmap/if_ptnet.c optional netmap inet dev/netmap/netmap.c optional netmap dev/netmap/netmap_bdg.c optional netmap dev/netmap/netmap_freebsd.c optional netmap dev/netmap/netmap_generic.c optional netmap dev/netmap/netmap_kloop.c optional netmap dev/netmap/netmap_legacy.c optional netmap dev/netmap/netmap_mbq.c optional netmap dev/netmap/netmap_mem2.c optional netmap dev/netmap/netmap_monitor.c optional netmap dev/netmap/netmap_null.c optional netmap dev/netmap/netmap_offloadings.c optional netmap dev/netmap/netmap_pipe.c optional netmap dev/netmap/netmap_vale.c optional netmap # compile-with "${NORMAL_C} -Wconversion -Wextra" dev/nfsmb/nfsmb.c optional nfsmb pci dev/nge/if_nge.c optional nge dev/nmdm/nmdm.c optional nmdm dev/null/null.c standard dev/nvd/nvd.c optional nvd nvme dev/nvme/nvme.c optional nvme dev/nvme/nvme_ahci.c optional nvme ahci dev/nvme/nvme_ctrlr.c optional nvme dev/nvme/nvme_ctrlr_cmd.c optional nvme dev/nvme/nvme_ns.c optional nvme dev/nvme/nvme_ns_cmd.c optional nvme dev/nvme/nvme_pci.c optional nvme pci dev/nvme/nvme_qpair.c optional nvme dev/nvme/nvme_sim.c optional nvme scbus dev/nvme/nvme_sysctl.c optional nvme dev/nvme/nvme_test.c optional nvme dev/nvme/nvme_util.c optional nvme dev/nvmem/nvmem.c optional nvmem fdt dev/nvmem/nvmem_if.m optional nvmem dev/nvmf/host/nvmf.c optional nvmf dev/nvmf/host/nvmf_aer.c optional nvmf dev/nvmf/host/nvmf_cmd.c optional nvmf dev/nvmf/host/nvmf_ctldev.c optional nvmf dev/nvmf/host/nvmf_ns.c optional nvmf dev/nvmf/host/nvmf_qpair.c optional nvmf dev/nvmf/host/nvmf_sim.c optional nvmf dev/nvmf/nvmf_tcp.c optional nvmf_tcp dev/nvmf/nvmf_transport.c optional nvmf dev/oce/oce_hw.c optional oce pci dev/oce/oce_if.c optional oce pci dev/oce/oce_mbox.c optional oce pci dev/oce/oce_queue.c optional oce pci dev/oce/oce_sysctl.c optional oce pci dev/oce/oce_util.c optional oce pci dev/ocs_fc/ocs_gendump.c optional ocs_fc pci dev/ocs_fc/ocs_pci.c optional ocs_fc pci dev/ocs_fc/ocs_ioctl.c optional ocs_fc pci dev/ocs_fc/ocs_os.c optional ocs_fc pci dev/ocs_fc/ocs_utils.c optional ocs_fc pci dev/ocs_fc/ocs_hw.c optional ocs_fc pci dev/ocs_fc/ocs_hw_queues.c optional ocs_fc pci dev/ocs_fc/sli4.c optional ocs_fc pci dev/ocs_fc/ocs_sm.c optional ocs_fc pci dev/ocs_fc/ocs_device.c optional ocs_fc pci dev/ocs_fc/ocs_xport.c optional ocs_fc pci dev/ocs_fc/ocs_domain.c optional ocs_fc pci dev/ocs_fc/ocs_sport.c optional ocs_fc pci dev/ocs_fc/ocs_els.c optional ocs_fc pci dev/ocs_fc/ocs_fabric.c optional ocs_fc pci dev/ocs_fc/ocs_io.c optional ocs_fc pci dev/ocs_fc/ocs_node.c optional ocs_fc pci dev/ocs_fc/ocs_scsi.c optional ocs_fc pci dev/ocs_fc/ocs_unsol.c optional ocs_fc pci dev/ocs_fc/ocs_ddump.c optional ocs_fc pci dev/ocs_fc/ocs_mgmt.c optional ocs_fc pci dev/ocs_fc/ocs_cam.c optional ocs_fc pci dev/ofw/ofw_bus_if.m optional fdt dev/ofw/ofw_bus_subr.c optional fdt dev/ofw/ofw_cpu.c optional fdt dev/ofw/ofw_fdt.c optional fdt dev/ofw/ofw_firmware.c optional fdt dev/ofw/ofw_if.m optional fdt dev/ofw/ofw_graph.c optional fdt dev/ofw/ofw_subr.c optional fdt dev/ofw/ofwbus.c optional fdt dev/ofw/openfirm.c optional fdt dev/ofw/openfirmio.c optional fdt dev/ow/ow.c optional ow \ dependency "owll_if.h" \ dependency "own_if.h" dev/ow/owll_if.m optional ow dev/ow/own_if.m optional ow dev/ow/ow_temp.c optional ow_temp dev/ow/owc_gpiobus.c optional owc gpio dev/pbio/pbio.c optional pbio isa dev/pccbb/pccbb.c optional cbb dev/pccbb/pccbb_pci.c optional cbb pci dev/pcf/pcf.c optional pcf dev/pci/fixup_pci.c optional pci dev/pci/hostb_pci.c optional pci dev/pci/ignore_pci.c optional pci dev/pci/isa_pci.c optional pci isa dev/pci/pci.c optional pci dev/pci/pci_if.m standard dev/pci/pci_iov.c optional pci pci_iov dev/pci/pci_iov_if.m standard dev/pci/pci_iov_schema.c optional pci pci_iov dev/pci/pci_pci.c optional pci dev/pci/pci_subr.c optional pci dev/pci/pci_user.c optional pci dev/pci/pcib_if.m standard dev/pci/pcib_support.c standard dev/pci/vga_pci.c optional pci dev/phy/phy.c optional phy dev/phy/phydev_if.m optional phy fdt dev/phy/phynode_if.m optional phy dev/phy/phy_usb.c optional phy dev/phy/phynode_usb_if.m optional phy dev/pms/freebsd/driver/ini/src/agtiapi.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sadisc.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/mpi.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/saframe.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sahw.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sainit.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/saint.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sampicmd.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sampirsp.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/saphy.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/saport.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sasata.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sasmp.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sassp.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/satimer.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/sautil.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/saioctlcmd.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sallsdk/spc/mpidebug.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/discovery/dm/dminit.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/discovery/dm/dmsmp.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/discovery/dm/dmdisc.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/discovery/dm/dmport.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/discovery/dm/dmtimer.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/discovery/dm/dmmisc.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sat/src/sminit.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sat/src/smmisc.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sat/src/smsat.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sat/src/smsatcb.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sat/src/smsathw.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/sat/src/smtimer.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdinit.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdmisc.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdesgl.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdport.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdint.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdioctl.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdhw.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/ossacmnapi.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tddmcmnapi.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdsmcmnapi.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/common/tdtimers.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sas/ini/itdio.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sas/ini/itdcb.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sas/ini/itdinit.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sas/ini/itddisc.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sata/host/sat.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sata/host/ossasat.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/pms/RefTisa/tisa/sassata/sata/host/sathw.c optional pmspcv \ compile-with "${NORMAL_C} -Wunused-variable -Woverflow -Wparentheses -w" dev/ppbus/if_plip.c optional plip dev/ppbus/lpbb.c optional lpbb dev/ppbus/lpt.c optional lpt dev/ppbus/pcfclock.c optional pcfclock dev/ppbus/ppb_1284.c optional ppbus dev/ppbus/ppb_base.c optional ppbus dev/ppbus/ppb_msq.c optional ppbus dev/ppbus/ppbconf.c optional ppbus dev/ppbus/ppbus_if.m optional ppbus dev/ppbus/ppi.c optional ppi dev/ppbus/pps.c optional pps dev/ppc/ppc.c optional ppc dev/ppc/ppc_acpi.c optional ppc acpi dev/ppc/ppc_isa.c optional ppc isa dev/ppc/ppc_pci.c optional ppc pci dev/ppc/ppc_puc.c optional ppc puc dev/proto/proto_bus_isa.c optional proto acpi | proto isa dev/proto/proto_bus_pci.c optional proto pci dev/proto/proto_busdma.c optional proto dev/proto/proto_core.c optional proto dev/pst/pst-iop.c optional pst dev/pst/pst-pci.c optional pst pci dev/pst/pst-raid.c optional pst dev/pty/pty.c optional pty dev/puc/puc.c optional puc dev/puc/puc_cfg.c optional puc dev/puc/puc_pci.c optional puc pci dev/pwm/pwmc.c optional pwm | pwmc dev/pwm/pwmbus.c optional pwm | pwmbus dev/pwm/pwmbus_if.m optional pwm | pwmbus dev/pwm/ofw_pwm.c optional pwm fdt | pwmbus fdt dev/pwm/ofw_pwmbus.c optional pwm fdt | pwmbus fdt dev/pwm/pwm_backlight.c optional pwm pwm_backlight fdt backlight dev/quicc/quicc_core.c optional quicc dev/ral/rt2560.c optional ral dev/ral/rt2661.c optional ral dev/ral/rt2860.c optional ral dev/ral/if_ral_pci.c optional ral pci rt2561fw.c optional rt2561fw | ralfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rt2561.fw:rt2561fw -mrt2561 -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rt2561fw.c" rt2561fw.fwo optional rt2561fw | ralfw \ dependency "rt2561.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rt2561fw.fwo" rt2561.fw optional rt2561fw | ralfw \ dependency "$S/contrib/dev/ral/rt2561.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rt2561.fw" rt2561sfw.c optional rt2561sfw | ralfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rt2561s.fw:rt2561sfw -mrt2561s -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rt2561sfw.c" rt2561sfw.fwo optional rt2561sfw | ralfw \ dependency "rt2561s.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rt2561sfw.fwo" rt2561s.fw optional rt2561sfw | ralfw \ dependency "$S/contrib/dev/ral/rt2561s.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rt2561s.fw" rt2661fw.c optional rt2661fw | ralfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rt2661.fw:rt2661fw -mrt2661 -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rt2661fw.c" rt2661fw.fwo optional rt2661fw | ralfw \ dependency "rt2661.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rt2661fw.fwo" rt2661.fw optional rt2661fw | ralfw \ dependency "$S/contrib/dev/ral/rt2661.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rt2661.fw" rt2860fw.c optional rt2860fw | ralfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rt2860.fw:rt2860fw -mrt2860 -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rt2860fw.c" rt2860fw.fwo optional rt2860fw | ralfw \ dependency "rt2860.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rt2860fw.fwo" rt2860.fw optional rt2860fw | ralfw \ dependency "$S/contrib/dev/ral/rt2860.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rt2860.fw" dev/random/random_infra.c standard dev/random/random_harvestq.c standard dev/random/randomdev.c optional !random_loadable dev/random/fenestrasX/fx_brng.c optional !random_loadable random_fenestrasx dev/random/fenestrasX/fx_main.c optional !random_loadable random_fenestrasx \ compile-with "${NORMAL_C} -I$S/crypto/blake2" dev/random/fenestrasX/fx_pool.c optional !random_loadable random_fenestrasx \ compile-with "${NORMAL_C} -I$S/crypto/blake2" dev/random/fenestrasX/fx_rng.c optional !random_loadable random_fenestrasx \ compile-with "${NORMAL_C} -I$S/crypto/blake2" dev/random/fortuna.c optional !random_loadable !random_fenestrasx dev/random/hash.c optional !random_loadable dev/rccgpio/rccgpio.c optional rccgpio gpio dev/re/if_re.c optional re dev/regulator/regdev_if.m optional regulator fdt dev/regulator/regnode_if.m optional regulator dev/regulator/regulator.c optional regulator dev/regulator/regulator_bus.c optional regulator fdt dev/regulator/regulator_fixed.c optional regulator dev/rl/if_rl.c optional rl pci dev/rndtest/rndtest.c optional rndtest # dev/rtsx/rtsx.c optional rtsx pci # dev/rtwn/if_rtwn.c optional rtwn dev/rtwn/if_rtwn_beacon.c optional rtwn dev/rtwn/if_rtwn_calib.c optional rtwn dev/rtwn/if_rtwn_cam.c optional rtwn dev/rtwn/if_rtwn_efuse.c optional rtwn dev/rtwn/if_rtwn_fw.c optional rtwn dev/rtwn/if_rtwn_rx.c optional rtwn dev/rtwn/if_rtwn_task.c optional rtwn dev/rtwn/if_rtwn_tx.c optional rtwn # dev/rtwn/pci/rtwn_pci_attach.c optional rtwn_pci pci dev/rtwn/pci/rtwn_pci_reg.c optional rtwn_pci pci dev/rtwn/pci/rtwn_pci_rx.c optional rtwn_pci pci dev/rtwn/pci/rtwn_pci_tx.c optional rtwn_pci pci # dev/rtwn/usb/rtwn_usb_attach.c optional rtwn_usb dev/rtwn/usb/rtwn_usb_ep.c optional rtwn_usb dev/rtwn/usb/rtwn_usb_reg.c optional rtwn_usb dev/rtwn/usb/rtwn_usb_rx.c optional rtwn_usb dev/rtwn/usb/rtwn_usb_tx.c optional rtwn_usb # RTL8188E dev/rtwn/rtl8188e/r88e_beacon.c optional rtwn dev/rtwn/rtl8188e/r88e_calib.c optional rtwn dev/rtwn/rtl8188e/r88e_chan.c optional rtwn dev/rtwn/rtl8188e/r88e_fw.c optional rtwn dev/rtwn/rtl8188e/r88e_init.c optional rtwn dev/rtwn/rtl8188e/r88e_led.c optional rtwn dev/rtwn/rtl8188e/r88e_tx.c optional rtwn dev/rtwn/rtl8188e/r88e_rf.c optional rtwn dev/rtwn/rtl8188e/r88e_rom.c optional rtwn dev/rtwn/rtl8188e/r88e_rx.c optional rtwn dev/rtwn/rtl8188e/pci/r88ee_attach.c optional rtwn_pci pci dev/rtwn/rtl8188e/pci/r88ee_init.c optional rtwn_pci pci dev/rtwn/rtl8188e/pci/r88ee_rx.c optional rtwn_pci pci dev/rtwn/rtl8188e/usb/r88eu_attach.c optional rtwn_usb dev/rtwn/rtl8188e/usb/r88eu_init.c optional rtwn_usb # RTL8192C dev/rtwn/rtl8192c/r92c_attach.c optional rtwn dev/rtwn/rtl8192c/r92c_beacon.c optional rtwn dev/rtwn/rtl8192c/r92c_calib.c optional rtwn dev/rtwn/rtl8192c/r92c_chan.c optional rtwn dev/rtwn/rtl8192c/r92c_fw.c optional rtwn dev/rtwn/rtl8192c/r92c_init.c optional rtwn dev/rtwn/rtl8192c/r92c_llt.c optional rtwn dev/rtwn/rtl8192c/r92c_rf.c optional rtwn dev/rtwn/rtl8192c/r92c_rom.c optional rtwn dev/rtwn/rtl8192c/r92c_rx.c optional rtwn dev/rtwn/rtl8192c/r92c_tx.c optional rtwn dev/rtwn/rtl8192c/pci/r92ce_attach.c optional rtwn_pci pci dev/rtwn/rtl8192c/pci/r92ce_calib.c optional rtwn_pci pci dev/rtwn/rtl8192c/pci/r92ce_fw.c optional rtwn_pci pci dev/rtwn/rtl8192c/pci/r92ce_init.c optional rtwn_pci pci dev/rtwn/rtl8192c/pci/r92ce_led.c optional rtwn_pci pci dev/rtwn/rtl8192c/pci/r92ce_rx.c optional rtwn_pci pci dev/rtwn/rtl8192c/pci/r92ce_tx.c optional rtwn_pci pci dev/rtwn/rtl8192c/usb/r92cu_attach.c optional rtwn_usb dev/rtwn/rtl8192c/usb/r92cu_init.c optional rtwn_usb dev/rtwn/rtl8192c/usb/r92cu_led.c optional rtwn_usb dev/rtwn/rtl8192c/usb/r92cu_rx.c optional rtwn_usb dev/rtwn/rtl8192c/usb/r92cu_tx.c optional rtwn_usb # RTL8192E dev/rtwn/rtl8192e/r92e_chan.c optional rtwn dev/rtwn/rtl8192e/r92e_fw.c optional rtwn dev/rtwn/rtl8192e/r92e_init.c optional rtwn dev/rtwn/rtl8192e/r92e_led.c optional rtwn dev/rtwn/rtl8192e/r92e_rf.c optional rtwn dev/rtwn/rtl8192e/r92e_rom.c optional rtwn dev/rtwn/rtl8192e/r92e_rx.c optional rtwn dev/rtwn/rtl8192e/usb/r92eu_attach.c optional rtwn_usb dev/rtwn/rtl8192e/usb/r92eu_init.c optional rtwn_usb # RTL8812A dev/rtwn/rtl8812a/r12a_beacon.c optional rtwn dev/rtwn/rtl8812a/r12a_calib.c optional rtwn dev/rtwn/rtl8812a/r12a_caps.c optional rtwn dev/rtwn/rtl8812a/r12a_chan.c optional rtwn dev/rtwn/rtl8812a/r12a_fw.c optional rtwn dev/rtwn/rtl8812a/r12a_init.c optional rtwn dev/rtwn/rtl8812a/r12a_led.c optional rtwn dev/rtwn/rtl8812a/r12a_rf.c optional rtwn dev/rtwn/rtl8812a/r12a_rom.c optional rtwn dev/rtwn/rtl8812a/r12a_rx.c optional rtwn dev/rtwn/rtl8812a/r12a_tx.c optional rtwn dev/rtwn/rtl8812a/usb/r12au_attach.c optional rtwn_usb dev/rtwn/rtl8812a/usb/r12au_init.c optional rtwn_usb dev/rtwn/rtl8812a/usb/r12au_rx.c optional rtwn_usb dev/rtwn/rtl8812a/usb/r12au_tx.c optional rtwn_usb # RTL8821A dev/rtwn/rtl8821a/r21a_beacon.c optional rtwn dev/rtwn/rtl8821a/r21a_calib.c optional rtwn dev/rtwn/rtl8821a/r21a_chan.c optional rtwn dev/rtwn/rtl8821a/r21a_fw.c optional rtwn dev/rtwn/rtl8821a/r21a_init.c optional rtwn dev/rtwn/rtl8821a/r21a_led.c optional rtwn dev/rtwn/rtl8821a/r21a_rom.c optional rtwn dev/rtwn/rtl8821a/r21a_rx.c optional rtwn dev/rtwn/rtl8821a/usb/r21au_attach.c optional rtwn_usb dev/rtwn/rtl8821a/usb/r21au_dfs.c optional rtwn_usb dev/rtwn/rtl8821a/usb/r21au_init.c optional rtwn_usb rtwn-rtl8188eefw.c optional rtwn-rtl8188eefw | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8188eefw.fw:rtwn-rtl8188eefw:111 -mrtwn-rtl8188eefw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8188eefw.c" rtwn-rtl8188eefw.fwo optional rtwn-rtl8188eefw | rtwnfw \ dependency "rtwn-rtl8188eefw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8188eefw.fwo" rtwn-rtl8188eefw.fw optional rtwn-rtl8188eefw | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8188eefw.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8188eefw.fw" rtwn-rtl8188eufw.c optional rtwn-rtl8188eufw | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8188eufw.fw:rtwn-rtl8188eufw:111 -mrtwn-rtl8188eufw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8188eufw.c" rtwn-rtl8188eufw.fwo optional rtwn-rtl8188eufw | rtwnfw \ dependency "rtwn-rtl8188eufw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8188eufw.fwo" rtwn-rtl8188eufw.fw optional rtwn-rtl8188eufw | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8188eufw.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8188eufw.fw" rtwn-rtl8192cfwE.c optional rtwn-rtl8192cfwE | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8192cfwE.fw:rtwn-rtl8192cfwE:111 -mrtwn-rtl8192cfwE -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8192cfwE.c" rtwn-rtl8192cfwE.fwo optional rtwn-rtl8192cfwE | rtwnfw \ dependency "rtwn-rtl8192cfwE.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8192cfwE.fwo" rtwn-rtl8192cfwE.fw optional rtwn-rtl8192cfwE | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8192cfwE.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8192cfwE.fw" rtwn-rtl8192cfwE_B.c optional rtwn-rtl8192cfwE_B | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8192cfwE_B.fw:rtwn-rtl8192cfwE_B:111 -mrtwn-rtl8192cfwE_B -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8192cfwE_B.c" rtwn-rtl8192cfwE_B.fwo optional rtwn-rtl8192cfwE_B | rtwnfw \ dependency "rtwn-rtl8192cfwE_B.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8192cfwE_B.fwo" rtwn-rtl8192cfwE_B.fw optional rtwn-rtl8192cfwE_B | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8192cfwE_B.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8192cfwE_B.fw" rtwn-rtl8192cfwT.c optional rtwn-rtl8192cfwT | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8192cfwT.fw:rtwn-rtl8192cfwT:111 -mrtwn-rtl8192cfwT -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8192cfwT.c" rtwn-rtl8192cfwT.fwo optional rtwn-rtl8192cfwT | rtwnfw \ dependency "rtwn-rtl8192cfwT.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8192cfwT.fwo" rtwn-rtl8192cfwT.fw optional rtwn-rtl8192cfwT | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8192cfwT.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8192cfwT.fw" rtwn-rtl8192cfwU.c optional rtwn-rtl8192cfwU | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8192cfwU.fw:rtwn-rtl8192cfwU:111 -mrtwn-rtl8192cfwU -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8192cfwU.c" rtwn-rtl8192cfwU.fwo optional rtwn-rtl8192cfwU | rtwnfw \ dependency "rtwn-rtl8192cfwU.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8192cfwU.fwo" rtwn-rtl8192cfwU.fw optional rtwn-rtl8192cfwU | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8192cfwU.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8192cfwU.fw" rtwn-rtl8192eufw.c optional rtwn-rtl8192eufw | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8192eufw.fw:rtwn-rtl8192eufw:111 -mrtwn-rtl8192eufw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8192eufw.c" rtwn-rtl8192eufw.fwo optional rtwn-rtl8192eufw | rtwnfw \ dependency "rtwn-rtl8192eufw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8192eufw.fwo" rtwn-rtl8192eufw.fw optional rtwn-rtl8192eufw | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8192eufw.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8192eufw.fw" rtwn-rtl8812aufw.c optional rtwn-rtl8812aufw | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8812aufw.fw:rtwn-rtl8812aufw:111 -mrtwn-rtl8812aufw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8812aufw.c" rtwn-rtl8812aufw.fwo optional rtwn-rtl8812aufw | rtwnfw \ dependency "rtwn-rtl8812aufw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8812aufw.fwo" rtwn-rtl8812aufw.fw optional rtwn-rtl8812aufw | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8812aufw.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8812aufw.fw" rtwn-rtl8821aufw.c optional rtwn-rtl8821aufw | rtwnfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rtwn-rtl8821aufw.fw:rtwn-rtl8821aufw:111 -mrtwn-rtl8821aufw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rtwn-rtl8821aufw.c" rtwn-rtl8821aufw.fwo optional rtwn-rtl8821aufw | rtwnfw \ dependency "rtwn-rtl8821aufw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rtwn-rtl8821aufw.fwo" rtwn-rtl8821aufw.fw optional rtwn-rtl8821aufw | rtwnfw \ dependency "$S/contrib/dev/rtwn/rtwn-rtl8821aufw.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rtwn-rtl8821aufw.fw" dev/safe/safe.c optional safe dev/scc/scc_if.m optional scc dev/scc/scc_bfe_quicc.c optional scc quicc dev/scc/scc_core.c optional scc dev/scc/scc_dev_quicc.c optional scc quicc dev/scc/scc_dev_z8530.c optional scc dev/sdhci/sdhci.c optional sdhci dev/sdhci/sdhci_fdt.c optional sdhci fdt regulator clk dev/sdhci/sdhci_fdt_gpio.c optional sdhci fdt gpio dev/sdhci/sdhci_fsl_fdt.c optional sdhci fdt gpio regulator clk dev/sdhci/sdhci_if.m optional sdhci dev/sdhci/sdhci_acpi.c optional sdhci acpi dev/sdhci/sdhci_pci.c optional sdhci pci dev/sdio/sdio_if.m optional mmccam dev/sdio/sdio_subr.c optional mmccam dev/sdio/sdiob.c optional mmccam dev/sff/sff_if.m optional sff dev/sff/sfp_fdt.c optional sff fdt dev/sge/if_sge.c optional sge pci dev/siis/siis.c optional siis pci dev/sis/if_sis.c optional sis pci dev/sk/if_sk.c optional sk pci dev/smbios/smbios.c optional smbios dev/smbus/smb.c optional smb dev/smbus/smbconf.c optional smbus dev/smbus/smbus.c optional smbus dev/smbus/smbus_if.m optional smbus dev/smc/if_smc.c optional smc dev/smc/if_smc_acpi.c optional smc acpi dev/smc/if_smc_fdt.c optional smc fdt dev/snp/snp.c optional snp dev/sound/pci/als4000.c optional snd_als4000 pci dev/sound/pci/atiixp.c optional snd_atiixp pci dev/sound/pci/cmi.c optional snd_cmi pci dev/sound/pci/cs4281.c optional snd_cs4281 pci dev/sound/pci/csa.c optional snd_csa pci dev/sound/pci/csapcm.c optional snd_csa pci dev/sound/pci/emu10k1.c optional snd_emu10k1 pci dev/sound/pci/emu10kx.c optional snd_emu10kx pci dev/sound/pci/emu10kx-pcm.c optional snd_emu10kx pci dev/sound/pci/emu10kx-midi.c optional snd_emu10kx pci dev/sound/pci/envy24.c optional snd_envy24 pci dev/sound/pci/envy24ht.c optional snd_envy24ht pci dev/sound/pci/es137x.c optional snd_es137x pci dev/sound/pci/fm801.c optional snd_fm801 pci dev/sound/pci/ich.c optional snd_ich pci dev/sound/pci/maestro3.c optional snd_maestro3 pci dev/sound/pci/neomagic.c optional snd_neomagic pci dev/sound/pci/solo.c optional snd_solo pci dev/sound/pci/spicds.c optional snd_spicds pci dev/sound/pci/t4dwave.c optional snd_t4dwave pci dev/sound/pci/via8233.c optional snd_via8233 pci dev/sound/pci/via82c686.c optional snd_via82c686 pci dev/sound/pci/vibes.c optional snd_vibes pci dev/sound/pci/hda/hdaa.c optional snd_hda pci dev/sound/pci/hda/hdaa_patches.c optional snd_hda pci dev/sound/pci/hda/hdac.c optional snd_hda pci dev/sound/pci/hda/hdac_if.m optional snd_hda pci dev/sound/pci/hda/hdacc.c optional snd_hda pci dev/sound/pci/hdspe.c optional snd_hdspe pci dev/sound/pci/hdspe-pcm.c optional snd_hdspe pci dev/sound/pcm/ac97.c optional sound dev/sound/pcm/ac97_if.m optional sound dev/sound/pcm/ac97_patch.c optional sound dev/sound/pcm/buffer.c optional sound \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/channel.c optional sound dev/sound/pcm/channel_if.m optional sound dev/sound/pcm/dsp.c optional sound dev/sound/pcm/feeder.c optional sound dev/sound/pcm/feeder_chain.c optional sound dev/sound/pcm/feeder_eq.c optional sound \ dependency "feeder_eq_gen.h" \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/feeder_if.m optional sound dev/sound/pcm/feeder_format.c optional sound \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/feeder_matrix.c optional sound \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/feeder_mixer.c optional sound \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/feeder_rate.c optional sound \ dependency "feeder_rate_gen.h" \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/feeder_volume.c optional sound \ dependency "snd_fxdiv_gen.h" dev/sound/pcm/mixer.c optional sound dev/sound/pcm/mixer_if.m optional sound dev/sound/pcm/sndstat.c optional sound dev/sound/pcm/sound.c optional sound dev/sound/pcm/vchan.c optional sound dev/sound/usb/uaudio.c optional snd_uaudio usb dev/sound/usb/uaudio_pcm.c optional snd_uaudio usb dev/sound/midi/midi.c optional sound dev/sound/midi/mpu401.c optional sound dev/sound/midi/mpu_if.m optional sound dev/sound/midi/mpufoi_if.m optional sound dev/sound/midi/sequencer.c optional sound dev/sound/midi/synth_if.m optional sound dev/spibus/acpi_spibus.c optional acpi spibus dev/spibus/ofw_spibus.c optional fdt spibus dev/spibus/spibus.c optional spibus \ dependency "spibus_if.h" dev/spibus/spigen.c optional spigen dev/spibus/spibus_if.m optional spibus dev/ste/if_ste.c optional ste pci dev/stge/if_stge.c optional stge dev/sym/sym_hipd.c optional sym \ dependency "$S/dev/sym/sym_{conf,defs}.h" dev/syscon/syscon.c optional syscon dev/syscon/syscon_generic.c optional syscon fdt dev/syscon/syscon_if.m optional syscon dev/syscon/syscon_power.c optional syscon syscon_power dev/syscons/blank/blank_saver.c optional blank_saver dev/syscons/daemon/daemon_saver.c optional daemon_saver dev/syscons/dragon/dragon_saver.c optional dragon_saver dev/syscons/fade/fade_saver.c optional fade_saver dev/syscons/fire/fire_saver.c optional fire_saver dev/syscons/green/green_saver.c optional green_saver dev/syscons/logo/logo.c optional logo_saver dev/syscons/logo/logo_saver.c optional logo_saver dev/syscons/rain/rain_saver.c optional rain_saver dev/syscons/schistory.c optional sc dev/syscons/scmouse.c optional sc dev/syscons/scterm.c optional sc dev/syscons/scterm-dumb.c optional sc !SC_NO_TERM_DUMB dev/syscons/scterm-sc.c optional sc !SC_NO_TERM_SC dev/syscons/scterm-teken.c optional sc !SC_NO_TERM_TEKEN dev/syscons/scvidctl.c optional sc dev/syscons/scvtb.c optional sc dev/syscons/snake/snake_saver.c optional snake_saver dev/syscons/star/star_saver.c optional star_saver dev/syscons/syscons.c optional sc dev/syscons/sysmouse.c optional sc dev/syscons/warp/warp_saver.c optional warp_saver dev/tcp_log/tcp_log_dev.c optional tcp_blackbox inet | tcp_blackbox inet6 dev/tdfx/tdfx_pci.c optional tdfx pci dev/ti/if_ti.c optional ti pci dev/tws/tws.c optional tws dev/tws/tws_cam.c optional tws dev/tws/tws_hdm.c optional tws dev/tws/tws_services.c optional tws dev/tws/tws_user.c optional tws dev/uart/uart_bus_acpi.c optional uart acpi dev/uart/uart_bus_fdt.c optional uart fdt dev/uart/uart_bus_isa.c optional uart isa dev/uart/uart_bus_pci.c optional uart pci dev/uart/uart_bus_puc.c optional uart pci dev/uart/uart_bus_scc.c optional uart scc dev/uart/uart_core.c optional uart dev/uart/uart_cpu_acpi.c optional uart acpi dev/uart/uart_dbg.c optional uart gdb dev/uart/uart_dev_imx.c optional uart uart_imx fdt dev/uart/uart_dev_msm.c optional uart uart_msm fdt dev/uart/uart_dev_mvebu.c optional uart uart_mvebu fdt dev/uart/uart_dev_ns8250.c optional uart uart_ns8250 | uart uart_snps dev/uart/uart_dev_pl011.c optional uart pl011 dev/uart/uart_dev_quicc.c optional uart quicc dev/uart/uart_dev_snps.c optional uart uart_snps fdt dev/uart/uart_dev_z8530.c optional uart uart_z8530 | uart scc dev/uart/uart_if.m optional uart dev/uart/uart_subr.c optional uart dev/uart/uart_tty.c optional uart # # USB controller drivers # dev/usb/controller/musb_otg.c optional musb dev/usb/controller/dwc_otg.c optional dwcotg dev/usb/controller/dwc_otg_fdt.c optional dwcotg fdt dev/usb/controller/dwc_otg_acpi.c optional dwcotg acpi dev/usb/controller/ehci.c optional ehci dev/usb/controller/ehci_msm.c optional ehci_msm fdt dev/usb/controller/ehci_pci.c optional ehci pci dev/usb/controller/ohci.c optional ohci dev/usb/controller/ohci_pci.c optional ohci pci dev/usb/controller/uhci.c optional uhci dev/usb/controller/uhci_pci.c optional uhci pci dev/usb/controller/xhci.c optional xhci dev/usb/controller/xhci_pci.c optional xhci pci dev/usb/controller/saf1761_otg.c optional saf1761otg dev/usb/controller/saf1761_otg_fdt.c optional saf1761otg fdt dev/usb/controller/uss820dci.c optional uss820dci dev/usb/controller/usb_controller.c optional usb # # USB storage drivers # dev/usb/storage/cfumass.c optional cfumass ctl dev/usb/storage/umass.c optional umass dev/usb/storage/urio.c optional urio dev/usb/storage/ustorage_fs.c optional usfs # # USB core # dev/usb/usb_busdma.c optional usb dev/usb/usb_core.c optional usb dev/usb/usb_debug.c optional usb dev/usb/usb_dev.c optional usb dev/usb/usb_device.c optional usb dev/usb/usb_dynamic.c optional usb dev/usb/usb_error.c optional usb dev/usb/usb_fdt_support.c optional usb fdt dev/usb/usb_generic.c optional usb dev/usb/usb_handle_request.c optional usb dev/usb/usb_hid.c optional usb dev/usb/usb_hub.c optional usb dev/usb/usb_hub_acpi.c optional uacpi acpi dev/usb/usb_if.m optional usb dev/usb/usb_lookup.c optional usb dev/usb/usb_mbuf.c optional usb dev/usb/usb_msctest.c optional usb dev/usb/usb_parse.c optional usb dev/usb/usb_pf.c optional usb dev/usb/usb_process.c optional usb dev/usb/usb_request.c optional usb dev/usb/usb_transfer.c optional usb dev/usb/usb_util.c optional usb # # USB network drivers # dev/usb/net/if_aue.c optional aue dev/usb/net/if_axe.c optional axe dev/usb/net/if_axge.c optional axge dev/usb/net/if_cdce.c optional cdce dev/usb/net/if_cdceem.c optional cdceem dev/usb/net/if_cue.c optional cue dev/usb/net/if_ipheth.c optional ipheth dev/usb/net/if_kue.c optional kue dev/usb/net/if_mos.c optional mos dev/usb/net/if_muge.c optional muge dev/usb/net/if_rue.c optional rue dev/usb/net/if_smsc.c optional smsc dev/usb/net/if_udav.c optional udav dev/usb/net/if_ure.c optional ure dev/usb/net/if_usie.c optional usie dev/usb/net/if_urndis.c optional urndis dev/usb/net/ruephy.c optional rue dev/usb/net/usb_ethernet.c optional uether | aue | axe | axge | cdce | \ cdceem | cue | ipheth | kue | mos | \ rue | smsc | udav | ure | urndis | muge dev/usb/net/uhso.c optional uhso # # USB WLAN drivers # dev/usb/wlan/if_rsu.c optional rsu rsu-rtl8712fw.c optional rsu-rtl8712fw | rsufw \ compile-with "${AWK} -f $S/tools/fw_stub.awk rsu-rtl8712fw.fw:rsu-rtl8712fw:120 -mrsu-rtl8712fw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "rsu-rtl8712fw.c" rsu-rtl8712fw.fwo optional rsu-rtl8712fw | rsufw \ dependency "rsu-rtl8712fw.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "rsu-rtl8712fw.fwo" rsu-rtl8712fw.fw optional rsu-rtl8712.fw | rsufw \ dependency "$S/contrib/dev/rsu/rsu-rtl8712fw.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "rsu-rtl8712fw.fw" dev/usb/wlan/if_rum.c optional rum dev/usb/wlan/if_run.c optional run runfw.c optional runfw \ compile-with "${AWK} -f $S/tools/fw_stub.awk run.fw:runfw -mrunfw -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "runfw.c" runfw.fwo optional runfw \ dependency "run.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "runfw.fwo" run.fw optional runfw \ dependency "$S/contrib/dev/run/rt2870.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "run.fw" dev/usb/wlan/if_uath.c optional uath dev/usb/wlan/if_upgt.c optional upgt dev/usb/wlan/if_ural.c optional ural dev/usb/wlan/if_urtw.c optional urtw dev/usb/wlan/if_zyd.c optional zyd # # USB serial and parallel port drivers # dev/usb/serial/u3g.c optional u3g dev/usb/serial/uark.c optional uark dev/usb/serial/ubsa.c optional ubsa dev/usb/serial/ubser.c optional ubser dev/usb/serial/uchcom.c optional uchcom dev/usb/serial/ucycom.c optional ucycom dev/usb/serial/ufoma.c optional ufoma dev/usb/serial/uftdi.c optional uftdi dev/usb/serial/ugensa.c optional ugensa dev/usb/serial/uipaq.c optional uipaq dev/usb/serial/ulpt.c optional ulpt dev/usb/serial/umcs.c optional umcs dev/usb/serial/umct.c optional umct dev/usb/serial/umodem.c optional umodem dev/usb/serial/umoscom.c optional umoscom dev/usb/serial/uplcom.c optional uplcom dev/usb/serial/uslcom.c optional uslcom dev/usb/serial/uvisor.c optional uvisor dev/usb/serial/uvscom.c optional uvscom dev/usb/serial/usb_serial.c optional ucom | u3g | uark | ubsa | ubser | \ uchcom | ucycom | ufoma | uftdi | \ ugensa | uipaq | umcs | umct | \ umodem | umoscom | uplcom | usie | \ uslcom | uvisor | uvscom # # USB misc drivers # dev/usb/misc/cp2112.c optional cp2112 dev/usb/misc/udbp.c optional udbp dev/usb/misc/ugold.c optional ugold dev/usb/misc/uled.c optional uled dev/usb/misc/i2ctinyusb.c optional i2ctinyusb # # USB input drivers # dev/usb/input/atp.c optional atp dev/usb/input/uep.c optional uep dev/usb/input/uhid.c optional uhid dev/usb/input/uhid_snes.c optional uhid_snes dev/usb/input/ukbd.c optional ukbd dev/usb/input/ums.c optional ums dev/usb/input/usbhid.c optional usbhid dev/usb/input/wmt.c optional wmt dev/usb/input/wsp.c optional wsp # # USB quirks # dev/usb/quirk/usb_quirk.c optional usb # # USB templates # dev/usb/template/usb_template.c optional usb_template dev/usb/template/usb_template_audio.c optional usb_template dev/usb/template/usb_template_cdce.c optional usb_template dev/usb/template/usb_template_kbd.c optional usb_template dev/usb/template/usb_template_modem.c optional usb_template dev/usb/template/usb_template_mouse.c optional usb_template dev/usb/template/usb_template_msc.c optional usb_template dev/usb/template/usb_template_mtp.c optional usb_template dev/usb/template/usb_template_phone.c optional usb_template dev/usb/template/usb_template_serialnet.c optional usb_template dev/usb/template/usb_template_midi.c optional usb_template dev/usb/template/usb_template_multi.c optional usb_template dev/usb/template/usb_template_cdceem.c optional usb_template # # USB video drivers # dev/usb/video/udl.c optional udl # # USB END # dev/videomode/videomode.c optional videomode dev/videomode/edid.c optional videomode dev/videomode/pickmode.c optional videomode dev/videomode/vesagtf.c optional videomode dev/veriexec/verified_exec.c optional mac_veriexec dev/vge/if_vge.c optional vge dev/viapm/viapm.c optional viapm pci dev/virtio/virtio.c optional virtio dev/virtio/virtqueue.c optional virtio dev/virtio/virtio_bus_if.m optional virtio dev/virtio/virtio_if.m optional virtio dev/virtio/pci/virtio_pci.c optional virtio_pci dev/virtio/pci/virtio_pci_if.m optional virtio_pci dev/virtio/pci/virtio_pci_legacy.c optional virtio_pci dev/virtio/pci/virtio_pci_modern.c optional virtio_pci dev/virtio/mmio/virtio_mmio.c optional virtio_mmio dev/virtio/mmio/virtio_mmio_acpi.c optional virtio_mmio acpi dev/virtio/mmio/virtio_mmio_cmdline.c optional virtio_mmio dev/virtio/mmio/virtio_mmio_fdt.c optional virtio_mmio fdt dev/virtio/mmio/virtio_mmio_if.m optional virtio_mmio dev/virtio/network/if_vtnet.c optional vtnet dev/virtio/balloon/virtio_balloon.c optional virtio_balloon dev/virtio/block/virtio_blk.c optional virtio_blk dev/virtio/console/virtio_console.c optional virtio_console dev/virtio/gpu/virtio_gpu.c optional virtio_gpu dev/virtio/random/virtio_random.c optional virtio_random dev/virtio/scmi/virtio_scmi.c optional virtio_scmi dev/virtio/scsi/virtio_scsi.c optional virtio_scsi dev/vkbd/vkbd.c optional vkbd dev/vmgenc/vmgenc_acpi.c optional acpi dev/vmware/vmxnet3/if_vmx.c optional vmx dev/vmware/vmci/vmci.c optional vmci dev/vmware/vmci/vmci_datagram.c optional vmci dev/vmware/vmci/vmci_doorbell.c optional vmci dev/vmware/vmci/vmci_driver.c optional vmci dev/vmware/vmci/vmci_event.c optional vmci dev/vmware/vmci/vmci_hashtable.c optional vmci dev/vmware/vmci/vmci_kernel_if.c optional vmci dev/vmware/vmci/vmci_qpair.c optional vmci dev/vmware/vmci/vmci_queue_pair.c optional vmci dev/vmware/vmci/vmci_resource.c optional vmci dev/vmware/pvscsi/pvscsi.c optional pvscsi dev/vr/if_vr.c optional vr pci dev/vt/colors/vt_termcolors.c optional vt dev/vt/font/vt_font_default.c optional vt dev/vt/font/vt_mouse_cursor.c optional vt dev/vt/hw/efifb/efifb.c optional vt_efifb dev/vt/hw/simplefb/simplefb.c optional vt_simplefb fdt dev/vt/hw/vbefb/vbefb.c optional vt_vbefb dev/vt/hw/fb/vt_fb.c optional vt dev/vt/hw/vga/vt_vga.c optional vt vt_vga dev/vt/logo/logo_freebsd.c optional vt splash dev/vt/logo/logo_beastie.c optional vt splash dev/vt/vt_buf.c optional vt dev/vt/vt_consolectl.c optional vt dev/vt/vt_core.c optional vt dev/vt/vt_cpulogos.c optional vt splash dev/vt/vt_font.c optional vt dev/vt/vt_sysmouse.c optional vt dev/vte/if_vte.c optional vte pci dev/watchdog/watchdog.c standard dev/wg/if_wg.c optional wg \ compile-with "${NORMAL_C} -include $S/dev/wg/compat.h" dev/wg/wg_cookie.c optional wg \ compile-with "${NORMAL_C} -include $S/dev/wg/compat.h" dev/wg/wg_crypto.c optional wg \ compile-with "${NORMAL_C} -include $S/dev/wg/compat.h" dev/wg/wg_noise.c optional wg \ compile-with "${NORMAL_C} -include $S/dev/wg/compat.h" dev/wpi/if_wpi.c optional wpi pci wpifw.c optional wpifw \ compile-with "${AWK} -f $S/tools/fw_stub.awk wpi.fw:wpifw:153229 -mwpi -c${.TARGET}" \ no-ctfconvert no-implicit-rule before-depend local \ clean "wpifw.c" wpifw.fwo optional wpifw \ dependency "wpi.fw" \ compile-with "${NORMAL_FWO}" \ no-implicit-rule \ clean "wpifw.fwo" wpi.fw optional wpifw \ dependency "$S/contrib/dev/wpi/iwlwifi-3945-15.32.2.9.fw.uu" \ compile-with "${NORMAL_FW}" \ no-obj no-implicit-rule \ clean "wpi.fw" dev/xdma/controller/pl330.c optional xdma pl330 fdt dev/xdma/xdma.c optional xdma dev/xdma/xdma_bank.c optional xdma dev/xdma/xdma_bio.c optional xdma dev/xdma/xdma_fdt_test.c optional xdma xdma_test fdt dev/xdma/xdma_if.m optional xdma dev/xdma/xdma_iommu.c optional xdma dev/xdma/xdma_mbuf.c optional xdma dev/xdma/xdma_queue.c optional xdma dev/xdma/xdma_sg.c optional xdma dev/xdma/xdma_sglist.c optional xdma dev/xen/balloon/balloon.c optional xenhvm dev/xen/blkfront/blkfront.c optional xenhvm dev/xen/blkback/blkback.c optional xenhvm dev/xen/bus/xen_intr.c optional xenhvm dev/xen/bus/xenpv.c optional xenhvm dev/xen/console/xen_console.c optional xenhvm dev/xen/control/control.c optional xenhvm dev/xen/cpu/xen_acpi_cpu.c optional xenhvm acpi dev/xen/efi/pvefi.c optional xenhvm xenefi efirt dev/xen/grant_table/grant_table.c optional xenhvm dev/xen/netback/netback.c optional xenhvm dev/xen/netfront/netfront.c optional xenhvm dev/xen/timer/xen_timer.c optional xenhvm xentimer dev/xen/xenpci/xenpci.c optional xenpci dev/xen/xenstore/xenstore.c optional xenhvm dev/xen/xenstore/xenstore_dev.c optional xenhvm dev/xen/xenstore/xenstored_dev.c optional xenhvm dev/xen/evtchn/evtchn_dev.c optional xenhvm dev/xen/privcmd/privcmd.c optional xenhvm dev/xen/gntdev/gntdev.c optional xenhvm dev/xen/debug/debug.c optional xenhvm dev/xl/if_xl.c optional xl pci dev/xl/xlphy.c optional xl pci fs/autofs/autofs.c optional autofs fs/autofs/autofs_vfsops.c optional autofs fs/autofs/autofs_vnops.c optional autofs fs/deadfs/dead_vnops.c standard fs/devfs/devfs_devs.c standard fs/devfs/devfs_dir.c standard fs/devfs/devfs_rule.c standard fs/devfs/devfs_vfsops.c standard fs/devfs/devfs_vnops.c standard fs/fdescfs/fdesc_vfsops.c optional fdescfs fs/fdescfs/fdesc_vnops.c optional fdescfs fs/fifofs/fifo_vnops.c standard fs/cuse/cuse.c optional cuse fs/fuse/fuse_device.c optional fusefs fs/fuse/fuse_file.c optional fusefs fs/fuse/fuse_internal.c optional fusefs fs/fuse/fuse_io.c optional fusefs fs/fuse/fuse_ipc.c optional fusefs fs/fuse/fuse_main.c optional fusefs fs/fuse/fuse_node.c optional fusefs fs/fuse/fuse_vfsops.c optional fusefs fs/fuse/fuse_vnops.c optional fusefs fs/mntfs/mntfs_vnops.c standard fs/msdosfs/msdosfs_conv.c optional msdosfs fs/msdosfs/msdosfs_denode.c optional msdosfs fs/msdosfs/msdosfs_fat.c optional msdosfs fs/msdosfs/msdosfs_iconv.c optional msdosfs_iconv fs/msdosfs/msdosfs_lookup.c optional msdosfs fs/msdosfs/msdosfs_vfsops.c optional msdosfs fs/msdosfs/msdosfs_vnops.c optional msdosfs fs/nfs/nfs_commonkrpc.c optional nfscl | nfslockd | nfsd fs/nfs/nfs_commonsubs.c optional nfscl | nfslockd | nfsd fs/nfs/nfs_commonport.c optional nfscl | nfslockd | nfsd fs/nfs/nfs_commonacl.c optional nfscl | nfslockd | nfsd fs/nfsclient/nfs_clcomsubs.c optional nfscl fs/nfsclient/nfs_clsubs.c optional nfscl fs/nfsclient/nfs_clstate.c optional nfscl fs/nfsclient/nfs_clkrpc.c optional nfscl fs/nfsclient/nfs_clrpcops.c optional nfscl fs/nfsclient/nfs_clvnops.c optional nfscl fs/nfsclient/nfs_clnode.c optional nfscl fs/nfsclient/nfs_clvfsops.c optional nfscl fs/nfsclient/nfs_clport.c optional nfscl fs/nfsclient/nfs_clbio.c optional nfscl fs/nfsclient/nfs_clnfsiod.c optional nfscl fs/nfsserver/nfs_fha_new.c optional nfsd inet fs/nfsserver/nfs_nfsdsocket.c optional nfsd inet fs/nfsserver/nfs_nfsdsubs.c optional nfsd inet fs/nfsserver/nfs_nfsdstate.c optional nfsd inet fs/nfsserver/nfs_nfsdkrpc.c optional nfsd inet fs/nfsserver/nfs_nfsdserv.c optional nfsd inet fs/nfsserver/nfs_nfsdport.c optional nfsd inet fs/nfsserver/nfs_nfsdcache.c optional nfsd inet fs/nullfs/null_subr.c optional nullfs fs/nullfs/null_vfsops.c optional nullfs fs/nullfs/null_vnops.c optional nullfs fs/procfs/procfs.c optional procfs fs/procfs/procfs_dbregs.c optional procfs fs/procfs/procfs_fpregs.c optional procfs fs/procfs/procfs_map.c optional procfs fs/procfs/procfs_mem.c optional procfs fs/procfs/procfs_note.c optional procfs fs/procfs/procfs_osrel.c optional procfs fs/procfs/procfs_regs.c optional procfs fs/procfs/procfs_rlimit.c optional procfs fs/procfs/procfs_status.c optional procfs fs/procfs/procfs_type.c optional procfs fs/pseudofs/pseudofs.c optional pseudofs fs/pseudofs/pseudofs_fileno.c optional pseudofs fs/pseudofs/pseudofs_vncache.c optional pseudofs fs/pseudofs/pseudofs_vnops.c optional pseudofs fs/smbfs/smbfs_io.c optional smbfs fs/smbfs/smbfs_node.c optional smbfs fs/smbfs/smbfs_smb.c optional smbfs fs/smbfs/smbfs_subr.c optional smbfs fs/smbfs/smbfs_vfsops.c optional smbfs fs/smbfs/smbfs_vnops.c optional smbfs fs/tarfs/tarfs_io.c optional tarfs compile-with "${NORMAL_C} -I$S/contrib/zstd/lib/freebsd" fs/tarfs/tarfs_subr.c optional tarfs fs/tarfs/tarfs_vfsops.c optional tarfs fs/tarfs/tarfs_vnops.c optional tarfs fs/udf/osta.c optional udf fs/udf/udf_iconv.c optional udf_iconv fs/udf/udf_vfsops.c optional udf fs/udf/udf_vnops.c optional udf fs/unionfs/union_subr.c optional unionfs fs/unionfs/union_vfsops.c optional unionfs fs/unionfs/union_vnops.c optional unionfs fs/tmpfs/tmpfs_vnops.c optional tmpfs fs/tmpfs/tmpfs_fifoops.c optional tmpfs fs/tmpfs/tmpfs_vfsops.c optional tmpfs fs/tmpfs/tmpfs_subr.c optional tmpfs gdb/gdb_cons.c optional gdb gdb/gdb_main.c optional gdb gdb/gdb_packet.c optional gdb gdb/netgdb.c optional ddb debugnet gdb netgdb inet geom/bde/g_bde.c optional geom_bde geom/bde/g_bde_crypt.c optional geom_bde geom/bde/g_bde_lock.c optional geom_bde geom/bde/g_bde_work.c optional geom_bde geom/cache/g_cache.c optional geom_cache geom/concat/g_concat.c optional geom_concat geom/eli/g_eli.c optional geom_eli geom/eli/g_eli_crypto.c optional geom_eli geom/eli/g_eli_ctl.c optional geom_eli geom/eli/g_eli_hmac.c optional geom_eli geom/eli/g_eli_integrity.c optional geom_eli geom/eli/g_eli_key.c optional geom_eli geom/eli/g_eli_key_cache.c optional geom_eli geom/eli/g_eli_privacy.c optional geom_eli geom/eli/pkcs5v2.c optional geom_eli geom/gate/g_gate.c optional geom_gate geom/geom_bsd_enc.c optional geom_part_bsd geom/geom_ccd.c optional ccd | geom_ccd geom/geom_ctl.c standard geom/geom_dev.c standard geom/geom_disk.c standard geom/geom_dump.c standard geom/geom_event.c standard geom/geom_flashmap.c optional fdt cfi | fdt mx25l | mmcsd | fdt n25q | fdt at45d geom/geom_io.c standard geom/geom_kern.c standard geom/geom_slice.c standard geom/geom_subr.c standard geom/geom_vfs.c standard geom/journal/g_journal.c optional geom_journal geom/journal/g_journal_ufs.c optional geom_journal geom/label/g_label.c optional geom_label | geom_label_gpt geom/label/g_label_ext2fs.c optional geom_label geom/label/g_label_flashmap.c optional geom_label geom/label/g_label_iso9660.c optional geom_label geom/label/g_label_msdosfs.c optional geom_label geom/label/g_label_ntfs.c optional geom_label geom/label/g_label_ufs.c optional geom_label geom/label/g_label_gpt.c optional geom_label | geom_label_gpt geom/label/g_label_disk_ident.c optional geom_label geom/label/g_label_swaplinux.c optional geom_label geom/linux_lvm/g_linux_lvm.c optional geom_linux_lvm geom/mirror/g_mirror.c optional geom_mirror geom/mirror/g_mirror_ctl.c optional geom_mirror geom/mountver/g_mountver.c optional geom_mountver geom/multipath/g_multipath.c optional geom_multipath geom/nop/g_nop.c optional geom_nop geom/part/g_part.c standard geom/part/g_part_if.m standard geom/part/g_part_apm.c optional geom_part_apm geom/part/g_part_bsd.c optional geom_part_bsd geom/part/g_part_bsd64.c optional geom_part_bsd64 geom/part/g_part_ebr.c optional geom_part_ebr geom/part/g_part_gpt.c optional geom_part_gpt geom/part/g_part_ldm.c optional geom_part_ldm geom/part/g_part_mbr.c optional geom_part_mbr geom/raid/g_raid.c optional geom_raid geom/raid/g_raid_ctl.c optional geom_raid geom/raid/g_raid_md_if.m optional geom_raid geom/raid/g_raid_tr_if.m optional geom_raid geom/raid/md_ddf.c optional geom_raid geom/raid/md_intel.c optional geom_raid geom/raid/md_jmicron.c optional geom_raid geom/raid/md_nvidia.c optional geom_raid geom/raid/md_promise.c optional geom_raid geom/raid/md_sii.c optional geom_raid geom/raid/tr_concat.c optional geom_raid geom/raid/tr_raid0.c optional geom_raid geom/raid/tr_raid1.c optional geom_raid geom/raid/tr_raid1e.c optional geom_raid geom/raid/tr_raid5.c optional geom_raid geom/raid3/g_raid3.c optional geom_raid3 geom/raid3/g_raid3_ctl.c optional geom_raid3 geom/shsec/g_shsec.c optional geom_shsec geom/stripe/g_stripe.c optional geom_stripe geom/union/g_union.c optional geom_union geom/uzip/g_uzip.c optional geom_uzip geom/uzip/g_uzip_lzma.c optional geom_uzip geom/uzip/g_uzip_wrkthr.c optional geom_uzip geom/uzip/g_uzip_zlib.c optional geom_uzip geom/uzip/g_uzip_zstd.c optional geom_uzip zstdio \ compile-with "${NORMAL_C} -I$S/contrib/zstd/lib/freebsd" geom/vinum/geom_vinum.c optional geom_vinum geom/vinum/geom_vinum_create.c optional geom_vinum geom/vinum/geom_vinum_drive.c optional geom_vinum geom/vinum/geom_vinum_plex.c optional geom_vinum geom/vinum/geom_vinum_volume.c optional geom_vinum geom/vinum/geom_vinum_subr.c optional geom_vinum geom/vinum/geom_vinum_raid5.c optional geom_vinum geom/vinum/geom_vinum_share.c optional geom_vinum geom/vinum/geom_vinum_list.c optional geom_vinum geom/vinum/geom_vinum_rm.c optional geom_vinum geom/vinum/geom_vinum_init.c optional geom_vinum geom/vinum/geom_vinum_state.c optional geom_vinum geom/vinum/geom_vinum_rename.c optional geom_vinum geom/vinum/geom_vinum_move.c optional geom_vinum geom/vinum/geom_vinum_events.c optional geom_vinum geom/virstor/binstream.c optional geom_virstor geom/virstor/g_virstor.c optional geom_virstor geom/virstor/g_virstor_md.c optional geom_virstor geom/zero/g_zero.c optional geom_zero fs/ext2fs/ext2_acl.c optional ext2fs fs/ext2fs/ext2_alloc.c optional ext2fs fs/ext2fs/ext2_balloc.c optional ext2fs fs/ext2fs/ext2_bmap.c optional ext2fs fs/ext2fs/ext2_csum.c optional ext2fs fs/ext2fs/ext2_extattr.c optional ext2fs fs/ext2fs/ext2_extents.c optional ext2fs fs/ext2fs/ext2_inode.c optional ext2fs fs/ext2fs/ext2_inode_cnv.c optional ext2fs fs/ext2fs/ext2_hash.c optional ext2fs fs/ext2fs/ext2_htree.c optional ext2fs fs/ext2fs/ext2_lookup.c optional ext2fs fs/ext2fs/ext2_subr.c optional ext2fs fs/ext2fs/ext2_vfsops.c optional ext2fs fs/ext2fs/ext2_vnops.c optional ext2fs # isa/isa_if.m standard isa/isa_common.c optional isa isa/isahint.c optional isa isa/pnp.c optional isa isapnp isa/pnpparse.c optional isa isapnp fs/cd9660/cd9660_bmap.c optional cd9660 fs/cd9660/cd9660_lookup.c optional cd9660 fs/cd9660/cd9660_node.c optional cd9660 fs/cd9660/cd9660_rrip.c optional cd9660 fs/cd9660/cd9660_util.c optional cd9660 fs/cd9660/cd9660_vfsops.c optional cd9660 fs/cd9660/cd9660_vnops.c optional cd9660 fs/cd9660/cd9660_iconv.c optional cd9660_iconv gnu/gcov/gcc_4_7.c optional gcov \ warning "kernel contains GPL licensed gcov support" gnu/gcov/gcov_fs.c optional gcov lindebugfs \ compile-with "${LINUXKPI_C}" gnu/gcov/gcov_subr.c optional gcov kern/bus_if.m standard kern/clock_if.m standard kern/cpufreq_if.m standard kern/device_if.m standard kern/imgact_binmisc.c optional imgact_binmisc kern/imgact_elf.c standard kern/imgact_elf32.c optional compat_freebsd32 kern/imgact_shell.c standard kern/init_main.c standard kern/init_sysent.c standard kern/ksched.c optional _kposix_priority_scheduling kern/kern_acct.c standard kern/kern_alq.c optional alq kern/kern_boottrace.c standard kern/kern_clock.c standard kern/kern_clocksource.c standard kern/kern_condvar.c standard kern/kern_conf.c standard kern/kern_cons.c standard kern/kern_cpu.c standard kern/kern_cpuset.c standard kern/kern_context.c standard kern/kern_descrip.c standard kern/kern_devctl.c standard kern/kern_dtrace.c optional kdtrace_hooks kern/kern_dump.c standard kern/kern_environment.c standard kern/kern_et.c standard kern/kern_event.c standard kern/kern_exec.c standard kern/kern_exit.c standard kern/kern_fail.c standard kern/kern_ffclock.c standard kern/kern_fork.c standard kern/kern_hhook.c standard kern/kern_idle.c standard kern/kern_intr.c standard kern/kern_jail.c standard kern/kern_kcov.c optional kcov \ compile-with "${NORMAL_C:N-fsanitize*} ${NORMAL_C:M-fsanitize=kernel-memory}" kern/kern_khelp.c standard kern/kern_kthread.c standard kern/kern_ktr.c optional ktr kern/kern_ktrace.c standard kern/kern_linker.c standard kern/kern_lock.c standard kern/kern_lockf.c standard kern/kern_lockstat.c optional kdtrace_hooks kern/kern_loginclass.c standard kern/kern_malloc.c standard kern/kern_mbuf.c standard kern/kern_membarrier.c standard kern/kern_mib.c standard kern/kern_module.c standard kern/kern_mtxpool.c standard kern/kern_mutex.c standard kern/kern_ntptime.c standard kern/kern_osd.c standard kern/kern_physio.c standard kern/kern_pmc.c standard kern/kern_poll.c optional device_polling kern/kern_priv.c standard kern/kern_proc.c standard kern/kern_procctl.c standard kern/kern_prot.c standard kern/kern_racct.c optional racct kern/kern_rangelock.c standard kern/kern_rctl.c standard kern/kern_resource.c standard kern/kern_rmlock.c standard kern/kern_rwlock.c standard kern/kern_sdt.c optional kdtrace_hooks kern/kern_sema.c standard kern/kern_sendfile.c standard kern/kern_sharedpage.c standard kern/kern_shutdown.c standard kern/kern_sig.c standard kern/kern_switch.c standard kern/kern_sx.c standard kern/kern_synch.c standard kern/kern_syscalls.c standard kern/kern_sysctl.c standard kern/kern_tc.c standard kern/kern_thr.c standard kern/kern_thread.c standard kern/kern_time.c standard kern/kern_timeout.c standard kern/kern_tslog.c optional tslog kern/kern_ubsan.c optional kubsan kern/kern_umtx.c standard kern/kern_uuid.c standard kern/kern_vnodedumper.c standard kern/kern_xxx.c standard kern/link_elf.c standard kern/linker_if.m standard kern/md4c.c optional netsmb kern/md5c.c standard kern/p1003_1b.c standard kern/posix4_mib.c standard kern/sched_4bsd.c optional sched_4bsd kern/sched_ule.c optional sched_ule kern/serdev_if.m standard kern/stack_protector.c standard \ compile-with "${NORMAL_C:N-fstack-protector*}" kern/subr_acl_nfs4.c optional ufs_acl | zfs kern/subr_acl_posix1e.c optional ufs_acl kern/subr_asan.c optional kasan \ compile-with "${NORMAL_C:N-fsanitize*:N-fstack-protector*}" kern/subr_autoconf.c standard kern/subr_blist.c standard kern/subr_boot.c standard kern/subr_bus.c standard kern/subr_bus_dma.c standard kern/subr_bufring.c standard kern/subr_capability.c standard kern/subr_clock.c standard kern/subr_compressor.c standard \ compile-with "${NORMAL_C} -I$S/contrib/zstd/lib/freebsd" kern/subr_coverage.c optional coverage \ compile-with "${NORMAL_C:N-fsanitize*:N-fno-sanitize*}" kern/subr_counter.c standard kern/subr_csan.c optional kcsan \ compile-with "${NORMAL_C:N-fsanitize*:N-fstack-protector*}" kern/subr_devstat.c standard kern/subr_disk.c standard kern/subr_early.c standard kern/subr_epoch.c standard kern/subr_eventhandler.c standard kern/subr_fattime.c standard kern/subr_firmware.c optional firmware kern/subr_filter.c standard kern/subr_gtaskqueue.c standard kern/subr_hash.c standard kern/subr_hints.c standard kern/subr_kdb.c standard kern/subr_kobj.c standard kern/subr_lock.c standard kern/subr_log.c standard kern/subr_mchain.c optional libmchain kern/subr_memdesc.c standard kern/subr_module.c standard kern/subr_msan.c optional kmsan \ compile-with "${NORMAL_C:N-fsanitize*:N-fno-sanitize*:N-fstack-protector*}" kern/subr_msgbuf.c standard kern/subr_param.c standard kern/subr_pcpu.c standard kern/subr_pctrie.c standard kern/subr_pidctrl.c standard kern/subr_power.c standard kern/subr_prf.c standard kern/subr_prng.c standard kern/subr_prof.c standard kern/subr_rangeset.c standard kern/subr_rman.c standard kern/subr_rtc.c standard kern/subr_sbuf.c standard kern/subr_scanf.c standard kern/subr_sglist.c standard kern/subr_sleepqueue.c standard kern/subr_smp.c standard kern/subr_smr.c standard kern/subr_stack.c optional ddb | stack | ktr kern/subr_stats.c optional stats kern/subr_taskqueue.c standard kern/subr_terminal.c optional vt kern/subr_trap.c standard kern/subr_turnstile.c standard kern/subr_uio.c standard kern/subr_unit.c standard kern/subr_vmem.c standard kern/subr_witness.c optional witness kern/sys_capability.c standard kern/sys_eventfd.c standard kern/sys_generic.c standard kern/sys_getrandom.c standard kern/sys_pipe.c standard kern/sys_procdesc.c standard kern/sys_process.c standard kern/sys_socket.c standard kern/sys_timerfd.c standard kern/syscalls.c standard kern/sysv_ipc.c standard kern/sysv_msg.c optional sysvmsg kern/sysv_sem.c optional sysvsem kern/sysv_shm.c optional sysvshm kern/tty.c standard kern/tty_compat.c optional compat_43tty kern/tty_info.c standard kern/tty_inq.c standard kern/tty_outq.c standard kern/tty_pts.c standard kern/tty_tty.c standard kern/tty_ttydisc.c standard kern/uipc_accf.c standard kern/uipc_debug.c optional ddb kern/uipc_domain.c standard kern/uipc_ktls.c optional kern_tls kern/uipc_mbuf.c standard kern/uipc_mbuf2.c standard kern/uipc_mbufhash.c standard kern/uipc_mqueue.c optional p1003_1b_mqueue kern/uipc_sem.c optional p1003_1b_semaphores kern/uipc_shm.c standard kern/uipc_sockbuf.c standard kern/uipc_socket.c standard kern/uipc_syscalls.c standard kern/uipc_usrreq.c standard kern/vfs_acl.c standard kern/vfs_aio.c standard kern/vfs_bio.c standard kern/vfs_cache.c standard kern/vfs_cluster.c standard kern/vfs_default.c standard kern/vfs_export.c standard kern/vfs_extattr.c standard kern/vfs_hash.c standard kern/vfs_init.c standard kern/vfs_lookup.c standard kern/vfs_mount.c standard kern/vfs_mountroot.c standard kern/vfs_subr.c standard kern/vfs_syscalls.c standard kern/vfs_vnops.c standard # # Kernel GSS-API # gssd.h optional kgssapi \ dependency "$S/kgssapi/gssd.x" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -hM $S/kgssapi/gssd.x | grep -v pthread.h > gssd.h" \ no-obj no-implicit-rule before-depend local \ clean "gssd.h" gssd_xdr.c optional kgssapi \ dependency "$S/kgssapi/gssd.x gssd.h" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -c $S/kgssapi/gssd.x -o gssd_xdr.c" \ no-ctfconvert no-implicit-rule before-depend local \ clean "gssd_xdr.c" gssd_clnt.c optional kgssapi \ dependency "$S/kgssapi/gssd.x gssd.h" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -lM $S/kgssapi/gssd.x | grep -v string.h > gssd_clnt.c" \ no-ctfconvert no-implicit-rule before-depend local \ clean "gssd_clnt.c" kgssapi/gss_accept_sec_context.c optional kgssapi kgssapi/gss_add_oid_set_member.c optional kgssapi kgssapi/gss_acquire_cred.c optional kgssapi kgssapi/gss_canonicalize_name.c optional kgssapi kgssapi/gss_create_empty_oid_set.c optional kgssapi kgssapi/gss_delete_sec_context.c optional kgssapi kgssapi/gss_display_status.c optional kgssapi kgssapi/gss_export_name.c optional kgssapi kgssapi/gss_get_mic.c optional kgssapi kgssapi/gss_init_sec_context.c optional kgssapi kgssapi/gss_impl.c optional kgssapi kgssapi/gss_import_name.c optional kgssapi kgssapi/gss_ip_to_dns.c optional kgssapi kgssapi/gss_names.c optional kgssapi kgssapi/gss_pname_to_uid.c optional kgssapi kgssapi/gss_release_buffer.c optional kgssapi kgssapi/gss_release_cred.c optional kgssapi kgssapi/gss_release_name.c optional kgssapi kgssapi/gss_release_oid_set.c optional kgssapi kgssapi/gss_set_cred_option.c optional kgssapi kgssapi/gss_test_oid_set_member.c optional kgssapi kgssapi/gss_unwrap.c optional kgssapi kgssapi/gss_verify_mic.c optional kgssapi kgssapi/gss_wrap.c optional kgssapi kgssapi/gss_wrap_size_limit.c optional kgssapi kgssapi/gssd_prot.c optional kgssapi kgssapi/krb5/krb5_mech.c optional kgssapi kgssapi/krb5/kcrypto.c optional kgssapi kgssapi/krb5/kcrypto_aes.c optional kgssapi kgssapi/kgss_if.m optional kgssapi kgssapi/gsstest.c optional kgssapi_debug # These files in libkern/ are those needed by all architectures. Some # of the files in libkern/ are only needed on some architectures, e.g., # libkern/divdi3.c is needed by i386 but not alpha. Also, some of these # routines may be optimized for a particular platform. In either case, # the file should be moved to conf/files. from here. # libkern/arc4random.c standard libkern/arc4random_uniform.c standard libkern/asprintf.c standard libkern/bcd.c standard libkern/bsearch.c standard libkern/crc16.c standard libkern/explicit_bzero.c standard libkern/fnmatch.c standard libkern/gsb_crc32.c standard libkern/iconv.c optional libiconv libkern/iconv_converter_if.m optional libiconv libkern/iconv_ucs.c optional libiconv libkern/iconv_xlat.c optional libiconv libkern/iconv_xlat16.c optional libiconv libkern/inet_aton.c standard libkern/inet_ntoa.c standard libkern/inet_ntop.c standard libkern/inet_pton.c standard libkern/jenkins_hash.c standard libkern/murmur3_32.c standard libkern/memcchr.c standard libkern/memchr.c standard libkern/memmem.c optional gdb libkern/qsort.c standard libkern/qsort_r.c standard libkern/random.c standard libkern/scanc.c standard libkern/strcasecmp.c standard libkern/strcasestr.c standard libkern/strcat.c standard libkern/strchr.c standard libkern/strchrnul.c standard libkern/strcpy.c standard libkern/strcspn.c standard libkern/strdup.c standard libkern/strndup.c standard libkern/strlcat.c standard libkern/strlcpy.c standard libkern/strncat.c standard libkern/strncpy.c standard libkern/strnlen.c standard libkern/strnstr.c standard libkern/strrchr.c standard libkern/strsep.c standard libkern/strspn.c standard libkern/strstr.c standard libkern/strtol.c standard libkern/strtoq.c standard libkern/strtoul.c standard libkern/strtouq.c standard libkern/strvalid.c standard libkern/timingsafe_bcmp.c standard contrib/zlib/adler32.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/compress.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/crc32.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/deflate.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/inffast.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/inflate.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/inftrees.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/trees.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/uncompr.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" contrib/zlib/zutil.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib \ compile-with "${ZLIB_C}" dev/zlib/zlib_mod.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib dev/zlib/zcalloc.c optional crypto | geom_uzip | \ mxge | ddb_ctf | gzio | zfs | zlib net/altq/altq_cbq.c optional altq net/altq/altq_codel.c optional altq net/altq/altq_hfsc.c optional altq net/altq/altq_fairq.c optional altq net/altq/altq_priq.c optional altq net/altq/altq_red.c optional altq net/altq/altq_rio.c optional altq net/altq/altq_rmclass.c optional altq net/altq/altq_subr.c optional altq net/bpf.c standard net/bpf_buffer.c optional bpf net/bpf_jitter.c optional bpf_jitter net/bpf_filter.c optional bpf | netgraph_bpf net/bpf_zerocopy.c optional bpf net/bridgestp.c optional bridge | if_bridge net/ieee8023ad_lacp.c optional lagg net/if.c standard net/ifq.c standard net/if_bridge.c optional bridge inet | if_bridge inet net/if_clone.c standard net/if_dead.c standard net/if_disc.c optional disc net/if_edsc.c optional edsc net/if_enc.c optional enc inet | enc inet6 net/if_epair.c optional epair net/if_ethersubr.c optional ether net/if_fwsubr.c optional fwip net/if_gif.c optional gif inet | gif inet6 | \ netgraph_gif inet | netgraph_gif inet6 net/if_gre.c optional gre inet | gre inet6 net/if_ipsec.c optional inet ipsec | inet6 ipsec net/if_lagg.c optional lagg net/if_loop.c optional loop net/if_llatbl.c standard net/if_me.c optional me inet net/if_media.c standard net/if_mib.c standard net/if_ovpn.c optional ovpn inet | ovpn inet6 net/if_stf.c optional stf inet inet6 net/if_tuntap.c optional tuntap net/if_vlan.c optional vlan net/if_vxlan.c optional vxlan inet | vxlan inet6 net/ifdi_if.m optional ether pci iflib net/iflib.c optional ether pci iflib net/mp_ring.c optional ether iflib net/mppcc.c optional netgraph_mppc_compression net/mppcd.c optional netgraph_mppc_compression net/netisr.c standard net/debugnet.c optional inet debugnet net/debugnet_inet.c optional inet debugnet net/pfil.c optional ether | inet net/radix.c standard net/route.c standard net/route/nhgrp.c optional route_mpath net/route/nhgrp_ctl.c optional route_mpath net/route/nhop.c standard net/route/nhop_ctl.c standard net/route/nhop_utils.c standard net/route/fib_algo.c optional fib_algo net/route/route_ctl.c standard net/route/route_ddb.c optional ddb net/route/route_helpers.c standard net/route/route_ifaddrs.c standard net/route/route_rtentry.c standard net/route/route_subscription.c standard net/route/route_tables.c standard net/route/route_temporal.c standard net/rss_config.c optional inet rss | inet6 rss net/rtsock.c standard net/slcompress.c optional netgraph_vjc net/toeplitz.c optional inet rss | inet6 rss | route_mpath net/vnet.c optional vimage net80211/ieee80211.c optional wlan net80211/ieee80211_acl.c optional wlan wlan_acl net80211/ieee80211_action.c optional wlan net80211/ieee80211_adhoc.c optional wlan \ compile-with "${NORMAL_C} -Wno-unused-function" net80211/ieee80211_ageq.c optional wlan net80211/ieee80211_amrr.c optional wlan | wlan_amrr net80211/ieee80211_crypto.c optional wlan \ compile-with "${NORMAL_C} -Wno-unused-function" net80211/ieee80211_crypto_ccmp.c optional wlan wlan_ccmp net80211/ieee80211_crypto_none.c optional wlan net80211/ieee80211_crypto_tkip.c optional wlan wlan_tkip net80211/ieee80211_crypto_wep.c optional wlan wlan_wep net80211/ieee80211_ddb.c optional wlan ddb net80211/ieee80211_dfs.c optional wlan net80211/ieee80211_freebsd.c optional wlan net80211/ieee80211_hostap.c optional wlan \ compile-with "${NORMAL_C} -Wno-unused-function" net80211/ieee80211_ht.c optional wlan net80211/ieee80211_hwmp.c optional wlan ieee80211_support_mesh net80211/ieee80211_input.c optional wlan net80211/ieee80211_ioctl.c optional wlan net80211/ieee80211_mesh.c optional wlan ieee80211_support_mesh \ compile-with "${NORMAL_C} -Wno-unused-function" net80211/ieee80211_monitor.c optional wlan net80211/ieee80211_node.c optional wlan net80211/ieee80211_output.c optional wlan net80211/ieee80211_phy.c optional wlan net80211/ieee80211_power.c optional wlan net80211/ieee80211_proto.c optional wlan net80211/ieee80211_radiotap.c optional wlan net80211/ieee80211_ratectl.c optional wlan net80211/ieee80211_ratectl_none.c optional wlan net80211/ieee80211_regdomain.c optional wlan net80211/ieee80211_rssadapt.c optional wlan wlan_rssadapt net80211/ieee80211_scan.c optional wlan net80211/ieee80211_scan_sta.c optional wlan net80211/ieee80211_sta.c optional wlan \ compile-with "${NORMAL_C} -Wno-unused-function" net80211/ieee80211_superg.c optional wlan ieee80211_support_superg net80211/ieee80211_scan_sw.c optional wlan net80211/ieee80211_tdma.c optional wlan ieee80211_support_tdma net80211/ieee80211_vht.c optional wlan net80211/ieee80211_wds.c optional wlan net80211/ieee80211_xauth.c optional wlan wlan_xauth net80211/ieee80211_alq.c optional wlan ieee80211_alq netgraph/bluetooth/common/ng_bluetooth.c optional netgraph_bluetooth netgraph/bluetooth/drivers/ubt/ng_ubt.c optional netgraph_bluetooth_ubt usb netgraph/bluetooth/drivers/ubt/ng_ubt_intel.c optional netgraph_bluetooth_ubt usb netgraph/bluetooth/drivers/ubtbcmfw/ubtbcmfw.c optional netgraph_bluetooth_ubtbcmfw usb netgraph/bluetooth/hci/ng_hci_cmds.c optional netgraph_bluetooth_hci netgraph/bluetooth/hci/ng_hci_evnt.c optional netgraph_bluetooth_hci netgraph/bluetooth/hci/ng_hci_main.c optional netgraph_bluetooth_hci netgraph/bluetooth/hci/ng_hci_misc.c optional netgraph_bluetooth_hci netgraph/bluetooth/hci/ng_hci_ulpi.c optional netgraph_bluetooth_hci netgraph/bluetooth/l2cap/ng_l2cap_cmds.c optional netgraph_bluetooth_l2cap netgraph/bluetooth/l2cap/ng_l2cap_evnt.c optional netgraph_bluetooth_l2cap netgraph/bluetooth/l2cap/ng_l2cap_llpi.c optional netgraph_bluetooth_l2cap netgraph/bluetooth/l2cap/ng_l2cap_main.c optional netgraph_bluetooth_l2cap netgraph/bluetooth/l2cap/ng_l2cap_misc.c optional netgraph_bluetooth_l2cap netgraph/bluetooth/l2cap/ng_l2cap_ulpi.c optional netgraph_bluetooth_l2cap netgraph/bluetooth/socket/ng_btsocket.c optional netgraph_bluetooth_socket netgraph/bluetooth/socket/ng_btsocket_hci_raw.c optional netgraph_bluetooth_socket netgraph/bluetooth/socket/ng_btsocket_l2cap.c optional netgraph_bluetooth_socket netgraph/bluetooth/socket/ng_btsocket_l2cap_raw.c optional netgraph_bluetooth_socket netgraph/bluetooth/socket/ng_btsocket_rfcomm.c optional netgraph_bluetooth_socket netgraph/bluetooth/socket/ng_btsocket_sco.c optional netgraph_bluetooth_socket netgraph/netflow/netflow.c optional netgraph_netflow netgraph/netflow/netflow_v9.c optional netgraph_netflow netgraph/netflow/ng_netflow.c optional netgraph_netflow netgraph/ng_UI.c optional netgraph_UI netgraph/ng_async.c optional netgraph_async netgraph/ng_base.c optional netgraph netgraph/ng_bpf.c optional netgraph_bpf netgraph/ng_bridge.c optional netgraph_bridge netgraph/ng_car.c optional netgraph_car netgraph/ng_checksum.c optional netgraph_checksum netgraph/ng_cisco.c optional netgraph_cisco netgraph/ng_deflate.c optional netgraph_deflate netgraph/ng_device.c optional netgraph_device netgraph/ng_echo.c optional netgraph_echo netgraph/ng_eiface.c optional netgraph_eiface netgraph/ng_ether.c optional netgraph_ether netgraph/ng_ether_echo.c optional netgraph_ether_echo netgraph/ng_frame_relay.c optional netgraph_frame_relay netgraph/ng_gif.c optional netgraph_gif inet6 | netgraph_gif inet netgraph/ng_gif_demux.c optional netgraph_gif_demux netgraph/ng_hole.c optional netgraph_hole netgraph/ng_iface.c optional netgraph_iface netgraph/ng_ip_input.c optional netgraph_ip_input netgraph/ng_ipfw.c optional netgraph_ipfw inet ipfirewall netgraph/ng_ksocket.c optional netgraph_ksocket netgraph/ng_l2tp.c optional netgraph_l2tp netgraph/ng_lmi.c optional netgraph_lmi netgraph/ng_macfilter.c optional netgraph_macfilter netgraph/ng_mppc.c optional netgraph_mppc_compression | \ netgraph_mppc_encryption netgraph/ng_nat.c optional netgraph_nat inet libalias netgraph/ng_one2many.c optional netgraph_one2many netgraph/ng_parse.c optional netgraph netgraph/ng_patch.c optional netgraph_patch netgraph/ng_pipe.c optional netgraph_pipe netgraph/ng_ppp.c optional netgraph_ppp netgraph/ng_pppoe.c optional netgraph_pppoe netgraph/ng_pptpgre.c optional netgraph_pptpgre netgraph/ng_pred1.c optional netgraph_pred1 netgraph/ng_rfc1490.c optional netgraph_rfc1490 netgraph/ng_socket.c optional netgraph_socket netgraph/ng_split.c optional netgraph_split netgraph/ng_tag.c optional netgraph_tag netgraph/ng_tcpmss.c optional netgraph_tcpmss netgraph/ng_tee.c optional netgraph_tee netgraph/ng_tty.c optional netgraph_tty netgraph/ng_vjc.c optional netgraph_vjc netgraph/ng_vlan.c optional netgraph_vlan netgraph/ng_vlan_rotate.c optional netgraph_vlan_rotate netinet/accf_data.c optional accept_filter_data inet netinet/accf_dns.c optional accept_filter_dns inet netinet/accf_http.c optional accept_filter_http inet netinet/accf_tls.c optional accept_filter_tls inet netinet/if_ether.c optional inet ether netinet/igmp.c optional inet netinet/in.c optional inet netinet/in_cksum.c optional inet | inet6 netinet/in_debug.c optional inet ddb netinet/in_kdtrace.c optional inet | inet6 netinet/ip_carp.c optional inet carp | inet6 carp netinet/in_fib.c optional inet netinet/in_fib_algo.c optional inet fib_algo netinet/in_gif.c optional gif inet | netgraph_gif inet netinet/ip_gre.c optional gre inet netinet/ip_id.c optional inet netinet/in_jail.c optional inet netinet/in_mcast.c optional inet netinet/in_pcb.c optional inet | inet6 netinet/in_prot.c optional inet | inet6 netinet/in_proto.c optional inet | inet6 netinet/in_rmx.c optional inet netinet/in_rss.c optional inet rss netinet/ip_divert.c optional ipdivert inet | ipdivert inet6 netinet/ip_ecn.c optional inet | inet6 netinet/ip_encap.c optional inet | inet6 netinet/ip_fastfwd.c optional inet netinet/ip_icmp.c optional inet | inet6 netinet/ip_input.c optional inet netinet/ip_mroute.c optional mrouting inet netinet/ip_options.c optional inet netinet/ip_output.c optional inet netinet/ip_reass.c optional inet netinet/raw_ip.c optional inet | inet6 netinet/cc/cc.c optional cc_newreno inet | cc_vegas inet | \ cc_htcp inet | cc_hd inet | cc_dctcp inet | cc_cubic inet | \ cc_chd inet | cc_cdg inet | cc_newreno inet6 | cc_vegas inet6 | \ cc_htcp inet6 | cc_hd inet6 |cc_dctcp inet6 | cc_cubic inet6 | \ cc_chd inet6 | cc_cdg inet6 netinet/cc/cc_cdg.c optional inet cc_cdg tcp_hhook netinet/cc/cc_chd.c optional inet cc_chd tcp_hhook netinet/cc/cc_cubic.c optional inet cc_cubic | inet6 cc_cubic netinet/cc/cc_dctcp.c optional inet cc_dctcp | inet6 cc_dctcp netinet/cc/cc_hd.c optional inet cc_hd tcp_hhook netinet/cc/cc_htcp.c optional inet cc_htcp | inet6 cc_htcp netinet/cc/cc_newreno.c optional inet cc_newreno | inet6 cc_newreno netinet/cc/cc_vegas.c optional inet cc_vegas tcp_hhook netinet/khelp/h_ertt.c optional inet tcp_hhook netinet/sctp_asconf.c optional inet sctp | inet6 sctp netinet/sctp_auth.c optional inet sctp | inet6 sctp netinet/sctp_bsd_addr.c optional inet sctp | inet6 sctp netinet/sctp_cc_functions.c optional inet sctp | inet6 sctp netinet/sctp_crc32.c optional inet | inet6 netinet/sctp_indata.c optional inet sctp | inet6 sctp netinet/sctp_input.c optional inet sctp | inet6 sctp netinet/sctp_kdtrace.c optional inet sctp | inet6 sctp netinet/sctp_module.c optional inet sctp | inet6 sctp netinet/sctp_output.c optional inet sctp | inet6 sctp netinet/sctp_pcb.c optional inet sctp | inet6 sctp netinet/sctp_peeloff.c optional inet sctp | inet6 sctp netinet/sctp_ss_functions.c optional inet sctp | inet6 sctp netinet/sctp_syscalls.c optional inet sctp | inet6 sctp netinet/sctp_sysctl.c optional inet sctp | inet6 sctp netinet/sctp_timer.c optional inet sctp | inet6 sctp netinet/sctp_usrreq.c optional inet sctp | inet6 sctp netinet/sctputil.c optional inet sctp | inet6 sctp netinet/siftr.c optional inet siftr alq | inet6 siftr alq netinet/tcp_ecn.c optional inet | inet6 netinet/tcp_fastopen.c optional inet tcp_rfc7413 | inet6 tcp_rfc7413 netinet/tcp_hostcache.c optional inet | inet6 netinet/tcp_input.c optional inet | inet6 netinet/tcp_log_buf.c optional tcp_blackbox inet | tcp_blackbox inet6 netinet/tcp_lro.c optional inet | inet6 netinet/tcp_lro_hpts.c optional tcphpts inet | tcphpts inet6 netinet/tcp_output.c optional inet | inet6 netinet/tcp_offload.c optional tcp_offload inet | tcp_offload inet6 netinet/tcp_hpts.c optional tcphpts inet | tcphpts inet6 netinet/tcp_ratelimit.c optional ratelimit inet | ratelimit inet6 netinet/tcp_pcap.c optional inet tcppcap | inet6 tcppcap \ compile-with "${NORMAL_C} ${NO_WNONNULL}" netinet/tcp_reass.c optional inet | inet6 netinet/tcp_sack.c optional inet | inet6 netinet/tcp_stacks/bbr.c optional inet tcphpts tcp_bbr | inet6 tcphpts tcp_bbr \ compile-with "${NORMAL_C} -DMODNAME=tcp_bbr -DSTACKNAME=bbr" netinet/tcp_stacks/rack.c optional inet tcphpts tcp_rack | inet6 tcphpts tcp_rack \ compile-with "${NORMAL_C} -DMODNAME=tcp_rack -DSTACKNAME=rack" netinet/tcp_stacks/rack_bbr_common.c optional inet tcphpts tcp_bbr | inet tcphpts tcp_rack | inet6 tcphpts tcp_bbr | inet6 tcphpts tcp_rack netinet/tcp_stacks/sack_filter.c optional inet tcphpts tcp_bbr | inet tcphpts tcp_rack | inet6 tcphpts tcp_bbr | inet6 tcphpts tcp_rack netinet/tcp_stacks/tailq_hash.c optional inet tcphpts tcp_bbr | inet tcphpts tcp_rack | inet6 tcphpts tcp_bbr | inet6 tcphpts tcp_rack netinet/tcp_stacks/rack_pcm.c optional inet tcphpts tcp_rack | inet6 tcphpts tcp_rack netinet/tcp_stats.c optional stats inet | stats inet6 netinet/tcp_subr.c optional inet | inet6 netinet/tcp_syncache.c optional inet | inet6 netinet/tcp_timer.c optional inet | inet6 netinet/tcp_timewait.c optional inet | inet6 netinet/tcp_usrreq.c optional inet | inet6 netinet/udp_usrreq.c optional inet | inet6 netinet/libalias/alias.c optional libalias inet | netgraph_nat inet netinet/libalias/alias_db.c optional libalias inet | netgraph_nat inet netinet/libalias/alias_mod.c optional libalias | netgraph_nat netinet/libalias/alias_proxy.c optional libalias inet | netgraph_nat inet netinet/libalias/alias_util.c optional libalias inet | netgraph_nat inet netinet/libalias/alias_sctp.c optional libalias inet | netgraph_nat inet netinet/netdump/netdump_client.c optional inet debugnet netdump netinet6/dest6.c optional inet6 netinet6/frag6.c optional inet6 netinet6/icmp6.c optional inet6 netinet6/in6.c optional inet6 netinet6/in6_cksum.c optional inet6 netinet6/in6_fib.c optional inet6 netinet6/in6_fib_algo.c optional inet6 fib_algo netinet6/in6_gif.c optional gif inet6 | netgraph_gif inet6 netinet6/in6_ifattach.c optional inet6 netinet6/in6_jail.c optional inet6 netinet6/in6_mcast.c optional inet6 netinet6/in6_pcb.c optional inet6 netinet6/in6_proto.c optional inet6 netinet6/in6_rmx.c optional inet6 netinet6/in6_rss.c optional inet6 rss netinet6/in6_src.c optional inet6 netinet6/ip6_fastfwd.c optional inet6 netinet6/ip6_forward.c optional inet6 netinet6/ip6_gre.c optional gre inet6 netinet6/ip6_id.c optional inet6 netinet6/ip6_input.c optional inet6 netinet6/ip6_mroute.c optional mrouting inet6 netinet6/ip6_output.c optional inet6 netinet6/mld6.c optional inet6 netinet6/nd6.c optional inet6 netinet6/nd6_nbr.c optional inet6 netinet6/nd6_rtr.c optional inet6 netinet6/raw_ip6.c optional inet6 netinet6/route6.c optional inet6 netinet6/scope6.c optional inet6 netinet6/sctp6_usrreq.c optional inet6 sctp netinet6/udp6_usrreq.c optional inet6 netipsec/ipsec.c optional ipsec inet | ipsec inet6 netipsec/ipsec_input.c optional ipsec inet | ipsec inet6 netipsec/ipsec_mbuf.c optional ipsec inet | ipsec inet6 netipsec/ipsec_mod.c optional ipsec inet | ipsec inet6 netipsec/ipsec_output.c optional ipsec inet | ipsec inet6 netipsec/ipsec_pcb.c optional ipsec inet | ipsec inet6 | \ ipsec_support inet | ipsec_support inet6 netipsec/key.c optional ipsec inet | ipsec inet6 | \ ipsec_support inet | ipsec_support inet6 netipsec/key_debug.c optional ipsec inet | ipsec inet6 | \ ipsec_support inet | ipsec_support inet6 netipsec/keysock.c optional ipsec inet | ipsec inet6 | \ ipsec_support inet | ipsec_support inet6 netipsec/subr_ipsec.c optional ipsec inet | ipsec inet6 | \ ipsec_support inet | ipsec_support inet6 netipsec/udpencap.c optional ipsec inet | ipsec inet6 netipsec/xform_ah.c optional ipsec inet | ipsec inet6 netipsec/xform_esp.c optional ipsec inet | ipsec inet6 netipsec/xform_ipcomp.c optional ipsec inet | ipsec inet6 netipsec/xform_tcp.c optional ipsec inet tcp_signature | \ ipsec inet6 tcp_signature | ipsec_support inet tcp_signature | \ ipsec_support inet6 tcp_signature netlink/netlink_generic_kpi.c standard netlink/netlink_glue.c standard netlink/netlink_message_parser.c standard netlink/netlink_domain.c optional netlink netlink/netlink_generic.c optional netlink netlink/netlink_io.c optional netlink netlink/netlink_message_writer.c optional netlink netlink/netlink_module.c optional netlink netlink/netlink_route.c optional netlink netlink/route/iface_drivers.c optional netlink netlink/route/iface.c optional netlink netlink/route/neigh.c optional netlink netlink/route/nexthop.c optional netlink netlink/route/rt.c optional netlink netpfil/ipfw/dn_aqm_codel.c optional inet dummynet netpfil/ipfw/dn_aqm_pie.c optional inet dummynet netpfil/ipfw/dn_heap.c optional inet dummynet netpfil/ipfw/dn_sched_fifo.c optional inet dummynet netpfil/ipfw/dn_sched_fq_codel.c optional inet dummynet netpfil/ipfw/dn_sched_fq_pie.c optional inet dummynet netpfil/ipfw/dn_sched_prio.c optional inet dummynet netpfil/ipfw/dn_sched_qfq.c optional inet dummynet netpfil/ipfw/dn_sched_rr.c optional inet dummynet netpfil/ipfw/dn_sched_wf2q.c optional inet dummynet netpfil/ipfw/ip_dummynet.c optional inet dummynet netpfil/ipfw/ip_dn_io.c optional inet dummynet netpfil/ipfw/ip_dn_glue.c optional inet dummynet netpfil/ipfw/ip_fw2.c optional inet ipfirewall netpfil/ipfw/ip_fw_bpf.c optional inet ipfirewall netpfil/ipfw/ip_fw_dynamic.c optional inet ipfirewall \ compile-with "${NORMAL_C} -I$S/contrib/ck/include" netpfil/ipfw/ip_fw_eaction.c optional inet ipfirewall netpfil/ipfw/ip_fw_log.c optional inet ipfirewall netpfil/ipfw/ip_fw_pfil.c optional inet ipfirewall netpfil/ipfw/ip_fw_sockopt.c optional inet ipfirewall netpfil/ipfw/ip_fw_table.c optional inet ipfirewall netpfil/ipfw/ip_fw_table_algo.c optional inet ipfirewall netpfil/ipfw/ip_fw_table_value.c optional inet ipfirewall netpfil/ipfw/ip_fw_iface.c optional inet ipfirewall netpfil/ipfw/ip_fw_nat.c optional inet ipfirewall_nat netpfil/ipfw/nat64/ip_fw_nat64.c optional inet inet6 ipfirewall \ ipfirewall_nat64 netpfil/ipfw/nat64/nat64clat.c optional inet inet6 ipfirewall \ ipfirewall_nat64 netpfil/ipfw/nat64/nat64clat_control.c optional inet inet6 ipfirewall \ ipfirewall_nat64 netpfil/ipfw/nat64/nat64lsn.c optional inet inet6 ipfirewall \ ipfirewall_nat64 compile-with "${NORMAL_C} -I$S/contrib/ck/include" netpfil/ipfw/nat64/nat64lsn_control.c optional inet inet6 ipfirewall \ ipfirewall_nat64 compile-with "${NORMAL_C} -I$S/contrib/ck/include" netpfil/ipfw/nat64/nat64stl.c optional inet inet6 ipfirewall \ ipfirewall_nat64 netpfil/ipfw/nat64/nat64stl_control.c optional inet inet6 ipfirewall \ ipfirewall_nat64 netpfil/ipfw/nat64/nat64_translate.c optional inet inet6 ipfirewall \ ipfirewall_nat64 netpfil/ipfw/nptv6/ip_fw_nptv6.c optional inet inet6 ipfirewall \ ipfirewall_nptv6 netpfil/ipfw/nptv6/nptv6.c optional inet inet6 ipfirewall \ ipfirewall_nptv6 netpfil/ipfw/pmod/ip_fw_pmod.c optional inet ipfirewall_pmod netpfil/ipfw/pmod/tcpmod.c optional inet ipfirewall_pmod netpfil/pf/if_pflog.c optional pflog pf inet netpfil/pf/if_pfsync.c optional pfsync pf inet netpfil/pf/pf.c optional pf inet netpfil/pf/pf_if.c optional pf inet netpfil/pf/pf_ioctl.c optional pf inet netpfil/pf/pf_lb.c optional pf inet netpfil/pf/pf_norm.c optional pf inet netpfil/pf/pf_nl.c optional pf inet netpfil/pf/pf_nv.c optional pf inet netpfil/pf/pf_osfp.c optional pf inet netpfil/pf/pf_ruleset.c optional pf inet netpfil/pf/pf_syncookies.c optional pf inet netpfil/pf/pf_table.c optional pf inet netpfil/pf/pflow.c optional pflow pf inet netpfil/pf/pfsync_nv.c optional pfsync pf inet netpfil/pf/in4_cksum.c optional pf inet netsmb/smb_conn.c optional netsmb netsmb/smb_crypt.c optional netsmb netsmb/smb_dev.c optional netsmb netsmb/smb_iod.c optional netsmb netsmb/smb_rq.c optional netsmb netsmb/smb_smb.c optional netsmb netsmb/smb_subr.c optional netsmb netsmb/smb_trantcp.c optional netsmb netsmb/smb_usr.c optional netsmb nfs/bootp_subr.c optional bootp nfscl nfs/krpc_subr.c optional bootp nfscl nfs/nfs_diskless.c optional nfscl nfs_root nfs/nfs_nfssvc.c optional nfscl | nfslockd | nfsd nlm/nlm_advlock.c optional nfslockd | nfsd nlm/nlm_prot_clnt.c optional nfslockd | nfsd nlm/nlm_prot_impl.c optional nfslockd | nfsd nlm/nlm_prot_server.c optional nfslockd | nfsd nlm/nlm_prot_svc.c optional nfslockd | nfsd nlm/nlm_prot_xdr.c optional nfslockd | nfsd nlm/sm_inter_xdr.c optional nfslockd | nfsd # Linux Kernel Programming Interface compat/linuxkpi/common/src/linux_80211.c optional compat_linuxkpi wlan \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_80211_macops.c optional compat_linuxkpi wlan \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_kmod.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_acpi.c optional compat_linuxkpi acpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_compat.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_current.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_devres.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_dmi.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_domain.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_firmware.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_fpu.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_hrtimer.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_i2c.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_i2cbb.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_interrupt.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_kobject.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_kthread.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_lock.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_mhi.c optional compat_linuxkpi wlan \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_netdev.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_page.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_pci.c optional compat_linuxkpi pci \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_tasklet.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_idr.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_radix.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_rcu.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C} -I$S/contrib/ck/include" compat/linuxkpi/common/src/linux_schedule.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_shmemfs.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_shrinker.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_skbuff.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_slab.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_usb.c optional compat_linuxkpi usb \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_work.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_xarray.c optional compat_linuxkpi \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/lkpi_iic_if.m optional compat_linuxkpi compat/linuxkpi/common/src/linux_seq_file.c optional compat_linuxkpi | lindebugfs \ compile-with "${LINUXKPI_C}" compat/linuxkpi/common/src/linux_simple_attr.c optional compat_linuxkpi | lindebugfs \ compile-with "${LINUXKPI_C}" compat/lindebugfs/lindebugfs.c optional lindebugfs \ compile-with "${LINUXKPI_C}" # OpenFabrics Enterprise Distribution (Infiniband) net/if_infiniband.c optional ofed | lagg ofed/drivers/infiniband/core/ib_addr.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_agent.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_cache.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_cm.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_cma.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_core_uverbs.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_cq.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_device.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_fmr_pool.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_iwcm.c optional ofed \ compile-with "${OFED_C} ${NO_WUNUSED_BUT_SET_VARIABLE}" ofed/drivers/infiniband/core/ib_iwpm_msg.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_iwpm_util.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_mad.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_mad_rmpp.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_multicast.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_packer.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_rdma_core.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_roce_gid_mgmt.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_sa_query.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_smi.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_sysfs.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_ucm.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_ucma.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_ud_header.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_umem.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_user_mad.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_cmd.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_ioctl.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_main.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_marshall.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_async_fd.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_counters.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_cq.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_device.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_dm.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_flow_action.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_std_types_mr.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_uverbs_uapi.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/core/ib_verbs.c optional ofed \ compile-with "${OFED_C}" ofed/drivers/infiniband/ulp/ipoib/ipoib_cm.c optional ipoib \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" #ofed/drivers/infiniband/ulp/ipoib/ipoib_fs.c optional ipoib \ # compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" ofed/drivers/infiniband/ulp/ipoib/ipoib_ib.c optional ipoib \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" ofed/drivers/infiniband/ulp/ipoib/ipoib_main.c optional ipoib \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" ofed/drivers/infiniband/ulp/ipoib/ipoib_multicast.c optional ipoib \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" ofed/drivers/infiniband/ulp/ipoib/ipoib_verbs.c optional ipoib \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" #ofed/drivers/infiniband/ulp/ipoib/ipoib_vlan.c optional ipoib \ # compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/ipoib/" ofed/drivers/infiniband/ulp/sdp/sdp_bcopy.c optional sdp inet \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/sdp/" ofed/drivers/infiniband/ulp/sdp/sdp_main.c optional sdp inet \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/sdp/" ofed/drivers/infiniband/ulp/sdp/sdp_rx.c optional sdp inet \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/sdp/ ${NO_WUNUSED_BUT_SET_VARIABLE}" ofed/drivers/infiniband/ulp/sdp/sdp_cma.c optional sdp inet \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/sdp/" ofed/drivers/infiniband/ulp/sdp/sdp_tx.c optional sdp inet \ compile-with "${OFED_C} -I$S/ofed/drivers/infiniband/ulp/sdp/ ${NO_WUNUSED_BUT_SET_VARIABLE}" dev/irdma/icrdma.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_cm.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_ctrl.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_hmc.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_hw.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/icrdma_hw.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/fbsd_kcompat.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_kcompat.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_pble.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_puda.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_uda.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_uk.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_utils.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_verbs.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/irdma/irdma_ws.c optional irdma ice inet inet6 pci ofed \ compile-with "${OFED_C} -I$S/dev/ice/" dev/mthca/mthca_allocator.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_av.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_catas.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_cmd.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_cq.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_eq.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_mad.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_main.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_mcg.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_memfree.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_mr.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_pd.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_profile.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_provider.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_qp.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_reset.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_srq.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mthca/mthca_uar.c optional mthca pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_alias_GUID.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_mcg.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_sysfs.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_cm.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_ah.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_cq.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_doorbell.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_mad.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_main.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_mr.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_qp.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_srq.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_ib/mlx4_ib_wc.c optional mlx4ib pci ofed \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_alloc.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_catas.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_cmd.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_cq.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_eq.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_fw.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_fw_qos.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_icm.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_intf.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_main.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_mcg.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_mr.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_pd.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_port.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_profile.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_qp.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_reset.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_sense.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_srq.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_core/mlx4_resource_tracker.c optional mlx4 pci \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_cq.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_main.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_netdev.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_port.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_resources.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_rx.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx4/mlx4_en/mlx4_en_tx.c optional mlx4en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_ah.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_cong.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_cq.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_devx.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_doorbell.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_gsi.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_mad.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_main.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_mem.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_mr.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_qp.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_srq.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_ib/mlx5_ib_virt.c optional mlx5ib pci ofed \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_alloc.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_cmd.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_cq.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_diag_cnt.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_diagnostics.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_eq.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_eswitch.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fc_cmd.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fs_cmd.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fs_counters.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fs_tcp.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fs_tree.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fw.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_fwdump.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_health.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_mad.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_main.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_mcg.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_mpfs.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_mr.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_pagealloc.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_pd.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_port.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_qp.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_rl.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_srq.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_tls.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_transobj.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_uar.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_vport.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_vsc.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_core/mlx5_wq.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_lib/mlx5_gid.c optional mlx5 pci \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_dim.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_ethtool.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_main.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_tx.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_flow_table.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_hw_tls.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_hw_tls_rx.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_iq.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_rx.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_rl.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_txrx.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" dev/mlx5/mlx5_en/mlx5_en_port_buffer.c optional mlx5en pci inet inet6 \ compile-with "${OFED_C}" # crypto support opencrypto/cbc_mac.c optional crypto opencrypto/criov.c optional crypto opencrypto/crypto.c optional crypto opencrypto/cryptodev.c optional cryptodev opencrypto/cryptodev_if.m optional crypto opencrypto/cryptosoft.c optional crypto opencrypto/cryptodeflate.c optional crypto opencrypto/gmac.c optional crypto opencrypto/gfmult.c optional crypto opencrypto/ktls_ocf.c optional kern_tls opencrypto/rmd160.c optional crypto opencrypto/xform_aes_cbc.c optional crypto opencrypto/xform_aes_icm.c optional crypto opencrypto/xform_aes_xts.c optional crypto opencrypto/xform_cbc_mac.c optional crypto opencrypto/xform_chacha20_poly1305.c optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include -I$S/crypto/libsodium" opencrypto/xform_cml.c optional crypto opencrypto/xform_deflate.c optional crypto opencrypto/xform_gmac.c optional crypto opencrypto/xform_null.c optional crypto opencrypto/xform_poly1305.c optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include -I$S/crypto/libsodium" opencrypto/xform_rmd160.c optional crypto opencrypto/xform_sha1.c optional crypto opencrypto/xform_sha2.c optional crypto contrib/libsodium/src/libsodium/crypto_core/ed25519/ref10/ed25519_ref10.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium -Wno-unused-function" contrib/libsodium/src/libsodium/crypto_core/hchacha20/core_hchacha20.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" contrib/libsodium/src/libsodium/crypto_onetimeauth/poly1305/onetimeauth_poly1305.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" contrib/libsodium/src/libsodium/crypto_onetimeauth/poly1305/donna/poly1305_donna.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" contrib/libsodium/src/libsodium/crypto_scalarmult/curve25519/scalarmult_curve25519.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" contrib/libsodium/src/libsodium/crypto_scalarmult/curve25519/ref10/x25519_ref10.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium -Wno-unused-function" contrib/libsodium/src/libsodium/crypto_stream/chacha20/stream_chacha20.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" contrib/libsodium/src/libsodium/crypto_stream/chacha20/ref/chacha20_ref.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" contrib/libsodium/src/libsodium/crypto_verify/sodium/verify.c \ optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include/sodium -I$S/crypto/libsodium" crypto/libsodium/randombytes.c optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include -I$S/crypto/libsodium" crypto/libsodium/utils.c optional crypto \ compile-with "${NORMAL_C} -I$S/contrib/libsodium/src/libsodium/include -I$S/crypto/libsodium" rpc/auth_none.c optional krpc | nfslockd | nfscl | nfsd rpc/auth_unix.c optional krpc | nfslockd | nfscl | nfsd rpc/authunix_prot.c optional krpc | nfslockd | nfscl | nfsd rpc/clnt_bck.c optional krpc | nfslockd | nfscl | nfsd rpc/clnt_dg.c optional krpc | nfslockd | nfscl | nfsd rpc/clnt_rc.c optional krpc | nfslockd | nfscl | nfsd rpc/clnt_vc.c optional krpc | nfslockd | nfscl | nfsd rpc/getnetconfig.c optional krpc | nfslockd | nfscl | nfsd rpc/replay.c optional krpc | nfslockd | nfscl | nfsd rpc/rpc_callmsg.c optional krpc | nfslockd | nfscl | nfsd rpc/rpc_generic.c optional krpc | nfslockd | nfscl | nfsd rpc/rpc_prot.c optional krpc | nfslockd | nfscl | nfsd rpc/rpcb_clnt.c optional krpc | nfslockd | nfscl | nfsd rpc/rpcb_prot.c optional krpc | nfslockd | nfscl | nfsd rpc/svc.c optional krpc | nfslockd | nfscl | nfsd rpc/svc_auth.c optional krpc | nfslockd | nfscl | nfsd rpc/svc_auth_unix.c optional krpc | nfslockd | nfscl | nfsd rpc/svc_dg.c optional krpc | nfslockd | nfscl | nfsd rpc/svc_generic.c optional krpc | nfslockd | nfscl | nfsd rpc/svc_vc.c optional krpc | nfslockd | nfscl | nfsd # # Kernel RPC-over-TLS # rpctlscd.h optional krpc | nfslockd | nfscl | nfsd \ dependency "$S/rpc/rpcsec_tls/rpctlscd.x" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -hM $S/rpc/rpcsec_tls/rpctlscd.x | grep -v pthread.h > rpctlscd.h" \ no-obj no-implicit-rule before-depend local \ clean "rpctlscd.h" rpctlscd_xdr.c optional krpc | nfslockd | nfscl | nfsd \ dependency "$S/rpc/rpcsec_tls/rpctlscd.x rpctlscd.h" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -c $S/rpc/rpcsec_tls/rpctlscd.x -o rpctlscd_xdr.c" no-ctfconvert \ no-implicit-rule before-depend local \ clean "rpctlscd_xdr.c" rpctlscd_clnt.c optional krpc | nfslockd | nfscl | nfsd \ dependency "$S/rpc/rpcsec_tls/rpctlscd.x rpctlscd.h" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -lM $S/rpc/rpcsec_tls/rpctlscd.x | grep -v string.h > rpctlscd_clnt.c" no-ctfconvert \ no-implicit-rule before-depend local \ clean "rpctlscd_clnt.c" rpctlssd.h optional krpc | nfslockd | nfscl | nfsd \ dependency "$S/rpc/rpcsec_tls/rpctlssd.x" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -hM $S/rpc/rpcsec_tls/rpctlssd.x | grep -v pthread.h > rpctlssd.h" \ no-obj no-implicit-rule before-depend local \ clean "rpctlssd.h" rpctlssd_xdr.c optional krpc | nfslockd | nfscl | nfsd \ dependency "$S/rpc/rpcsec_tls/rpctlssd.x rpctlssd.h" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -c $S/rpc/rpcsec_tls/rpctlssd.x -o rpctlssd_xdr.c" no-ctfconvert \ no-implicit-rule before-depend local \ clean "rpctlssd_xdr.c" rpctlssd_clnt.c optional krpc | nfslockd | nfscl | nfsd \ dependency "$S/rpc/rpcsec_tls/rpctlssd.x rpctlssd.h" \ compile-with "RPCGEN_CPP='${CPP}' rpcgen -lM $S/rpc/rpcsec_tls/rpctlssd.x | grep -v string.h > rpctlssd_clnt.c" no-ctfconvert \ no-implicit-rule before-depend local \ clean "rpctlssd_clnt.c" rpc/rpcsec_tls/rpctls_impl.c optional krpc | nfslockd | nfscl | nfsd rpc/rpcsec_tls/auth_tls.c optional krpc | nfslockd | nfscl | nfsd rpc/rpcsec_gss/rpcsec_gss.c optional krpc kgssapi | nfslockd kgssapi | nfscl kgssapi | nfsd kgssapi rpc/rpcsec_gss/rpcsec_gss_conf.c optional krpc kgssapi | nfslockd kgssapi | nfscl kgssapi | nfsd kgssapi rpc/rpcsec_gss/rpcsec_gss_misc.c optional krpc kgssapi | nfslockd kgssapi | nfscl kgssapi | nfsd kgssapi rpc/rpcsec_gss/rpcsec_gss_prot.c optional krpc kgssapi | nfslockd kgssapi | nfscl kgssapi | nfsd kgssapi rpc/rpcsec_gss/svc_rpcsec_gss.c optional krpc kgssapi | nfslockd kgssapi | nfscl kgssapi | nfsd kgssapi security/audit/audit.c optional audit security/audit/audit_arg.c optional audit security/audit/audit_bsm.c optional audit security/audit/audit_bsm_db.c optional audit security/audit/audit_bsm_klib.c optional audit security/audit/audit_dtrace.c optional dtaudit audit | dtraceall audit compile-with "${CDDL_C}" security/audit/audit_pipe.c optional audit security/audit/audit_syscalls.c standard security/audit/audit_trigger.c optional audit security/audit/audit_worker.c optional audit security/audit/bsm_domain.c optional audit security/audit/bsm_errno.c optional audit security/audit/bsm_fcntl.c optional audit security/audit/bsm_socket_type.c optional audit security/audit/bsm_token.c optional audit security/mac/mac_audit.c optional mac audit security/mac/mac_cred.c optional mac security/mac/mac_kdb.c optional mac security/mac/mac_framework.c optional mac security/mac/mac_inet.c optional mac inet | mac inet6 security/mac/mac_inet6.c optional mac inet6 security/mac/mac_label.c optional mac security/mac/mac_net.c optional mac security/mac/mac_pipe.c optional mac security/mac/mac_posix_sem.c optional mac security/mac/mac_posix_shm.c optional mac security/mac/mac_priv.c optional mac security/mac/mac_process.c optional mac security/mac/mac_socket.c optional mac security/mac/mac_syscalls.c standard security/mac/mac_system.c optional mac security/mac/mac_sysv_msg.c optional mac security/mac/mac_sysv_sem.c optional mac security/mac/mac_sysv_shm.c optional mac security/mac/mac_vfs.c optional mac security/mac_biba/mac_biba.c optional mac_biba security/mac_ddb/mac_ddb.c optional mac_ddb security/mac_bsdextended/mac_bsdextended.c optional mac_bsdextended security/mac_bsdextended/ugidfw_system.c optional mac_bsdextended security/mac_bsdextended/ugidfw_vnode.c optional mac_bsdextended security/mac_ifoff/mac_ifoff.c optional mac_ifoff security/mac_ipacl/mac_ipacl.c optional mac_ipacl security/mac_lomac/mac_lomac.c optional mac_lomac security/mac_mls/mac_mls.c optional mac_mls security/mac_none/mac_none.c optional mac_none security/mac_ntpd/mac_ntpd.c optional mac_ntpd security/mac_partition/mac_partition.c optional mac_partition security/mac_portacl/mac_portacl.c optional mac_portacl security/mac_priority/mac_priority.c optional mac_priority security/mac_seeotheruids/mac_seeotheruids.c optional mac_seeotheruids security/mac_stub/mac_stub.c optional mac_stub security/mac_test/mac_test.c optional mac_test security/mac_grantbylabel/mac_grantbylabel.c optional mac_grantbylabel security/mac_veriexec/mac_veriexec.c optional mac_veriexec security/mac_veriexec/veriexec_fingerprint.c optional mac_veriexec security/mac_veriexec/veriexec_metadata.c optional mac_veriexec security/mac_veriexec_parser/mac_veriexec_parser.c optional mac_veriexec mac_veriexec_parser security/mac_veriexec/mac_veriexec_rmd160.c optional mac_veriexec_rmd160 security/mac_veriexec/mac_veriexec_sha1.c optional mac_veriexec_sha1 security/mac_veriexec/mac_veriexec_sha256.c optional mac_veriexec_sha256 security/mac_veriexec/mac_veriexec_sha384.c optional mac_veriexec_sha384 security/mac_veriexec/mac_veriexec_sha512.c optional mac_veriexec_sha512 teken/teken.c optional sc !SC_NO_TERM_TEKEN | vt ufs/ffs/ffs_alloc.c optional ffs ufs/ffs/ffs_balloc.c optional ffs ufs/ffs/ffs_inode.c optional ffs ufs/ffs/ffs_snapshot.c optional ffs ufs/ffs/ffs_softdep.c optional ffs ufs/ffs/ffs_subr.c optional ffs | geom_label ufs/ffs/ffs_tables.c optional ffs | geom_label ufs/ffs/ffs_vfsops.c optional ffs ufs/ffs/ffs_vnops.c optional ffs ufs/ffs/ffs_rawread.c optional ffs directio ufs/ffs/ffs_suspend.c optional ffs ufs/ufs/ufs_acl.c optional ffs ufs/ufs/ufs_bmap.c optional ffs ufs/ufs/ufs_dirhash.c optional ffs ufs/ufs/ufs_extattr.c optional ffs ufs/ufs/ufs_gjournal.c optional ffs UFS_GJOURNAL ufs/ufs/ufs_inode.c optional ffs ufs/ufs/ufs_lookup.c optional ffs ufs/ufs/ufs_quota.c optional ffs ufs/ufs/ufs_vfsops.c optional ffs ufs/ufs/ufs_vnops.c optional ffs vm/device_pager.c standard vm/phys_pager.c standard vm/redzone.c optional DEBUG_REDZONE vm/sg_pager.c standard vm/swap_pager.c standard vm/uma_core.c standard vm/uma_dbg.c standard vm/memguard.c optional DEBUG_MEMGUARD vm/vm_domainset.c standard vm/vm_fault.c standard vm/vm_glue.c standard vm/vm_init.c standard vm/vm_kern.c standard vm/vm_map.c standard vm/vm_meter.c standard vm/vm_mmap.c standard vm/vm_object.c standard vm/vm_page.c standard vm/vm_pageout.c standard vm/vm_pager.c standard vm/vm_phys.c standard vm/vm_radix.c standard vm/vm_reserv.c standard vm/vm_swapout.c optional !NO_SWAPPING vm/vm_swapout_dummy.c optional NO_SWAPPING vm/vm_unix.c standard vm/vnode_pager.c standard xen/features.c optional xenhvm xen/xen_common.c optional xenhvm xen/xenbus/xenbus_if.m optional xenhvm xen/xenbus/xenbus.c optional xenhvm xen/xenbus/xenbusb_if.m optional xenhvm xen/xenbus/xenbusb.c optional xenhvm xen/xenbus/xenbusb_front.c optional xenhvm xen/xenbus/xenbusb_back.c optional xenhvm xen/xenmem/xenmem_if.m optional xenhvm xdr/xdr.c optional xdr | krpc | nfslockd | nfscl | nfsd xdr/xdr_array.c optional xdr | krpc | nfslockd | nfscl | nfsd xdr/xdr_mbuf.c optional xdr | krpc | nfslockd | nfscl | nfsd xdr/xdr_mem.c optional xdr | krpc | nfslockd | nfscl | nfsd xdr/xdr_reference.c optional xdr | krpc | nfslockd | nfscl | nfsd xdr/xdr_sizeof.c optional xdr | krpc | nfslockd | nfscl | nfsd diff --git a/sys/modules/ctl/Makefile b/sys/modules/ctl/Makefile index 32f150b41300..9fb94ddc9bca 100644 --- a/sys/modules/ctl/Makefile +++ b/sys/modules/ctl/Makefile @@ -1,33 +1,34 @@ .PATH: ${SRCTOP}/sys/cam/ctl KMOD= ctl SRCS= ctl.c SRCS+= ctl_backend.c SRCS+= ctl_backend_block.c SRCS+= ctl_backend_ramdisk.c SRCS+= ctl_cmd_table.c SRCS+= ctl_frontend.c SRCS+= ctl_frontend_cam_sim.c SRCS+= ctl_frontend_ioctl.c SRCS+= ctl_ha.c SRCS+= ctl_nvme_all.c +SRCS+= ctl_nvme_cmd_table.c SRCS+= ctl_scsi_all.c SRCS+= ctl_tpc.c SRCS+= ctl_tpc_local.c SRCS+= ctl_error.c SRCS+= ctl_util.c SRCS+= scsi_ctl.c SRCS+= bus_if.h SRCS+= device_if.h SRCS+= vnode_if.h SRCS+= opt_cam.h #CFLAGS+=-DICL_KERNEL_PROXY MFILES= kern/bus_if.m kern/device_if.m EXPORT_SYMS= YES .include