diff --git a/sys/dev/atkbdc/psm.c b/sys/dev/atkbdc/psm.c index b3e036ebc134..97bf1b859dd2 100644 --- a/sys/dev/atkbdc/psm.c +++ b/sys/dev/atkbdc/psm.c @@ -1,7622 +1,7626 @@ /*- * Copyright (c) 1992, 1993 Erik Forsberg. * Copyright (c) 1996, 1997 Kazutaka YOKOTA. * 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. * * THIS SOFTWARE IS PROVIDED BY ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN * NO EVENT SHALL I BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE. */ /* * Ported to 386bsd Oct 17, 1992 * Sandi Donno, Computer Science, University of Cape Town, South Africa * Please send bug reports to sandi@cs.uct.ac.za * * Thanks are also due to Rick Macklem, rick@snowhite.cis.uoguelph.ca - * although I was only partially successful in getting the alpha release * of his "driver for the Logitech and ATI Inport Bus mice for use with * 386bsd and the X386 port" to work with my Microsoft mouse, I nevertheless * found his code to be an invaluable reference when porting this driver * to 386bsd. * * Further modifications for latest 386BSD+patchkit and port to NetBSD, * Andrew Herbert - 8 June 1993 * * Cloned from the Microsoft Bus Mouse driver, also by Erik Forsberg, by * Andrew Herbert - 12 June 1993 * * Modified for PS/2 mouse by Charles Hannum * - 13 June 1993 * * Modified for PS/2 AUX mouse by Shoji Yuen * - 24 October 1993 * * Hardware access routines and probe logic rewritten by * Kazutaka Yokota * - 3, 14, 22 October 1996. * - 12 November 1996. IOCTLs and rearranging `psmread', `psmioctl'... * - 14, 30 November 1996. Uses `kbdio.c'. * - 13 December 1996. Uses queuing version of `kbdio.c'. * - January/February 1997. Tweaked probe logic for * HiNote UltraII/Latitude/Armada laptops. * - 30 July 1997. Added APM support. * - 5 March 1997. Defined driver configuration flags (PSM_CONFIG_XXX). * Improved sync check logic. * Vendor specific support routines. */ #include __FBSDID("$FreeBSD$"); #include "opt_isa.h" #include "opt_psm.h" #include "opt_evdev.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef DEV_ISA #include #endif #ifdef EVDEV_SUPPORT #include #include #endif #include #include /* * Driver specific options: the following options may be set by * `options' statements in the kernel configuration file. */ /* debugging */ #ifndef PSM_DEBUG #define PSM_DEBUG 0 /* * logging: 0: none, 1: brief, 2: verbose * 3: sync errors, 4: all packets */ #endif #define VLOG(level, args) do { \ if (verbose >= level) \ log args; \ } while (0) #define VDLOG(level, ...) do { \ if (verbose >= level) \ device_log(__VA_ARGS__); \ } while (0) #ifndef PSM_INPUT_TIMEOUT #define PSM_INPUT_TIMEOUT 2000000 /* 2 sec */ #endif #ifndef PSM_TAP_TIMEOUT #define PSM_TAP_TIMEOUT 125000 #endif #ifndef PSM_TAP_THRESHOLD #define PSM_TAP_THRESHOLD 25 #endif /* end of driver specific options */ #define PSMCPNP_DRIVER_NAME "psmcpnp" struct psmcpnp_softc { enum { PSMCPNP_GENERIC, PSMCPNP_FORCEPAD, PSMCPNP_TOPBUTTONPAD, } type; /* Based on PnP ID */ }; /* input queue */ #define PSM_BUFSIZE 960 #define PSM_SMALLBUFSIZE 240 /* operation levels */ #define PSM_LEVEL_BASE 0 #define PSM_LEVEL_STANDARD 1 #define PSM_LEVEL_NATIVE 2 #define PSM_LEVEL_MIN PSM_LEVEL_BASE #define PSM_LEVEL_MAX PSM_LEVEL_NATIVE /* Active PS/2 multiplexing */ #define PSM_NOMUX (-1) /* Logitech PS2++ protocol */ #define MOUSE_PS2PLUS_CHECKBITS(b) \ ((((b[2] & 0x03) << 2) | 0x02) == (b[1] & 0x0f)) #define MOUSE_PS2PLUS_PACKET_TYPE(b) \ (((b[0] & 0x30) >> 2) | ((b[1] & 0x30) >> 4)) /* ring buffer */ typedef struct ringbuf { int count; /* # of valid elements in the buffer */ int head; /* head pointer */ int tail; /* tail poiner */ u_char buf[PSM_BUFSIZE]; } ringbuf_t; /* data buffer */ typedef struct packetbuf { u_char ipacket[16]; /* interim input buffer */ int inputbytes; /* # of bytes in the input buffer */ } packetbuf_t; #ifndef PSM_PACKETQUEUE #define PSM_PACKETQUEUE 128 #endif /* * Synaptics command definitions. */ #define SYNAPTICS_READ_IDENTITY 0x00 #define SYNAPTICS_READ_MODES 0x01 #define SYNAPTICS_READ_CAPABILITIES 0x02 #define SYNAPTICS_READ_MODEL_ID 0x03 #define SYNAPTICS_READ_SERIAL_PREFIX 0x06 #define SYNAPTICS_READ_SERIAL_SUFFIX 0x07 #define SYNAPTICS_READ_RESOLUTIONS 0x08 #define SYNAPTICS_READ_EXTENDED 0x09 #define SYNAPTICS_READ_CAPABILITIES_CONT 0x0c #define SYNAPTICS_READ_MAX_COORDS 0x0d #define SYNAPTICS_READ_DELUXE_LED 0x0e #define SYNAPTICS_READ_MIN_COORDS 0x0f typedef struct synapticsinfo { struct sysctl_ctx_list sysctl_ctx; struct sysctl_oid *sysctl_tree; int directional_scrolls; int two_finger_scroll; int min_pressure; int max_pressure; int max_width; int margin_top; int margin_right; int margin_bottom; int margin_left; int na_top; int na_right; int na_bottom; int na_left; int window_min; int window_max; int multiplicator; int weight_current; int weight_previous; int weight_previous_na; int weight_len_squared; int div_min; int div_max; int div_max_na; int div_len; int tap_max_delta; int tap_min_queue; int taphold_timeout; int vscroll_ver_area; int vscroll_hor_area; int vscroll_min_delta; int vscroll_div_min; int vscroll_div_max; int touchpad_off; int softbuttons_y; int softbutton2_x; int softbutton3_x; int max_x; int max_y; int three_finger_drag; int natural_scroll; } synapticsinfo_t; typedef struct synapticspacket { int x; int y; } synapticspacket_t; #define SYNAPTICS_PACKETQUEUE 10 #define SYNAPTICS_QUEUE_CURSOR(x) \ (x + SYNAPTICS_PACKETQUEUE) % SYNAPTICS_PACKETQUEUE #define SYNAPTICS_VERSION_GE(synhw, major, minor) \ ((synhw).infoMajor > (major) || \ ((synhw).infoMajor == (major) && (synhw).infoMinor >= (minor))) typedef struct smoother { synapticspacket_t queue[SYNAPTICS_PACKETQUEUE]; int queue_len; int queue_cursor; int start_x; int start_y; int avg_dx; int avg_dy; int squelch_x; int squelch_y; int is_fuzzy; int active; } smoother_t; typedef struct gesture { int window_min; int fingers_nb; int tap_button; int in_taphold; int in_vscroll; int zmax; /* maximum pressure value */ struct timeval taptimeout; /* tap timeout for touchpads */ } gesture_t; enum { TRACKPOINT_SYSCTL_SENSITIVITY, TRACKPOINT_SYSCTL_NEGATIVE_INERTIA, TRACKPOINT_SYSCTL_UPPER_PLATEAU, TRACKPOINT_SYSCTL_BACKUP_RANGE, TRACKPOINT_SYSCTL_DRAG_HYSTERESIS, TRACKPOINT_SYSCTL_MINIMUM_DRAG, TRACKPOINT_SYSCTL_UP_THRESHOLD, TRACKPOINT_SYSCTL_THRESHOLD, TRACKPOINT_SYSCTL_JENKS_CURVATURE, TRACKPOINT_SYSCTL_Z_TIME, TRACKPOINT_SYSCTL_PRESS_TO_SELECT, TRACKPOINT_SYSCTL_SKIP_BACKUPS }; typedef struct trackpointinfo { struct sysctl_ctx_list sysctl_ctx; struct sysctl_oid *sysctl_tree; int sensitivity; int inertia; int uplateau; int reach; int draghys; int mindrag; int upthresh; int threshold; int jenks; int ztime; int pts; int skipback; } trackpointinfo_t; typedef struct finger { int x; int y; int p; int w; int flags; } finger_t; #define PSM_FINGERS 2 /* # of processed fingers */ #define PSM_FINGER_IS_PEN (1<<0) #define PSM_FINGER_FUZZY (1<<1) #define PSM_FINGER_DEFAULT_P tap_threshold #define PSM_FINGER_DEFAULT_W 1 #define PSM_FINGER_IS_SET(f) ((f).x != -1 && (f).y != -1 && (f).p != 0) #define PSM_FINGER_RESET(f) do { \ (f) = (finger_t) { .x = -1, .y = -1, .p = 0, .w = 0, .flags = 0 }; \ } while (0) typedef struct elantechhw { int hwversion; int fwversion; int sizex; int sizey; int dpmmx; int dpmmy; int ntracesx; int ntracesy; int dptracex; int dptracey; int issemimt; int isclickpad; int hascrc; int hastrackpoint; int haspressure; } elantechhw_t; /* minimum versions supported by this driver */ #define ELANTECH_HW_IS_V1(fwver) ((fwver) < 0x020030 || (fwver) == 0x020600) #define ELANTECH_MAGIC(magic) \ ((magic)[0] == 0x3c && (magic)[1] == 0x03 && \ ((magic)[2] == 0xc8 || (magic)[2] == 0x00)) #define ELANTECH_FW_ID 0x00 #define ELANTECH_FW_VERSION 0x01 #define ELANTECH_CAPABILITIES 0x02 #define ELANTECH_SAMPLE 0x03 #define ELANTECH_RESOLUTION 0x04 #define ELANTECH_REG_READ 0x10 #define ELANTECH_REG_WRITE 0x11 #define ELANTECH_REG_RDWR 0x00 #define ELANTECH_CUSTOM_CMD 0xf8 #ifdef EVDEV_SUPPORT #define ELANTECH_MAX_FINGERS 5 #else #define ELANTECH_MAX_FINGERS PSM_FINGERS #endif #define ELANTECH_FINGER_MAX_P 255 #define ELANTECH_FINGER_MAX_W 15 #define ELANTECH_FINGER_SET_XYP(pb) (finger_t) { \ .x = (((pb)->ipacket[1] & 0x0f) << 8) | (pb)->ipacket[2], \ .y = (((pb)->ipacket[4] & 0x0f) << 8) | (pb)->ipacket[5], \ .p = ((pb)->ipacket[1] & 0xf0) | (((pb)->ipacket[4] >> 4) & 0x0f), \ .w = PSM_FINGER_DEFAULT_W, \ .flags = 0 \ } enum { ELANTECH_PKT_NOP, ELANTECH_PKT_TRACKPOINT, ELANTECH_PKT_V2_COMMON, ELANTECH_PKT_V2_2FINGER, ELANTECH_PKT_V3, ELANTECH_PKT_V4_STATUS, ELANTECH_PKT_V4_HEAD, ELANTECH_PKT_V4_MOTION }; #define ELANTECH_PKT_IS_TRACKPOINT(pb) (((pb)->ipacket[3] & 0x0f) == 0x06) #define ELANTECH_PKT_IS_DEBOUNCE(pb, hwversion) ((hwversion) == 4 ? 0 : \ (pb)->ipacket[0] == ((hwversion) == 2 ? 0x84 : 0xc4) && \ (pb)->ipacket[1] == 0xff && (pb)->ipacket[2] == 0xff && \ (pb)->ipacket[3] == 0x02 && (pb)->ipacket[4] == 0xff && \ (pb)->ipacket[5] == 0xff) #define ELANTECH_PKT_IS_V2(pb) \ (((pb)->ipacket[0] & 0x0c) == 0x04 && ((pb)->ipacket[3] & 0x0f) == 0x02) #define ELANTECH_PKT_IS_V3_HEAD(pb, hascrc) ((hascrc) ? \ ((pb)->ipacket[3] & 0x09) == 0x08 : \ ((pb)->ipacket[0] & 0x0c) == 0x04 && ((pb)->ipacket[3] & 0xcf) == 0x02) #define ELANTECH_PKT_IS_V3_TAIL(pb, hascrc) ((hascrc) ? \ ((pb)->ipacket[3] & 0x09) == 0x09 : \ ((pb)->ipacket[0] & 0x0c) == 0x0c && ((pb)->ipacket[3] & 0xce) == 0x0c) #define ELANTECH_PKT_IS_V4(pb, hascrc) ((hascrc) ? \ ((pb)->ipacket[3] & 0x08) == 0x00 : \ ((pb)->ipacket[0] & 0x0c) == 0x04 && ((pb)->ipacket[3] & 0x1c) == 0x10) typedef struct elantechaction { finger_t fingers[ELANTECH_MAX_FINGERS]; int mask; int mask_v4wait; } elantechaction_t; /* driver control block */ struct psm_softc { /* Driver status information */ device_t dev; struct selinfo rsel; /* Process selecting for Input */ u_char state; /* Mouse driver state */ int config; /* driver configuration flags */ int flags; /* other flags */ KBDC kbdc; /* handle to access kbd controller */ struct resource *intr; /* IRQ resource */ void *ih; /* interrupt handle */ mousehw_t hw; /* hardware information */ synapticshw_t synhw; /* Synaptics hardware information */ synapticsinfo_t syninfo; /* Synaptics configuration */ smoother_t smoother[PSM_FINGERS]; /* Motion smoothing */ gesture_t gesture; /* Gesture context */ elantechhw_t elanhw; /* Elantech hardware information */ elantechaction_t elanaction; /* Elantech action context */ int tphw; /* TrackPoint hardware information */ trackpointinfo_t tpinfo; /* TrackPoint configuration */ mousemode_t mode; /* operation mode */ mousemode_t dflt_mode; /* default operation mode */ mousestatus_t status; /* accumulated mouse movement */ ringbuf_t queue; /* mouse status queue */ packetbuf_t pqueue[PSM_PACKETQUEUE]; /* mouse data queue */ int pqueue_start; /* start of data in queue */ int pqueue_end; /* end of data in queue */ int button; /* the latest button state */ int xold; /* previous absolute X position */ int yold; /* previous absolute Y position */ int xaverage; /* average X position */ int yaverage; /* average Y position */ int squelch; /* level to filter movement at low speed */ int syncerrors; /* # of bytes discarded to synchronize */ int pkterrors; /* # of packets failed during quaranteen. */ int fpcount; /* forcePad valid packet counter */ struct timeval inputtimeout; struct timeval lastsoftintr; /* time of last soft interrupt */ struct timeval lastinputerr; /* time last sync error happened */ struct timeval idletimeout; packetbuf_t idlepacket; /* packet to send after idle timeout */ int watchdog; /* watchdog timer flag */ struct callout callout; /* watchdog timer call out */ struct callout softcallout; /* buffer timer call out */ struct cdev *cdev; struct cdev *bdev; int lasterr; int cmdcount; struct sigio *async; /* Processes waiting for SIGIO */ int extended_buttons; int muxport; /* MUX port with attached Synaptics */ u_char muxsave[3]; /* 3->6 byte proto conversion buffer */ int muxtpbuttons; /* Touchpad button state */ int muxmsbuttons; /* Mouse (trackpoint) button state */ struct timeval muxmidtimeout; /* middle button supression timeout */ int muxsinglesyna; /* Probe result of single Synaptics */ #ifdef EVDEV_SUPPORT struct evdev_dev *evdev_a; /* Absolute reporting device */ struct evdev_dev *evdev_r; /* Relative reporting device */ #endif }; /* driver state flags (state) */ #define PSM_VALID 0x80 #define PSM_OPEN 1 /* Device is open */ #define PSM_ASLP 2 /* Waiting for mouse data */ #define PSM_SOFTARMED 4 /* Software interrupt armed */ #define PSM_NEED_SYNCBITS 8 /* Set syncbits using next data pkt */ #define PSM_EV_OPEN_R 0x10 /* Relative evdev device is open */ #define PSM_EV_OPEN_A 0x20 /* Absolute evdev device is open */ /* driver configuration flags (config) */ #define PSM_CONFIG_RESOLUTION 0x000f /* resolution */ #define PSM_CONFIG_ACCEL 0x00f0 /* acceleration factor */ #define PSM_CONFIG_NOCHECKSYNC 0x0100 /* disable sync. test */ #define PSM_CONFIG_NOIDPROBE 0x0200 /* disable mouse model probe */ #define PSM_CONFIG_NORESET 0x0400 /* don't reset the mouse */ #define PSM_CONFIG_FORCETAP 0x0800 /* assume `tap' action exists */ #define PSM_CONFIG_IGNPORTERROR 0x1000 /* ignore error in aux port test */ #define PSM_CONFIG_HOOKRESUME 0x2000 /* hook the system resume event */ #define PSM_CONFIG_INITAFTERSUSPEND 0x4000 /* init the device at the resume event */ #define PSM_CONFIG_FLAGS \ (PSM_CONFIG_RESOLUTION | \ PSM_CONFIG_ACCEL | \ PSM_CONFIG_NOCHECKSYNC | \ PSM_CONFIG_NOIDPROBE | \ PSM_CONFIG_NORESET | \ PSM_CONFIG_FORCETAP | \ PSM_CONFIG_IGNPORTERROR | \ PSM_CONFIG_HOOKRESUME | \ PSM_CONFIG_INITAFTERSUSPEND) /* other flags (flags) */ #define PSM_FLAGS_FINGERDOWN 0x0001 /* VersaPad finger down */ #define kbdcp(p) ((atkbdc_softc_t *)(p)) #define ALWAYS_RESTORE_CONTROLLER(kbdc) !(kbdcp(kbdc)->quirks \ & KBDC_QUIRK_KEEP_ACTIVATED) /* Tunables */ static int tap_enabled = -1; static int verbose = PSM_DEBUG; static int synaptics_support = 1; static int trackpoint_support = 1; static int elantech_support = 1; static int mux_disabled = -1; /* for backward compatibility */ #define OLD_MOUSE_GETHWINFO _IOR('M', 1, old_mousehw_t) #define OLD_MOUSE_GETMODE _IOR('M', 2, old_mousemode_t) #define OLD_MOUSE_SETMODE _IOW('M', 3, old_mousemode_t) typedef struct old_mousehw { int buttons; int iftype; int type; int hwid; } old_mousehw_t; typedef struct old_mousemode { int protocol; int rate; int resolution; int accelfactor; } old_mousemode_t; #define SYN_OFFSET(field) offsetof(struct psm_softc, syninfo.field) enum { SYNAPTICS_SYSCTL_MIN_PRESSURE = SYN_OFFSET(min_pressure), SYNAPTICS_SYSCTL_MAX_PRESSURE = SYN_OFFSET(max_pressure), SYNAPTICS_SYSCTL_MAX_WIDTH = SYN_OFFSET(max_width), SYNAPTICS_SYSCTL_MARGIN_TOP = SYN_OFFSET(margin_top), SYNAPTICS_SYSCTL_MARGIN_RIGHT = SYN_OFFSET(margin_right), SYNAPTICS_SYSCTL_MARGIN_BOTTOM = SYN_OFFSET(margin_bottom), SYNAPTICS_SYSCTL_MARGIN_LEFT = SYN_OFFSET(margin_left), SYNAPTICS_SYSCTL_NA_TOP = SYN_OFFSET(na_top), SYNAPTICS_SYSCTL_NA_RIGHT = SYN_OFFSET(na_right), SYNAPTICS_SYSCTL_NA_BOTTOM = SYN_OFFSET(na_bottom), SYNAPTICS_SYSCTL_NA_LEFT = SYN_OFFSET(na_left), SYNAPTICS_SYSCTL_WINDOW_MIN = SYN_OFFSET(window_min), SYNAPTICS_SYSCTL_WINDOW_MAX = SYN_OFFSET(window_max), SYNAPTICS_SYSCTL_MULTIPLICATOR = SYN_OFFSET(multiplicator), SYNAPTICS_SYSCTL_WEIGHT_CURRENT = SYN_OFFSET(weight_current), SYNAPTICS_SYSCTL_WEIGHT_PREVIOUS = SYN_OFFSET(weight_previous), SYNAPTICS_SYSCTL_WEIGHT_PREVIOUS_NA = SYN_OFFSET(weight_previous_na), SYNAPTICS_SYSCTL_WEIGHT_LEN_SQUARED = SYN_OFFSET(weight_len_squared), SYNAPTICS_SYSCTL_DIV_MIN = SYN_OFFSET(div_min), SYNAPTICS_SYSCTL_DIV_MAX = SYN_OFFSET(div_max), SYNAPTICS_SYSCTL_DIV_MAX_NA = SYN_OFFSET(div_max_na), SYNAPTICS_SYSCTL_DIV_LEN = SYN_OFFSET(div_len), SYNAPTICS_SYSCTL_TAP_MAX_DELTA = SYN_OFFSET(tap_max_delta), SYNAPTICS_SYSCTL_TAP_MIN_QUEUE = SYN_OFFSET(tap_min_queue), SYNAPTICS_SYSCTL_TAPHOLD_TIMEOUT = SYN_OFFSET(taphold_timeout), SYNAPTICS_SYSCTL_VSCROLL_HOR_AREA = SYN_OFFSET(vscroll_hor_area), SYNAPTICS_SYSCTL_VSCROLL_VER_AREA = SYN_OFFSET(vscroll_ver_area), SYNAPTICS_SYSCTL_VSCROLL_MIN_DELTA = SYN_OFFSET(vscroll_min_delta), SYNAPTICS_SYSCTL_VSCROLL_DIV_MIN = SYN_OFFSET(vscroll_div_min), SYNAPTICS_SYSCTL_VSCROLL_DIV_MAX = SYN_OFFSET(vscroll_div_max), SYNAPTICS_SYSCTL_TOUCHPAD_OFF = SYN_OFFSET(touchpad_off), SYNAPTICS_SYSCTL_SOFTBUTTONS_Y = SYN_OFFSET(softbuttons_y), SYNAPTICS_SYSCTL_SOFTBUTTON2_X = SYN_OFFSET(softbutton2_x), SYNAPTICS_SYSCTL_SOFTBUTTON3_X = SYN_OFFSET(softbutton3_x), SYNAPTICS_SYSCTL_THREE_FINGER_DRAG = SYN_OFFSET(three_finger_drag), SYNAPTICS_SYSCTL_NATURAL_SCROLL = SYN_OFFSET(natural_scroll), #define SYNAPTICS_SYSCTL_LAST SYNAPTICS_SYSCTL_NATURAL_SCROLL }; /* packet formatting function */ typedef int packetfunc_t(struct psm_softc *, u_char *, int *, int, mousestatus_t *); /* function prototypes */ static void psmidentify(driver_t *, device_t); static int psmprobe(device_t); static int psmattach(device_t); static int psmdetach(device_t); static int psmresume(device_t); static d_open_t psm_cdev_open; static d_close_t psm_cdev_close; static d_read_t psmread; static d_write_t psmwrite; static d_ioctl_t psmioctl; static d_poll_t psmpoll; static int psmopen(struct psm_softc *); static int psmclose(struct psm_softc *); #ifdef EVDEV_SUPPORT static evdev_open_t psm_ev_open_r; static evdev_close_t psm_ev_close_r; static evdev_open_t psm_ev_open_a; static evdev_close_t psm_ev_close_a; #endif static int enable_aux_dev(KBDC); static int disable_aux_dev(KBDC); static int get_mouse_status(KBDC, int *, int, int); static int get_aux_id(KBDC); static int set_mouse_sampling_rate(KBDC, int); static int set_mouse_scaling(KBDC, int); static int set_mouse_resolution(KBDC, int); static int set_mouse_mode(KBDC); static int get_mouse_buttons(KBDC); static int is_a_mouse(int); static void recover_from_error(KBDC); static int restore_controller(KBDC, int); static int doinitialize(struct psm_softc *, mousemode_t *); static int doopen(struct psm_softc *, int); static int reinitialize(struct psm_softc *, int); static char *model_name(int); static void psmsoftintr(void *); static void psmsoftintridle(void *); static void psmintr(void *); static void psmtimeout(void *); static int timeelapsed(const struct timeval *, int, int, const struct timeval *); static void dropqueue(struct psm_softc *); static void flushpackets(struct psm_softc *); static void proc_mmanplus(struct psm_softc *, packetbuf_t *, mousestatus_t *, int *, int *, int *); static int proc_synaptics(struct psm_softc *, packetbuf_t *, mousestatus_t *, int *, int *, int *); static int proc_synaptics_mux(struct psm_softc *, packetbuf_t *); static void proc_versapad(struct psm_softc *, packetbuf_t *, mousestatus_t *, int *, int *, int *); static int proc_elantech(struct psm_softc *, packetbuf_t *, mousestatus_t *, int *, int *, int *); static int psmpalmdetect(struct psm_softc *, finger_t *, int); static void psmgestures(struct psm_softc *, finger_t *, int, mousestatus_t *); static void psmsmoother(struct psm_softc *, finger_t *, int, mousestatus_t *, int *, int *); static int tame_mouse(struct psm_softc *, packetbuf_t *, mousestatus_t *, u_char *); /* vendor specific features */ enum probearg { PROBE, REINIT }; typedef int probefunc_t(struct psm_softc *, enum probearg); static int mouse_id_proc1(KBDC, int, int, int *); static int mouse_ext_command(KBDC, int); static probefunc_t enable_groller; static probefunc_t enable_gmouse; static probefunc_t enable_aglide; static probefunc_t enable_kmouse; static probefunc_t enable_msexplorer; static probefunc_t enable_msintelli; static probefunc_t enable_4dmouse; static probefunc_t enable_4dplus; static probefunc_t enable_mmanplus; static probefunc_t enable_synaptics; static probefunc_t enable_synaptics_mux; static probefunc_t enable_single_synaptics_mux; static probefunc_t enable_trackpoint; static probefunc_t enable_versapad; static probefunc_t enable_elantech; static void set_trackpoint_parameters(struct psm_softc *sc); static void synaptics_passthrough_on(struct psm_softc *sc); static void synaptics_passthrough_off(struct psm_softc *sc); static int synaptics_preferred_mode(struct psm_softc *sc); static void synaptics_set_mode(struct psm_softc *sc, int mode_byte); static struct { int model; u_char syncmask; int packetsize; probefunc_t *probefunc; } vendortype[] = { /* * WARNING: the order of probe is very important. Don't mess it * unless you know what you are doing. */ { MOUSE_MODEL_SYNAPTICS, /* Synaptics + mouse on Active Mux */ 0x00, MOUSE_PS2_PACKETSIZE, enable_synaptics_mux }, { MOUSE_MODEL_SYNAPTICS, /* Single Synaptics on Active Mux */ 0xc0, MOUSE_SYNAPTICS_PACKETSIZE, enable_single_synaptics_mux }, { MOUSE_MODEL_NET, /* Genius NetMouse */ 0x08, MOUSE_PS2INTELLI_PACKETSIZE, enable_gmouse }, { MOUSE_MODEL_NETSCROLL, /* Genius NetScroll */ 0xc8, 6, enable_groller }, { MOUSE_MODEL_MOUSEMANPLUS, /* Logitech MouseMan+ */ 0x08, MOUSE_PS2_PACKETSIZE, enable_mmanplus }, { MOUSE_MODEL_EXPLORER, /* Microsoft IntelliMouse Explorer */ 0x08, MOUSE_PS2INTELLI_PACKETSIZE, enable_msexplorer }, { MOUSE_MODEL_4D, /* A4 Tech 4D Mouse */ 0x08, MOUSE_4D_PACKETSIZE, enable_4dmouse }, { MOUSE_MODEL_4DPLUS, /* A4 Tech 4D+ Mouse */ 0xc8, MOUSE_4DPLUS_PACKETSIZE, enable_4dplus }, { MOUSE_MODEL_SYNAPTICS, /* Synaptics Touchpad */ 0xc0, MOUSE_SYNAPTICS_PACKETSIZE, enable_synaptics }, { MOUSE_MODEL_ELANTECH, /* Elantech Touchpad */ 0x04, MOUSE_ELANTECH_PACKETSIZE, enable_elantech }, { MOUSE_MODEL_INTELLI, /* Microsoft IntelliMouse */ 0x08, MOUSE_PS2INTELLI_PACKETSIZE, enable_msintelli }, { MOUSE_MODEL_GLIDEPOINT, /* ALPS GlidePoint */ 0xc0, MOUSE_PS2_PACKETSIZE, enable_aglide }, { MOUSE_MODEL_THINK, /* Kensington ThinkingMouse */ 0x80, MOUSE_PS2_PACKETSIZE, enable_kmouse }, { MOUSE_MODEL_VERSAPAD, /* Interlink electronics VersaPad */ 0xe8, MOUSE_PS2VERSA_PACKETSIZE, enable_versapad }, { MOUSE_MODEL_TRACKPOINT, /* IBM/Lenovo TrackPoint */ 0xc0, MOUSE_PS2_PACKETSIZE, enable_trackpoint }, { MOUSE_MODEL_GENERIC, 0xc0, MOUSE_PS2_PACKETSIZE, NULL }, }; #define GENERIC_MOUSE_ENTRY (nitems(vendortype) - 1) /* device driver declarateion */ static device_method_t psm_methods[] = { /* Device interface */ DEVMETHOD(device_identify, psmidentify), DEVMETHOD(device_probe, psmprobe), DEVMETHOD(device_attach, psmattach), DEVMETHOD(device_detach, psmdetach), DEVMETHOD(device_resume, psmresume), { 0, 0 } }; static driver_t psm_driver = { PSM_DRIVER_NAME, psm_methods, sizeof(struct psm_softc), }; static struct cdevsw psm_cdevsw = { .d_version = D_VERSION, .d_flags = D_NEEDGIANT, .d_open = psm_cdev_open, .d_close = psm_cdev_close, .d_read = psmread, .d_write = psmwrite, .d_ioctl = psmioctl, .d_poll = psmpoll, .d_name = PSM_DRIVER_NAME, }; #ifdef EVDEV_SUPPORT static const struct evdev_methods psm_ev_methods_r = { .ev_open = psm_ev_open_r, .ev_close = psm_ev_close_r, }; static const struct evdev_methods psm_ev_methods_a = { .ev_open = psm_ev_open_a, .ev_close = psm_ev_close_a, }; #endif /* device I/O routines */ static int enable_aux_dev(KBDC kbdc) { int res; res = send_aux_command(kbdc, PSMC_ENABLE_DEV); VLOG(2, (LOG_DEBUG, "psm: ENABLE_DEV return code:%04x\n", res)); return (res == PSM_ACK); } static int disable_aux_dev(KBDC kbdc) { int res; res = send_aux_command(kbdc, PSMC_DISABLE_DEV); VLOG(2, (LOG_DEBUG, "psm: DISABLE_DEV return code:%04x\n", res)); return (res == PSM_ACK); } static int get_mouse_status(KBDC kbdc, int *status, int flag, int len) { int cmd; int res; int i; switch (flag) { case 0: default: cmd = PSMC_SEND_DEV_STATUS; break; case 1: cmd = PSMC_SEND_DEV_DATA; break; } empty_aux_buffer(kbdc, 5); res = send_aux_command(kbdc, cmd); VLOG(2, (LOG_DEBUG, "psm: SEND_AUX_DEV_%s return code:%04x\n", (flag == 1) ? "DATA" : "STATUS", res)); if (res != PSM_ACK) return (0); for (i = 0; i < len; ++i) { status[i] = read_aux_data(kbdc); if (status[i] < 0) break; } if (len >= 3) { for (; i < 3; ++i) status[i] = 0; VLOG(1, (LOG_DEBUG, "psm: %s %02x %02x %02x\n", (flag == 1) ? "data" : "status", status[0], status[1], status[2])); } return (i); } static int get_aux_id(KBDC kbdc) { int res; int id; empty_aux_buffer(kbdc, 5); res = send_aux_command(kbdc, PSMC_SEND_DEV_ID); VLOG(2, (LOG_DEBUG, "psm: SEND_DEV_ID return code:%04x\n", res)); if (res != PSM_ACK) return (-1); /* 10ms delay */ DELAY(10000); id = read_aux_data(kbdc); VLOG(2, (LOG_DEBUG, "psm: device ID: %04x\n", id)); return (id); } static int set_mouse_sampling_rate(KBDC kbdc, int rate) { int res; res = send_aux_command_and_data(kbdc, PSMC_SET_SAMPLING_RATE, rate); VLOG(2, (LOG_DEBUG, "psm: SET_SAMPLING_RATE (%d) %04x\n", rate, res)); return ((res == PSM_ACK) ? rate : -1); } static int set_mouse_scaling(KBDC kbdc, int scale) { int res; switch (scale) { case 1: default: scale = PSMC_SET_SCALING11; break; case 2: scale = PSMC_SET_SCALING21; break; } res = send_aux_command(kbdc, scale); VLOG(2, (LOG_DEBUG, "psm: SET_SCALING%s return code:%04x\n", (scale == PSMC_SET_SCALING21) ? "21" : "11", res)); return (res == PSM_ACK); } /* `val' must be 0 through PSMD_MAX_RESOLUTION */ static int set_mouse_resolution(KBDC kbdc, int val) { int res; res = send_aux_command_and_data(kbdc, PSMC_SET_RESOLUTION, val); VLOG(2, (LOG_DEBUG, "psm: SET_RESOLUTION (%d) %04x\n", val, res)); return ((res == PSM_ACK) ? val : -1); } /* * NOTE: once `set_mouse_mode()' is called, the mouse device must be * re-enabled by calling `enable_aux_dev()' */ static int set_mouse_mode(KBDC kbdc) { int res; res = send_aux_command(kbdc, PSMC_SET_STREAM_MODE); VLOG(2, (LOG_DEBUG, "psm: SET_STREAM_MODE return code:%04x\n", res)); return (res == PSM_ACK); } static int get_mouse_buttons(KBDC kbdc) { int c = 2; /* assume two buttons by default */ int status[3]; /* * NOTE: a special sequence to obtain Logitech Mouse specific * information: set resolution to 25 ppi, set scaling to 1:1, set * scaling to 1:1, set scaling to 1:1. Then the second byte of the * mouse status bytes is the number of available buttons. * Some manufactures also support this sequence. */ if (set_mouse_resolution(kbdc, PSMD_RES_LOW) != PSMD_RES_LOW) return (c); if (set_mouse_scaling(kbdc, 1) && set_mouse_scaling(kbdc, 1) && set_mouse_scaling(kbdc, 1) && get_mouse_status(kbdc, status, 0, 3) >= 3 && status[1] != 0) return (status[1]); return (c); } /* misc subroutines */ /* * Someday, I will get the complete list of valid pointing devices and * their IDs... XXX */ static int is_a_mouse(int id) { #if 0 static int valid_ids[] = { PSM_MOUSE_ID, /* mouse */ PSM_BALLPOINT_ID, /* ballpoint device */ PSM_INTELLI_ID, /* Intellimouse */ PSM_EXPLORER_ID, /* Intellimouse Explorer */ -1 /* end of table */ }; int i; for (i = 0; valid_ids[i] >= 0; ++i) if (valid_ids[i] == id) return (TRUE); return (FALSE); #else return (TRUE); #endif } static char * model_name(int model) { static struct { int model_code; char *model_name; } models[] = { { MOUSE_MODEL_NETSCROLL, "NetScroll" }, { MOUSE_MODEL_NET, "NetMouse/NetScroll Optical" }, { MOUSE_MODEL_GLIDEPOINT, "GlidePoint" }, { MOUSE_MODEL_THINK, "ThinkingMouse" }, { MOUSE_MODEL_INTELLI, "IntelliMouse" }, { MOUSE_MODEL_MOUSEMANPLUS, "MouseMan+" }, { MOUSE_MODEL_VERSAPAD, "VersaPad" }, { MOUSE_MODEL_EXPLORER, "IntelliMouse Explorer" }, { MOUSE_MODEL_4D, "4D Mouse" }, { MOUSE_MODEL_4DPLUS, "4D+ Mouse" }, { MOUSE_MODEL_SYNAPTICS, "Synaptics Touchpad" }, { MOUSE_MODEL_TRACKPOINT, "IBM/Lenovo TrackPoint" }, { MOUSE_MODEL_ELANTECH, "Elantech Touchpad" }, { MOUSE_MODEL_GENERIC, "Generic PS/2 mouse" }, { MOUSE_MODEL_UNKNOWN, "Unknown" }, }; int i; for (i = 0; models[i].model_code != MOUSE_MODEL_UNKNOWN; ++i) if (models[i].model_code == model) break; return (models[i].model_name); } static void recover_from_error(KBDC kbdc) { /* discard anything left in the output buffer */ empty_both_buffers(kbdc, 10); #if 0 /* * NOTE: KBDC_RESET_KBD may not restore the communication between the * keyboard and the controller. */ reset_kbd(kbdc); #else /* * NOTE: somehow diagnostic and keyboard port test commands bring the * keyboard back. */ if (!test_controller(kbdc)) log(LOG_ERR, "psm: keyboard controller failed.\n"); /* if there isn't a keyboard in the system, the following error is OK */ if (test_kbd_port(kbdc) != 0) VLOG(1, (LOG_ERR, "psm: keyboard port failed.\n")); #endif } static int restore_controller(KBDC kbdc, int command_byte) { empty_both_buffers(kbdc, 10); if (!set_controller_command_byte(kbdc, 0xff, command_byte)) { log(LOG_ERR, "psm: failed to restore the keyboard controller " "command byte.\n"); empty_both_buffers(kbdc, 10); return (FALSE); } else { empty_both_buffers(kbdc, 10); return (TRUE); } } /* * Re-initialize the aux port and device. The aux port must be enabled * and its interrupt must be disabled before calling this routine. * The aux device will be disabled before returning. * The keyboard controller must be locked via `kbdc_lock()' before * calling this routine. */ static int doinitialize(struct psm_softc *sc, mousemode_t *mode) { KBDC kbdc = sc->kbdc; int stat[3]; int i; switch((i = test_aux_port(kbdc))) { case 1: /* ignore these errors */ case 2: case 3: case PSM_ACK: if (verbose) device_log(sc->dev, LOG_DEBUG, "strange result for test aux port (%d).\n", i); /* FALLTHROUGH */ case 0: /* no error */ break; case -1: /* time out */ default: /* error */ recover_from_error(kbdc); if (sc->config & PSM_CONFIG_IGNPORTERROR) break; device_log(sc->dev, LOG_ERR, "the aux port is not functioning (%d).\n", i); return (FALSE); } if (sc->config & PSM_CONFIG_NORESET) { /* * Don't try to reset the pointing device. It may possibly * be left in the unknown state, though... */ } else { /* * NOTE: some controllers appears to hang the `keyboard' when * the aux port doesn't exist and `PSMC_RESET_DEV' is issued. */ if (!reset_aux_dev(kbdc)) { recover_from_error(kbdc); device_log(sc->dev, LOG_ERR, "failed to reset the aux device.\n"); return (FALSE); } } /* * both the aux port and the aux device is functioning, see * if the device can be enabled. */ if (!enable_aux_dev(kbdc) || !disable_aux_dev(kbdc)) { device_log(sc->dev, LOG_ERR, "failed to enable the aux device.\n"); return (FALSE); } empty_both_buffers(kbdc, 10); /* remove stray data if any */ /* Re-enable the mouse. */ for (i = 0; vendortype[i].probefunc != NULL; ++i) if (vendortype[i].model == sc->hw.model) (*vendortype[i].probefunc)(sc, REINIT); /* set mouse parameters */ if (mode != (mousemode_t *)NULL) { if (mode->rate > 0) mode->rate = set_mouse_sampling_rate(kbdc, mode->rate); if (mode->resolution >= 0) mode->resolution = set_mouse_resolution(kbdc, mode->resolution); set_mouse_scaling(kbdc, 1); set_mouse_mode(kbdc); } /* Record sync on the next data packet we see. */ sc->flags |= PSM_NEED_SYNCBITS; /* just check the status of the mouse */ if (get_mouse_status(kbdc, stat, 0, 3) < 3) device_log(sc->dev, LOG_DEBUG, "failed to get status (doinitialize).\n"); return (TRUE); } static int doopen(struct psm_softc *sc, int command_byte) { int stat[3]; int mux_enabled = FALSE; /* * FIXME: Synaptics TouchPad seems to go back to Relative Mode with * no obvious reason. Thus we check the current mode and restore the * Absolute Mode if it was cleared. * * The previous hack at the end of psmprobe() wasn't efficient when * moused(8) was restarted. * * A Reset (FF) or Set Defaults (F6) command would clear the * Absolute Mode bit. But a verbose boot or debug.psm.loglevel=5 * doesn't show any evidence of such a command. */ if (sc->hw.model == MOUSE_MODEL_SYNAPTICS) { if (sc->muxport != PSM_NOMUX) { mux_enabled = enable_aux_mux(sc->kbdc) >= 0; if (mux_enabled) set_active_aux_mux_port(sc->kbdc, sc->muxport); else device_log(sc->dev, LOG_ERR, "failed to enable " "active multiplexing mode.\n"); } mouse_ext_command(sc->kbdc, SYNAPTICS_READ_MODES); get_mouse_status(sc->kbdc, stat, 0, 3); if ((SYNAPTICS_VERSION_GE(sc->synhw, 7, 5) || stat[1] == 0x47) && stat[2] == 0x40) { synaptics_set_mode(sc, synaptics_preferred_mode(sc)); VDLOG(5, sc->dev, LOG_DEBUG, "Synaptis Absolute Mode " "hopefully restored\n"); } if (mux_enabled) disable_aux_mux(sc->kbdc); } /* * A user may want to disable tap and drag gestures on a Synaptics * TouchPad when it operates in Relative Mode. */ if (sc->hw.model == MOUSE_MODEL_GENERIC) { if (tap_enabled > 0) { VDLOG(2, sc->dev, LOG_DEBUG, "enable tap and drag gestures\n"); synaptics_set_mode(sc, synaptics_preferred_mode(sc)); } else if (tap_enabled == 0) { VDLOG(2, sc->dev, LOG_DEBUG, "disable tap and drag gestures\n"); synaptics_set_mode(sc, synaptics_preferred_mode(sc)); } } /* enable the mouse device */ if (!enable_aux_dev(sc->kbdc)) { /* MOUSE ERROR: failed to enable the mouse because: * 1) the mouse is faulty, * 2) the mouse has been removed(!?) * In the latter case, the keyboard may have hung, and need * recovery procedure... */ recover_from_error(sc->kbdc); #if 0 /* FIXME: we could reset the mouse here and try to enable * it again. But it will take long time and it's not a good * idea to disable the keyboard that long... */ if (!doinitialize(sc, &sc->mode) || !enable_aux_dev(sc->kbdc)) { recover_from_error(sc->kbdc); #else { #endif restore_controller(sc->kbdc, command_byte); /* mark this device is no longer available */ sc->state &= ~PSM_VALID; device_log(sc->dev, LOG_ERR, "failed to enable the device (doopen).\n"); return (EIO); } } if (get_mouse_status(sc->kbdc, stat, 0, 3) < 3) device_log(sc->dev, LOG_DEBUG, "failed to get status (doopen).\n"); /* enable the aux port and interrupt */ if (!set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), (command_byte & KBD_KBD_CONTROL_BITS) | KBD_ENABLE_AUX_PORT | KBD_ENABLE_AUX_INT)) { /* CONTROLLER ERROR */ disable_aux_dev(sc->kbdc); restore_controller(sc->kbdc, command_byte); device_log(sc->dev, LOG_ERR, "failed to enable the aux interrupt (doopen).\n"); return (EIO); } /* start the watchdog timer */ sc->watchdog = FALSE; callout_reset(&sc->callout, hz * 2, psmtimeout, sc); return (0); } static int reinitialize(struct psm_softc *sc, int doinit) { int err; int c; int s; /* don't let anybody mess with the aux device */ if (!kbdc_lock(sc->kbdc, TRUE)) return (EIO); s = spltty(); /* block our watchdog timer */ sc->watchdog = FALSE; callout_stop(&sc->callout); /* save the current controller command byte */ empty_both_buffers(sc->kbdc, 10); c = get_controller_command_byte(sc->kbdc); VDLOG(2, sc->dev, LOG_DEBUG, "current command byte: %04x (reinitialize).\n", c); /* enable the aux port but disable the aux interrupt and the keyboard */ if ((c == -1) || !set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT | KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* CONTROLLER ERROR */ splx(s); kbdc_lock(sc->kbdc, FALSE); device_log(sc->dev, LOG_ERR, "unable to set the command byte (reinitialize).\n"); return (EIO); } /* flush any data */ if (sc->state & PSM_VALID) { /* this may fail; but never mind... */ disable_aux_dev(sc->kbdc); empty_aux_buffer(sc->kbdc, 10); } flushpackets(sc); sc->syncerrors = 0; sc->pkterrors = 0; memset(&sc->lastinputerr, 0, sizeof(sc->lastinputerr)); /* try to detect the aux device; are you still there? */ err = 0; if (doinit) { if (doinitialize(sc, &sc->mode)) { /* yes */ sc->state |= PSM_VALID; } else { /* the device has gone! */ restore_controller(sc->kbdc, c); sc->state &= ~PSM_VALID; device_log(sc->dev, LOG_ERR, "the aux device has gone! (reinitialize).\n"); err = ENXIO; } } splx(s); /* restore the driver state */ if ((sc->state & (PSM_OPEN | PSM_EV_OPEN_R | PSM_EV_OPEN_A)) && (err == 0)) { /* enable the aux device and the port again */ err = doopen(sc, c); if (err != 0) device_log(sc->dev, LOG_ERR, "failed to enable the device (reinitialize).\n"); } else { /* restore the keyboard port and disable the aux port */ if (!set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), (c & KBD_KBD_CONTROL_BITS) | KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* CONTROLLER ERROR */ device_log(sc->dev, LOG_ERR, "failed to disable the aux port (reinitialize).\n"); err = EIO; } } kbdc_lock(sc->kbdc, FALSE); return (err); } /* psm driver entry points */ static void psmidentify(driver_t *driver, device_t parent) { device_t psmc; device_t psm; u_long irq; int unit; unit = device_get_unit(parent); /* always add at least one child */ psm = BUS_ADD_CHILD(parent, KBDC_RID_AUX, driver->name, unit); if (psm == NULL) return; irq = bus_get_resource_start(psm, SYS_RES_IRQ, KBDC_RID_AUX); if (irq > 0) return; /* * If the PS/2 mouse device has already been reported by ACPI or * PnP BIOS, obtain the IRQ resource from it. * (See psmcpnp_attach() below.) */ psmc = device_find_child(device_get_parent(parent), PSMCPNP_DRIVER_NAME, unit); if (psmc == NULL) return; irq = bus_get_resource_start(psmc, SYS_RES_IRQ, 0); if (irq <= 0) return; bus_delete_resource(psmc, SYS_RES_IRQ, 0); bus_set_resource(psm, SYS_RES_IRQ, KBDC_RID_AUX, irq, 1); } #define endprobe(v) do { \ if (bootverbose) \ --verbose; \ kbdc_set_device_mask(sc->kbdc, mask); \ kbdc_lock(sc->kbdc, FALSE); \ return (v); \ } while (0) static int psmprobe(device_t dev) { struct psm_softc *sc = device_get_softc(dev); int stat[3]; int command_byte; int mask; int rid; int i; #if 0 kbdc_debug(TRUE); #endif /* see if IRQ is available */ rid = KBDC_RID_AUX; sc->intr = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid, RF_ACTIVE); if (sc->intr == NULL) { if (bootverbose) device_printf(dev, "unable to allocate IRQ\n"); return (ENXIO); } bus_release_resource(dev, SYS_RES_IRQ, rid, sc->intr); sc->dev = dev; sc->kbdc = atkbdc_open(device_get_unit(device_get_parent(dev))); if (sc->kbdc == NULL) return (ENXIO); sc->config = device_get_flags(dev) & PSM_CONFIG_FLAGS; /* XXX: for backward compatibility */ #if defined(PSM_HOOKRESUME) || defined(PSM_HOOKAPM) sc->config |= #ifdef PSM_RESETAFTERSUSPEND PSM_CONFIG_INITAFTERSUSPEND; #else PSM_CONFIG_HOOKRESUME; #endif #endif /* PSM_HOOKRESUME | PSM_HOOKAPM */ sc->flags = 0; sc->muxport = PSM_NOMUX; if (bootverbose) ++verbose; device_set_desc(dev, "PS/2 Mouse"); if (!kbdc_lock(sc->kbdc, TRUE)) { device_printf(dev, "unable to lock the controller.\n"); if (bootverbose) --verbose; return (ENXIO); } /* * NOTE: two bits in the command byte controls the operation of the * aux port (mouse port): the aux port disable bit (bit 5) and the aux * port interrupt (IRQ 12) enable bit (bit 2). */ /* discard anything left after the keyboard initialization */ empty_both_buffers(sc->kbdc, 10); /* save the current command byte; it will be used later */ mask = kbdc_get_device_mask(sc->kbdc) & ~KBD_AUX_CONTROL_BITS; command_byte = get_controller_command_byte(sc->kbdc); if (verbose) device_printf(dev, "current command byte:%04x\n", command_byte); if (command_byte == -1) { /* CONTROLLER ERROR */ device_printf(dev, "unable to get the current command byte value.\n"); endprobe(ENXIO); } /* * disable the keyboard port while probing the aux port, which must be * enabled during this routine */ if (!set_controller_command_byte(sc->kbdc, KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS, KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT | KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* * this is CONTROLLER ERROR; I don't know how to recover * from this error... */ if (ALWAYS_RESTORE_CONTROLLER(sc->kbdc)) restore_controller(sc->kbdc, command_byte); device_printf(dev, "unable to set the command byte.\n"); endprobe(ENXIO); } write_controller_command(sc->kbdc, KBDC_ENABLE_AUX_PORT); /* * NOTE: `test_aux_port()' is designed to return with zero if the aux * port exists and is functioning. However, some controllers appears * to respond with zero even when the aux port doesn't exist. (It may * be that this is only the case when the controller DOES have the aux * port but the port is not wired on the motherboard.) The keyboard * controllers without the port, such as the original AT, are * supposed to return with an error code or simply time out. In any * case, we have to continue probing the port even when the controller * passes this test. * * XXX: some controllers erroneously return the error code 1, 2 or 3 * when it has a perfectly functional aux port. We have to ignore * this error code. Even if the controller HAS error with the aux * port, it will be detected later... * XXX: another incompatible controller returns PSM_ACK (0xfa)... */ switch ((i = test_aux_port(sc->kbdc))) { case 1: /* ignore these errors */ case 2: case 3: case PSM_ACK: if (verbose) device_printf(dev, "strange result for test aux port " "(%d).\n", i); /* FALLTHROUGH */ case 0: /* no error */ break; case -1: /* time out */ default: /* error */ recover_from_error(sc->kbdc); if (sc->config & PSM_CONFIG_IGNPORTERROR) break; if (ALWAYS_RESTORE_CONTROLLER(sc->kbdc)) restore_controller(sc->kbdc, command_byte); if (verbose) device_printf(dev, "the aux port is not functioning (%d).\n", i); endprobe(ENXIO); } if (sc->config & PSM_CONFIG_NORESET) { /* * Don't try to reset the pointing device. It may possibly be * left in an unknown state, though... */ } else { /* * NOTE: some controllers appears to hang the `keyboard' when * the aux port doesn't exist and `PSMC_RESET_DEV' is issued. * * Attempt to reset the controller twice -- this helps * pierce through some KVM switches. The second reset * is non-fatal. */ if (!reset_aux_dev(sc->kbdc)) { recover_from_error(sc->kbdc); if (ALWAYS_RESTORE_CONTROLLER(sc->kbdc)) restore_controller(sc->kbdc, command_byte); if (verbose) device_printf(dev, "failed to reset the aux " "device.\n"); endprobe(ENXIO); } else if (!reset_aux_dev(sc->kbdc)) { recover_from_error(sc->kbdc); if (verbose >= 2) device_printf(dev, "failed to reset the aux " "device (2).\n"); } } /* * both the aux port and the aux device are functioning, see if the * device can be enabled. NOTE: when enabled, the device will start * sending data; we shall immediately disable the device once we know * the device can be enabled. */ if (!enable_aux_dev(sc->kbdc) || !disable_aux_dev(sc->kbdc)) { /* MOUSE ERROR */ recover_from_error(sc->kbdc); if (ALWAYS_RESTORE_CONTROLLER(sc->kbdc)) restore_controller(sc->kbdc, command_byte); if (verbose) device_printf(dev, "failed to enable the aux device.\n"); endprobe(ENXIO); } /* save the default values after reset */ if (get_mouse_status(sc->kbdc, stat, 0, 3) >= 3) { sc->dflt_mode.rate = sc->mode.rate = stat[2]; sc->dflt_mode.resolution = sc->mode.resolution = stat[1]; } else { sc->dflt_mode.rate = sc->mode.rate = -1; sc->dflt_mode.resolution = sc->mode.resolution = -1; } /* hardware information */ sc->hw.iftype = MOUSE_IF_PS2; /* verify the device is a mouse */ sc->hw.hwid = get_aux_id(sc->kbdc); if (!is_a_mouse(sc->hw.hwid)) { if (ALWAYS_RESTORE_CONTROLLER(sc->kbdc)) restore_controller(sc->kbdc, command_byte); if (verbose) device_printf(dev, "unknown device type (%d).\n", sc->hw.hwid); endprobe(ENXIO); } switch (sc->hw.hwid) { case PSM_BALLPOINT_ID: sc->hw.type = MOUSE_TRACKBALL; break; case PSM_MOUSE_ID: case PSM_INTELLI_ID: case PSM_EXPLORER_ID: case PSM_4DMOUSE_ID: case PSM_4DPLUS_ID: sc->hw.type = MOUSE_MOUSE; break; default: sc->hw.type = MOUSE_UNKNOWN; break; } if (sc->config & PSM_CONFIG_NOIDPROBE) { sc->hw.buttons = 2; i = GENERIC_MOUSE_ENTRY; } else { /* # of buttons */ sc->hw.buttons = get_mouse_buttons(sc->kbdc); /* other parameters */ for (i = 0; vendortype[i].probefunc != NULL; ++i) if ((*vendortype[i].probefunc)(sc, PROBE)) { if (verbose >= 2) device_printf(dev, "found %s\n", model_name(vendortype[i].model)); break; } } sc->hw.model = vendortype[i].model; sc->dflt_mode.level = PSM_LEVEL_BASE; sc->dflt_mode.packetsize = MOUSE_PS2_PACKETSIZE; sc->dflt_mode.accelfactor = (sc->config & PSM_CONFIG_ACCEL) >> 4; if (sc->config & PSM_CONFIG_NOCHECKSYNC) sc->dflt_mode.syncmask[0] = 0; else sc->dflt_mode.syncmask[0] = vendortype[i].syncmask; if (sc->config & PSM_CONFIG_FORCETAP) sc->dflt_mode.syncmask[0] &= ~MOUSE_PS2_TAP; sc->dflt_mode.syncmask[1] = 0; /* syncbits */ sc->mode = sc->dflt_mode; sc->mode.packetsize = vendortype[i].packetsize; /* set mouse parameters */ #if 0 /* * A version of Logitech FirstMouse+ won't report wheel movement, * if SET_DEFAULTS is sent... Don't use this command. * This fix was found by Takashi Nishida. */ i = send_aux_command(sc->kbdc, PSMC_SET_DEFAULTS); if (verbose >= 2) device_printf(dev, "SET_DEFAULTS return code:%04x\n", i); #endif if (sc->config & PSM_CONFIG_RESOLUTION) sc->mode.resolution = set_mouse_resolution(sc->kbdc, (sc->config & PSM_CONFIG_RESOLUTION) - 1); else if (sc->mode.resolution >= 0) sc->mode.resolution = set_mouse_resolution(sc->kbdc, sc->dflt_mode.resolution); if (sc->mode.rate > 0) sc->mode.rate = set_mouse_sampling_rate(sc->kbdc, sc->dflt_mode.rate); set_mouse_scaling(sc->kbdc, 1); /* Record sync on the next data packet we see. */ sc->flags |= PSM_NEED_SYNCBITS; /* just check the status of the mouse */ /* * NOTE: XXX there are some arcane controller/mouse combinations out * there, which hung the controller unless there is data transmission * after ACK from the mouse. */ if (get_mouse_status(sc->kbdc, stat, 0, 3) < 3) device_printf(dev, "failed to get status.\n"); else { /* * When in its native mode, some mice operate with different * default parameters than in the PS/2 compatible mode. */ sc->dflt_mode.rate = sc->mode.rate = stat[2]; sc->dflt_mode.resolution = sc->mode.resolution = stat[1]; } /* disable the aux port for now... */ if (!set_controller_command_byte(sc->kbdc, KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS, (command_byte & KBD_KBD_CONTROL_BITS) | KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* * this is CONTROLLER ERROR; I don't know the proper way to * recover from this error... */ if (ALWAYS_RESTORE_CONTROLLER(sc->kbdc)) restore_controller(sc->kbdc, command_byte); device_printf(dev, "unable to set the command byte.\n"); endprobe(ENXIO); } /* done */ kbdc_set_device_mask(sc->kbdc, mask | KBD_AUX_CONTROL_BITS); kbdc_lock(sc->kbdc, FALSE); return (0); } #ifdef EVDEV_SUPPORT /* Values are taken from Linux drivers for userland software compatibility */ #define PS2_MOUSE_VENDOR 0x0002 #define PS2_MOUSE_GENERIC_PRODUCT 0x0001 #define PS2_MOUSE_SYNAPTICS_NAME "SynPS/2 Synaptics TouchPad" #define PS2_MOUSE_SYNAPTICS_PRODUCT 0x0007 #define PS2_MOUSE_TRACKPOINT_NAME "TPPS/2 IBM TrackPoint" #define PS2_MOUSE_TRACKPOINT_PRODUCT 0x000A #define PS2_MOUSE_ELANTECH_NAME "ETPS/2 Elantech Touchpad" #define PS2_MOUSE_ELANTECH_ST_NAME "ETPS/2 Elantech TrackPoint" #define PS2_MOUSE_ELANTECH_PRODUCT 0x000E #define ABSINFO_END { ABS_CNT, 0, 0, 0 } static void psm_support_abs_bulk(struct evdev_dev *evdev, const uint16_t info[][4]) { size_t i; for (i = 0; info[i][0] != ABS_CNT; i++) evdev_support_abs(evdev, info[i][0], info[i][1], info[i][2], 0, 0, info[i][3]); } static void psm_push_mt_finger(struct psm_softc *sc, int id, const finger_t *f) { int y = sc->synhw.minimumYCoord + sc->synhw.maximumYCoord - f->y; evdev_push_abs(sc->evdev_a, ABS_MT_SLOT, id); evdev_push_abs(sc->evdev_a, ABS_MT_TRACKING_ID, id); evdev_push_abs(sc->evdev_a, ABS_MT_POSITION_X, f->x); evdev_push_abs(sc->evdev_a, ABS_MT_POSITION_Y, y); evdev_push_abs(sc->evdev_a, ABS_MT_PRESSURE, f->p); } static void psm_push_st_finger(struct psm_softc *sc, const finger_t *f) { int y = sc->synhw.minimumYCoord + sc->synhw.maximumYCoord - f->y; evdev_push_abs(sc->evdev_a, ABS_X, f->x); evdev_push_abs(sc->evdev_a, ABS_Y, y); evdev_push_abs(sc->evdev_a, ABS_PRESSURE, f->p); if (sc->synhw.capPalmDetect) evdev_push_abs(sc->evdev_a, ABS_TOOL_WIDTH, f->w); } static int psm_register(device_t dev, int model_code) { struct psm_softc *sc = device_get_softc(dev); struct evdev_dev *evdev_r; int error, i, nbuttons, nwheels, product; bool is_pointing_stick; const char *name; name = model_name(model_code); nbuttons = sc->hw.buttons; product = PS2_MOUSE_GENERIC_PRODUCT; nwheels = 0; is_pointing_stick = false; switch (model_code) { case MOUSE_MODEL_TRACKPOINT: name = PS2_MOUSE_TRACKPOINT_NAME; product = PS2_MOUSE_TRACKPOINT_PRODUCT; nbuttons = 3; is_pointing_stick = true; break; case MOUSE_MODEL_ELANTECH: name = PS2_MOUSE_ELANTECH_ST_NAME; product = PS2_MOUSE_ELANTECH_PRODUCT; nbuttons = 3; is_pointing_stick = true; break; case MOUSE_MODEL_MOUSEMANPLUS: case MOUSE_MODEL_4D: nwheels = 2; break; case MOUSE_MODEL_EXPLORER: case MOUSE_MODEL_INTELLI: case MOUSE_MODEL_NET: case MOUSE_MODEL_NETSCROLL: case MOUSE_MODEL_4DPLUS: nwheels = 1; break; } evdev_r = evdev_alloc(); evdev_set_name(evdev_r, name); evdev_set_phys(evdev_r, device_get_nameunit(dev)); evdev_set_id(evdev_r, BUS_I8042, PS2_MOUSE_VENDOR, product, 0); evdev_set_methods(evdev_r, sc, &psm_ev_methods_r); evdev_support_prop(evdev_r, INPUT_PROP_POINTER); if (is_pointing_stick) evdev_support_prop(evdev_r, INPUT_PROP_POINTING_STICK); evdev_support_event(evdev_r, EV_SYN); evdev_support_event(evdev_r, EV_KEY); evdev_support_event(evdev_r, EV_REL); evdev_support_rel(evdev_r, REL_X); evdev_support_rel(evdev_r, REL_Y); switch (nwheels) { case 2: evdev_support_rel(evdev_r, REL_HWHEEL); /* FALLTHROUGH */ case 1: evdev_support_rel(evdev_r, REL_WHEEL); } for (i = 0; i < nbuttons; i++) evdev_support_key(evdev_r, BTN_MOUSE + i); error = evdev_register_mtx(evdev_r, &Giant); if (error) evdev_free(evdev_r); else sc->evdev_r = evdev_r; return (error); } static int psm_register_synaptics(device_t dev) { struct psm_softc *sc = device_get_softc(dev); const uint16_t synaptics_absinfo_st[][4] = { { ABS_X, sc->synhw.minimumXCoord, sc->synhw.maximumXCoord, sc->synhw.infoXupmm }, { ABS_Y, sc->synhw.minimumYCoord, sc->synhw.maximumYCoord, sc->synhw.infoYupmm }, { ABS_PRESSURE, 0, ELANTECH_FINGER_MAX_P, 0 }, ABSINFO_END, }; const uint16_t synaptics_absinfo_mt[][4] = { { ABS_MT_SLOT, 0, PSM_FINGERS-1, 0}, { ABS_MT_TRACKING_ID, -1, PSM_FINGERS-1, 0}, { ABS_MT_POSITION_X, sc->synhw.minimumXCoord, sc->synhw.maximumXCoord, sc->synhw.infoXupmm }, { ABS_MT_POSITION_Y, sc->synhw.minimumYCoord, sc->synhw.maximumYCoord, sc->synhw.infoYupmm }, { ABS_MT_PRESSURE, 0, ELANTECH_FINGER_MAX_P, 0 }, ABSINFO_END, }; struct evdev_dev *evdev_a; int error, i, guest_model; evdev_a = evdev_alloc(); evdev_set_name(evdev_a, PS2_MOUSE_SYNAPTICS_NAME); evdev_set_phys(evdev_a, device_get_nameunit(dev)); evdev_set_id(evdev_a, BUS_I8042, PS2_MOUSE_VENDOR, PS2_MOUSE_SYNAPTICS_PRODUCT, 0); evdev_set_methods(evdev_a, sc, &psm_ev_methods_a); if (sc->synhw.capAdvancedGestures || sc->synhw.capReportsV) evdev_set_flag(evdev_a, EVDEV_FLAG_MT_AUTOREL); if (sc->synhw.capReportsV) evdev_set_flag(evdev_a, EVDEV_FLAG_MT_TRACK); evdev_support_event(evdev_a, EV_SYN); evdev_support_event(evdev_a, EV_KEY); evdev_support_event(evdev_a, EV_ABS); evdev_support_prop(evdev_a, INPUT_PROP_POINTER); if (sc->synhw.capAdvancedGestures) evdev_support_prop(evdev_a, INPUT_PROP_SEMI_MT); if (sc->synhw.capClickPad) evdev_support_prop(evdev_a, INPUT_PROP_BUTTONPAD); if (sc->synhw.capClickPad && sc->synhw.topButtonPad) evdev_support_prop(evdev_a, INPUT_PROP_TOPBUTTONPAD); evdev_support_key(evdev_a, BTN_TOUCH); evdev_support_nfingers(evdev_a, sc->synhw.capReportsV ? 5 : 3); psm_support_abs_bulk(evdev_a, synaptics_absinfo_st); if (sc->synhw.capAdvancedGestures || sc->synhw.capReportsV) psm_support_abs_bulk(evdev_a, synaptics_absinfo_mt); if (sc->synhw.capPalmDetect) evdev_support_abs(evdev_a, ABS_TOOL_WIDTH, 0, 15, 0, 0, 0); evdev_support_key(evdev_a, BTN_LEFT); if (!sc->synhw.capClickPad) { evdev_support_key(evdev_a, BTN_RIGHT); if (sc->synhw.capExtended && sc->synhw.capMiddle) evdev_support_key(evdev_a, BTN_MIDDLE); } if (sc->synhw.capExtended && sc->synhw.capFourButtons) { evdev_support_key(evdev_a, BTN_BACK); evdev_support_key(evdev_a, BTN_FORWARD); } if (sc->synhw.capExtended && (sc->synhw.nExtendedButtons > 0)) for (i = 0; i < sc->synhw.nExtendedButtons; i++) evdev_support_key(evdev_a, BTN_0 + i); error = evdev_register_mtx(evdev_a, &Giant); if (!error && (sc->synhw.capPassthrough || sc->muxport != PSM_NOMUX)) { guest_model = sc->tpinfo.sysctl_tree != NULL ? MOUSE_MODEL_TRACKPOINT : MOUSE_MODEL_GENERIC; error = psm_register(dev, guest_model); } if (error) evdev_free(evdev_a); else sc->evdev_a = evdev_a; return (error); } static int psm_register_elantech(device_t dev) { struct psm_softc *sc = device_get_softc(dev); const uint16_t elantech_absinfo[][4] = { { ABS_X, 0, sc->elanhw.sizex, sc->elanhw.dpmmx }, { ABS_Y, 0, sc->elanhw.sizey, sc->elanhw.dpmmy }, { ABS_PRESSURE, 0, ELANTECH_FINGER_MAX_P, 0 }, { ABS_TOOL_WIDTH, 0, ELANTECH_FINGER_MAX_W, 0 }, { ABS_MT_SLOT, 0, ELANTECH_MAX_FINGERS - 1, 0 }, { ABS_MT_TRACKING_ID, -1, ELANTECH_MAX_FINGERS - 1, 0 }, { ABS_MT_POSITION_X, 0, sc->elanhw.sizex, sc->elanhw.dpmmx }, { ABS_MT_POSITION_Y, 0, sc->elanhw.sizey, sc->elanhw.dpmmy }, { ABS_MT_PRESSURE, 0, ELANTECH_FINGER_MAX_P, 0 }, { ABS_MT_TOUCH_MAJOR, 0, ELANTECH_FINGER_MAX_W * sc->elanhw.dptracex, 0 }, ABSINFO_END, }; struct evdev_dev *evdev_a; int error; evdev_a = evdev_alloc(); evdev_set_name(evdev_a, PS2_MOUSE_ELANTECH_NAME); evdev_set_phys(evdev_a, device_get_nameunit(dev)); evdev_set_id(evdev_a, BUS_I8042, PS2_MOUSE_VENDOR, PS2_MOUSE_ELANTECH_PRODUCT, 0); evdev_set_methods(evdev_a, sc, &psm_ev_methods_a); evdev_set_flag(evdev_a, EVDEV_FLAG_MT_AUTOREL); evdev_support_event(evdev_a, EV_SYN); evdev_support_event(evdev_a, EV_KEY); evdev_support_event(evdev_a, EV_ABS); evdev_support_prop(evdev_a, INPUT_PROP_POINTER); if (sc->elanhw.issemimt) evdev_support_prop(evdev_a, INPUT_PROP_SEMI_MT); if (sc->elanhw.isclickpad) evdev_support_prop(evdev_a, INPUT_PROP_BUTTONPAD); evdev_support_key(evdev_a, BTN_TOUCH); evdev_support_nfingers(evdev_a, ELANTECH_MAX_FINGERS); evdev_support_key(evdev_a, BTN_LEFT); if (!sc->elanhw.isclickpad) evdev_support_key(evdev_a, BTN_RIGHT); psm_support_abs_bulk(evdev_a, elantech_absinfo); error = evdev_register_mtx(evdev_a, &Giant); if (!error && sc->elanhw.hastrackpoint) error = psm_register(dev, MOUSE_MODEL_ELANTECH); if (error) evdev_free(evdev_a); else sc->evdev_a = evdev_a; return (error); } #endif static int psmattach(device_t dev) { struct make_dev_args mda; int unit = device_get_unit(dev); struct psm_softc *sc = device_get_softc(dev); int error; int rid; /* Setup initial state */ sc->state = PSM_VALID; callout_init(&sc->callout, 0); callout_init(&sc->softcallout, 0); /* Setup our interrupt handler */ rid = KBDC_RID_AUX; sc->intr = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid, RF_ACTIVE); if (sc->intr == NULL) return (ENXIO); error = bus_setup_intr(dev, sc->intr, INTR_TYPE_TTY, NULL, psmintr, sc, &sc->ih); if (error) goto out; /* Done */ make_dev_args_init(&mda); mda.mda_devsw = &psm_cdevsw; mda.mda_mode = 0666; mda.mda_si_drv1 = sc; if ((error = make_dev_s(&mda, &sc->cdev, "psm%d", unit)) != 0) goto out; if ((error = make_dev_s(&mda, &sc->bdev, "bpsm%d", unit)) != 0) goto out; #ifdef EVDEV_SUPPORT switch (sc->hw.model) { case MOUSE_MODEL_SYNAPTICS: error = psm_register_synaptics(dev); break; case MOUSE_MODEL_ELANTECH: error = psm_register_elantech(dev); break; default: error = psm_register(dev, sc->hw.model); } if (error) goto out; #endif /* Some touchpad devices need full reinitialization after suspend. */ switch (sc->hw.model) { case MOUSE_MODEL_SYNAPTICS: case MOUSE_MODEL_GLIDEPOINT: case MOUSE_MODEL_VERSAPAD: case MOUSE_MODEL_ELANTECH: sc->config |= PSM_CONFIG_INITAFTERSUSPEND; break; default: if (sc->synhw.infoMajor >= 4 || sc->tphw > 0) sc->config |= PSM_CONFIG_INITAFTERSUSPEND; break; } /* Elantech trackpad`s sync bit differs from touchpad`s one */ if (sc->hw.model == MOUSE_MODEL_ELANTECH && (sc->elanhw.hascrc || sc->elanhw.hastrackpoint)) { sc->config |= PSM_CONFIG_NOCHECKSYNC; sc->flags &= ~PSM_NEED_SYNCBITS; } if (!verbose) device_printf(dev, "model %s, device ID %d\n", model_name(sc->hw.model), sc->hw.hwid & 0x00ff); else { device_printf(dev, "model %s, device ID %d-%02x, %d buttons\n", model_name(sc->hw.model), sc->hw.hwid & 0x00ff, sc->hw.hwid >> 8, sc->hw.buttons); device_printf(dev, "config:%08x, flags:%08x, packet size:%d\n", sc->config, sc->flags, sc->mode.packetsize); device_printf(dev, "syncmask:%02x, syncbits:%02x%s\n", sc->mode.syncmask[0], sc->mode.syncmask[1], sc->config & PSM_CONFIG_NOCHECKSYNC ? " (sync not checked)" : ""); } if (bootverbose) --verbose; out: if (error != 0) { bus_release_resource(dev, SYS_RES_IRQ, rid, sc->intr); if (sc->dev != NULL) destroy_dev(sc->cdev); if (sc->bdev != NULL) destroy_dev(sc->bdev); } return (error); } static int psmdetach(device_t dev) { struct psm_softc *sc; int rid; sc = device_get_softc(dev); if (sc->state & PSM_OPEN) return (EBUSY); #ifdef EVDEV_SUPPORT evdev_free(sc->evdev_r); evdev_free(sc->evdev_a); #endif rid = KBDC_RID_AUX; bus_teardown_intr(dev, sc->intr, sc->ih); bus_release_resource(dev, SYS_RES_IRQ, rid, sc->intr); destroy_dev(sc->cdev); destroy_dev(sc->bdev); callout_drain(&sc->callout); callout_drain(&sc->softcallout); return (0); } #ifdef EVDEV_SUPPORT static int psm_ev_open_r(struct evdev_dev *evdev) { struct psm_softc *sc = evdev_get_softc(evdev); int err = 0; /* Get device data */ if ((sc->state & PSM_VALID) == 0) { /* the device is no longer valid/functioning */ return (ENXIO); } if (!(sc->state & (PSM_OPEN | PSM_EV_OPEN_A))) err = psmopen(sc); if (err == 0) sc->state |= PSM_EV_OPEN_R; return (err); } static int psm_ev_close_r(struct evdev_dev *evdev) { struct psm_softc *sc = evdev_get_softc(evdev); int err = 0; sc->state &= ~PSM_EV_OPEN_R; if (sc->state & (PSM_OPEN | PSM_EV_OPEN_A)) return (0); if (sc->state & PSM_VALID) err = psmclose(sc); return (err); } static int psm_ev_open_a(struct evdev_dev *evdev) { struct psm_softc *sc = evdev_get_softc(evdev); int err = 0; /* Get device data */ if ((sc->state & PSM_VALID) == 0) { /* the device is no longer valid/functioning */ return (ENXIO); } if (!(sc->state & (PSM_OPEN | PSM_EV_OPEN_R))) err = psmopen(sc); if (err == 0) sc->state |= PSM_EV_OPEN_A; return (err); } static int psm_ev_close_a(struct evdev_dev *evdev) { struct psm_softc *sc = evdev_get_softc(evdev); int err = 0; sc->state &= ~PSM_EV_OPEN_A; if (sc->state & (PSM_OPEN | PSM_EV_OPEN_R)) return (0); if (sc->state & PSM_VALID) err = psmclose(sc); return (err); } #endif static int psm_cdev_open(struct cdev *dev, int flag, int fmt, struct thread *td) { struct psm_softc *sc; int err = 0; /* Get device data */ sc = dev->si_drv1; if ((sc == NULL) || (sc->state & PSM_VALID) == 0) { /* the device is no longer valid/functioning */ return (ENXIO); } /* Disallow multiple opens */ if (sc->state & PSM_OPEN) return (EBUSY); device_busy(sc->dev); #ifdef EVDEV_SUPPORT /* Already opened by evdev */ if (!(sc->state & (PSM_EV_OPEN_R | PSM_EV_OPEN_A))) #endif err = psmopen(sc); if (err == 0) sc->state |= PSM_OPEN; else device_unbusy(sc->dev); return (err); } static int psm_cdev_close(struct cdev *dev, int flag, int fmt, struct thread *td) { struct psm_softc *sc; int err = 0; /* Get device data */ sc = dev->si_drv1; if ((sc == NULL) || (sc->state & PSM_VALID) == 0) { /* the device is no longer valid/functioning */ return (ENXIO); } #ifdef EVDEV_SUPPORT /* Still opened by evdev */ if (!(sc->state & (PSM_EV_OPEN_R | PSM_EV_OPEN_A))) #endif err = psmclose(sc); if (err == 0) { sc->state &= ~PSM_OPEN; /* clean up and sigio requests */ if (sc->async != NULL) { funsetown(&sc->async); sc->async = NULL; } device_unbusy(sc->dev); } return (err); } static int psmopen(struct psm_softc *sc) { int command_byte; int err; int s; /* Initialize state */ sc->mode.level = sc->dflt_mode.level; sc->mode.protocol = sc->dflt_mode.protocol; sc->watchdog = FALSE; sc->async = NULL; /* flush the event queue */ sc->queue.count = 0; sc->queue.head = 0; sc->queue.tail = 0; sc->status.flags = 0; sc->status.button = 0; sc->status.obutton = 0; sc->status.dx = 0; sc->status.dy = 0; sc->status.dz = 0; sc->button = 0; sc->pqueue_start = 0; sc->pqueue_end = 0; /* empty input buffer */ flushpackets(sc); sc->syncerrors = 0; sc->pkterrors = 0; /* don't let timeout routines in the keyboard driver to poll the kbdc */ if (!kbdc_lock(sc->kbdc, TRUE)) return (EIO); /* save the current controller command byte */ s = spltty(); command_byte = get_controller_command_byte(sc->kbdc); /* enable the aux port and temporalily disable the keyboard */ if (command_byte == -1 || !set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT | KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* CONTROLLER ERROR; do you know how to get out of this? */ kbdc_lock(sc->kbdc, FALSE); splx(s); device_log(sc->dev, LOG_ERR, "unable to set the command byte (psmopen).\n"); return (EIO); } /* * Now that the keyboard controller is told not to generate * the keyboard and mouse interrupts, call `splx()' to allow * the other tty interrupts. The clock interrupt may also occur, * but timeout routines will be blocked by the poll flag set * via `kbdc_lock()' */ splx(s); /* enable the mouse device */ err = doopen(sc, command_byte); /* done */ kbdc_lock(sc->kbdc, FALSE); return (err); } static int psmclose(struct psm_softc *sc) { int stat[3]; int command_byte; int s; /* don't let timeout routines in the keyboard driver to poll the kbdc */ if (!kbdc_lock(sc->kbdc, TRUE)) return (EIO); /* save the current controller command byte */ s = spltty(); command_byte = get_controller_command_byte(sc->kbdc); if (command_byte == -1) { kbdc_lock(sc->kbdc, FALSE); splx(s); return (EIO); } /* disable the aux interrupt and temporalily disable the keyboard */ if (!set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT | KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { device_log(sc->dev, LOG_ERR, "failed to disable the aux int (psmclose).\n"); /* CONTROLLER ERROR; * NOTE: we shall force our way through. Because the only * ill effect we shall see is that we may not be able * to read ACK from the mouse, and it doesn't matter much * so long as the mouse will accept the DISABLE command. */ } splx(s); /* stop the watchdog timer */ callout_stop(&sc->callout); /* remove anything left in the output buffer */ empty_aux_buffer(sc->kbdc, 10); /* disable the aux device, port and interrupt */ if (sc->state & PSM_VALID) { if (!disable_aux_dev(sc->kbdc)) { /* MOUSE ERROR; * NOTE: we don't return (error) and continue, * pretending we have successfully disabled the device. * It's OK because the interrupt routine will discard * any data from the mouse hereafter. */ device_log(sc->dev, LOG_ERR, "failed to disable the device (psmclose).\n"); } if (get_mouse_status(sc->kbdc, stat, 0, 3) < 3) device_log(sc->dev, LOG_DEBUG, "failed to get status (psmclose).\n"); } if (!set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), (command_byte & KBD_KBD_CONTROL_BITS) | KBD_DISABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* * CONTROLLER ERROR; * we shall ignore this error; see the above comment. */ device_log(sc->dev, LOG_ERR, "failed to disable the aux port (psmclose).\n"); } /* remove anything left in the output buffer */ empty_aux_buffer(sc->kbdc, 10); /* close is almost always successful */ kbdc_lock(sc->kbdc, FALSE); return (0); } static int tame_mouse(struct psm_softc *sc, packetbuf_t *pb, mousestatus_t *status, u_char *buf) { static u_char butmapps2[8] = { 0, MOUSE_PS2_BUTTON1DOWN, MOUSE_PS2_BUTTON2DOWN, MOUSE_PS2_BUTTON1DOWN | MOUSE_PS2_BUTTON2DOWN, MOUSE_PS2_BUTTON3DOWN, MOUSE_PS2_BUTTON1DOWN | MOUSE_PS2_BUTTON3DOWN, MOUSE_PS2_BUTTON2DOWN | MOUSE_PS2_BUTTON3DOWN, MOUSE_PS2_BUTTON1DOWN | MOUSE_PS2_BUTTON2DOWN | MOUSE_PS2_BUTTON3DOWN, }; static u_char butmapmsc[8] = { MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP, MOUSE_MSC_BUTTON2UP, MOUSE_MSC_BUTTON1UP, 0, }; int mapped; int i; if (sc->mode.level == PSM_LEVEL_BASE) { mapped = status->button & ~MOUSE_BUTTON4DOWN; if (status->button & MOUSE_BUTTON4DOWN) mapped |= MOUSE_BUTTON1DOWN; status->button = mapped; buf[0] = MOUSE_PS2_SYNC | butmapps2[mapped & MOUSE_STDBUTTONS]; i = imax(imin(status->dx, 255), -256); if (i < 0) buf[0] |= MOUSE_PS2_XNEG; buf[1] = i; i = imax(imin(status->dy, 255), -256); if (i < 0) buf[0] |= MOUSE_PS2_YNEG; buf[2] = i; return (MOUSE_PS2_PACKETSIZE); } else if (sc->mode.level == PSM_LEVEL_STANDARD) { buf[0] = MOUSE_MSC_SYNC | butmapmsc[status->button & MOUSE_STDBUTTONS]; i = imax(imin(status->dx, 255), -256); buf[1] = i >> 1; buf[3] = i - buf[1]; i = imax(imin(status->dy, 255), -256); buf[2] = i >> 1; buf[4] = i - buf[2]; i = imax(imin(status->dz, 127), -128); buf[5] = (i >> 1) & 0x7f; buf[6] = (i - (i >> 1)) & 0x7f; buf[7] = (~status->button >> 3) & 0x7f; return (MOUSE_SYS_PACKETSIZE); } return (pb->inputbytes); } static int psmread(struct cdev *dev, struct uio *uio, int flag) { struct psm_softc *sc = dev->si_drv1; u_char buf[PSM_SMALLBUFSIZE]; int error = 0; int s; int l; if ((sc->state & PSM_VALID) == 0) return (EIO); /* block until mouse activity occurred */ s = spltty(); while (sc->queue.count <= 0) { if (dev != sc->bdev) { splx(s); return (EWOULDBLOCK); } sc->state |= PSM_ASLP; error = tsleep(sc, PZERO | PCATCH, "psmrea", 0); sc->state &= ~PSM_ASLP; if (error) { splx(s); return (error); } else if ((sc->state & PSM_VALID) == 0) { /* the device disappeared! */ splx(s); return (EIO); } } splx(s); /* copy data to the user land */ while ((sc->queue.count > 0) && (uio->uio_resid > 0)) { s = spltty(); l = imin(sc->queue.count, uio->uio_resid); if (l > sizeof(buf)) l = sizeof(buf); if (l > sizeof(sc->queue.buf) - sc->queue.head) { bcopy(&sc->queue.buf[sc->queue.head], &buf[0], sizeof(sc->queue.buf) - sc->queue.head); bcopy(&sc->queue.buf[0], &buf[sizeof(sc->queue.buf) - sc->queue.head], l - (sizeof(sc->queue.buf) - sc->queue.head)); } else bcopy(&sc->queue.buf[sc->queue.head], &buf[0], l); sc->queue.count -= l; sc->queue.head = (sc->queue.head + l) % sizeof(sc->queue.buf); splx(s); error = uiomove(buf, l, uio); if (error) break; } return (error); } static int block_mouse_data(struct psm_softc *sc, int *c) { int s; if (!kbdc_lock(sc->kbdc, TRUE)) return (EIO); s = spltty(); *c = get_controller_command_byte(sc->kbdc); if ((*c == -1) || !set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), KBD_DISABLE_KBD_PORT | KBD_DISABLE_KBD_INT | KBD_ENABLE_AUX_PORT | KBD_DISABLE_AUX_INT)) { /* this is CONTROLLER ERROR */ splx(s); kbdc_lock(sc->kbdc, FALSE); return (EIO); } /* * The device may be in the middle of status data transmission. * The transmission will be interrupted, thus, incomplete status * data must be discarded. Although the aux interrupt is disabled * at the keyboard controller level, at most one aux interrupt * may have already been pending and a data byte is in the * output buffer; throw it away. Note that the second argument * to `empty_aux_buffer()' is zero, so that the call will just * flush the internal queue. * `psmintr()' will be invoked after `splx()' if an interrupt is * pending; it will see no data and returns immediately. */ empty_aux_buffer(sc->kbdc, 0); /* flush the queue */ read_aux_data_no_wait(sc->kbdc); /* throw away data if any */ flushpackets(sc); splx(s); return (0); } static void dropqueue(struct psm_softc *sc) { sc->queue.count = 0; sc->queue.head = 0; sc->queue.tail = 0; if ((sc->state & PSM_SOFTARMED) != 0) { sc->state &= ~PSM_SOFTARMED; callout_stop(&sc->softcallout); } sc->pqueue_start = sc->pqueue_end; } static void flushpackets(struct psm_softc *sc) { dropqueue(sc); bzero(&sc->pqueue, sizeof(sc->pqueue)); } static int unblock_mouse_data(struct psm_softc *sc, int c) { int error = 0; /* * We may have seen a part of status data during `set_mouse_XXX()'. * they have been queued; flush it. */ empty_aux_buffer(sc->kbdc, 0); /* restore ports and interrupt */ if (!set_controller_command_byte(sc->kbdc, kbdc_get_device_mask(sc->kbdc), c & (KBD_KBD_CONTROL_BITS | KBD_AUX_CONTROL_BITS))) { /* * CONTROLLER ERROR; this is serious, we may have * been left with the inaccessible keyboard and * the disabled mouse interrupt. */ error = EIO; } kbdc_lock(sc->kbdc, FALSE); return (error); } static int psmwrite(struct cdev *dev, struct uio *uio, int flag) { struct psm_softc *sc = dev->si_drv1; u_char buf[PSM_SMALLBUFSIZE]; int error = 0, i, l; if ((sc->state & PSM_VALID) == 0) return (EIO); if (sc->mode.level < PSM_LEVEL_NATIVE) return (ENODEV); /* copy data from the user land */ while (uio->uio_resid > 0) { l = imin(PSM_SMALLBUFSIZE, uio->uio_resid); error = uiomove(buf, l, uio); if (error) break; for (i = 0; i < l; i++) { VDLOG(4, sc->dev, LOG_DEBUG, "cmd 0x%x\n", buf[i]); if (!write_aux_command(sc->kbdc, buf[i])) { VDLOG(2, sc->dev, LOG_DEBUG, "cmd 0x%x failed.\n", buf[i]); return (reinitialize(sc, FALSE)); } } } return (error); } static int psmioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td) { struct psm_softc *sc = dev->si_drv1; mousemode_t mode; mousestatus_t status; mousedata_t *data; int stat[3]; int command_byte; int error = 0; int s; /* Perform IOCTL command */ switch (cmd) { case OLD_MOUSE_GETHWINFO: s = spltty(); ((old_mousehw_t *)addr)->buttons = sc->hw.buttons; ((old_mousehw_t *)addr)->iftype = sc->hw.iftype; ((old_mousehw_t *)addr)->type = sc->hw.type; ((old_mousehw_t *)addr)->hwid = sc->hw.hwid & 0x00ff; splx(s); break; case MOUSE_GETHWINFO: s = spltty(); *(mousehw_t *)addr = sc->hw; if (sc->mode.level == PSM_LEVEL_BASE) ((mousehw_t *)addr)->model = MOUSE_MODEL_GENERIC; splx(s); break; case MOUSE_SYN_GETHWINFO: s = spltty(); if (sc->synhw.infoMajor >= 4) *(synapticshw_t *)addr = sc->synhw; else error = EINVAL; splx(s); break; case OLD_MOUSE_GETMODE: s = spltty(); switch (sc->mode.level) { case PSM_LEVEL_BASE: ((old_mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2; break; case PSM_LEVEL_STANDARD: ((old_mousemode_t *)addr)->protocol = MOUSE_PROTO_SYSMOUSE; break; case PSM_LEVEL_NATIVE: ((old_mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2; break; } ((old_mousemode_t *)addr)->rate = sc->mode.rate; ((old_mousemode_t *)addr)->resolution = sc->mode.resolution; ((old_mousemode_t *)addr)->accelfactor = sc->mode.accelfactor; splx(s); break; case MOUSE_GETMODE: s = spltty(); *(mousemode_t *)addr = sc->mode; if ((sc->flags & PSM_NEED_SYNCBITS) != 0) { ((mousemode_t *)addr)->syncmask[0] = 0; ((mousemode_t *)addr)->syncmask[1] = 0; } ((mousemode_t *)addr)->resolution = MOUSE_RES_LOW - sc->mode.resolution; switch (sc->mode.level) { case PSM_LEVEL_BASE: ((mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2; ((mousemode_t *)addr)->packetsize = MOUSE_PS2_PACKETSIZE; break; case PSM_LEVEL_STANDARD: ((mousemode_t *)addr)->protocol = MOUSE_PROTO_SYSMOUSE; ((mousemode_t *)addr)->packetsize = MOUSE_SYS_PACKETSIZE; ((mousemode_t *)addr)->syncmask[0] = MOUSE_SYS_SYNCMASK; ((mousemode_t *)addr)->syncmask[1] = MOUSE_SYS_SYNC; break; case PSM_LEVEL_NATIVE: /* FIXME: this isn't quite correct... XXX */ ((mousemode_t *)addr)->protocol = MOUSE_PROTO_PS2; break; } splx(s); break; case OLD_MOUSE_SETMODE: case MOUSE_SETMODE: if (cmd == OLD_MOUSE_SETMODE) { mode.rate = ((old_mousemode_t *)addr)->rate; /* * resolution old I/F new I/F * default 0 0 * low 1 -2 * medium low 2 -3 * medium high 3 -4 * high 4 -5 */ if (((old_mousemode_t *)addr)->resolution > 0) mode.resolution = -((old_mousemode_t *)addr)->resolution - 1; else mode.resolution = 0; mode.accelfactor = ((old_mousemode_t *)addr)->accelfactor; mode.level = -1; } else mode = *(mousemode_t *)addr; /* adjust and validate parameters. */ if (mode.rate > UCHAR_MAX) return (EINVAL); if (mode.rate == 0) mode.rate = sc->dflt_mode.rate; else if (mode.rate == -1) /* don't change the current setting */ ; else if (mode.rate < 0) return (EINVAL); if (mode.resolution >= UCHAR_MAX) return (EINVAL); if (mode.resolution >= 200) mode.resolution = MOUSE_RES_HIGH; else if (mode.resolution >= 100) mode.resolution = MOUSE_RES_MEDIUMHIGH; else if (mode.resolution >= 50) mode.resolution = MOUSE_RES_MEDIUMLOW; else if (mode.resolution > 0) mode.resolution = MOUSE_RES_LOW; if (mode.resolution == MOUSE_RES_DEFAULT) mode.resolution = sc->dflt_mode.resolution; else if (mode.resolution == -1) /* don't change the current setting */ ; else if (mode.resolution < 0) /* MOUSE_RES_LOW/MEDIUM/HIGH */ mode.resolution = MOUSE_RES_LOW - mode.resolution; if (mode.level == -1) /* don't change the current setting */ mode.level = sc->mode.level; else if ((mode.level < PSM_LEVEL_MIN) || (mode.level > PSM_LEVEL_MAX)) return (EINVAL); if (mode.accelfactor == -1) /* don't change the current setting */ mode.accelfactor = sc->mode.accelfactor; else if (mode.accelfactor < 0) return (EINVAL); /* don't allow anybody to poll the keyboard controller */ error = block_mouse_data(sc, &command_byte); if (error) return (error); /* set mouse parameters */ if (mode.rate > 0) mode.rate = set_mouse_sampling_rate(sc->kbdc, mode.rate); if (mode.resolution >= 0) mode.resolution = set_mouse_resolution(sc->kbdc, mode.resolution); set_mouse_scaling(sc->kbdc, 1); get_mouse_status(sc->kbdc, stat, 0, 3); s = spltty(); sc->mode.rate = mode.rate; sc->mode.resolution = mode.resolution; sc->mode.accelfactor = mode.accelfactor; sc->mode.level = mode.level; splx(s); unblock_mouse_data(sc, command_byte); break; case MOUSE_GETLEVEL: *(int *)addr = sc->mode.level; break; case MOUSE_SETLEVEL: if ((*(int *)addr < PSM_LEVEL_MIN) || (*(int *)addr > PSM_LEVEL_MAX)) return (EINVAL); sc->mode.level = *(int *)addr; break; case MOUSE_GETSTATUS: s = spltty(); status = sc->status; sc->status.flags = 0; sc->status.obutton = sc->status.button; sc->status.button = 0; sc->status.dx = 0; sc->status.dy = 0; sc->status.dz = 0; splx(s); *(mousestatus_t *)addr = status; break; case MOUSE_READSTATE: case MOUSE_READDATA: data = (mousedata_t *)addr; if (data->len > sizeof(data->buf)/sizeof(data->buf[0])) return (EINVAL); error = block_mouse_data(sc, &command_byte); if (error) return (error); if ((data->len = get_mouse_status(sc->kbdc, data->buf, (cmd == MOUSE_READDATA) ? 1 : 0, data->len)) <= 0) error = EIO; unblock_mouse_data(sc, command_byte); break; #if (defined(MOUSE_SETRESOLUTION)) case MOUSE_SETRESOLUTION: mode.resolution = *(int *)addr; if (mode.resolution >= UCHAR_MAX) return (EINVAL); else if (mode.resolution >= 200) mode.resolution = MOUSE_RES_HIGH; else if (mode.resolution >= 100) mode.resolution = MOUSE_RES_MEDIUMHIGH; else if (mode.resolution >= 50) mode.resolution = MOUSE_RES_MEDIUMLOW; else if (mode.resolution > 0) mode.resolution = MOUSE_RES_LOW; if (mode.resolution == MOUSE_RES_DEFAULT) mode.resolution = sc->dflt_mode.resolution; else if (mode.resolution == -1) mode.resolution = sc->mode.resolution; else if (mode.resolution < 0) /* MOUSE_RES_LOW/MEDIUM/HIGH */ mode.resolution = MOUSE_RES_LOW - mode.resolution; error = block_mouse_data(sc, &command_byte); if (error) return (error); sc->mode.resolution = set_mouse_resolution(sc->kbdc, mode.resolution); if (sc->mode.resolution != mode.resolution) error = EIO; unblock_mouse_data(sc, command_byte); break; #endif /* MOUSE_SETRESOLUTION */ #if (defined(MOUSE_SETRATE)) case MOUSE_SETRATE: mode.rate = *(int *)addr; if (mode.rate > UCHAR_MAX) return (EINVAL); if (mode.rate == 0) mode.rate = sc->dflt_mode.rate; else if (mode.rate < 0) mode.rate = sc->mode.rate; error = block_mouse_data(sc, &command_byte); if (error) return (error); sc->mode.rate = set_mouse_sampling_rate(sc->kbdc, mode.rate); if (sc->mode.rate != mode.rate) error = EIO; unblock_mouse_data(sc, command_byte); break; #endif /* MOUSE_SETRATE */ #if (defined(MOUSE_SETSCALING)) case MOUSE_SETSCALING: if ((*(int *)addr <= 0) || (*(int *)addr > 2)) return (EINVAL); error = block_mouse_data(sc, &command_byte); if (error) return (error); if (!set_mouse_scaling(sc->kbdc, *(int *)addr)) error = EIO; unblock_mouse_data(sc, command_byte); break; #endif /* MOUSE_SETSCALING */ #if (defined(MOUSE_GETHWID)) case MOUSE_GETHWID: error = block_mouse_data(sc, &command_byte); if (error) return (error); sc->hw.hwid &= ~0x00ff; sc->hw.hwid |= get_aux_id(sc->kbdc); *(int *)addr = sc->hw.hwid & 0x00ff; unblock_mouse_data(sc, command_byte); break; #endif /* MOUSE_GETHWID */ case FIONBIO: case FIOASYNC: break; case FIOSETOWN: error = fsetown(*(int *)addr, &sc->async); break; case FIOGETOWN: *(int *) addr = fgetown(&sc->async); break; default: return (ENOTTY); } return (error); } static void psmtimeout(void *arg) { struct psm_softc *sc; int s; sc = (struct psm_softc *)arg; s = spltty(); if (sc->watchdog && kbdc_lock(sc->kbdc, TRUE)) { VDLOG(6, sc->dev, LOG_DEBUG, "lost interrupt?\n"); psmintr(sc); kbdc_lock(sc->kbdc, FALSE); } sc->watchdog = TRUE; splx(s); callout_reset(&sc->callout, hz, psmtimeout, sc); } /* Add all sysctls under the debug.psm and hw.psm nodes */ static SYSCTL_NODE(_debug, OID_AUTO, psm, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "ps/2 mouse"); static SYSCTL_NODE(_hw, OID_AUTO, psm, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "ps/2 mouse"); SYSCTL_INT(_debug_psm, OID_AUTO, loglevel, CTLFLAG_RWTUN, &verbose, 0, "Verbosity level"); static int psmhz = 20; SYSCTL_INT(_debug_psm, OID_AUTO, hz, CTLFLAG_RW, &psmhz, 0, "Frequency of the softcallout (in hz)"); static int psmerrsecs = 2; SYSCTL_INT(_debug_psm, OID_AUTO, errsecs, CTLFLAG_RW, &psmerrsecs, 0, "Number of seconds during which packets will dropped after a sync error"); static int psmerrusecs = 0; SYSCTL_INT(_debug_psm, OID_AUTO, errusecs, CTLFLAG_RW, &psmerrusecs, 0, "Microseconds to add to psmerrsecs"); static int psmsecs = 0; SYSCTL_INT(_debug_psm, OID_AUTO, secs, CTLFLAG_RW, &psmsecs, 0, "Max number of seconds between soft interrupts"); static int psmusecs = 500000; SYSCTL_INT(_debug_psm, OID_AUTO, usecs, CTLFLAG_RW, &psmusecs, 0, "Microseconds to add to psmsecs"); static int pkterrthresh = 2; SYSCTL_INT(_debug_psm, OID_AUTO, pkterrthresh, CTLFLAG_RW, &pkterrthresh, 0, "Number of error packets allowed before reinitializing the mouse"); SYSCTL_INT(_hw_psm, OID_AUTO, tap_enabled, CTLFLAG_RWTUN, &tap_enabled, 0, "Enable tap and drag gestures"); static int tap_threshold = PSM_TAP_THRESHOLD; SYSCTL_INT(_hw_psm, OID_AUTO, tap_threshold, CTLFLAG_RW, &tap_threshold, 0, "Button tap threshold"); static int tap_timeout = PSM_TAP_TIMEOUT; SYSCTL_INT(_hw_psm, OID_AUTO, tap_timeout, CTLFLAG_RW, &tap_timeout, 0, "Tap timeout for touchpads"); /* Tunables */ SYSCTL_INT(_hw_psm, OID_AUTO, synaptics_support, CTLFLAG_RDTUN, &synaptics_support, 0, "Enable support for Synaptics touchpads"); SYSCTL_INT(_hw_psm, OID_AUTO, trackpoint_support, CTLFLAG_RDTUN, &trackpoint_support, 0, "Enable support for IBM/Lenovo TrackPoint"); SYSCTL_INT(_hw_psm, OID_AUTO, elantech_support, CTLFLAG_RDTUN, &elantech_support, 0, "Enable support for Elantech touchpads"); SYSCTL_INT(_hw_psm, OID_AUTO, mux_disabled, CTLFLAG_RDTUN, &mux_disabled, 0, "Disable active multiplexing"); static void psmintr(void *arg) { struct psm_softc *sc = arg; struct timeval now; int c; packetbuf_t *pb; if (aux_mux_is_enabled(sc->kbdc)) VLOG(2, (LOG_DEBUG, "psmintr: active multiplexing mode is not " "supported!\n")); /* read until there is nothing to read */ while((c = read_aux_data_no_wait(sc->kbdc)) != -1) { pb = &sc->pqueue[sc->pqueue_end]; /* discard the byte if the device is not open */ if (!(sc->state & (PSM_OPEN | PSM_EV_OPEN_R | PSM_EV_OPEN_A))) continue; getmicrouptime(&now); if ((pb->inputbytes > 0) && timevalcmp(&now, &sc->inputtimeout, >)) { VLOG(3, (LOG_DEBUG, "psmintr: delay too long; " "resetting byte count\n")); pb->inputbytes = 0; sc->syncerrors = 0; sc->pkterrors = 0; } sc->inputtimeout.tv_sec = PSM_INPUT_TIMEOUT / 1000000; sc->inputtimeout.tv_usec = PSM_INPUT_TIMEOUT % 1000000; timevaladd(&sc->inputtimeout, &now); pb->ipacket[pb->inputbytes++] = c; if (sc->mode.level == PSM_LEVEL_NATIVE) { VLOG(4, (LOG_DEBUG, "psmintr: %02x\n", pb->ipacket[0])); sc->syncerrors = 0; sc->pkterrors = 0; goto next; } else { if (pb->inputbytes < sc->mode.packetsize) continue; VLOG(4, (LOG_DEBUG, "psmintr: %02x %02x %02x %02x %02x %02x\n", pb->ipacket[0], pb->ipacket[1], pb->ipacket[2], pb->ipacket[3], pb->ipacket[4], pb->ipacket[5])); } c = pb->ipacket[0]; if ((sc->flags & PSM_NEED_SYNCBITS) != 0) { sc->mode.syncmask[1] = (c & sc->mode.syncmask[0]); sc->flags &= ~PSM_NEED_SYNCBITS; VLOG(2, (LOG_DEBUG, "psmintr: Sync bytes now %04x,%04x\n", sc->mode.syncmask[0], sc->mode.syncmask[1])); } else if ((sc->config & PSM_CONFIG_NOCHECKSYNC) == 0 && (c & sc->mode.syncmask[0]) != sc->mode.syncmask[1]) { VLOG(3, (LOG_DEBUG, "psmintr: out of sync " "(%04x != %04x) %d cmds since last error.\n", c & sc->mode.syncmask[0], sc->mode.syncmask[1], sc->cmdcount - sc->lasterr)); sc->lasterr = sc->cmdcount; /* * The sync byte test is a weak measure of packet * validity. Conservatively discard any input yet * to be seen by userland when we detect a sync * error since there is a good chance some of * the queued packets have undetected errors. */ dropqueue(sc); if (sc->syncerrors == 0) sc->pkterrors++; ++sc->syncerrors; sc->lastinputerr = now; if (sc->syncerrors >= sc->mode.packetsize * 2 || sc->pkterrors >= pkterrthresh) { /* * If we've failed to find a single sync byte * in 2 packets worth of data, or we've seen * persistent packet errors during the * validation period, reinitialize the mouse * in hopes of returning it to the expected * mode. */ VLOG(3, (LOG_DEBUG, "psmintr: reset the mouse.\n")); reinitialize(sc, TRUE); } else if (sc->syncerrors == sc->mode.packetsize) { /* * Try a soft reset after searching for a sync * byte through a packet length of bytes. */ VLOG(3, (LOG_DEBUG, "psmintr: re-enable the mouse.\n")); pb->inputbytes = 0; disable_aux_dev(sc->kbdc); enable_aux_dev(sc->kbdc); } else { VLOG(3, (LOG_DEBUG, "psmintr: discard a byte (%d)\n", sc->syncerrors)); pb->inputbytes--; bcopy(&pb->ipacket[1], &pb->ipacket[0], pb->inputbytes); } continue; } /* * We have what appears to be a valid packet. * Reset the error counters. */ sc->syncerrors = 0; /* * Drop even good packets if they occur within a timeout * period of a sync error. This allows the detection of * a change in the mouse's packet mode without exposing * erratic mouse behavior to the user. Some KVMs forget * enhanced mouse modes during switch events. */ if (!timeelapsed(&sc->lastinputerr, psmerrsecs, psmerrusecs, &now)) { pb->inputbytes = 0; continue; } /* * Now that we're out of the validation period, reset * the packet error count. */ sc->pkterrors = 0; sc->cmdcount++; next: if (++sc->pqueue_end >= PSM_PACKETQUEUE) sc->pqueue_end = 0; /* * If we've filled the queue then call the softintr ourselves, * otherwise schedule the interrupt for later. * Do not postpone interrupts for absolute devices as it * affects tap detection timings. */ if (sc->hw.model == MOUSE_MODEL_SYNAPTICS || sc->hw.model == MOUSE_MODEL_ELANTECH || !timeelapsed(&sc->lastsoftintr, psmsecs, psmusecs, &now) || (sc->pqueue_end == sc->pqueue_start)) { if ((sc->state & PSM_SOFTARMED) != 0) { sc->state &= ~PSM_SOFTARMED; callout_stop(&sc->softcallout); } psmsoftintr(arg); } else if ((sc->state & PSM_SOFTARMED) == 0) { sc->state |= PSM_SOFTARMED; callout_reset(&sc->softcallout, psmhz < 1 ? 1 : (hz/psmhz), psmsoftintr, arg); } } } static void proc_mmanplus(struct psm_softc *sc, packetbuf_t *pb, mousestatus_t *ms, int *x, int *y, int *z) { /* * PS2++ protocol packet * * b7 b6 b5 b4 b3 b2 b1 b0 * byte 1: * 1 p3 p2 1 * * * * byte 2: c1 c2 p1 p0 d1 d0 1 0 * * p3-p0: packet type * c1, c2: c1 & c2 == 1, if p2 == 0 * c1 & c2 == 0, if p2 == 1 * * packet type: 0 (device type) * See comments in enable_mmanplus() below. * * packet type: 1 (wheel data) * * b7 b6 b5 b4 b3 b2 b1 b0 * byte 3: h * B5 B4 s d2 d1 d0 * * h: 1, if horizontal roller data * 0, if vertical roller data * B4, B5: button 4 and 5 * s: sign bit * d2-d0: roller data * * packet type: 2 (reserved) */ if (((pb->ipacket[0] & MOUSE_PS2PLUS_SYNCMASK) == MOUSE_PS2PLUS_SYNC) && (abs(*x) > 191) && MOUSE_PS2PLUS_CHECKBITS(pb->ipacket)) { /* * the extended data packet encodes button * and wheel events */ switch (MOUSE_PS2PLUS_PACKET_TYPE(pb->ipacket)) { case 1: /* wheel data packet */ *x = *y = 0; if (pb->ipacket[2] & 0x80) { /* XXX horizontal roller count - ignore it */ ; } else { /* vertical roller count */ *z = (pb->ipacket[2] & MOUSE_PS2PLUS_ZNEG) ? (pb->ipacket[2] & 0x0f) - 16 : (pb->ipacket[2] & 0x0f); } ms->button |= (pb->ipacket[2] & MOUSE_PS2PLUS_BUTTON4DOWN) ? MOUSE_BUTTON4DOWN : 0; ms->button |= (pb->ipacket[2] & MOUSE_PS2PLUS_BUTTON5DOWN) ? MOUSE_BUTTON5DOWN : 0; break; case 2: /* * this packet type is reserved by * Logitech... */ /* * IBM ScrollPoint Mouse uses this * packet type to encode both vertical * and horizontal scroll movement. */ *x = *y = 0; /* horizontal count */ if (pb->ipacket[2] & 0x0f) *z = (pb->ipacket[2] & MOUSE_SPOINT_WNEG) ? -2 : 2; /* vertical count */ if (pb->ipacket[2] & 0xf0) *z = (pb->ipacket[2] & MOUSE_SPOINT_ZNEG) ? -1 : 1; break; case 0: /* device type packet - shouldn't happen */ /* FALLTHROUGH */ default: *x = *y = 0; ms->button = ms->obutton; VLOG(1, (LOG_DEBUG, "psmintr: unknown PS2++ packet " "type %d: 0x%02x 0x%02x 0x%02x\n", MOUSE_PS2PLUS_PACKET_TYPE(pb->ipacket), pb->ipacket[0], pb->ipacket[1], pb->ipacket[2])); break; } } else { /* preserve button states */ ms->button |= ms->obutton & MOUSE_EXTBUTTONS; } } static int proc_synaptics(struct psm_softc *sc, packetbuf_t *pb, mousestatus_t *ms, int *x, int *y, int *z) { static int touchpad_buttons; static int guest_buttons; static int ew_finger_count; static finger_t f[PSM_FINGERS]; int w, id, nfingers, palm, ewcode, extended_buttons, clickpad_pressed; extended_buttons = 0; /* TouchPad PS/2 absolute mode message format with capFourButtons: * * Bits: 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------------ * ipacket[0]: 1 0 W3 W2 0 W1 R L * ipacket[1]: Yb Ya Y9 Y8 Xb Xa X9 X8 * ipacket[2]: Z7 Z6 Z5 Z4 Z3 Z2 Z1 Z0 * ipacket[3]: 1 1 Yc Xc 0 W0 D^R U^L * ipacket[4]: X7 X6 X5 X4 X3 X2 X1 X0 * ipacket[5]: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 * * Legend: * L: left physical mouse button * R: right physical mouse button * D: down button * U: up button * W: "wrist" value * X: x position * Y: y position * Z: pressure * * Without capFourButtons but with nExtendeButtons and/or capMiddle * * Bits: 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------------------ * ipacket[3]: 1 1 Yc Xc 0 W0 E^R M^L * ipacket[4]: X7 X6 X5 X4 X3|b7 X2|b5 X1|b3 X0|b1 * ipacket[5]: Y7 Y6 Y5 Y4 Y3|b8 Y2|b6 Y1|b4 Y0|b2 * * Legend: * M: Middle physical mouse button * E: Extended mouse buttons reported instead of low bits of X and Y * b1-b8: Extended mouse buttons * Only ((nExtendedButtons + 1) >> 1) bits are used in packet * 4 and 5, for reading X and Y value they should be zeroed. * * Absolute reportable limits: 0 - 6143. * Typical bezel limits: 1472 - 5472. * Typical edge marings: 1632 - 5312. * * w = 3 Passthrough Packet * * Byte 2,5,6 == Byte 1,2,3 of "Guest" */ if (!synaptics_support) return (0); /* Sanity check for out of sync packets. */ if ((pb->ipacket[0] & 0xc8) != 0x80 || (pb->ipacket[3] & 0xc8) != 0xc0) return (-1); *x = *y = 0; ms->button = ms->obutton; /* * Pressure value. * Interpretation: * z = 0 No finger contact * z = 10 Finger hovering near the pad * z = 30 Very light finger contact * z = 80 Normal finger contact * z = 110 Very heavy finger contact * z = 200 Finger lying flat on pad surface * z = 255 Maximum reportable Z */ *z = pb->ipacket[2]; /* * Finger width value * Interpretation: * w = 0 Two finger on the pad (capMultiFinger needed) * w = 1 Three or more fingers (capMultiFinger needed) * w = 2 Pen (instead of finger) (capPen needed) * w = 3 Reserved (passthrough?) * w = 4-7 Finger of normal width (capPalmDetect needed) * w = 8-14 Very wide finger or palm (capPalmDetect needed) * w = 15 Maximum reportable width (capPalmDetect needed) */ /* XXX Is checking capExtended enough? */ if (sc->synhw.capExtended) w = ((pb->ipacket[0] & 0x30) >> 2) | ((pb->ipacket[0] & 0x04) >> 1) | ((pb->ipacket[3] & 0x04) >> 2); else { /* Assume a finger of regular width. */ w = 4; } switch (w) { case 3: /* * Handle packets from the guest device. See: * Synaptics PS/2 TouchPad Interfacing Guide, Section 5.1 */ if (sc->synhw.capPassthrough || sc->muxport != PSM_NOMUX) { *x = ((pb->ipacket[1] & 0x10) ? pb->ipacket[4] - 256 : pb->ipacket[4]); *y = ((pb->ipacket[1] & 0x20) ? pb->ipacket[5] - 256 : pb->ipacket[5]); *z = 0; guest_buttons = 0; if (pb->ipacket[1] & 0x01) guest_buttons |= MOUSE_BUTTON1DOWN; if (pb->ipacket[1] & 0x04) guest_buttons |= MOUSE_BUTTON2DOWN; if (pb->ipacket[1] & 0x02) guest_buttons |= MOUSE_BUTTON3DOWN; #ifdef EVDEV_SUPPORT if (evdev_rcpt_mask & EVDEV_RCPT_HW_MOUSE) { evdev_push_rel(sc->evdev_r, REL_X, *x); evdev_push_rel(sc->evdev_r, REL_Y, -*y); evdev_push_mouse_btn(sc->evdev_r, guest_buttons | sc->extended_buttons); evdev_sync(sc->evdev_r); } #endif ms->button = touchpad_buttons | guest_buttons | sc->extended_buttons; } goto SYNAPTICS_END; case 2: /* Handle Extended W mode packets */ ewcode = (pb->ipacket[5] & 0xf0) >> 4; #if PSM_FINGERS > 1 switch (ewcode) { case 1: /* Secondary finger */ if (sc->synhw.capAdvancedGestures) f[1] = (finger_t) { .x = (((pb->ipacket[4] & 0x0f) << 8) | pb->ipacket[1]) << 1, .y = (((pb->ipacket[4] & 0xf0) << 4) | pb->ipacket[2]) << 1, .p = ((pb->ipacket[3] & 0x30) | (pb->ipacket[5] & 0x0f)) << 1, .w = PSM_FINGER_DEFAULT_W, .flags = PSM_FINGER_FUZZY, }; else if (sc->synhw.capReportsV) f[1] = (finger_t) { .x = (((pb->ipacket[4] & 0x0f) << 8) | (pb->ipacket[1] & 0xfe)) << 1, .y = (((pb->ipacket[4] & 0xf0) << 4) | (pb->ipacket[2] & 0xfe)) << 1, .p = ((pb->ipacket[3] & 0x30) | (pb->ipacket[5] & 0x0e)) << 1, .w = (((pb->ipacket[5] & 0x01) << 2) | ((pb->ipacket[2] & 0x01) << 1) | (pb->ipacket[1] & 0x01)) + 8, .flags = PSM_FINGER_FUZZY, }; break; case 2: ew_finger_count = pb->ipacket[1] & 0x0f; default: break; } #endif goto SYNAPTICS_END; case 1: if (sc->synhw.capReportsV && ew_finger_count > 3) { nfingers = ew_finger_count; break; } /* FALLTHROUGH */ case 0: nfingers = w + 2; break; default: nfingers = 1; } if (sc->syninfo.touchpad_off) goto SYNAPTICS_END; /* Button presses */ touchpad_buttons = 0; if (pb->ipacket[0] & 0x01) touchpad_buttons |= MOUSE_BUTTON1DOWN; if (pb->ipacket[0] & 0x02) touchpad_buttons |= MOUSE_BUTTON3DOWN; if (sc->synhw.capExtended && sc->synhw.capFourButtons) { if ((pb->ipacket[3] ^ pb->ipacket[0]) & 0x01) touchpad_buttons |= MOUSE_BUTTON4DOWN; if ((pb->ipacket[3] ^ pb->ipacket[0]) & 0x02) touchpad_buttons |= MOUSE_BUTTON5DOWN; } else if (sc->synhw.capExtended && sc->synhw.capMiddle && !sc->synhw.capClickPad) { /* Middle Button */ if ((pb->ipacket[0] ^ pb->ipacket[3]) & 0x01) touchpad_buttons |= MOUSE_BUTTON2DOWN; } else if (sc->synhw.capExtended && (sc->synhw.nExtendedButtons > 0)) { /* Extended Buttons */ if ((pb->ipacket[0] ^ pb->ipacket[3]) & 0x02) { if (sc->syninfo.directional_scrolls) { if (pb->ipacket[4] & 0x01) extended_buttons |= MOUSE_BUTTON4DOWN; if (pb->ipacket[5] & 0x01) extended_buttons |= MOUSE_BUTTON5DOWN; if (pb->ipacket[4] & 0x02) extended_buttons |= MOUSE_BUTTON6DOWN; if (pb->ipacket[5] & 0x02) extended_buttons |= MOUSE_BUTTON7DOWN; } else { if (pb->ipacket[4] & 0x01) extended_buttons |= MOUSE_BUTTON1DOWN; if (pb->ipacket[5] & 0x01) extended_buttons |= MOUSE_BUTTON3DOWN; if (pb->ipacket[4] & 0x02) extended_buttons |= MOUSE_BUTTON2DOWN; sc->extended_buttons = extended_buttons; } /* * Zero out bits used by extended buttons to avoid * misinterpretation of the data absolute position. * * The bits represented by * * (nExtendedButtons + 1) >> 1 * * will be masked out in both bytes. * The mask for n bits is computed with the formula * * (1 << n) - 1 */ int maskedbits = 0; int mask = 0; maskedbits = (sc->synhw.nExtendedButtons + 1) >> 1; mask = (1 << maskedbits) - 1; #ifdef EVDEV_SUPPORT int i; if (evdev_rcpt_mask & EVDEV_RCPT_HW_MOUSE) { if (sc->synhw.capPassthrough) { evdev_push_mouse_btn(sc->evdev_r, extended_buttons); evdev_sync(sc->evdev_r); } for (i = 0; i < maskedbits; i++) { evdev_push_key(sc->evdev_a, BTN_0 + i * 2, pb->ipacket[4] & (1 << i)); evdev_push_key(sc->evdev_a, BTN_0 + i * 2 + 1, pb->ipacket[5] & (1 << i)); } } #endif pb->ipacket[4] &= ~(mask); pb->ipacket[5] &= ~(mask); } else if (!sc->syninfo.directional_scrolls && !sc->gesture.in_vscroll) { /* * Keep reporting MOUSE DOWN until we get a new packet * indicating otherwise. */ extended_buttons |= sc->extended_buttons; } } if (sc->synhw.capReportsV && nfingers > 1) f[0] = (finger_t) { .x = ((pb->ipacket[3] & 0x10) << 8) | ((pb->ipacket[1] & 0x0f) << 8) | (pb->ipacket[4] & 0xfd), .y = ((pb->ipacket[3] & 0x20) << 7) | ((pb->ipacket[1] & 0xf0) << 4) | (pb->ipacket[5] & 0xfd), .p = *z & 0xfe, .w = (((pb->ipacket[2] & 0x01) << 2) | (pb->ipacket[5] & 0x02) | ((pb->ipacket[4] & 0x02) >> 1)) + 8, .flags = PSM_FINGER_FUZZY, }; else f[0] = (finger_t) { .x = ((pb->ipacket[3] & 0x10) << 8) | ((pb->ipacket[1] & 0x0f) << 8) | pb->ipacket[4], .y = ((pb->ipacket[3] & 0x20) << 7) | ((pb->ipacket[1] & 0xf0) << 4) | pb->ipacket[5], .p = *z, .w = w, .flags = nfingers > 1 ? PSM_FINGER_FUZZY : 0, }; /* Ignore hovering and unmeasurable touches */ if (f[0].p < sc->syninfo.min_pressure || f[0].x < 2) nfingers = 0; /* Handle ClickPad */ if (sc->synhw.capClickPad) { clickpad_pressed = (pb->ipacket[0] ^ pb->ipacket[3]) & 0x01; if (sc->synhw.forcePad) { /* * Forcepads erroneously report button click if there * are 2 or more fingers on the touchpad breaking * multifinger gestures. To workaround this start * reporting a click only after 4 consecutive single * touch packets has been received. * Skip these packets in case more contacts appear. */ switch (nfingers) { case 0: sc->fpcount = 0; break; case 1: if (clickpad_pressed && sc->fpcount < INT_MAX) ++sc->fpcount; /* FALLTHROUGH */ default: if (!clickpad_pressed) sc->fpcount = 0; if (sc->fpcount >= sc->syninfo.window_min) touchpad_buttons |= MOUSE_BUTTON1DOWN; } } else if (clickpad_pressed) touchpad_buttons |= MOUSE_BUTTON1DOWN; } for (id = 0; id < PSM_FINGERS; id++) if (id >= nfingers) PSM_FINGER_RESET(f[id]); #ifdef EVDEV_SUPPORT if (evdev_rcpt_mask & EVDEV_RCPT_HW_MOUSE) { for (id = 0; id < PSM_FINGERS; id++) if (PSM_FINGER_IS_SET(f[id])) psm_push_mt_finger(sc, id, &f[id]); evdev_push_key(sc->evdev_a, BTN_TOUCH, nfingers > 0); evdev_push_nfingers(sc->evdev_a, nfingers); if (nfingers > 0) psm_push_st_finger(sc, &f[0]); else evdev_push_abs(sc->evdev_a, ABS_PRESSURE, 0); evdev_push_mouse_btn(sc->evdev_a, touchpad_buttons); if (sc->synhw.capExtended && sc->synhw.capFourButtons) { evdev_push_key(sc->evdev_a, BTN_FORWARD, touchpad_buttons & MOUSE_BUTTON4DOWN); evdev_push_key(sc->evdev_a, BTN_BACK, touchpad_buttons & MOUSE_BUTTON5DOWN); } evdev_sync(sc->evdev_a); } #endif ms->button = touchpad_buttons; palm = psmpalmdetect(sc, &f[0], nfingers); /* Palm detection doesn't terminate the current action. */ if (!palm) psmgestures(sc, &f[0], nfingers, ms); for (id = 0; id < PSM_FINGERS; id++) psmsmoother(sc, &f[id], id, ms, x, y); if (palm) { *x = *y = *z = 0; ms->button = ms->obutton; return (0); } ms->button |= extended_buttons | guest_buttons; SYNAPTICS_END: /* * Use the extra buttons as a scrollwheel * * XXX X.Org uses the Z axis for vertical wheel only, * whereas moused(8) understands special values to differ * vertical and horizontal wheels. * * xf86-input-mouse needs therefore a small patch to * understand these special values. Without it, the * horizontal wheel acts as a vertical wheel in X.Org. * * That's why the horizontal wheel is disabled by * default for now. */ if (ms->button & MOUSE_BUTTON4DOWN) *z = -1; else if (ms->button & MOUSE_BUTTON5DOWN) *z = 1; else if (ms->button & MOUSE_BUTTON6DOWN) *z = -2; else if (ms->button & MOUSE_BUTTON7DOWN) *z = 2; else *z = 0; ms->button &= ~(MOUSE_BUTTON4DOWN | MOUSE_BUTTON5DOWN | MOUSE_BUTTON6DOWN | MOUSE_BUTTON7DOWN); return (0); } static int proc_synaptics_mux(struct psm_softc *sc, packetbuf_t *pb) { int butt; /* * Convert 3-byte interleaved mixture of Synaptics and generic mouse * packets into plain 6-byte Synaptics packet protocol. * While in hidden multiplexing mode KBC does some editing of the * packet stream. It remembers the button bits from the last packet * received from each device, and replaces the button bits of every * packet with the logical OR of all devices’ most recent button bits. * This button crosstalk should be filtered out as Synaptics and * generic mouse encode middle button presses in a different way. */ switch (pb->ipacket[0] & 0xc0) { case 0x80: /* First 3 bytes of Synaptics packet */ bcopy(pb->ipacket, sc->muxsave, 3); /* Compute middle mouse button supression timeout. */ sc->muxmidtimeout.tv_sec = 0; sc->muxmidtimeout.tv_usec = 50000; /* ~2-3 ints */ timevaladd(&sc->muxmidtimeout, &sc->lastsoftintr); return (1); case 0xc0: /* Second 3 bytes of Synaptics packet */ /* Join two 3-bytes absolute packets */ bcopy(pb->ipacket, pb->ipacket + 3, 3); bcopy(sc->muxsave, pb->ipacket, 3); /* Prefer trackpoint buttons over touchpad's */ pb->ipacket[0] &= ~(0x08 | sc->muxmsbuttons); pb->ipacket[3] &= ~(0x08 | sc->muxmsbuttons); butt = (pb->ipacket[3] & 0x03) << 2 | (pb->ipacket[0] & 0x03); /* Add hysteresis to remove spurious middle button events */ if (butt != sc->muxtpbuttons && sc->fpcount < 1) { pb->ipacket[0] &= 0xfc; pb->ipacket[0] |= sc->muxtpbuttons & 0x03; pb->ipacket[3] &= 0xfc; pb->ipacket[3] |= sc->muxtpbuttons >> 2 & 0x03; ++sc->fpcount; } else { sc->fpcount = 0; sc->muxtpbuttons = butt; } /* Filter out impossible w induced by middle trackpoint btn */ if (sc->synhw.capExtended && !sc->synhw.capPassthrough && (pb->ipacket[0] & 0x34) == 0x04 && (pb->ipacket[3] & 0x04) == 0x04) { pb->ipacket[0] &= 0xfb; pb->ipacket[3] &= 0xfb; } sc->muxsave[0] &= 0x30; break; default: /* Generic mouse (Trackpoint) packet */ /* Filter out middle button events induced by some w values */ if (sc->muxmsbuttons & 0x03 || pb->ipacket[0] & 0x03 || (timevalcmp(&sc->lastsoftintr, &sc->muxmidtimeout, <=) && (sc->muxsave[0] & 0x30 || sc->muxsave[2] > 8))) pb->ipacket[0] &= 0xfb; sc->muxmsbuttons = pb->ipacket[0] & 0x07; /* Convert to Synaptics pass-through protocol */ pb->ipacket[4] = pb->ipacket[1]; pb->ipacket[5] = pb->ipacket[2]; pb->ipacket[1] = pb->ipacket[0]; pb->ipacket[2] = 0; pb->ipacket[0] = 0x84 | (sc->muxtpbuttons & 0x03); pb->ipacket[3] = 0xc4 | (sc->muxtpbuttons >> 2 & 0x03); } VLOG(4, (LOG_DEBUG, "synaptics: %02x %02x %02x %02x %02x %02x\n", pb->ipacket[0], pb->ipacket[1], pb->ipacket[2], pb->ipacket[3], pb->ipacket[4], pb->ipacket[5])); pb->inputbytes = MOUSE_SYNAPTICS_PACKETSIZE; return (0); } static int psmpalmdetect(struct psm_softc *sc, finger_t *f, int nfingers) { if (!( ((sc->synhw.capMultiFinger || sc->synhw.capAdvancedGestures) && !sc->synhw.capReportsV && nfingers > 1) || (sc->synhw.capReportsV && nfingers > 2) || (sc->synhw.capPalmDetect && f->w <= sc->syninfo.max_width) || (!sc->synhw.capPalmDetect && f->p <= sc->syninfo.max_pressure) || (sc->synhw.capPen && f->flags & PSM_FINGER_IS_PEN))) { /* * We consider the packet irrelevant for the current * action when: * - the width isn't comprised in: * [1; max_width] * - the pressure isn't comprised in: * [min_pressure; max_pressure] * - pen aren't supported but PSM_FINGER_IS_PEN is set */ VLOG(2, (LOG_DEBUG, "synaptics: palm detected! (%d)\n", f->w)); return (1); } return (0); } static void psmgestures(struct psm_softc *sc, finger_t *fingers, int nfingers, mousestatus_t *ms) { smoother_t *smoother; gesture_t *gest; finger_t *f; int y_ok, center_button, center_x, right_button, right_x, i; f = &fingers[0]; smoother = &sc->smoother[0]; gest = &sc->gesture; /* Find first active finger. */ if (nfingers > 0) { for (i = 0; i < PSM_FINGERS; i++) { if (PSM_FINGER_IS_SET(fingers[i])) { f = &fingers[i]; smoother = &sc->smoother[i]; break; } } } /* * Check pressure to detect a real wanted action on the * touchpad. */ if (f->p >= sc->syninfo.min_pressure) { int x0, y0; int dxp, dyp; int start_x, start_y; int queue_len; int margin_top, margin_right, margin_bottom, margin_left; int window_min, window_max; int vscroll_hor_area, vscroll_ver_area; int two_finger_scroll; int max_x, max_y; int three_finger_drag; /* Read sysctl. */ /* XXX Verify values? */ margin_top = sc->syninfo.margin_top; margin_right = sc->syninfo.margin_right; margin_bottom = sc->syninfo.margin_bottom; margin_left = sc->syninfo.margin_left; window_min = sc->syninfo.window_min; window_max = sc->syninfo.window_max; vscroll_hor_area = sc->syninfo.vscroll_hor_area; vscroll_ver_area = sc->syninfo.vscroll_ver_area; two_finger_scroll = sc->syninfo.two_finger_scroll; max_x = sc->syninfo.max_x; max_y = sc->syninfo.max_y; three_finger_drag = sc->syninfo.three_finger_drag; /* Read current absolute position. */ x0 = f->x; y0 = f->y; /* * Limit the coordinates to the specified margins because * this area isn't very reliable. */ if (x0 <= margin_left) x0 = margin_left; else if (x0 >= max_x - margin_right) x0 = max_x - margin_right; if (y0 <= margin_bottom) y0 = margin_bottom; else if (y0 >= max_y - margin_top) y0 = max_y - margin_top; VLOG(3, (LOG_DEBUG, "synaptics: ipacket: [%d, %d], %d, %d\n", x0, y0, f->p, f->w)); /* * If the action is just beginning, init the structure and * compute tap timeout. */ if (!(sc->flags & PSM_FLAGS_FINGERDOWN)) { VLOG(3, (LOG_DEBUG, "synaptics: ----\n")); /* Initialize queue. */ gest->window_min = window_min; /* Reset pressure peak. */ gest->zmax = 0; /* Reset fingers count. */ gest->fingers_nb = 0; /* Reset virtual scrolling state. */ gest->in_vscroll = 0; /* Compute tap timeout. */ if (tap_enabled != 0) { gest->taptimeout = (struct timeval) { .tv_sec = tap_timeout / 1000000, .tv_usec = tap_timeout % 1000000, }; timevaladd( &gest->taptimeout, &sc->lastsoftintr); } else timevalclear(&gest->taptimeout); sc->flags |= PSM_FLAGS_FINGERDOWN; /* Smoother has not been reset yet */ queue_len = 1; start_x = x0; start_y = y0; } else { queue_len = smoother->queue_len + 1; start_x = smoother->start_x; start_y = smoother->start_y; } /* Process ClickPad softbuttons */ if (sc->synhw.capClickPad && ms->button & MOUSE_BUTTON1DOWN) { y_ok = sc->syninfo.softbuttons_y >= 0 ? start_y < sc->syninfo.softbuttons_y : start_y > max_y + sc->syninfo.softbuttons_y; center_button = MOUSE_BUTTON2DOWN; center_x = sc->syninfo.softbutton2_x; right_button = MOUSE_BUTTON3DOWN; right_x = sc->syninfo.softbutton3_x; if (center_x > 0 && right_x > 0 && center_x > right_x) { center_button = MOUSE_BUTTON3DOWN; center_x = sc->syninfo.softbutton3_x; right_button = MOUSE_BUTTON2DOWN; right_x = sc->syninfo.softbutton2_x; } if (right_x > 0 && start_x > right_x && y_ok) ms->button = (ms->button & ~MOUSE_BUTTON1DOWN) | right_button; else if (center_x > 0 && start_x > center_x && y_ok) ms->button = (ms->button & ~MOUSE_BUTTON1DOWN) | center_button; } /* If in tap-hold or three fingers, add the recorded button. */ if (gest->in_taphold || (nfingers == 3 && three_finger_drag)) ms->button |= gest->tap_button; /* * For tap, we keep the maximum number of fingers and the * pressure peak. Also with multiple fingers, we increase * the minimum window. */ if (nfingers > 1) gest->window_min = window_max; gest->fingers_nb = imax(nfingers, gest->fingers_nb); gest->zmax = imax(f->p, gest->zmax); /* Do we have enough packets to consider this a gesture? */ if (queue_len < gest->window_min) return; dyp = -1; dxp = -1; /* Is a scrolling action occurring? */ if (!gest->in_taphold && !ms->button && (!gest->in_vscroll || two_finger_scroll)) { /* * A scrolling action must not conflict with a tap * action. Here are the conditions to consider a * scrolling action: * - the action in a configurable area * - one of the following: * . the distance between the last packet and the * first should be above a configurable minimum * . tap timed out */ dxp = abs(x0 - start_x); dyp = abs(y0 - start_y); if (timevalcmp(&sc->lastsoftintr, &gest->taptimeout, >) || dxp >= sc->syninfo.vscroll_min_delta || dyp >= sc->syninfo.vscroll_min_delta) { /* * Handle two finger scrolling. * Note that we don't rely on fingers_nb * as that keeps the maximum number of fingers. */ if (two_finger_scroll) { if (nfingers == 2) { gest->in_vscroll += dyp ? 2 : 0; gest->in_vscroll += dxp ? 1 : 0; } } else { /* Check for horizontal scrolling. */ if ((vscroll_hor_area > 0 && start_y <= vscroll_hor_area) || (vscroll_hor_area < 0 && start_y >= max_y + vscroll_hor_area)) gest->in_vscroll += 2; /* Check for vertical scrolling. */ if ((vscroll_ver_area > 0 && start_x <= vscroll_ver_area) || (vscroll_ver_area < 0 && start_x >= max_x + vscroll_ver_area)) gest->in_vscroll += 1; } /* Avoid conflicts if area overlaps. */ if (gest->in_vscroll >= 3) gest->in_vscroll = (dxp > dyp) ? 2 : 1; } } /* * Reset two finger scrolling when the number of fingers * is different from two or any button is pressed. */ if (two_finger_scroll && gest->in_vscroll != 0 && (nfingers != 2 || ms->button)) gest->in_vscroll = 0; VLOG(5, (LOG_DEBUG, "synaptics: virtual scrolling: %s " "(direction=%d, dxp=%d, dyp=%d, fingers=%d)\n", gest->in_vscroll ? "YES" : "NO", gest->in_vscroll, dxp, dyp, gest->fingers_nb)); } else if (sc->flags & PSM_FLAGS_FINGERDOWN) { /* * An action is currently taking place but the pressure * dropped under the minimum, putting an end to it. */ int taphold_timeout, dx, dy, tap_max_delta; dx = abs(smoother->queue[smoother->queue_cursor].x - smoother->start_x); dy = abs(smoother->queue[smoother->queue_cursor].y - smoother->start_y); /* Max delta is disabled for multi-fingers tap. */ if (gest->fingers_nb > 1) tap_max_delta = imax(dx, dy); else tap_max_delta = sc->syninfo.tap_max_delta; sc->flags &= ~PSM_FLAGS_FINGERDOWN; /* Check for tap. */ VLOG(3, (LOG_DEBUG, "synaptics: zmax=%d, dx=%d, dy=%d, " "delta=%d, fingers=%d, queue=%d\n", gest->zmax, dx, dy, tap_max_delta, gest->fingers_nb, smoother->queue_len)); if (!gest->in_vscroll && gest->zmax >= tap_threshold && timevalcmp(&sc->lastsoftintr, &gest->taptimeout, <=) && dx <= tap_max_delta && dy <= tap_max_delta && smoother->queue_len >= sc->syninfo.tap_min_queue) { /* * We have a tap if: * - the maximum pressure went over tap_threshold * - the action ended before tap_timeout * * To handle tap-hold, we must delay any button push to * the next action. */ if (gest->in_taphold) { /* * This is the second and last tap of a * double tap action, not a tap-hold. */ gest->in_taphold = 0; /* * For double-tap to work: * - no button press is emitted (to * simulate a button release) * - PSM_FLAGS_FINGERDOWN is set to * force the next packet to emit a * button press) */ VLOG(2, (LOG_DEBUG, "synaptics: button RELEASE: %d\n", gest->tap_button)); sc->flags |= PSM_FLAGS_FINGERDOWN; /* Schedule button press on next interrupt */ sc->idletimeout.tv_sec = psmhz > 1 ? 0 : 1; sc->idletimeout.tv_usec = psmhz > 1 ? 1000000 / psmhz : 0; } else { /* * This is the first tap: we set the * tap-hold state and notify the button * down event. */ gest->in_taphold = 1; taphold_timeout = sc->syninfo.taphold_timeout; gest->taptimeout.tv_sec = taphold_timeout / 1000000; gest->taptimeout.tv_usec = taphold_timeout % 1000000; sc->idletimeout = gest->taptimeout; timevaladd(&gest->taptimeout, &sc->lastsoftintr); switch (gest->fingers_nb) { case 3: gest->tap_button = MOUSE_BUTTON2DOWN; break; case 2: gest->tap_button = MOUSE_BUTTON3DOWN; break; default: gest->tap_button = MOUSE_BUTTON1DOWN; } VLOG(2, (LOG_DEBUG, "synaptics: button PRESS: %d\n", gest->tap_button)); ms->button |= gest->tap_button; } } else { /* * Not enough pressure or timeout: reset * tap-hold state. */ if (gest->in_taphold) { VLOG(2, (LOG_DEBUG, "synaptics: button RELEASE: %d\n", gest->tap_button)); gest->in_taphold = 0; } else { VLOG(2, (LOG_DEBUG, "synaptics: not a tap-hold\n")); } } } else if (!(sc->flags & PSM_FLAGS_FINGERDOWN) && gest->in_taphold) { /* * For a tap-hold to work, the button must remain down at * least until timeout (where the in_taphold flags will be * cleared) or during the next action. */ if (timevalcmp(&sc->lastsoftintr, &gest->taptimeout, <=)) { ms->button |= gest->tap_button; } else { VLOG(2, (LOG_DEBUG, "synaptics: button RELEASE: %d\n", gest->tap_button)); gest->in_taphold = 0; } } return; } static void psmsmoother(struct psm_softc *sc, finger_t *f, int smoother_id, mousestatus_t *ms, int *x, int *y) { smoother_t *smoother = &sc->smoother[smoother_id]; gesture_t *gest = &(sc->gesture); /* * Check pressure to detect a real wanted action on the * touchpad. */ if (f->p >= sc->syninfo.min_pressure) { int x0, y0; int cursor, peer, window; int dx, dy, dxp, dyp; int margin_top, margin_right, margin_bottom, margin_left; int na_top, na_right, na_bottom, na_left; int window_max; int multiplicator; int weight_current, weight_previous, weight_len_squared; int div_min, div_max, div_len; int two_finger_scroll; int max_x, max_y; int len, weight_prev_x, weight_prev_y; int div_max_x, div_max_y, div_x, div_y; int is_fuzzy; int natural_scroll; /* Read sysctl. */ /* XXX Verify values? */ margin_top = sc->syninfo.margin_top; margin_right = sc->syninfo.margin_right; margin_bottom = sc->syninfo.margin_bottom; margin_left = sc->syninfo.margin_left; na_top = sc->syninfo.na_top; na_right = sc->syninfo.na_right; na_bottom = sc->syninfo.na_bottom; na_left = sc->syninfo.na_left; window_max = sc->syninfo.window_max; multiplicator = sc->syninfo.multiplicator; weight_current = sc->syninfo.weight_current; weight_previous = sc->syninfo.weight_previous; weight_len_squared = sc->syninfo.weight_len_squared; div_min = sc->syninfo.div_min; div_max = sc->syninfo.div_max; div_len = sc->syninfo.div_len; two_finger_scroll = sc->syninfo.two_finger_scroll; max_x = sc->syninfo.max_x; max_y = sc->syninfo.max_y; natural_scroll = sc->syninfo.natural_scroll; is_fuzzy = (f->flags & PSM_FINGER_FUZZY) != 0; /* Read current absolute position. */ x0 = f->x; y0 = f->y; /* * Limit the coordinates to the specified margins because * this area isn't very reliable. */ if (x0 <= margin_left) x0 = margin_left; else if (x0 >= max_x - margin_right) x0 = max_x - margin_right; if (y0 <= margin_bottom) y0 = margin_bottom; else if (y0 >= max_y - margin_top) y0 = max_y - margin_top; /* If the action is just beginning, init the structure. */ if (smoother->active == 0) { VLOG(3, (LOG_DEBUG, "smoother%d: ---\n", smoother_id)); /* Store the first point of this action. */ smoother->start_x = x0; smoother->start_y = y0; dx = dy = 0; /* Initialize queue. */ smoother->queue_cursor = SYNAPTICS_PACKETQUEUE; smoother->queue_len = 0; /* Reset average. */ smoother->avg_dx = 0; smoother->avg_dy = 0; /* Reset squelch. */ smoother->squelch_x = 0; smoother->squelch_y = 0; /* Activate queue */ smoother->active = 1; } else { /* Calculate the current delta. */ cursor = smoother->queue_cursor; dx = x0 - smoother->queue[cursor].x; dy = y0 - smoother->queue[cursor].y; } VLOG(3, (LOG_DEBUG, "smoother%d: ipacket: [%d, %d], %d, %d\n", smoother_id, x0, y0, f->p, f->w)); /* Queue this new packet. */ cursor = SYNAPTICS_QUEUE_CURSOR(smoother->queue_cursor - 1); smoother->queue[cursor].x = x0; smoother->queue[cursor].y = y0; smoother->queue_cursor = cursor; if (smoother->queue_len < SYNAPTICS_PACKETQUEUE) smoother->queue_len++; VLOG(5, (LOG_DEBUG, "smoother%d: cursor[%d]: x=%d, y=%d, dx=%d, dy=%d\n", smoother_id, cursor, x0, y0, dx, dy)); /* Do we have enough packets to consider this a movement? */ if (smoother->queue_len < gest->window_min) return; weight_prev_x = weight_prev_y = weight_previous; div_max_x = div_max_y = div_max; if (gest->in_vscroll) { /* Dividers are different with virtual scrolling. */ div_min = sc->syninfo.vscroll_div_min; div_max_x = div_max_y = sc->syninfo.vscroll_div_max; } else { /* * There's a lot of noise in coordinates when * the finger is on the touchpad's borders. When * using this area, we apply a special weight and * div. */ if (x0 <= na_left || x0 >= max_x - na_right) { weight_prev_x = sc->syninfo.weight_previous_na; div_max_x = sc->syninfo.div_max_na; } if (y0 <= na_bottom || y0 >= max_y - na_top) { weight_prev_y = sc->syninfo.weight_previous_na; div_max_y = sc->syninfo.div_max_na; } } /* * Calculate weights for the average operands and * the divisor. Both depend on the distance between * the current packet and a previous one (based on the * window width). */ window = imin(smoother->queue_len, window_max); peer = SYNAPTICS_QUEUE_CURSOR(cursor + window - 1); dxp = abs(x0 - smoother->queue[peer].x) + 1; dyp = abs(y0 - smoother->queue[peer].y) + 1; len = (dxp * dxp) + (dyp * dyp); weight_prev_x = imin(weight_prev_x, weight_len_squared * weight_prev_x / len); weight_prev_y = imin(weight_prev_y, weight_len_squared * weight_prev_y / len); len = (dxp + dyp) / 2; div_x = div_len * div_max_x / len; div_x = imin(div_max_x, div_x); div_x = imax(div_min, div_x); div_y = div_len * div_max_y / len; div_y = imin(div_max_y, div_y); div_y = imax(div_min, div_y); VLOG(3, (LOG_DEBUG, "smoother%d: peer=%d, len=%d, weight=%d/%d, div=%d/%d\n", smoother_id, peer, len, weight_prev_x, weight_prev_y, div_x, div_y)); /* Compute averages. */ smoother->avg_dx = (weight_current * dx * multiplicator + weight_prev_x * smoother->avg_dx) / (weight_current + weight_prev_x); smoother->avg_dy = (weight_current * dy * multiplicator + weight_prev_y * smoother->avg_dy) / (weight_current + weight_prev_y); VLOG(5, (LOG_DEBUG, "smoother%d: avg_dx~=%d, avg_dy~=%d\n", smoother_id, smoother->avg_dx / multiplicator, smoother->avg_dy / multiplicator)); /* Use these averages to calculate x & y. */ smoother->squelch_x += smoother->avg_dx; dxp = smoother->squelch_x / (div_x * multiplicator); smoother->squelch_x = smoother->squelch_x % (div_x * multiplicator); smoother->squelch_y += smoother->avg_dy; dyp = smoother->squelch_y / (div_y * multiplicator); smoother->squelch_y = smoother->squelch_y % (div_y * multiplicator); switch(gest->in_vscroll) { case 0: /* Pointer movement. */ /* On real<->fuzzy finger switch the x/y pos jumps */ if (is_fuzzy == smoother->is_fuzzy) { *x += dxp; *y += dyp; } VLOG(3, (LOG_DEBUG, "smoother%d: [%d, %d] -> [%d, %d]\n", smoother_id, dx, dy, dxp, dyp)); break; case 1: /* Vertical scrolling. */ if (dyp != 0) { if (two_finger_scroll && natural_scroll) ms->button |= (dyp > 0) ? MOUSE_BUTTON5DOWN : MOUSE_BUTTON4DOWN; else ms->button |= (dyp > 0) ? MOUSE_BUTTON4DOWN : MOUSE_BUTTON5DOWN; } break; case 2: /* Horizontal scrolling. */ if (dxp != 0) { if (two_finger_scroll && natural_scroll) ms->button |= (dxp > 0) ? MOUSE_BUTTON6DOWN : MOUSE_BUTTON7DOWN; else ms->button |= (dxp > 0) ? MOUSE_BUTTON7DOWN : MOUSE_BUTTON6DOWN; } break; } smoother->is_fuzzy = is_fuzzy; } else { /* * Deactivate queue. Note: We can not just reset queue here * as these values are still used by gesture processor. * So postpone reset till next touch. */ smoother->active = 0; } } static int proc_elantech(struct psm_softc *sc, packetbuf_t *pb, mousestatus_t *ms, int *x, int *y, int *z) { static int touchpad_button, trackpoint_button; finger_t fn, f[ELANTECH_MAX_FINGERS]; int pkt, id, scale, i, nfingers, mask, palm; if (!elantech_support) return (0); /* Determine packet format and do a sanity check for out of sync packets. */ if (ELANTECH_PKT_IS_DEBOUNCE(pb, sc->elanhw.hwversion)) pkt = ELANTECH_PKT_NOP; else if (sc->elanhw.hastrackpoint && ELANTECH_PKT_IS_TRACKPOINT(pb)) pkt = ELANTECH_PKT_TRACKPOINT; else switch (sc->elanhw.hwversion) { case 2: if (!ELANTECH_PKT_IS_V2(pb)) return (-1); pkt = (pb->ipacket[0] & 0xc0) == 0x80 ? ELANTECH_PKT_V2_2FINGER : ELANTECH_PKT_V2_COMMON; break; case 3: if (!ELANTECH_PKT_IS_V3_HEAD(pb, sc->elanhw.hascrc) && !ELANTECH_PKT_IS_V3_TAIL(pb, sc->elanhw.hascrc)) return (-1); pkt = ELANTECH_PKT_V3; break; case 4: if (!ELANTECH_PKT_IS_V4(pb, sc->elanhw.hascrc)) return (-1); switch (pb->ipacket[3] & 0x03) { case 0x00: pkt = ELANTECH_PKT_V4_STATUS; break; case 0x01: pkt = ELANTECH_PKT_V4_HEAD; break; case 0x02: pkt = ELANTECH_PKT_V4_MOTION; break; default: return (-1); } break; default: return (-1); } VLOG(5, (LOG_DEBUG, "elantech: ipacket format: %d\n", pkt)); for (id = 0; id < ELANTECH_MAX_FINGERS; id++) PSM_FINGER_RESET(f[id]); *x = *y = *z = 0; ms->button = ms->obutton; if (sc->syninfo.touchpad_off && pkt != ELANTECH_PKT_TRACKPOINT) return (0); /* Common legend * L: Left mouse button pressed * R: Right mouse button pressed * N: number of fingers on touchpad * X: absolute x value (horizontal) * Y: absolute y value (vertical) * W; width of the finger touch * P: pressure */ switch (pkt) { case ELANTECH_PKT_V2_COMMON: /* HW V2. One/Three finger touch */ /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: N1 N0 W3 W2 . . R L * ipacket[1]: P7 P6 P5 P4 X11 X10 X9 X8 * ipacket[2]: X7 X6 X5 X4 X3 X2 X1 X0 * ipacket[3]: N4 VF W1 W0 . . . B2 * ipacket[4]: P3 P1 P2 P0 Y11 Y10 Y9 Y8 * ipacket[5]: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 * ------------------------------------------- * N4: set if more than 3 fingers (only in 3 fingers mode) * VF: a kind of flag? (only on EF123, 0 when finger * is over one of the buttons, 1 otherwise) * B2: (on EF113 only, 0 otherwise), one button pressed * P & W is not reported on EF113 touchpads */ nfingers = (pb->ipacket[0] & 0xc0) >> 6; if (nfingers == 3 && (pb->ipacket[3] & 0x80)) nfingers = 4; if (nfingers == 0) { mask = (1 << nfingers) - 1; /* = 0x00 */ break; } /* Map 3-rd and 4-th fingers to first finger */ mask = (1 << 1) - 1; /* = 0x01 */ f[0] = ELANTECH_FINGER_SET_XYP(pb); if (sc->elanhw.haspressure) { f[0].w = ((pb->ipacket[0] & 0x30) >> 2) | ((pb->ipacket[3] & 0x30) >> 4); } else { f[0].p = PSM_FINGER_DEFAULT_P; f[0].w = PSM_FINGER_DEFAULT_W; } /* * HW v2 dont report exact finger positions when 3 or more * fingers are on touchpad. */ if (nfingers > 2) f[0].flags = PSM_FINGER_FUZZY; break; case ELANTECH_PKT_V2_2FINGER: /*HW V2. Two finger touch */ /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: N1 N0 AY8 AX8 . . R L * ipacket[1]: AX7 AX6 AX5 AX4 AX3 AX2 AX1 AX0 * ipacket[2]: AY7 AY6 AY5 AY4 AY3 AY2 AY1 AY0 * ipacket[3]: . . BY8 BX8 . . . . * ipacket[4]: BX7 BX6 BX5 BX4 BX3 BX2 BX1 BX0 * ipacket[5]: BY7 BY6 BY5 BY4 BY3 BY2 BY1 BY0 * ------------------------------------------- * AX: lower-left finger absolute x value * AY: lower-left finger absolute y value * BX: upper-right finger absolute x value * BY: upper-right finger absolute y value */ nfingers = 2; mask = (1 << nfingers) - 1; for (id = 0; id < imin(2, ELANTECH_MAX_FINGERS); id ++) f[id] = (finger_t) { .x = (((pb->ipacket[id * 3] & 0x10) << 4) | pb->ipacket[id * 3 + 1]) << 2, .y = (((pb->ipacket[id * 3] & 0x20) << 3) | pb->ipacket[id * 3 + 2]) << 2, .p = PSM_FINGER_DEFAULT_P, .w = PSM_FINGER_DEFAULT_W, /* HW ver.2 sends bounding box */ .flags = PSM_FINGER_FUZZY }; break; case ELANTECH_PKT_V3: /* HW Version 3 */ /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: N1 N0 W3 W2 0 1 R L * ipacket[1]: P7 P6 P5 P4 X11 X10 X9 X8 * ipacket[2]: X7 X6 X5 X4 X3 X2 X1 X0 * ipacket[3]: 0 0 W1 W0 0 0 1 0 * ipacket[4]: P3 P1 P2 P0 Y11 Y10 Y9 Y8 * ipacket[5]: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 * ------------------------------------------- */ nfingers = (pb->ipacket[0] & 0xc0) >> 6; /* Map 3-rd finger to first finger */ id = nfingers > 2 ? 0 : nfingers - 1; mask = (1 << (id + 1)) - 1; if (nfingers == 0) break; fn = ELANTECH_FINGER_SET_XYP(pb); fn.w = ((pb->ipacket[0] & 0x30) >> 2) | ((pb->ipacket[3] & 0x30) >> 4); /* * HW v3 dont report exact finger positions when 3 or more * fingers are on touchpad. */ if (nfingers > 1) fn.flags = PSM_FINGER_FUZZY; if (nfingers == 2) { if (ELANTECH_PKT_IS_V3_HEAD(pb, sc->elanhw.hascrc)) { sc->elanaction.fingers[0] = fn; return (0); } else f[0] = sc->elanaction.fingers[0]; } f[id] = fn; break; case ELANTECH_PKT_V4_STATUS: /* HW Version 4. Status packet */ /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: . . . . 0 1 R L * ipacket[1]: . . . F4 F3 F2 F1 F0 * ipacket[2]: . . . . . . . . * ipacket[3]: . . . 1 0 0 0 0 * ipacket[4]: PL . . . . . . . * ipacket[5]: . . . . . . . . * ------------------------------------------- * Fn: finger n is on touchpad * PL: palm * HV ver4 sends a status packet to indicate that the numbers * or identities of the fingers has been changed */ mask = pb->ipacket[1] & 0x1f; nfingers = bitcount(mask); if (sc->elanaction.mask_v4wait != 0) VLOG(3, (LOG_DEBUG, "elantech: HW v4 status packet" " when not all previous head packets received\n")); /* Bitmap of fingers to receive before gesture processing */ sc->elanaction.mask_v4wait = mask & ~sc->elanaction.mask; /* Skip "new finger is on touchpad" packets */ if (sc->elanaction.mask_v4wait) { sc->elanaction.mask = mask; return (0); } break; case ELANTECH_PKT_V4_HEAD: /* HW Version 4. Head packet */ /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: W3 W2 W1 W0 0 1 R L * ipacket[1]: P7 P6 P5 P4 X11 X10 X9 X8 * ipacket[2]: X7 X6 X5 X4 X3 X2 X1 X0 * ipacket[3]: ID2 ID1 ID0 1 0 0 0 1 * ipacket[4]: P3 P1 P2 P0 Y11 Y10 Y9 Y8 * ipacket[5]: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 * ------------------------------------------- * ID: finger id * HW ver 4 sends head packets in two cases: * 1. One finger touch and movement. * 2. Next after status packet to tell new finger positions. */ mask = sc->elanaction.mask; nfingers = bitcount(mask); id = ((pb->ipacket[3] & 0xe0) >> 5) - 1; fn = ELANTECH_FINGER_SET_XYP(pb); fn.w =(pb->ipacket[0] & 0xf0) >> 4; if (id < 0) return (0); /* Packet is finger position update. Report it */ if (sc->elanaction.mask_v4wait == 0) { if (id < ELANTECH_MAX_FINGERS) f[id] = fn; break; } /* Remove finger from waiting bitmap and store into context */ sc->elanaction.mask_v4wait &= ~(1 << id); if (id < ELANTECH_MAX_FINGERS) sc->elanaction.fingers[id] = fn; /* Wait for other fingers if needed */ if (sc->elanaction.mask_v4wait != 0) return (0); /* All new fingers are received. Report them from context */ for (id = 0; id < ELANTECH_MAX_FINGERS; id++) if (sc->elanaction.mask & (1 << id)) f[id] = sc->elanaction.fingers[id]; break; case ELANTECH_PKT_V4_MOTION: /* HW Version 4. Motion packet */ /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: ID2 ID1 ID0 OF 0 1 R L * ipacket[1]: DX7 DX6 DX5 DX4 DX3 DX2 DX1 DX0 * ipacket[2]: DY7 DY6 DY5 DY4 DY3 DY2 DY1 DY0 * ipacket[3]: ID2 ID1 ID0 1 0 0 1 0 * ipacket[4]: DX7 DX6 DX5 DX4 DX3 DX2 DX1 DX0 * ipacket[5]: DY7 DY6 DY5 DY4 DY3 DY2 DY1 DY0 * ------------------------------------------- * OF: delta overflows (> 127 or < -128), in this case * firmware sends us (delta x / 5) and (delta y / 5) * ID: finger id * DX: delta x (two's complement) * XY: delta y (two's complement) * byte 0 ~ 2 for one finger * byte 3 ~ 5 for another finger */ mask = sc->elanaction.mask; nfingers = bitcount(mask); scale = (pb->ipacket[0] & 0x10) ? 5 : 1; for (i = 0; i <= 3; i += 3) { id = ((pb->ipacket[i] & 0xe0) >> 5) - 1; if (id < 0 || id >= ELANTECH_MAX_FINGERS) continue; if (PSM_FINGER_IS_SET(sc->elanaction.fingers[id])) { f[id] = sc->elanaction.fingers[id]; f[id].x += imax(-f[id].x, (signed char)pb->ipacket[i+1] * scale); f[id].y += imax(-f[id].y, (signed char)pb->ipacket[i+2] * scale); } else { VLOG(3, (LOG_DEBUG, "elantech: " "HW v4 motion packet skipped\n")); } } break; case ELANTECH_PKT_TRACKPOINT: /* 7 6 5 4 3 2 1 0 (LSB) * ------------------------------------------- * ipacket[0]: 0 0 SY SX 0 M R L * ipacket[1]: ~SX 0 0 0 0 0 0 0 * ipacket[2]: ~SY 0 0 0 0 0 0 0 * ipacket[3]: 0 0 ~SY ~SX 0 1 1 0 * ipacket[4]: X7 X6 X5 X4 X3 X2 X1 X0 * ipacket[5]: Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 * ------------------------------------------- * X and Y are written in two's complement spread * over 9 bits with SX/SY the relative top bit and * X7..X0 and Y7..Y0 the lower bits. */ if (!(pb->ipacket[0] & 0xC8) && !(pb->ipacket[1] & 0x7F) && !(pb->ipacket[2] & 0x7F) && !(pb->ipacket[3] & 0xC9) && !(pb->ipacket[0] & 0x10) != !(pb->ipacket[1] & 0x80) && !(pb->ipacket[0] & 0x10) != !(pb->ipacket[3] & 0x10) && !(pb->ipacket[0] & 0x20) != !(pb->ipacket[2] & 0x80) && !(pb->ipacket[0] & 0x20) != !(pb->ipacket[3] & 0x20)) { *x = (pb->ipacket[0] & MOUSE_PS2_XNEG) ? pb->ipacket[4] - 256 : pb->ipacket[4]; *y = (pb->ipacket[0] & MOUSE_PS2_YNEG) ? pb->ipacket[5] - 256 : pb->ipacket[5]; trackpoint_button = ((pb->ipacket[0] & 0x01) ? MOUSE_BUTTON1DOWN : 0) | ((pb->ipacket[0] & 0x02) ? MOUSE_BUTTON3DOWN : 0) | ((pb->ipacket[0] & 0x04) ? MOUSE_BUTTON2DOWN : 0); #ifdef EVDEV_SUPPORT evdev_push_rel(sc->evdev_r, REL_X, *x); evdev_push_rel(sc->evdev_r, REL_Y, -*y); evdev_push_mouse_btn(sc->evdev_r, trackpoint_button); evdev_sync(sc->evdev_r); #endif ms->button = touchpad_button | trackpoint_button; } else VLOG(3, (LOG_DEBUG, "elantech: " "unexpected trackpoint packet skipped\n")); return (0); case ELANTECH_PKT_NOP: return (0); default: return (-1); } for (id = 0; id < ELANTECH_MAX_FINGERS; id++) if (PSM_FINGER_IS_SET(f[id])) VLOG(2, (LOG_DEBUG, "elantech: " "finger %d: down [%d, %d], %d, %d, %d\n", id + 1, f[id].x, f[id].y, f[id].p, f[id].w, f[id].flags)); /* Touchpad button presses */ if (sc->elanhw.isclickpad) { touchpad_button = ((pb->ipacket[0] & 0x03) ? MOUSE_BUTTON1DOWN : 0); } else { touchpad_button = ((pb->ipacket[0] & 0x01) ? MOUSE_BUTTON1DOWN : 0) | ((pb->ipacket[0] & 0x02) ? MOUSE_BUTTON3DOWN : 0); } #ifdef EVDEV_SUPPORT if (evdev_rcpt_mask & EVDEV_RCPT_HW_MOUSE) { for (id = 0; id < ELANTECH_MAX_FINGERS; id++) { if (PSM_FINGER_IS_SET(f[id])) { psm_push_mt_finger(sc, id, &f[id]); /* Convert touch width to surface units */ evdev_push_abs(sc->evdev_a, ABS_MT_TOUCH_MAJOR, f[id].w * sc->elanhw.dptracex); } } evdev_push_key(sc->evdev_a, BTN_TOUCH, nfingers > 0); evdev_push_nfingers(sc->evdev_a, nfingers); if (nfingers > 0) { if (PSM_FINGER_IS_SET(f[0])) psm_push_st_finger(sc, &f[0]); } else evdev_push_abs(sc->evdev_a, ABS_PRESSURE, 0); evdev_push_mouse_btn(sc->evdev_a, touchpad_button); evdev_sync(sc->evdev_a); } #endif ms->button = touchpad_button | trackpoint_button; /* Palm detection doesn't terminate the current action. */ palm = psmpalmdetect(sc, &f[0], nfingers); /* Send finger 1 position to gesture processor */ if ((PSM_FINGER_IS_SET(f[0]) || PSM_FINGER_IS_SET(f[1]) || nfingers == 0) && !palm) psmgestures(sc, &f[0], imin(nfingers, 3), ms); /* Send fingers positions to movement smoothers */ for (id = 0; id < PSM_FINGERS; id++) if (PSM_FINGER_IS_SET(f[id]) || !(mask & (1 << id))) psmsmoother(sc, &f[id], id, ms, x, y); /* Store current finger positions in action context */ for (id = 0; id < ELANTECH_MAX_FINGERS; id++) { if (PSM_FINGER_IS_SET(f[id])) sc->elanaction.fingers[id] = f[id]; if ((sc->elanaction.mask & (1 << id)) && !(mask & (1 << id))) PSM_FINGER_RESET(sc->elanaction.fingers[id]); } sc->elanaction.mask = mask; if (palm) { *x = *y = *z = 0; ms->button = ms->obutton; return (0); } /* Use the extra buttons as a scrollwheel */ if (ms->button & MOUSE_BUTTON4DOWN) *z = -1; else if (ms->button & MOUSE_BUTTON5DOWN) *z = 1; else if (ms->button & MOUSE_BUTTON6DOWN) *z = -2; else if (ms->button & MOUSE_BUTTON7DOWN) *z = 2; else *z = 0; ms->button &= ~(MOUSE_BUTTON4DOWN | MOUSE_BUTTON5DOWN | MOUSE_BUTTON6DOWN | MOUSE_BUTTON7DOWN); return (0); } static void proc_versapad(struct psm_softc *sc, packetbuf_t *pb, mousestatus_t *ms, int *x, int *y, int *z) { static int butmap_versapad[8] = { 0, MOUSE_BUTTON3DOWN, 0, MOUSE_BUTTON3DOWN, MOUSE_BUTTON1DOWN, MOUSE_BUTTON1DOWN | MOUSE_BUTTON3DOWN, MOUSE_BUTTON1DOWN, MOUSE_BUTTON1DOWN | MOUSE_BUTTON3DOWN }; int c, x0, y0; /* VersaPad PS/2 absolute mode message format * * [packet1] 7 6 5 4 3 2 1 0(LSB) * ipacket[0]: 1 1 0 A 1 L T R * ipacket[1]: H7 H6 H5 H4 H3 H2 H1 H0 * ipacket[2]: V7 V6 V5 V4 V3 V2 V1 V0 * ipacket[3]: 1 1 1 A 1 L T R * ipacket[4]:V11 V10 V9 V8 H11 H10 H9 H8 * ipacket[5]: 0 P6 P5 P4 P3 P2 P1 P0 * * [note] * R: right physical mouse button (1=on) * T: touch pad virtual button (1=tapping) * L: left physical mouse button (1=on) * A: position data is valid (1=valid) * H: horizontal data (12bit signed integer. H11 is sign bit.) * V: vertical data (12bit signed integer. V11 is sign bit.) * P: pressure data * * Tapping is mapped to MOUSE_BUTTON4. */ c = pb->ipacket[0]; *x = *y = 0; ms->button = butmap_versapad[c & MOUSE_PS2VERSA_BUTTONS]; ms->button |= (c & MOUSE_PS2VERSA_TAP) ? MOUSE_BUTTON4DOWN : 0; if (c & MOUSE_PS2VERSA_IN_USE) { x0 = pb->ipacket[1] | (((pb->ipacket[4]) & 0x0f) << 8); y0 = pb->ipacket[2] | (((pb->ipacket[4]) & 0xf0) << 4); if (x0 & 0x800) x0 -= 0x1000; if (y0 & 0x800) y0 -= 0x1000; if (sc->flags & PSM_FLAGS_FINGERDOWN) { *x = sc->xold - x0; *y = y0 - sc->yold; if (*x < 0) /* XXX */ ++*x; else if (*x) --*x; if (*y < 0) ++*y; else if (*y) --*y; } else sc->flags |= PSM_FLAGS_FINGERDOWN; sc->xold = x0; sc->yold = y0; } else sc->flags &= ~PSM_FLAGS_FINGERDOWN; } static void psmsoftintridle(void *arg) { struct psm_softc *sc = arg; packetbuf_t *pb; /* Invoke soft handler only when pqueue is empty. Otherwise it will be * invoked from psmintr soon with pqueue filled with real data */ if (sc->pqueue_start == sc->pqueue_end && sc->idlepacket.inputbytes > 0) { /* Grow circular queue backwards to avoid race with psmintr */ if (--sc->pqueue_start < 0) sc->pqueue_start = PSM_PACKETQUEUE - 1; pb = &sc->pqueue[sc->pqueue_start]; memcpy(pb, &sc->idlepacket, sizeof(packetbuf_t)); VLOG(4, (LOG_DEBUG, "psmsoftintridle: %02x %02x %02x %02x %02x %02x\n", pb->ipacket[0], pb->ipacket[1], pb->ipacket[2], pb->ipacket[3], pb->ipacket[4], pb->ipacket[5])); psmsoftintr(arg); } } static void psmsoftintr(void *arg) { /* * the table to turn PS/2 mouse button bits (MOUSE_PS2_BUTTON?DOWN) * into `mousestatus' button bits (MOUSE_BUTTON?DOWN). */ static int butmap[8] = { 0, MOUSE_BUTTON1DOWN, MOUSE_BUTTON3DOWN, MOUSE_BUTTON1DOWN | MOUSE_BUTTON3DOWN, MOUSE_BUTTON2DOWN, MOUSE_BUTTON1DOWN | MOUSE_BUTTON2DOWN, MOUSE_BUTTON2DOWN | MOUSE_BUTTON3DOWN, MOUSE_BUTTON1DOWN | MOUSE_BUTTON2DOWN | MOUSE_BUTTON3DOWN }; struct psm_softc *sc = arg; mousestatus_t ms; packetbuf_t *pb; int x, y, z, c, l, s; getmicrouptime(&sc->lastsoftintr); s = spltty(); do { pb = &sc->pqueue[sc->pqueue_start]; if (sc->mode.level == PSM_LEVEL_NATIVE) goto next_native; c = pb->ipacket[0]; /* * A kludge for Kensington device! * The MSB of the horizontal count appears to be stored in * a strange place. */ if (sc->hw.model == MOUSE_MODEL_THINK) pb->ipacket[1] |= (c & MOUSE_PS2_XOVERFLOW) ? 0x80 : 0; /* ignore the overflow bits... */ x = (c & MOUSE_PS2_XNEG) ? pb->ipacket[1] - 256 : pb->ipacket[1]; y = (c & MOUSE_PS2_YNEG) ? pb->ipacket[2] - 256 : pb->ipacket[2]; z = 0; ms.obutton = sc->button; /* previous button state */ ms.button = butmap[c & MOUSE_PS2_BUTTONS]; /* `tapping' action */ if (sc->config & PSM_CONFIG_FORCETAP) ms.button |= ((c & MOUSE_PS2_TAP)) ? 0 : MOUSE_BUTTON4DOWN; timevalclear(&sc->idletimeout); sc->idlepacket.inputbytes = 0; switch (sc->hw.model) { case MOUSE_MODEL_EXPLORER: /* * b7 b6 b5 b4 b3 b2 b1 b0 * byte 1: oy ox sy sx 1 M R L * byte 2: x x x x x x x x * byte 3: y y y y y y y y * byte 4: * * S2 S1 s d2 d1 d0 * * L, M, R, S1, S2: left, middle, right and side buttons * s: wheel data sign bit * d2-d0: wheel data */ z = (pb->ipacket[3] & MOUSE_EXPLORER_ZNEG) ? (pb->ipacket[3] & 0x0f) - 16 : (pb->ipacket[3] & 0x0f); ms.button |= (pb->ipacket[3] & MOUSE_EXPLORER_BUTTON4DOWN) ? MOUSE_BUTTON4DOWN : 0; ms.button |= (pb->ipacket[3] & MOUSE_EXPLORER_BUTTON5DOWN) ? MOUSE_BUTTON5DOWN : 0; break; case MOUSE_MODEL_INTELLI: case MOUSE_MODEL_NET: /* wheel data is in the fourth byte */ z = (char)pb->ipacket[3]; /* * XXX some mice may send 7 when there is no Z movement? */ if ((z >= 7) || (z <= -7)) z = 0; /* some compatible mice have additional buttons */ ms.button |= (c & MOUSE_PS2INTELLI_BUTTON4DOWN) ? MOUSE_BUTTON4DOWN : 0; ms.button |= (c & MOUSE_PS2INTELLI_BUTTON5DOWN) ? MOUSE_BUTTON5DOWN : 0; break; case MOUSE_MODEL_MOUSEMANPLUS: proc_mmanplus(sc, pb, &ms, &x, &y, &z); break; case MOUSE_MODEL_GLIDEPOINT: /* `tapping' action */ ms.button |= ((c & MOUSE_PS2_TAP)) ? 0 : MOUSE_BUTTON4DOWN; break; case MOUSE_MODEL_NETSCROLL: /* * three additional bytes encode buttons and * wheel events */ ms.button |= (pb->ipacket[3] & MOUSE_PS2_BUTTON3DOWN) ? MOUSE_BUTTON4DOWN : 0; ms.button |= (pb->ipacket[3] & MOUSE_PS2_BUTTON1DOWN) ? MOUSE_BUTTON5DOWN : 0; z = (pb->ipacket[3] & MOUSE_PS2_XNEG) ? pb->ipacket[4] - 256 : pb->ipacket[4]; break; case MOUSE_MODEL_THINK: /* the fourth button state in the first byte */ ms.button |= (c & MOUSE_PS2_TAP) ? MOUSE_BUTTON4DOWN : 0; break; case MOUSE_MODEL_VERSAPAD: proc_versapad(sc, pb, &ms, &x, &y, &z); c = ((x < 0) ? MOUSE_PS2_XNEG : 0) | ((y < 0) ? MOUSE_PS2_YNEG : 0); break; case MOUSE_MODEL_4D: /* * b7 b6 b5 b4 b3 b2 b1 b0 * byte 1: s2 d2 s1 d1 1 M R L * byte 2: sx x x x x x x x * byte 3: sy y y y y y y y * * s1: wheel 1 direction * d1: wheel 1 data * s2: wheel 2 direction * d2: wheel 2 data */ x = (pb->ipacket[1] & 0x80) ? pb->ipacket[1] - 256 : pb->ipacket[1]; y = (pb->ipacket[2] & 0x80) ? pb->ipacket[2] - 256 : pb->ipacket[2]; switch (c & MOUSE_4D_WHEELBITS) { case 0x10: z = 1; break; case 0x30: z = -1; break; case 0x40: /* XXX 2nd wheel turning right */ z = 2; break; case 0xc0: /* XXX 2nd wheel turning left */ z = -2; break; } break; case MOUSE_MODEL_4DPLUS: if ((x < 16 - 256) && (y < 16 - 256)) { /* * b7 b6 b5 b4 b3 b2 b1 b0 * byte 1: 0 0 1 1 1 M R L * byte 2: 0 0 0 0 1 0 0 0 * byte 3: 0 0 0 0 S s d1 d0 * * L, M, R, S: left, middle, right, * and side buttons * s: wheel data sign bit * d1-d0: wheel data */ x = y = 0; if (pb->ipacket[2] & MOUSE_4DPLUS_BUTTON4DOWN) ms.button |= MOUSE_BUTTON4DOWN; z = (pb->ipacket[2] & MOUSE_4DPLUS_ZNEG) ? ((pb->ipacket[2] & 0x07) - 8) : (pb->ipacket[2] & 0x07) ; } else { /* preserve previous button states */ ms.button |= ms.obutton & MOUSE_EXTBUTTONS; } break; case MOUSE_MODEL_SYNAPTICS: if (pb->inputbytes == MOUSE_PS2_PACKETSIZE) if (proc_synaptics_mux(sc, pb)) goto next; if (proc_synaptics(sc, pb, &ms, &x, &y, &z) != 0) { VLOG(3, (LOG_DEBUG, "synaptics: " "packet rejected\n")); goto next; } break; case MOUSE_MODEL_ELANTECH: if (proc_elantech(sc, pb, &ms, &x, &y, &z) != 0) { VLOG(3, (LOG_DEBUG, "elantech: " "packet rejected\n")); goto next; } break; case MOUSE_MODEL_TRACKPOINT: case MOUSE_MODEL_GENERIC: default: break; } + /* Store last packet for reinjection if it has not been set already */ + if (timevalisset(&sc->idletimeout) && sc->idlepacket.inputbytes == 0) + sc->idlepacket = *pb; + #ifdef EVDEV_SUPPORT if (evdev_rcpt_mask & EVDEV_RCPT_HW_MOUSE && sc->hw.model != MOUSE_MODEL_ELANTECH && sc->hw.model != MOUSE_MODEL_SYNAPTICS) { evdev_push_rel(sc->evdev_r, REL_X, x); evdev_push_rel(sc->evdev_r, REL_Y, -y); switch (sc->hw.model) { case MOUSE_MODEL_EXPLORER: case MOUSE_MODEL_INTELLI: case MOUSE_MODEL_NET: case MOUSE_MODEL_NETSCROLL: case MOUSE_MODEL_4DPLUS: evdev_push_rel(sc->evdev_r, REL_WHEEL, -z); break; case MOUSE_MODEL_MOUSEMANPLUS: case MOUSE_MODEL_4D: switch (z) { case 1: case -1: evdev_push_rel(sc->evdev_r, REL_WHEEL, -z); break; case 2: case -2: evdev_push_rel(sc->evdev_r, REL_HWHEEL, z / 2); break; } break; } evdev_push_mouse_btn(sc->evdev_r, ms.button); evdev_sync(sc->evdev_r); } + + if ((sc->evdev_a != NULL && evdev_is_grabbed(sc->evdev_a)) || + (sc->evdev_r != NULL && evdev_is_grabbed(sc->evdev_r))) + goto next; #endif /* scale values */ if (sc->mode.accelfactor >= 1) { if (x != 0) { x = x * x / sc->mode.accelfactor; if (x == 0) x = 1; if (c & MOUSE_PS2_XNEG) x = -x; } if (y != 0) { y = y * y / sc->mode.accelfactor; if (y == 0) y = 1; if (c & MOUSE_PS2_YNEG) y = -y; } } - /* Store last packet for reinjection if it has not been set already */ - if (timevalisset(&sc->idletimeout) && sc->idlepacket.inputbytes == 0) - sc->idlepacket = *pb; - ms.dx = x; ms.dy = y; ms.dz = z; ms.flags = ((x || y || z) ? MOUSE_POSCHANGED : 0) | (ms.obutton ^ ms.button); pb->inputbytes = tame_mouse(sc, pb, &ms, pb->ipacket); sc->status.flags |= ms.flags; sc->status.dx += ms.dx; sc->status.dy += ms.dy; sc->status.dz += ms.dz; sc->status.button = ms.button; sc->button = ms.button; next_native: sc->watchdog = FALSE; /* queue data */ if (sc->queue.count + pb->inputbytes < sizeof(sc->queue.buf)) { l = imin(pb->inputbytes, sizeof(sc->queue.buf) - sc->queue.tail); bcopy(&pb->ipacket[0], &sc->queue.buf[sc->queue.tail], l); if (pb->inputbytes > l) bcopy(&pb->ipacket[l], &sc->queue.buf[0], pb->inputbytes - l); sc->queue.tail = (sc->queue.tail + pb->inputbytes) % sizeof(sc->queue.buf); sc->queue.count += pb->inputbytes; } next: pb->inputbytes = 0; if (++sc->pqueue_start >= PSM_PACKETQUEUE) sc->pqueue_start = 0; } while (sc->pqueue_start != sc->pqueue_end); if (sc->state & PSM_ASLP) { sc->state &= ~PSM_ASLP; wakeup(sc); } selwakeuppri(&sc->rsel, PZERO); if (sc->async != NULL) { pgsigio(&sc->async, SIGIO, 0); } sc->state &= ~PSM_SOFTARMED; /* schedule injection of predefined packet after idletimeout * if no data packets have been received from psmintr */ if (timevalisset(&sc->idletimeout)) { sc->state |= PSM_SOFTARMED; callout_reset(&sc->softcallout, tvtohz(&sc->idletimeout), psmsoftintridle, sc); VLOG(2, (LOG_DEBUG, "softintr: callout set: %d ticks\n", tvtohz(&sc->idletimeout))); } splx(s); } static int psmpoll(struct cdev *dev, int events, struct thread *td) { struct psm_softc *sc = dev->si_drv1; int s; int revents = 0; /* Return true if a mouse event available */ s = spltty(); if (events & (POLLIN | POLLRDNORM)) { if (sc->queue.count > 0) revents |= events & (POLLIN | POLLRDNORM); else selrecord(td, &sc->rsel); } splx(s); return (revents); } /* vendor/model specific routines */ static int mouse_id_proc1(KBDC kbdc, int res, int scale, int *status) { if (set_mouse_resolution(kbdc, res) != res) return (FALSE); if (set_mouse_scaling(kbdc, scale) && set_mouse_scaling(kbdc, scale) && set_mouse_scaling(kbdc, scale) && (get_mouse_status(kbdc, status, 0, 3) >= 3)) return (TRUE); return (FALSE); } static int mouse_ext_command(KBDC kbdc, int command) { int c; c = (command >> 6) & 0x03; if (set_mouse_resolution(kbdc, c) != c) return (FALSE); c = (command >> 4) & 0x03; if (set_mouse_resolution(kbdc, c) != c) return (FALSE); c = (command >> 2) & 0x03; if (set_mouse_resolution(kbdc, c) != c) return (FALSE); c = (command >> 0) & 0x03; if (set_mouse_resolution(kbdc, c) != c) return (FALSE); return (TRUE); } #ifdef notyet /* Logitech MouseMan Cordless II */ static int enable_lcordless(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int status[3]; int ch; if (!mouse_id_proc1(kbdc, PSMD_RES_HIGH, 2, status)) return (FALSE); if (status[1] == PSMD_RES_HIGH) return (FALSE); ch = (status[0] & 0x07) - 1; /* channel # */ if ((ch <= 0) || (ch > 4)) return (FALSE); /* * status[1]: always one? * status[2]: battery status? (0-100) */ return (TRUE); } #endif /* notyet */ /* Genius NetScroll Mouse, MouseSystems SmartScroll Mouse */ static int enable_groller(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int status[3]; /* * The special sequence to enable the fourth button and the * roller. Immediately after this sequence check status bytes. * if the mouse is NetScroll, the second and the third bytes are * '3' and 'D'. */ /* * If the mouse is an ordinary PS/2 mouse, the status bytes should * look like the following. * * byte 1 bit 7 always 0 * bit 6 stream mode (0) * bit 5 disabled (0) * bit 4 1:1 scaling (0) * bit 3 always 0 * bit 0-2 button status * byte 2 resolution (PSMD_RES_HIGH) * byte 3 report rate (?) */ if (!mouse_id_proc1(kbdc, PSMD_RES_HIGH, 1, status)) return (FALSE); if ((status[1] != '3') || (status[2] != 'D')) return (FALSE); /* FIXME: SmartScroll Mouse has 5 buttons! XXX */ if (arg == PROBE) sc->hw.buttons = 4; return (TRUE); } /* Genius NetMouse/NetMouse Pro, ASCII Mie Mouse, NetScroll Optical */ static int enable_gmouse(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int status[3]; /* * The special sequence to enable the middle, "rubber" button. * Immediately after this sequence check status bytes. * if the mouse is NetMouse, NetMouse Pro, or ASCII MIE Mouse, * the second and the third bytes are '3' and 'U'. * NOTE: NetMouse reports that it has three buttons although it has * two buttons and a rubber button. NetMouse Pro and MIE Mouse * say they have three buttons too and they do have a button on the * side... */ if (!mouse_id_proc1(kbdc, PSMD_RES_HIGH, 1, status)) return (FALSE); if ((status[1] != '3') || (status[2] != 'U')) return (FALSE); return (TRUE); } /* ALPS GlidePoint */ static int enable_aglide(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int status[3]; /* * The special sequence to obtain ALPS GlidePoint specific * information. Immediately after this sequence, status bytes will * contain something interesting. * NOTE: ALPS produces several models of GlidePoint. Some of those * do not respond to this sequence, thus, cannot be detected this way. */ if (set_mouse_sampling_rate(kbdc, 100) != 100) return (FALSE); if (!mouse_id_proc1(kbdc, PSMD_RES_LOW, 2, status)) return (FALSE); if ((status[1] == PSMD_RES_LOW) || (status[2] == 100)) return (FALSE); return (TRUE); } /* Kensington ThinkingMouse/Trackball */ static int enable_kmouse(struct psm_softc *sc, enum probearg arg) { static u_char rate[] = { 20, 60, 40, 20, 20, 60, 40, 20, 20 }; KBDC kbdc = sc->kbdc; int status[3]; int id1; int id2; int i; id1 = get_aux_id(kbdc); if (set_mouse_sampling_rate(kbdc, 10) != 10) return (FALSE); /* * The device is now in the native mode? It returns a different * ID value... */ id2 = get_aux_id(kbdc); if ((id1 == id2) || (id2 != 2)) return (FALSE); if (set_mouse_resolution(kbdc, PSMD_RES_LOW) != PSMD_RES_LOW) return (FALSE); #if PSM_DEBUG >= 2 /* at this point, resolution is LOW, sampling rate is 10/sec */ if (get_mouse_status(kbdc, status, 0, 3) < 3) return (FALSE); #endif /* * The special sequence to enable the third and fourth buttons. * Otherwise they behave like the first and second buttons. */ for (i = 0; i < nitems(rate); ++i) if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i]) return (FALSE); /* * At this point, the device is using default resolution and * sampling rate for the native mode. */ if (get_mouse_status(kbdc, status, 0, 3) < 3) return (FALSE); if ((status[1] == PSMD_RES_LOW) || (status[2] == rate[i - 1])) return (FALSE); /* the device appears be enabled by this sequence, diable it for now */ disable_aux_dev(kbdc); empty_aux_buffer(kbdc, 5); return (TRUE); } /* Logitech MouseMan+/FirstMouse+, IBM ScrollPoint Mouse */ static int enable_mmanplus(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int data[3]; /* the special sequence to enable the fourth button and the roller. */ /* * NOTE: for ScrollPoint to respond correctly, the SET_RESOLUTION * must be called exactly three times since the last RESET command * before this sequence. XXX */ if (!set_mouse_scaling(kbdc, 1)) return (FALSE); if (!mouse_ext_command(kbdc, 0x39) || !mouse_ext_command(kbdc, 0xdb)) return (FALSE); if (get_mouse_status(kbdc, data, 1, 3) < 3) return (FALSE); /* * PS2++ protocol, packet type 0 * * b7 b6 b5 b4 b3 b2 b1 b0 * byte 1: * 1 p3 p2 1 * * * * byte 2: 1 1 p1 p0 m1 m0 1 0 * byte 3: m7 m6 m5 m4 m3 m2 m1 m0 * * p3-p0: packet type: 0 * m7-m0: model ID: MouseMan+:0x50, * FirstMouse+:0x51, * ScrollPoint:0x58... */ /* check constant bits */ if ((data[0] & MOUSE_PS2PLUS_SYNCMASK) != MOUSE_PS2PLUS_SYNC) return (FALSE); if ((data[1] & 0xc3) != 0xc2) return (FALSE); /* check d3-d0 in byte 2 */ if (!MOUSE_PS2PLUS_CHECKBITS(data)) return (FALSE); /* check p3-p0 */ if (MOUSE_PS2PLUS_PACKET_TYPE(data) != 0) return (FALSE); if (arg == PROBE) { sc->hw.hwid &= 0x00ff; sc->hw.hwid |= data[2] << 8; /* save model ID */ } /* * MouseMan+ (or FirstMouse+) is now in its native mode, in which * the wheel and the fourth button events are encoded in the * special data packet. The mouse may be put in the IntelliMouse mode * if it is initialized by the IntelliMouse's method. */ return (TRUE); } /* MS IntelliMouse Explorer */ static int enable_msexplorer(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; static u_char rate0[] = { 200, 100, 80, }; static u_char rate1[] = { 200, 200, 80, }; int id; int i; /* * This is needed for at least A4Tech X-7xx mice - they do not go * straight to Explorer mode, but need to be set to Intelli mode * first. */ enable_msintelli(sc, arg); /* the special sequence to enable the extra buttons and the roller. */ for (i = 0; i < nitems(rate1); ++i) if (set_mouse_sampling_rate(kbdc, rate1[i]) != rate1[i]) return (FALSE); /* the device will give the genuine ID only after the above sequence */ id = get_aux_id(kbdc); if (id != PSM_EXPLORER_ID) return (FALSE); if (arg == PROBE) { sc->hw.buttons = 5; /* IntelliMouse Explorer XXX */ sc->hw.hwid = id; } /* * XXX: this is a kludge to fool some KVM switch products * which think they are clever enough to know the 4-byte IntelliMouse * protocol, and assume any other protocols use 3-byte packets. * They don't convey 4-byte data packets from the IntelliMouse Explorer * correctly to the host computer because of this! * The following sequence is actually IntelliMouse's "wake up" * sequence; it will make the KVM think the mouse is IntelliMouse * when it is in fact IntelliMouse Explorer. */ for (i = 0; i < nitems(rate0); ++i) if (set_mouse_sampling_rate(kbdc, rate0[i]) != rate0[i]) break; get_aux_id(kbdc); return (TRUE); } /* * MS IntelliMouse * Logitech MouseMan+ and FirstMouse+ will also respond to this * probe routine and act like IntelliMouse. */ static int enable_msintelli(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; static u_char rate[] = { 200, 100, 80, }; int id; int i; /* the special sequence to enable the third button and the roller. */ for (i = 0; i < nitems(rate); ++i) if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i]) return (FALSE); /* the device will give the genuine ID only after the above sequence */ id = get_aux_id(kbdc); if (id != PSM_INTELLI_ID) return (FALSE); if (arg == PROBE) { sc->hw.buttons = 3; sc->hw.hwid = id; } return (TRUE); } /* * A4 Tech 4D Mouse * Newer wheel mice from A4 Tech may use the 4D+ protocol. */ static int enable_4dmouse(struct psm_softc *sc, enum probearg arg) { static u_char rate[] = { 200, 100, 80, 60, 40, 20 }; KBDC kbdc = sc->kbdc; int id; int i; for (i = 0; i < nitems(rate); ++i) if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i]) return (FALSE); id = get_aux_id(kbdc); /* * WinEasy 4D, 4 Way Scroll 4D: 6 * Cable-Free 4D: 8 (4DPLUS) * WinBest 4D+, 4 Way Scroll 4D+: 8 (4DPLUS) */ if (id != PSM_4DMOUSE_ID) return (FALSE); if (arg == PROBE) { sc->hw.buttons = 3; /* XXX some 4D mice have 4? */ sc->hw.hwid = id; } return (TRUE); } /* * A4 Tech 4D+ Mouse * Newer wheel mice from A4 Tech seem to use this protocol. * Older models are recognized as either 4D Mouse or IntelliMouse. */ static int enable_4dplus(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int id; /* * enable_4dmouse() already issued the following ID sequence... static u_char rate[] = { 200, 100, 80, 60, 40, 20 }; int i; for (i = 0; i < sizeof(rate)/sizeof(rate[0]); ++i) if (set_mouse_sampling_rate(kbdc, rate[i]) != rate[i]) return (FALSE); */ id = get_aux_id(kbdc); switch (id) { case PSM_4DPLUS_ID: break; case PSM_4DPLUS_RFSW35_ID: break; default: return (FALSE); } if (arg == PROBE) { sc->hw.buttons = (id == PSM_4DPLUS_ID) ? 4 : 3; sc->hw.hwid = id; } return (TRUE); } /* Synaptics Touchpad */ static int synaptics_sysctl(SYSCTL_HANDLER_ARGS) { struct psm_softc *sc; int error, arg; if (oidp->oid_arg1 == NULL || oidp->oid_arg2 < 0 || oidp->oid_arg2 > SYNAPTICS_SYSCTL_LAST) return (EINVAL); sc = oidp->oid_arg1; /* Read the current value. */ arg = *(int *)((char *)sc + oidp->oid_arg2); error = sysctl_handle_int(oidp, &arg, 0, req); /* Sanity check. */ if (error || !req->newptr) return (error); /* * Check that the new value is in the concerned node's range * of values. */ switch (oidp->oid_arg2) { case SYNAPTICS_SYSCTL_MIN_PRESSURE: case SYNAPTICS_SYSCTL_MAX_PRESSURE: if (arg < 0 || arg > 255) return (EINVAL); break; case SYNAPTICS_SYSCTL_MAX_WIDTH: if (arg < 4 || arg > 15) return (EINVAL); break; case SYNAPTICS_SYSCTL_MARGIN_TOP: case SYNAPTICS_SYSCTL_MARGIN_BOTTOM: case SYNAPTICS_SYSCTL_NA_TOP: case SYNAPTICS_SYSCTL_NA_BOTTOM: if (arg < 0 || arg > sc->synhw.maximumYCoord) return (EINVAL); break; case SYNAPTICS_SYSCTL_SOFTBUTTON2_X: case SYNAPTICS_SYSCTL_SOFTBUTTON3_X: /* Softbuttons is clickpad only feature */ if (!sc->synhw.capClickPad && arg != 0) return (EINVAL); /* FALLTHROUGH */ case SYNAPTICS_SYSCTL_MARGIN_RIGHT: case SYNAPTICS_SYSCTL_MARGIN_LEFT: case SYNAPTICS_SYSCTL_NA_RIGHT: case SYNAPTICS_SYSCTL_NA_LEFT: if (arg < 0 || arg > sc->synhw.maximumXCoord) return (EINVAL); break; case SYNAPTICS_SYSCTL_WINDOW_MIN: case SYNAPTICS_SYSCTL_WINDOW_MAX: case SYNAPTICS_SYSCTL_TAP_MIN_QUEUE: if (arg < 1 || arg > SYNAPTICS_PACKETQUEUE) return (EINVAL); break; case SYNAPTICS_SYSCTL_MULTIPLICATOR: case SYNAPTICS_SYSCTL_WEIGHT_CURRENT: case SYNAPTICS_SYSCTL_WEIGHT_PREVIOUS: case SYNAPTICS_SYSCTL_WEIGHT_PREVIOUS_NA: case SYNAPTICS_SYSCTL_WEIGHT_LEN_SQUARED: case SYNAPTICS_SYSCTL_DIV_MIN: case SYNAPTICS_SYSCTL_DIV_MAX: case SYNAPTICS_SYSCTL_DIV_MAX_NA: case SYNAPTICS_SYSCTL_DIV_LEN: case SYNAPTICS_SYSCTL_VSCROLL_DIV_MIN: case SYNAPTICS_SYSCTL_VSCROLL_DIV_MAX: if (arg < 1) return (EINVAL); break; case SYNAPTICS_SYSCTL_TAP_MAX_DELTA: case SYNAPTICS_SYSCTL_TAPHOLD_TIMEOUT: case SYNAPTICS_SYSCTL_VSCROLL_MIN_DELTA: if (arg < 0) return (EINVAL); break; case SYNAPTICS_SYSCTL_VSCROLL_HOR_AREA: if (arg < -sc->synhw.maximumXCoord || arg > sc->synhw.maximumXCoord) return (EINVAL); break; case SYNAPTICS_SYSCTL_SOFTBUTTONS_Y: /* Softbuttons is clickpad only feature */ if (!sc->synhw.capClickPad && arg != 0) return (EINVAL); /* FALLTHROUGH */ case SYNAPTICS_SYSCTL_VSCROLL_VER_AREA: if (arg < -sc->synhw.maximumYCoord || arg > sc->synhw.maximumYCoord) return (EINVAL); break; case SYNAPTICS_SYSCTL_TOUCHPAD_OFF: case SYNAPTICS_SYSCTL_THREE_FINGER_DRAG: case SYNAPTICS_SYSCTL_NATURAL_SCROLL: if (arg < 0 || arg > 1) return (EINVAL); break; default: return (EINVAL); } /* Update. */ *(int *)((char *)sc + oidp->oid_arg2) = arg; return (error); } static void synaptics_sysctl_create_softbuttons_tree(struct psm_softc *sc) { /* * Set predefined sizes for softbuttons. * Values are taken to match HP Pavilion dv6 clickpad drawings * with thin middle softbutton placed on separator */ /* hw.psm.synaptics.softbuttons_y */ sc->syninfo.softbuttons_y = sc->synhw.topButtonPad ? -1700 : 1700; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "softbuttons_y", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_SOFTBUTTONS_Y, synaptics_sysctl, "I", "Vertical size of softbuttons area"); /* hw.psm.synaptics.softbutton2_x */ sc->syninfo.softbutton2_x = 3100; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "softbutton2_x", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_SOFTBUTTON2_X, synaptics_sysctl, "I", "Horisontal position of 2-nd softbutton left edge (0-disable)"); /* hw.psm.synaptics.softbutton3_x */ sc->syninfo.softbutton3_x = 3900; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "softbutton3_x", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_SOFTBUTTON3_X, synaptics_sysctl, "I", "Horisontal position of 3-rd softbutton left edge (0-disable)"); } static void synaptics_sysctl_create_tree(struct psm_softc *sc, const char *name, const char *descr) { if (sc->syninfo.sysctl_tree != NULL) return; /* Attach extra synaptics sysctl nodes under hw.psm.synaptics */ sysctl_ctx_init(&sc->syninfo.sysctl_ctx); sc->syninfo.sysctl_tree = SYSCTL_ADD_NODE(&sc->syninfo.sysctl_ctx, SYSCTL_STATIC_CHILDREN(_hw_psm), OID_AUTO, name, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, descr); /* hw.psm.synaptics.directional_scrolls. */ sc->syninfo.directional_scrolls = 0; SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "directional_scrolls", CTLFLAG_RW|CTLFLAG_ANYBODY, &sc->syninfo.directional_scrolls, 0, "Enable hardware scrolling pad (if non-zero) or register it as " "extended buttons (if 0)"); /* hw.psm.synaptics.max_x. */ sc->syninfo.max_x = 6143; SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "max_x", CTLFLAG_RD|CTLFLAG_ANYBODY, &sc->syninfo.max_x, 0, "Horizontal reporting range"); /* hw.psm.synaptics.max_y. */ sc->syninfo.max_y = 6143; SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "max_y", CTLFLAG_RD|CTLFLAG_ANYBODY, &sc->syninfo.max_y, 0, "Vertical reporting range"); /* * Turn off two finger scroll if we have a * physical area reserved for scrolling or when * there's no multi finger support. */ if (sc->synhw.verticalScroll || (sc->synhw.capMultiFinger == 0 && sc->synhw.capAdvancedGestures == 0)) sc->syninfo.two_finger_scroll = 0; else sc->syninfo.two_finger_scroll = 1; /* hw.psm.synaptics.two_finger_scroll. */ SYSCTL_ADD_INT(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "two_finger_scroll", CTLFLAG_RW|CTLFLAG_ANYBODY, &sc->syninfo.two_finger_scroll, 0, "Enable two finger scrolling"); /* hw.psm.synaptics.min_pressure. */ sc->syninfo.min_pressure = 32; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "min_pressure", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MIN_PRESSURE, synaptics_sysctl, "I", "Minimum pressure required to start an action"); /* hw.psm.synaptics.max_pressure. */ sc->syninfo.max_pressure = 220; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "max_pressure", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MAX_PRESSURE, synaptics_sysctl, "I", "Maximum pressure to detect palm"); /* hw.psm.synaptics.max_width. */ sc->syninfo.max_width = 10; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "max_width", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MAX_WIDTH, synaptics_sysctl, "I", "Maximum finger width to detect palm"); /* hw.psm.synaptics.top_margin. */ sc->syninfo.margin_top = 200; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "margin_top", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MARGIN_TOP, synaptics_sysctl, "I", "Top margin"); /* hw.psm.synaptics.right_margin. */ sc->syninfo.margin_right = 200; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "margin_right", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MARGIN_RIGHT, synaptics_sysctl, "I", "Right margin"); /* hw.psm.synaptics.bottom_margin. */ sc->syninfo.margin_bottom = 200; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "margin_bottom", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MARGIN_BOTTOM, synaptics_sysctl, "I", "Bottom margin"); /* hw.psm.synaptics.left_margin. */ sc->syninfo.margin_left = 200; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "margin_left", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MARGIN_LEFT, synaptics_sysctl, "I", "Left margin"); /* hw.psm.synaptics.na_top. */ sc->syninfo.na_top = 1783; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "na_top", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_NA_TOP, synaptics_sysctl, "I", "Top noisy area, where weight_previous_na is used instead " "of weight_previous"); /* hw.psm.synaptics.na_right. */ sc->syninfo.na_right = 563; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "na_right", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_NA_RIGHT, synaptics_sysctl, "I", "Right noisy area, where weight_previous_na is used instead " "of weight_previous"); /* hw.psm.synaptics.na_bottom. */ sc->syninfo.na_bottom = 1408; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "na_bottom", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_NA_BOTTOM, synaptics_sysctl, "I", "Bottom noisy area, where weight_previous_na is used instead " "of weight_previous"); /* hw.psm.synaptics.na_left. */ sc->syninfo.na_left = 1600; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "na_left", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_NA_LEFT, synaptics_sysctl, "I", "Left noisy area, where weight_previous_na is used instead " "of weight_previous"); /* hw.psm.synaptics.window_min. */ sc->syninfo.window_min = 4; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "window_min", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_WINDOW_MIN, synaptics_sysctl, "I", "Minimum window size to start an action"); /* hw.psm.synaptics.window_max. */ sc->syninfo.window_max = 10; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "window_max", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_WINDOW_MAX, synaptics_sysctl, "I", "Maximum window size"); /* hw.psm.synaptics.multiplicator. */ sc->syninfo.multiplicator = 10000; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "multiplicator", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_MULTIPLICATOR, synaptics_sysctl, "I", "Multiplicator to increase precision in averages and divisions"); /* hw.psm.synaptics.weight_current. */ sc->syninfo.weight_current = 3; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "weight_current", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_WEIGHT_CURRENT, synaptics_sysctl, "I", "Weight of the current movement in the new average"); /* hw.psm.synaptics.weight_previous. */ sc->syninfo.weight_previous = 6; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "weight_previous", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_WEIGHT_PREVIOUS, synaptics_sysctl, "I", "Weight of the previous average"); /* hw.psm.synaptics.weight_previous_na. */ sc->syninfo.weight_previous_na = 20; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "weight_previous_na", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_WEIGHT_PREVIOUS_NA, synaptics_sysctl, "I", "Weight of the previous average (inside the noisy area)"); /* hw.psm.synaptics.weight_len_squared. */ sc->syninfo.weight_len_squared = 2000; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "weight_len_squared", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_WEIGHT_LEN_SQUARED, synaptics_sysctl, "I", "Length (squared) of segments where weight_previous " "starts to decrease"); /* hw.psm.synaptics.div_min. */ sc->syninfo.div_min = 9; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "div_min", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_DIV_MIN, synaptics_sysctl, "I", "Divisor for fast movements"); /* hw.psm.synaptics.div_max. */ sc->syninfo.div_max = 17; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "div_max", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_DIV_MAX, synaptics_sysctl, "I", "Divisor for slow movements"); /* hw.psm.synaptics.div_max_na. */ sc->syninfo.div_max_na = 30; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "div_max_na", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_DIV_MAX_NA, synaptics_sysctl, "I", "Divisor with slow movements (inside the noisy area)"); /* hw.psm.synaptics.div_len. */ sc->syninfo.div_len = 100; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "div_len", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_DIV_LEN, synaptics_sysctl, "I", "Length of segments where div_max starts to decrease"); /* hw.psm.synaptics.tap_max_delta. */ sc->syninfo.tap_max_delta = 80; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "tap_max_delta", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_TAP_MAX_DELTA, synaptics_sysctl, "I", "Length of segments above which a tap is ignored"); /* hw.psm.synaptics.tap_min_queue. */ sc->syninfo.tap_min_queue = 2; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "tap_min_queue", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_TAP_MIN_QUEUE, synaptics_sysctl, "I", "Number of packets required to consider a tap"); /* hw.psm.synaptics.taphold_timeout. */ sc->gesture.in_taphold = 0; sc->syninfo.taphold_timeout = tap_timeout; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "taphold_timeout", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_TAPHOLD_TIMEOUT, synaptics_sysctl, "I", "Maximum elapsed time between two taps to consider a tap-hold " "action"); /* hw.psm.synaptics.vscroll_hor_area. */ sc->syninfo.vscroll_hor_area = 0; /* 1300 */ SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "vscroll_hor_area", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_VSCROLL_HOR_AREA, synaptics_sysctl, "I", "Area reserved for horizontal virtual scrolling"); /* hw.psm.synaptics.vscroll_ver_area. */ sc->syninfo.vscroll_ver_area = -400 - sc->syninfo.margin_right; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "vscroll_ver_area", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_VSCROLL_VER_AREA, synaptics_sysctl, "I", "Area reserved for vertical virtual scrolling"); /* hw.psm.synaptics.vscroll_min_delta. */ sc->syninfo.vscroll_min_delta = 50; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "vscroll_min_delta", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_VSCROLL_MIN_DELTA, synaptics_sysctl, "I", "Minimum movement to consider virtual scrolling"); /* hw.psm.synaptics.vscroll_div_min. */ sc->syninfo.vscroll_div_min = 100; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "vscroll_div_min", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_VSCROLL_DIV_MIN, synaptics_sysctl, "I", "Divisor for fast scrolling"); /* hw.psm.synaptics.vscroll_div_min. */ sc->syninfo.vscroll_div_max = 150; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "vscroll_div_max", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_VSCROLL_DIV_MAX, synaptics_sysctl, "I", "Divisor for slow scrolling"); /* hw.psm.synaptics.touchpad_off. */ sc->syninfo.touchpad_off = 0; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "touchpad_off", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_TOUCHPAD_OFF, synaptics_sysctl, "I", "Turn off touchpad"); sc->syninfo.three_finger_drag = 0; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "three_finger_drag", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_THREE_FINGER_DRAG, synaptics_sysctl, "I", "Enable dragging with three fingers"); /* hw.psm.synaptics.natural_scroll. */ sc->syninfo.natural_scroll = 0; SYSCTL_ADD_PROC(&sc->syninfo.sysctl_ctx, SYSCTL_CHILDREN(sc->syninfo.sysctl_tree), OID_AUTO, "natural_scroll", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, SYNAPTICS_SYSCTL_NATURAL_SCROLL, synaptics_sysctl, "I", "Enable natural scrolling"); sc->syninfo.softbuttons_y = 0; sc->syninfo.softbutton2_x = 0; sc->syninfo.softbutton3_x = 0; /* skip softbuttons sysctl on not clickpads */ if (sc->synhw.capClickPad) synaptics_sysctl_create_softbuttons_tree(sc); } static int synaptics_preferred_mode(struct psm_softc *sc) { int mode_byte; /* Check if we are in relative mode */ if (sc->hw.model != MOUSE_MODEL_SYNAPTICS) { if (tap_enabled == 0) /* * Disable tap & drag gestures. We use a Mode Byte * and set the DisGest bit (see §2.5 of Synaptics * TouchPad Interfacing Guide). */ return (0x04); else /* * Enable tap & drag gestures. We use a Mode Byte * and clear the DisGest bit (see §2.5 of Synaptics * TouchPad Interfacing Guide). */ return (0x00); } mode_byte = 0xc4; /* request wmode where available */ if (sc->synhw.capExtended) mode_byte |= 1; return mode_byte; } static void synaptics_set_mode(struct psm_softc *sc, int mode_byte) { mouse_ext_command(sc->kbdc, mode_byte); /* "Commit" the Set Mode Byte command sent above. */ set_mouse_sampling_rate(sc->kbdc, 20); /* * Enable advanced gestures mode if supported and we are not entering * passthrough or relative mode. */ if ((sc->synhw.capAdvancedGestures || sc->synhw.capReportsV) && sc->hw.model == MOUSE_MODEL_SYNAPTICS && !(mode_byte & (1 << 5))) { mouse_ext_command(sc->kbdc, SYNAPTICS_READ_MODEL_ID); set_mouse_sampling_rate(sc->kbdc, 0xc8); } } /* * AUX MUX detection code should be placed at very beginning of probe sequence * at least before 4-byte protocol mouse probes e.g. MS IntelliMouse probe as * latter can trigger switching the MUX to incompatible state. */ static int enable_synaptics_mux(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int port, version; int probe = FALSE; int active_ports_count = 0; int active_ports_mask = 0; sc->muxsinglesyna = FALSE; if (mux_disabled == 1 || (mux_disabled == -1 && (kbdc->quirks & KBDC_QUIRK_DISABLE_MUX_PROBE) != 0)) return (FALSE); version = enable_aux_mux(kbdc); if (version == -1) return (FALSE); for (port = 0; port < KBDC_AUX_MUX_NUM_PORTS; port++) { VLOG(3, (LOG_DEBUG, "aux_mux: ping port %d\n", port)); set_active_aux_mux_port(kbdc, port); if (enable_aux_dev(kbdc) && disable_aux_dev(kbdc)) { active_ports_count++; active_ports_mask |= 1 << port; } } if (verbose >= 2) printf("Active Multiplexing PS/2 controller v%d.%d with %d " "active port(s)\n", version >> 4 & 0x0f, version & 0x0f, active_ports_count); /* psm has a special support for GenMouse + SynTouchpad combination */ for (port = 0; port < KBDC_AUX_MUX_NUM_PORTS; port++) { if ((active_ports_mask & 1 << port) == 0) continue; VLOG(3, (LOG_DEBUG, "aux_mux: probe port %d\n", port)); set_active_aux_mux_port(kbdc, port); probe = enable_synaptics(sc, arg); if (probe) { if (arg == PROBE) sc->muxport = port; break; } } /* IRQ handler does not support active multiplexing mode */ disable_aux_mux(kbdc); /* Is MUX still alive after switching back to legacy mode? */ if (!enable_aux_dev(kbdc) || !disable_aux_dev(kbdc)) { /* * On some laptops e.g. Lenovo X121e dead AUX MUX can be * brought back to life with resetting of keyboard. */ reset_kbd(kbdc); if (!enable_aux_dev(kbdc) || !disable_aux_dev(kbdc)) { device_printf(sc->dev, "AUX MUX hang detected!\n"); printf("Consider adding hw.psm.mux_disabled=1 to " "loader tunables\n"); } } empty_both_buffers(kbdc, 10); /* remove stray data if any */ /* Don't disable syncbit checks if Synaptics is only device on MUX */ if (active_ports_count == 1) sc->muxsinglesyna = probe; return (active_ports_count != 1 ? probe : FALSE); } static int enable_single_synaptics_mux(struct psm_softc *sc, enum probearg arg) { /* Synaptics device is already initialized in enable_synaptics_mux */ return (sc->muxsinglesyna); } static int enable_synaptics(struct psm_softc *sc, enum probearg arg) { device_t psmcpnp; struct psmcpnp_softc *psmcpnp_sc; KBDC kbdc = sc->kbdc; synapticshw_t synhw; int status[3]; int buttons; VLOG(3, (LOG_DEBUG, "synaptics: BEGIN init\n")); /* * Just to be on the safe side: this avoids troubles with * following mouse_ext_command() when the previous command * was PSMC_SET_RESOLUTION. Set Scaling has no effect on * Synaptics Touchpad behaviour. */ set_mouse_scaling(kbdc, 1); /* Identify the Touchpad version. */ if (mouse_ext_command(kbdc, SYNAPTICS_READ_IDENTITY) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); if (status[1] != 0x47) return (FALSE); bzero(&synhw, sizeof(synhw)); synhw.infoMinor = status[0]; synhw.infoMajor = status[2] & 0x0f; if (verbose >= 2) printf("Synaptics Touchpad v%d.%d\n", synhw.infoMajor, synhw.infoMinor); if (synhw.infoMajor < 4) { printf(" Unsupported (pre-v4) Touchpad detected\n"); return (FALSE); } /* Get the Touchpad model information. */ if (mouse_ext_command(kbdc, SYNAPTICS_READ_MODEL_ID) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); if ((status[1] & 0x01) != 0) { printf(" Failed to read model information\n"); return (FALSE); } synhw.infoRot180 = (status[0] & 0x80) != 0; synhw.infoPortrait = (status[0] & 0x40) != 0; synhw.infoSensor = status[0] & 0x3f; synhw.infoHardware = (status[1] & 0xfe) >> 1; synhw.infoNewAbs = (status[2] & 0x80) != 0; synhw.capPen = (status[2] & 0x40) != 0; synhw.infoSimplC = (status[2] & 0x20) != 0; synhw.infoGeometry = status[2] & 0x0f; if (verbose >= 2) { printf(" Model information:\n"); printf(" infoRot180: %d\n", synhw.infoRot180); printf(" infoPortrait: %d\n", synhw.infoPortrait); printf(" infoSensor: %d\n", synhw.infoSensor); printf(" infoHardware: %d\n", synhw.infoHardware); printf(" infoNewAbs: %d\n", synhw.infoNewAbs); printf(" capPen: %d\n", synhw.capPen); printf(" infoSimplC: %d\n", synhw.infoSimplC); printf(" infoGeometry: %d\n", synhw.infoGeometry); } /* * Typical bezel limits. Taken from 'Synaptics * PS/2 * TouchPad Interfacing Guide' p.3.2.3. */ synhw.maximumXCoord = 5472; synhw.maximumYCoord = 4448; synhw.minimumXCoord = 1472; synhw.minimumYCoord = 1408; /* Read the extended capability bits. */ if (mouse_ext_command(kbdc, SYNAPTICS_READ_CAPABILITIES) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); if (!SYNAPTICS_VERSION_GE(synhw, 7, 5) && status[1] != 0x47) { printf(" Failed to read extended capability bits\n"); return (FALSE); } psmcpnp = devclass_get_device(devclass_find(PSMCPNP_DRIVER_NAME), device_get_unit(sc->dev)); psmcpnp_sc = (psmcpnp != NULL) ? device_get_softc(psmcpnp) : NULL; /* Set the different capabilities when they exist. */ buttons = 0; synhw.capExtended = (status[0] & 0x80) != 0; if (synhw.capExtended) { synhw.nExtendedQueries = (status[0] & 0x70) >> 4; synhw.capMiddle = (status[0] & 0x04) != 0; synhw.capPassthrough = (status[2] & 0x80) != 0; synhw.capLowPower = (status[2] & 0x40) != 0; synhw.capMultiFingerReport = (status[2] & 0x20) != 0; synhw.capSleep = (status[2] & 0x10) != 0; synhw.capFourButtons = (status[2] & 0x08) != 0; synhw.capBallistics = (status[2] & 0x04) != 0; synhw.capMultiFinger = (status[2] & 0x02) != 0; synhw.capPalmDetect = (status[2] & 0x01) != 0; if (!set_mouse_scaling(kbdc, 1)) return (FALSE); if (mouse_ext_command(kbdc, SYNAPTICS_READ_RESOLUTIONS) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); if (status[0] != 0 && (status[1] & 0x80) && status[2] != 0) { synhw.infoXupmm = status[0]; synhw.infoYupmm = status[2]; } if (verbose >= 2) { printf(" Extended capabilities:\n"); printf(" capExtended: %d\n", synhw.capExtended); printf(" capMiddle: %d\n", synhw.capMiddle); printf(" nExtendedQueries: %d\n", synhw.nExtendedQueries); printf(" capPassthrough: %d\n", synhw.capPassthrough); printf(" capLowPower: %d\n", synhw.capLowPower); printf(" capMultiFingerReport: %d\n", synhw.capMultiFingerReport); printf(" capSleep: %d\n", synhw.capSleep); printf(" capFourButtons: %d\n", synhw.capFourButtons); printf(" capBallistics: %d\n", synhw.capBallistics); printf(" capMultiFinger: %d\n", synhw.capMultiFinger); printf(" capPalmDetect: %d\n", synhw.capPalmDetect); printf(" infoXupmm: %d\n", synhw.infoXupmm); printf(" infoYupmm: %d\n", synhw.infoYupmm); } /* * If nExtendedQueries is 1 or greater, then the TouchPad * supports this number of extended queries. We can load * more information about buttons using query 0x09. */ if (synhw.nExtendedQueries >= 1) { if (!set_mouse_scaling(kbdc, 1)) return (FALSE); if (mouse_ext_command(kbdc, SYNAPTICS_READ_EXTENDED) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); synhw.verticalScroll = (status[0] & 0x01) != 0; synhw.horizontalScroll = (status[0] & 0x02) != 0; synhw.verticalWheel = (status[0] & 0x08) != 0; synhw.nExtendedButtons = (status[1] & 0xf0) >> 4; synhw.capEWmode = (status[0] & 0x04) != 0; if (verbose >= 2) { printf(" Extended model ID:\n"); printf(" verticalScroll: %d\n", synhw.verticalScroll); printf(" horizontalScroll: %d\n", synhw.horizontalScroll); printf(" verticalWheel: %d\n", synhw.verticalWheel); printf(" nExtendedButtons: %d\n", synhw.nExtendedButtons); printf(" capEWmode: %d\n", synhw.capEWmode); } /* * Add the number of extended buttons to the total * button support count, including the middle button * if capMiddle support bit is set. */ buttons = synhw.nExtendedButtons + synhw.capMiddle; } else /* * If the capFourButtons support bit is set, * add a fourth button to the total button count. */ buttons = synhw.capFourButtons ? 1 : 0; /* Read the continued capabilities bits. */ if (synhw.nExtendedQueries >= 4) { if (!set_mouse_scaling(kbdc, 1)) return (FALSE); if (mouse_ext_command(kbdc, SYNAPTICS_READ_CAPABILITIES_CONT) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); synhw.capClickPad = (status[1] & 0x01) << 1; synhw.capClickPad |= (status[0] & 0x10) != 0; synhw.capDeluxeLEDs = (status[1] & 0x02) != 0; synhw.noAbsoluteFilter = (status[1] & 0x04) != 0; synhw.capReportsV = (status[1] & 0x08) != 0; synhw.capUniformClickPad = (status[1] & 0x10) != 0; synhw.capReportsMin = (status[1] & 0x20) != 0; synhw.capInterTouch = (status[1] & 0x40) != 0; synhw.capReportsMax = (status[0] & 0x02) != 0; synhw.capClearPad = (status[0] & 0x04) != 0; synhw.capAdvancedGestures = (status[0] & 0x08) != 0; synhw.capCoveredPad = (status[0] & 0x80) != 0; if (synhw.capReportsMax) { if (!set_mouse_scaling(kbdc, 1)) return (FALSE); if (mouse_ext_command(kbdc, SYNAPTICS_READ_MAX_COORDS) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); synhw.maximumXCoord = (status[0] << 5) | ((status[1] & 0x0f) << 1); synhw.maximumYCoord = (status[2] << 5) | ((status[1] & 0xf0) >> 3); } if (synhw.capReportsMin) { if (!set_mouse_scaling(kbdc, 1)) return (FALSE); if (mouse_ext_command(kbdc, SYNAPTICS_READ_MIN_COORDS) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); synhw.minimumXCoord = (status[0] << 5) | ((status[1] & 0x0f) << 1); synhw.minimumYCoord = (status[2] << 5) | ((status[1] & 0xf0) >> 3); } /* * ClickPad properties are not exported through PS/2 * protocol. Detection is based on controller's PnP ID. */ if (synhw.capClickPad && psmcpnp_sc != NULL) { switch (psmcpnp_sc->type) { case PSMCPNP_FORCEPAD: synhw.forcePad = 1; break; case PSMCPNP_TOPBUTTONPAD: synhw.topButtonPad = 1; break; default: break; } } if (verbose >= 2) { printf(" Continued capabilities:\n"); printf(" capClickPad: %d\n", synhw.capClickPad); printf(" capDeluxeLEDs: %d\n", synhw.capDeluxeLEDs); printf(" noAbsoluteFilter: %d\n", synhw.noAbsoluteFilter); printf(" capReportsV: %d\n", synhw.capReportsV); printf(" capUniformClickPad: %d\n", synhw.capUniformClickPad); printf(" capReportsMin: %d\n", synhw.capReportsMin); printf(" capInterTouch: %d\n", synhw.capInterTouch); printf(" capReportsMax: %d\n", synhw.capReportsMax); printf(" capClearPad: %d\n", synhw.capClearPad); printf(" capAdvancedGestures: %d\n", synhw.capAdvancedGestures); printf(" capCoveredPad: %d\n", synhw.capCoveredPad); if (synhw.capReportsMax) { printf(" maximumXCoord: %d\n", synhw.maximumXCoord); printf(" maximumYCoord: %d\n", synhw.maximumYCoord); } if (synhw.capReportsMin) { printf(" minimumXCoord: %d\n", synhw.minimumXCoord); printf(" minimumYCoord: %d\n", synhw.minimumYCoord); } if (synhw.capClickPad) { printf(" Clickpad capabilities:\n"); printf(" forcePad: %d\n", synhw.forcePad); printf(" topButtonPad: %d\n", synhw.topButtonPad); } } buttons += synhw.capClickPad; } } if (verbose >= 2) { if (synhw.capExtended) printf(" Additional Buttons: %d\n", buttons); else printf(" No extended capabilities\n"); } /* * Add the default number of 3 buttons to the total * count of supported buttons reported above. */ buttons += 3; /* * Read the mode byte. * * XXX: Note the Synaptics documentation also defines the first * byte of the response to this query to be a constant 0x3b, this * does not appear to be true for Touchpads with guest devices. */ if (mouse_ext_command(kbdc, SYNAPTICS_READ_MODES) == 0) return (FALSE); if (get_mouse_status(kbdc, status, 0, 3) != 3) return (FALSE); if (!SYNAPTICS_VERSION_GE(synhw, 7, 5) && status[1] != 0x47) { printf(" Failed to read mode byte\n"); return (FALSE); } if (arg == PROBE) sc->synhw = synhw; if (!synaptics_support) return (FALSE); /* Set mouse type just now for synaptics_set_mode() */ sc->hw.model = MOUSE_MODEL_SYNAPTICS; synaptics_set_mode(sc, synaptics_preferred_mode(sc)); if (trackpoint_support && synhw.capPassthrough) { enable_trackpoint(sc, arg); } VLOG(3, (LOG_DEBUG, "synaptics: END init (%d buttons)\n", buttons)); if (arg == PROBE) { /* Create sysctl tree. */ synaptics_sysctl_create_tree(sc, "synaptics", "Synaptics TouchPad"); sc->hw.buttons = buttons; } return (TRUE); } static void synaptics_passthrough_on(struct psm_softc *sc) { VLOG(2, (LOG_NOTICE, "psm: setting pass-through mode.\n")); synaptics_set_mode(sc, synaptics_preferred_mode(sc) | (1 << 5)); } static void synaptics_passthrough_off(struct psm_softc *sc) { VLOG(2, (LOG_NOTICE, "psm: turning pass-through mode off.\n")); set_mouse_scaling(sc->kbdc, 2); set_mouse_scaling(sc->kbdc, 1); synaptics_set_mode(sc, synaptics_preferred_mode(sc)); } /* IBM/Lenovo TrackPoint */ static int trackpoint_command(struct psm_softc *sc, int cmd, int loc, int val) { const int seq[] = { 0xe2, cmd, loc, val }; int i; if (sc->synhw.capPassthrough) synaptics_passthrough_on(sc); for (i = 0; i < nitems(seq); i++) { if (sc->synhw.capPassthrough && (seq[i] == 0xff || seq[i] == 0xe7)) if (send_aux_command(sc->kbdc, 0xe7) != PSM_ACK) { synaptics_passthrough_off(sc); return (EIO); } if (send_aux_command(sc->kbdc, seq[i]) != PSM_ACK) { if (sc->synhw.capPassthrough) synaptics_passthrough_off(sc); return (EIO); } } if (sc->synhw.capPassthrough) synaptics_passthrough_off(sc); return (0); } #define PSM_TPINFO(x) offsetof(struct psm_softc, tpinfo.x) #define TPMASK 0 #define TPLOC 1 #define TPINFO 2 static int trackpoint_sysctl(SYSCTL_HANDLER_ARGS) { static const int data[][3] = { { 0x00, 0x4a, PSM_TPINFO(sensitivity) }, { 0x00, 0x4d, PSM_TPINFO(inertia) }, { 0x00, 0x60, PSM_TPINFO(uplateau) }, { 0x00, 0x57, PSM_TPINFO(reach) }, { 0x00, 0x58, PSM_TPINFO(draghys) }, { 0x00, 0x59, PSM_TPINFO(mindrag) }, { 0x00, 0x5a, PSM_TPINFO(upthresh) }, { 0x00, 0x5c, PSM_TPINFO(threshold) }, { 0x00, 0x5d, PSM_TPINFO(jenks) }, { 0x00, 0x5e, PSM_TPINFO(ztime) }, { 0x01, 0x2c, PSM_TPINFO(pts) }, { 0x08, 0x2d, PSM_TPINFO(skipback) } }; struct psm_softc *sc; int error, newval, *oldvalp; const int *tp; if (arg1 == NULL || arg2 < 0 || arg2 >= nitems(data)) return (EINVAL); sc = arg1; tp = data[arg2]; oldvalp = (int *)((intptr_t)sc + tp[TPINFO]); newval = *oldvalp; error = sysctl_handle_int(oidp, &newval, 0, req); if (error != 0) return (error); if (newval == *oldvalp) return (0); if (newval < 0 || newval > (tp[TPMASK] == 0 ? 255 : 1)) return (EINVAL); error = trackpoint_command(sc, tp[TPMASK] == 0 ? 0x81 : 0x47, tp[TPLOC], tp[TPMASK] == 0 ? newval : tp[TPMASK]); if (error != 0) return (error); *oldvalp = newval; return (0); } static void trackpoint_sysctl_create_tree(struct psm_softc *sc) { if (sc->tpinfo.sysctl_tree != NULL) return; /* Attach extra trackpoint sysctl nodes under hw.psm.trackpoint */ sysctl_ctx_init(&sc->tpinfo.sysctl_ctx); sc->tpinfo.sysctl_tree = SYSCTL_ADD_NODE(&sc->tpinfo.sysctl_ctx, SYSCTL_STATIC_CHILDREN(_hw_psm), OID_AUTO, "trackpoint", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "IBM/Lenovo TrackPoint"); /* hw.psm.trackpoint.sensitivity */ sc->tpinfo.sensitivity = 0x80; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "sensitivity", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_SENSITIVITY, trackpoint_sysctl, "I", "Sensitivity"); /* hw.psm.trackpoint.negative_inertia */ sc->tpinfo.inertia = 0x06; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "negative_inertia", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_NEGATIVE_INERTIA, trackpoint_sysctl, "I", "Negative inertia factor"); /* hw.psm.trackpoint.upper_plateau */ sc->tpinfo.uplateau = 0x61; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "upper_plateau", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_UPPER_PLATEAU, trackpoint_sysctl, "I", "Transfer function upper plateau speed"); /* hw.psm.trackpoint.backup_range */ sc->tpinfo.reach = 0x0a; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "backup_range", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_BACKUP_RANGE, trackpoint_sysctl, "I", "Backup range"); /* hw.psm.trackpoint.drag_hysteresis */ sc->tpinfo.draghys = 0xff; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "drag_hysteresis", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_DRAG_HYSTERESIS, trackpoint_sysctl, "I", "Drag hysteresis"); /* hw.psm.trackpoint.minimum_drag */ sc->tpinfo.mindrag = 0x14; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "minimum_drag", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_MINIMUM_DRAG, trackpoint_sysctl, "I", "Minimum drag"); /* hw.psm.trackpoint.up_threshold */ sc->tpinfo.upthresh = 0xff; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "up_threshold", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_UP_THRESHOLD, trackpoint_sysctl, "I", "Up threshold for release"); /* hw.psm.trackpoint.threshold */ sc->tpinfo.threshold = 0x08; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "threshold", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_THRESHOLD, trackpoint_sysctl, "I", "Threshold"); /* hw.psm.trackpoint.jenks_curvature */ sc->tpinfo.jenks = 0x87; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "jenks_curvature", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_JENKS_CURVATURE, trackpoint_sysctl, "I", "Jenks curvature"); /* hw.psm.trackpoint.z_time */ sc->tpinfo.ztime = 0x26; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "z_time", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_Z_TIME, trackpoint_sysctl, "I", "Z time constant"); /* hw.psm.trackpoint.press_to_select */ sc->tpinfo.pts = 0x00; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "press_to_select", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_PRESS_TO_SELECT, trackpoint_sysctl, "I", "Press to Select"); /* hw.psm.trackpoint.skip_backups */ sc->tpinfo.skipback = 0x00; SYSCTL_ADD_PROC(&sc->tpinfo.sysctl_ctx, SYSCTL_CHILDREN(sc->tpinfo.sysctl_tree), OID_AUTO, "skip_backups", CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_ANYBODY | CTLFLAG_NEEDGIANT, sc, TRACKPOINT_SYSCTL_SKIP_BACKUPS, trackpoint_sysctl, "I", "Skip backups from drags"); } static void set_trackpoint_parameters(struct psm_softc *sc) { trackpoint_command(sc, 0x81, 0x4a, sc->tpinfo.sensitivity); trackpoint_command(sc, 0x81, 0x60, sc->tpinfo.uplateau); trackpoint_command(sc, 0x81, 0x4d, sc->tpinfo.inertia); trackpoint_command(sc, 0x81, 0x57, sc->tpinfo.reach); trackpoint_command(sc, 0x81, 0x58, sc->tpinfo.draghys); trackpoint_command(sc, 0x81, 0x59, sc->tpinfo.mindrag); trackpoint_command(sc, 0x81, 0x5a, sc->tpinfo.upthresh); trackpoint_command(sc, 0x81, 0x5c, sc->tpinfo.threshold); trackpoint_command(sc, 0x81, 0x5d, sc->tpinfo.jenks); trackpoint_command(sc, 0x81, 0x5e, sc->tpinfo.ztime); if (sc->tpinfo.pts == 0x01) trackpoint_command(sc, 0x47, 0x2c, 0x01); if (sc->tpinfo.skipback == 0x01) trackpoint_command(sc, 0x47, 0x2d, 0x08); } static int enable_trackpoint(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int id; /* * If called from enable_synaptics(), make sure that passthrough * mode is enabled so we can reach the trackpoint. * However, passthrough mode must be disabled before setting the * trackpoint parameters, as rackpoint_command() enables and disables * passthrough mode on its own. */ if (sc->synhw.capPassthrough) synaptics_passthrough_on(sc); if (send_aux_command(kbdc, 0xe1) != PSM_ACK || read_aux_data(kbdc) != 0x01) goto no_trackpoint; id = read_aux_data(kbdc); if (id < 0x01) goto no_trackpoint; if (arg == PROBE) sc->tphw = id; if (!trackpoint_support) goto no_trackpoint; if (sc->synhw.capPassthrough) synaptics_passthrough_off(sc); if (arg == PROBE) { trackpoint_sysctl_create_tree(sc); /* * Don't overwrite hwid and buttons when we are * a guest device. */ if (!sc->synhw.capPassthrough) { sc->hw.hwid = id; sc->hw.buttons = 3; } } set_trackpoint_parameters(sc); return (TRUE); no_trackpoint: if (sc->synhw.capPassthrough) synaptics_passthrough_off(sc); return (FALSE); } /* Interlink electronics VersaPad */ static int enable_versapad(struct psm_softc *sc, enum probearg arg) { KBDC kbdc = sc->kbdc; int data[3]; set_mouse_resolution(kbdc, PSMD_RES_MEDIUM_HIGH); /* set res. 2 */ set_mouse_sampling_rate(kbdc, 100); /* set rate 100 */ set_mouse_scaling(kbdc, 1); /* set scale 1:1 */ set_mouse_scaling(kbdc, 1); /* set scale 1:1 */ set_mouse_scaling(kbdc, 1); /* set scale 1:1 */ set_mouse_scaling(kbdc, 1); /* set scale 1:1 */ if (get_mouse_status(kbdc, data, 0, 3) < 3) /* get status */ return (FALSE); if (data[2] != 0xa || data[1] != 0 ) /* rate == 0xa && res. == 0 */ return (FALSE); set_mouse_scaling(kbdc, 1); /* set scale 1:1 */ return (TRUE); /* PS/2 absolute mode */ } /* Elantech Touchpad */ static int elantech_read_1(KBDC kbdc, int hwversion, int reg, int *val) { int res, readcmd, retidx; int resp[3]; readcmd = hwversion == 2 ? ELANTECH_REG_READ : ELANTECH_REG_RDWR; retidx = hwversion == 4 ? 1 : 0; res = send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, readcmd) != PSM_ACK; res |= send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, reg) != PSM_ACK; res |= get_mouse_status(kbdc, resp, 0, 3) != 3; if (res == 0) *val = resp[retidx]; return (res); } static int elantech_write_1(KBDC kbdc, int hwversion, int reg, int val) { int res, writecmd; writecmd = hwversion == 2 ? ELANTECH_REG_WRITE : ELANTECH_REG_RDWR; res = send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, writecmd) != PSM_ACK; res |= send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, reg) != PSM_ACK; if (hwversion == 4) { res |= send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, writecmd) != PSM_ACK; } res |= send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, val) != PSM_ACK; res |= set_mouse_scaling(kbdc, 1) == 0; return (res); } static int elantech_cmd(KBDC kbdc, int hwversion, int cmd, int *resp) { int res; if (hwversion == 2) { res = set_mouse_scaling(kbdc, 1) == 0; res |= mouse_ext_command(kbdc, cmd) == 0; } else { res = send_aux_command(kbdc, ELANTECH_CUSTOM_CMD) != PSM_ACK; res |= send_aux_command(kbdc, cmd) != PSM_ACK; } res |= get_mouse_status(kbdc, resp, 0, 3) != 3; return (res); } static int elantech_init(KBDC kbdc, elantechhw_t *elanhw) { int i, val, res, hwversion, reg10; /* set absolute mode */ hwversion = elanhw->hwversion; reg10 = -1; switch (hwversion) { case 2: reg10 = elanhw->fwversion == 0x020030 ? 0x54 : 0xc4; res = elantech_write_1(kbdc, hwversion, 0x10, reg10); if (res) break; res = elantech_write_1(kbdc, hwversion, 0x11, 0x8A); break; case 3: reg10 = 0x0b; res = elantech_write_1(kbdc, hwversion, 0x10, reg10); break; case 4: res = elantech_write_1(kbdc, hwversion, 0x07, 0x01); break; default: res = 1; } /* Read back reg 0x10 to ensure hardware is ready. */ if (res == 0 && reg10 >= 0) { for (i = 0; i < 5; i++) { if (elantech_read_1(kbdc, hwversion, 0x10, &val) == 0) break; DELAY(2000); } if (i == 5) res = 1; } if (res) printf("couldn't set absolute mode\n"); return (res); } static void elantech_init_synaptics(struct psm_softc *sc) { /* Set capabilites required by movement smother */ sc->synhw.infoMajor = sc->elanhw.hwversion; sc->synhw.infoMinor = sc->elanhw.fwversion; sc->synhw.infoXupmm = sc->elanhw.dpmmx; sc->synhw.infoYupmm = sc->elanhw.dpmmy; sc->synhw.verticalScroll = 0; sc->synhw.nExtendedQueries = 4; sc->synhw.capExtended = 1; sc->synhw.capPassthrough = sc->elanhw.hastrackpoint; sc->synhw.capClickPad = sc->elanhw.isclickpad; sc->synhw.capMultiFinger = 1; if (sc->elanhw.issemimt) sc->synhw.capAdvancedGestures = 1; else sc->synhw.capReportsV = 1; sc->synhw.capPalmDetect = 1; sc->synhw.capPen = 0; sc->synhw.capReportsMax = 1; sc->synhw.maximumXCoord = sc->elanhw.sizex; sc->synhw.maximumYCoord = sc->elanhw.sizey; sc->synhw.capReportsMin = 1; sc->synhw.minimumXCoord = 0; sc->synhw.minimumYCoord = 0; if (sc->syninfo.sysctl_tree == NULL) { synaptics_sysctl_create_tree(sc, "elantech", "Elantech Touchpad"); /* * Adjust synaptic smoother tunables * 1. Disable finger detection pressure threshold. Unlike * synaptics we assume the finger is acting when packet with * its X&Y arrives not when pressure exceedes some threshold * 2. Disable unrelated features like margins and noisy areas * 3. Disable virtual scroll areas as 2nd finger is preferable * 4. For clickpads set bottom quarter as 42% - 16% - 42% sized * softbuttons * 5. Scale down divisors and movement lengths by a factor of 3 * where 3 is Synaptics to Elantech (~2200/800) dpi ratio */ /* Set reporting range to be equal touchpad size */ sc->syninfo.max_x = sc->elanhw.sizex; sc->syninfo.max_y = sc->elanhw.sizey; /* Disable finger detection pressure threshold */ sc->syninfo.min_pressure = 1; /* Adjust palm width to nearly match synaptics w=10 */ sc->syninfo.max_width = 7; /* Elans often report double & triple taps as single event */ sc->syninfo.tap_min_queue = 1; /* Use full area of touchpad */ sc->syninfo.margin_top = 0; sc->syninfo.margin_right = 0; sc->syninfo.margin_bottom = 0; sc->syninfo.margin_left = 0; /* Disable noisy area */ sc->syninfo.na_top = 0; sc->syninfo.na_right = 0; sc->syninfo.na_bottom = 0; sc->syninfo.na_left = 0; /* Tune divisors and movement lengths */ sc->syninfo.weight_len_squared = 200; sc->syninfo.div_min = 3; sc->syninfo.div_max = 6; sc->syninfo.div_max_na = 10; sc->syninfo.div_len = 30; sc->syninfo.tap_max_delta = 25; /* Disable virtual scrolling areas and tune its divisors */ sc->syninfo.vscroll_hor_area = 0; sc->syninfo.vscroll_ver_area = 0; sc->syninfo.vscroll_min_delta = 15; sc->syninfo.vscroll_div_min = 30; sc->syninfo.vscroll_div_max = 50; /* Set bottom quarter as 42% - 16% - 42% sized softbuttons */ if (sc->elanhw.isclickpad) { sc->syninfo.softbuttons_y = sc->elanhw.sizey / 4; sc->syninfo.softbutton2_x = sc->elanhw.sizex * 11 / 25; sc->syninfo.softbutton3_x = sc->elanhw.sizex * 14 / 25; } } return; } static int enable_elantech(struct psm_softc *sc, enum probearg arg) { static const int ic2hw[] = /*IC: 0 1 2 3 4 5 6 7 8 9 a b c d e f */ { 0, 0, 2, 0, 2, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4 }; static const int fw_sizes[][3] = { /* FW.vers MaxX MaxY */ { 0x020030, 1152, 768 }, { 0x020800, 1152, 768 }, { 0x020b00, 1152, 768 }, { 0x040215, 900, 500 }, { 0x040216, 819, 405 }, { 0x040219, 900, 500 }, }; elantechhw_t elanhw; int icversion, hwversion, xtr, i, id, resp[3], dpix, dpiy; KBDC kbdc = sc->kbdc; VLOG(3, (LOG_DEBUG, "elantech: BEGIN init\n")); set_mouse_scaling(kbdc, 1); set_mouse_scaling(kbdc, 1); set_mouse_scaling(kbdc, 1); if (get_mouse_status(kbdc, resp, 0, 3) != 3) return (FALSE); if (!ELANTECH_MAGIC(resp)) return (FALSE); /* Identify the Touchpad version. */ if (elantech_cmd(kbdc, 2, ELANTECH_FW_VERSION, resp)) return (FALSE); bzero(&elanhw, sizeof(elanhw)); elanhw.fwversion = (resp[0] << 16) | (resp[1] << 8) | resp[2]; icversion = resp[0] & 0x0f; hwversion = ic2hw[icversion]; if (verbose >= 2) printf("Elantech touchpad hardware v.%d firmware v.0x%06x\n", hwversion, elanhw.fwversion); if (ELANTECH_HW_IS_V1(elanhw.fwversion)) { printf (" Unsupported touchpad hardware (v1)\n"); return (FALSE); } if (hwversion == 0) { printf (" Unknown touchpad hardware (firmware v.0x%06x)\n", elanhw.fwversion); return (FALSE); } /* Get the Touchpad model information. */ elanhw.hwversion = hwversion; elanhw.issemimt = hwversion == 2; elanhw.isclickpad = (resp[1] & 0x10) != 0; elanhw.hascrc = (resp[1] & 0x40) != 0; elanhw.haspressure = elanhw.fwversion >= 0x020800; /* Read the capability bits. */ if (elantech_cmd(kbdc, hwversion, ELANTECH_CAPABILITIES, resp) != 0) { printf(" Failed to read capability bits\n"); return (FALSE); } elanhw.ntracesx = imax(resp[1], 3); elanhw.ntracesy = imax(resp[2], 3); elanhw.hastrackpoint = (resp[0] & 0x80) != 0; /* Get the touchpad resolution */ switch (hwversion) { case 4: if (elantech_cmd(kbdc, hwversion, ELANTECH_RESOLUTION, resp) == 0) { dpix = (resp[1] & 0x0f) * 10 + 790; dpiy = ((resp[1] & 0xf0) >> 4) * 10 + 790; elanhw.dpmmx = (dpix * 10 + 5) / 254; elanhw.dpmmy = (dpiy * 10 + 5) / 254; break; } /* FALLTHROUGH */ case 2: case 3: elanhw.dpmmx = elanhw.dpmmy = 32; /* 800 dpi */ break; } if (!elantech_support) return (FALSE); if (elantech_init(kbdc, &elanhw)) { printf("couldn't initialize elantech touchpad\n"); return (FALSE); } /* * Get the touchpad reporting range. * On HW v.3 touchpads it should be done after switching hardware * to real resolution mode (by setting bit 3 of reg10) */ elanhw.dptracex = elanhw.dptracey = 64; for (i = 0; i < nitems(fw_sizes); i++) { if (elanhw.fwversion == fw_sizes[i][0]) { elanhw.sizex = fw_sizes[i][1]; elanhw.sizey = fw_sizes[i][2]; goto found; } } if (elantech_cmd(kbdc, hwversion, ELANTECH_FW_ID, resp) != 0) { printf(" Failed to read touchpad size\n"); elanhw.sizex = 10000; /* Arbitrary high values to */ elanhw.sizey = 10000; /* prevent clipping in smoother */ } else if (hwversion == 2) { if ((elanhw.fwversion >> 16) == 0x14 && (resp[1] & 0x10) && !elantech_cmd(kbdc, hwversion, ELANTECH_SAMPLE, resp)) { elanhw.dptracex = resp[1] / 2; elanhw.dptracey = resp[2] / 2; } xtr = ((elanhw.fwversion >> 8) == 0x0208) ? 1 : 2; elanhw.sizex = (elanhw.ntracesx - xtr) * elanhw.dptracex; elanhw.sizey = (elanhw.ntracesy - xtr) * elanhw.dptracey; } else { elanhw.sizex = (resp[0] & 0x0f) << 8 | resp[1]; elanhw.sizey = (resp[0] & 0xf0) << 4 | resp[2]; xtr = (elanhw.sizex % (elanhw.ntracesx - 2) == 0) ? 2 : 1; elanhw.dptracex = elanhw.sizex / (elanhw.ntracesx - xtr); elanhw.dptracey = elanhw.sizey / (elanhw.ntracesy - xtr); } found: if (verbose >= 2) { printf(" Model information:\n"); printf(" MaxX: %d\n", elanhw.sizex); printf(" MaxY: %d\n", elanhw.sizey); printf(" DpmmX: %d\n", elanhw.dpmmx); printf(" DpmmY: %d\n", elanhw.dpmmy); printf(" TracesX: %d\n", elanhw.ntracesx); printf(" TracesY: %d\n", elanhw.ntracesy); printf(" DptraceX: %d\n", elanhw.dptracex); printf(" DptraceY: %d\n", elanhw.dptracey); printf(" SemiMT: %d\n", elanhw.issemimt); printf(" Clickpad: %d\n", elanhw.isclickpad); printf(" Trackpoint: %d\n", elanhw.hastrackpoint); printf(" CRC: %d\n", elanhw.hascrc); printf(" Pressure: %d\n", elanhw.haspressure); } VLOG(3, (LOG_DEBUG, "elantech: END init\n")); if (arg == PROBE) { sc->elanhw = elanhw; sc->hw.buttons = 3; /* Initialize synaptics movement smoother */ elantech_init_synaptics(sc); for (id = 0; id < ELANTECH_MAX_FINGERS; id++) PSM_FINGER_RESET(sc->elanaction.fingers[id]); } return (TRUE); } /* * Return true if 'now' is earlier than (start + (secs.usecs)). * Now may be NULL and the function will fetch the current time from * getmicrouptime(), or a cached 'now' can be passed in. * All values should be numbers derived from getmicrouptime(). */ static int timeelapsed(start, secs, usecs, now) const struct timeval *start, *now; int secs, usecs; { struct timeval snow, tv; /* if there is no 'now' passed in, the get it as a convience. */ if (now == NULL) { getmicrouptime(&snow); now = &snow; } tv.tv_sec = secs; tv.tv_usec = usecs; timevaladd(&tv, start); return (timevalcmp(&tv, now, <)); } static int psmresume(device_t dev) { struct psm_softc *sc = device_get_softc(dev); int err; VDLOG(2, dev, LOG_NOTICE, "system resume hook called.\n"); if ((sc->config & (PSM_CONFIG_HOOKRESUME | PSM_CONFIG_INITAFTERSUSPEND)) == 0) return (0); err = reinitialize(sc, sc->config & PSM_CONFIG_INITAFTERSUSPEND); if ((sc->state & PSM_ASLP) && !(sc->state & PSM_VALID)) { /* * Release the blocked process; it must be notified that * the device cannot be accessed anymore. */ sc->state &= ~PSM_ASLP; wakeup(sc); } VDLOG(2, dev, LOG_DEBUG, "system resume hook exiting.\n"); return (err); } DRIVER_MODULE(psm, atkbdc, psm_driver, 0, 0); #ifdef EVDEV_SUPPORT MODULE_DEPEND(psm, evdev, 1, 1, 1); #endif #ifdef DEV_ISA /* * This sucks up assignments from PNPBIOS and ACPI. */ /* * When the PS/2 mouse device is reported by ACPI or PnP BIOS, it may * appear BEFORE the AT keyboard controller. As the PS/2 mouse device * can be probed and attached only after the AT keyboard controller is * attached, we shall quietly reserve the IRQ resource for later use. * If the PS/2 mouse device is reported to us AFTER the keyboard controller, * copy the IRQ resource to the PS/2 mouse device instance hanging * under the keyboard controller, then probe and attach it. */ static device_probe_t psmcpnp_probe; static device_attach_t psmcpnp_attach; static device_method_t psmcpnp_methods[] = { DEVMETHOD(device_probe, psmcpnp_probe), DEVMETHOD(device_attach, psmcpnp_attach), { 0, 0 } }; static driver_t psmcpnp_driver = { PSMCPNP_DRIVER_NAME, psmcpnp_methods, sizeof(struct psmcpnp_softc), }; static struct isa_pnp_id psmcpnp_ids[] = { { 0x030fd041, "PS/2 mouse port" }, /* PNP0F03 */ { 0x0e0fd041, "PS/2 mouse port" }, /* PNP0F0E */ { 0x120fd041, "PS/2 mouse port" }, /* PNP0F12 */ { 0x130fd041, "PS/2 mouse port" }, /* PNP0F13 */ { 0x1303d041, "PS/2 port" }, /* PNP0313, XXX */ { 0x02002e4f, "Dell PS/2 mouse port" }, /* Lat. X200, Dell */ { 0x0002a906, "ALPS Glide Point" }, /* ALPS Glide Point */ { 0x80374d24, "IBM PS/2 mouse port" }, /* IBM3780, ThinkPad */ { 0x81374d24, "IBM PS/2 mouse port" }, /* IBM3781, ThinkPad */ { 0x0190d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9001, Vaio */ { 0x0290d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9002, Vaio */ { 0x0390d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9003, Vaio */ { 0x0490d94d, "SONY VAIO PS/2 mouse port"}, /* SNY9004, Vaio */ { 0 } }; /* _HID list for quirk detection. Any device below has _CID from psmcpnp_ids */ static struct isa_pnp_id topbtpad_ids[] = { { 0x1700ae30, "Lenovo PS/2 clickpad port" }, /* LEN0017, ThinkPad */ { 0x1800ae30, "Lenovo PS/2 clickpad port" }, /* LEN0018, ThinkPad */ { 0x1900ae30, "Lenovo PS/2 clickpad port" }, /* LEN0019, ThinkPad */ { 0x2300ae30, "Lenovo PS/2 clickpad port" }, /* LEN0023, ThinkPad */ { 0x2a00ae30, "Lenovo PS/2 clickpad port" }, /* LEN002a, ThinkPad */ { 0x2b00ae30, "Lenovo PS/2 clickpad port" }, /* LEN002b, ThinkPad */ { 0x2c00ae30, "Lenovo PS/2 clickpad port" }, /* LEN002c, ThinkPad */ { 0x2d00ae30, "Lenovo PS/2 clickpad port" }, /* LEN002d, ThinkPad */ { 0x2e00ae30, "Lenovo PS/2 clickpad port" }, /* LEN002e, ThinkPad */ { 0x3300ae30, "Lenovo PS/2 clickpad port" }, /* LEN0033, ThinkPad */ { 0x3400ae30, "Lenovo PS/2 clickpad port" }, /* LEN0034, ThinkPad */ { 0x3500ae30, "Lenovo PS/2 clickpad port" }, /* LEN0035, ThinkPad */ { 0x3600ae30, "Lenovo PS/2 clickpad port" }, /* LEN0036, ThinkPad */ { 0x3700ae30, "Lenovo PS/2 clickpad port" }, /* LEN0037, ThinkPad */ { 0x3800ae30, "Lenovo PS/2 clickpad port" }, /* LEN0038, ThinkPad */ { 0x3900ae30, "Lenovo PS/2 clickpad port" }, /* LEN0039, ThinkPad */ { 0x4100ae30, "Lenovo PS/2 clickpad port" }, /* LEN0041, ThinkPad */ { 0x4200ae30, "Lenovo PS/2 clickpad port" }, /* LEN0042, ThinkPad */ { 0x4500ae30, "Lenovo PS/2 clickpad port" }, /* LEN0045, ThinkPad */ { 0x4700ae30, "Lenovo PS/2 clickpad port" }, /* LEN0047, ThinkPad */ { 0x4900ae30, "Lenovo PS/2 clickpad port" }, /* LEN0049, ThinkPad */ { 0x0020ae30, "Lenovo PS/2 clickpad port" }, /* LEN2000, ThinkPad */ { 0x0120ae30, "Lenovo PS/2 clickpad port" }, /* LEN2001, ThinkPad */ { 0x0220ae30, "Lenovo PS/2 clickpad port" }, /* LEN2002, ThinkPad */ { 0x0320ae30, "Lenovo PS/2 clickpad port" }, /* LEN2003, ThinkPad */ { 0x0420ae30, "Lenovo PS/2 clickpad port" }, /* LEN2004, ThinkPad */ { 0x0520ae30, "Lenovo PS/2 clickpad port" }, /* LEN2005, ThinkPad */ { 0x0620ae30, "Lenovo PS/2 clickpad port" }, /* LEN2006, ThinkPad */ { 0x0720ae30, "Lenovo PS/2 clickpad port" }, /* LEN2007, ThinkPad */ { 0x0820ae30, "Lenovo PS/2 clickpad port" }, /* LEN2008, ThinkPad */ { 0x0920ae30, "Lenovo PS/2 clickpad port" }, /* LEN2009, ThinkPad */ { 0x0a20ae30, "Lenovo PS/2 clickpad port" }, /* LEN200a, ThinkPad */ { 0x0b20ae30, "Lenovo PS/2 clickpad port" }, /* LEN200b, ThinkPad */ { 0 } }; /* _HID list for quirk detection. Any device below has _CID from psmcpnp_ids */ static struct isa_pnp_id forcepad_ids[] = { { 0x0d302e4f, "HP PS/2 forcepad port" }, /* SYN300D, EB 1040 */ { 0x14302e4f, "HP PS/2 forcepad port" }, /* SYN3014, EB 1040 */ { 0 } }; static int create_a_copy(device_t atkbdc, device_t me) { device_t psm; u_long irq; /* find the PS/2 mouse device instance under the keyboard controller */ psm = device_find_child(atkbdc, PSM_DRIVER_NAME, device_get_unit(atkbdc)); if (psm == NULL) return (ENXIO); if (device_get_state(psm) != DS_NOTPRESENT) return (0); /* move our resource to the found device */ irq = bus_get_resource_start(me, SYS_RES_IRQ, 0); bus_delete_resource(me, SYS_RES_IRQ, 0); bus_set_resource(psm, SYS_RES_IRQ, KBDC_RID_AUX, irq, 1); /* ...then probe and attach it */ return (device_probe_and_attach(psm)); } static int psmcpnp_probe(device_t dev) { struct psmcpnp_softc *sc = device_get_softc(dev); struct resource *res; u_long irq; int rid; if (ISA_PNP_PROBE(device_get_parent(dev), dev, forcepad_ids) == 0) sc->type = PSMCPNP_FORCEPAD; else if (ISA_PNP_PROBE(device_get_parent(dev), dev, topbtpad_ids) == 0) sc->type = PSMCPNP_TOPBUTTONPAD; else if (ISA_PNP_PROBE(device_get_parent(dev), dev, psmcpnp_ids) == 0) sc->type = PSMCPNP_GENERIC; else return (ENXIO); /* * The PnP BIOS and ACPI are supposed to assign an IRQ (12) * to the PS/2 mouse device node. But, some buggy PnP BIOS * declares the PS/2 mouse device node without an IRQ resource! * If this happens, we shall refer to device hints. * If we still don't find it there, use a hardcoded value... XXX */ rid = 0; irq = bus_get_resource_start(dev, SYS_RES_IRQ, rid); if (irq <= 0) { if (resource_long_value(PSM_DRIVER_NAME, device_get_unit(dev),"irq", &irq) != 0) irq = 12; /* XXX */ device_printf(dev, "irq resource info is missing; " "assuming irq %ld\n", irq); bus_set_resource(dev, SYS_RES_IRQ, rid, irq, 1); } res = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid, 0); bus_release_resource(dev, SYS_RES_IRQ, rid, res); /* keep quiet */ if (!bootverbose) device_quiet(dev); return ((res == NULL) ? ENXIO : 0); } static int psmcpnp_attach(device_t dev) { device_t atkbdc; /* find the keyboard controller, which may be on acpi* or isa* bus */ atkbdc = devclass_get_device(devclass_find(ATKBDC_DRIVER_NAME), device_get_unit(dev)); if ((atkbdc != NULL) && (device_get_state(atkbdc) == DS_ATTACHED)) create_a_copy(atkbdc, dev); return (0); } DRIVER_MODULE(psmcpnp, isa, psmcpnp_driver, 0, 0); DRIVER_MODULE(psmcpnp, acpi, psmcpnp_driver, 0, 0); ISA_PNP_INFO(psmcpnp_ids); #endif /* DEV_ISA */ diff --git a/sys/dev/evdev/evdev.c b/sys/dev/evdev/evdev.c index 2fd7c2e201ea..a0a039f0b691 100644 --- a/sys/dev/evdev/evdev.c +++ b/sys/dev/evdev/evdev.c @@ -1,1144 +1,1155 @@ /*- * Copyright (c) 2014 Jakub Wojciech Klama * Copyright (c) 2015-2016 Vladimir Kondratyev * 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. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE. * * $FreeBSD$ */ #include "opt_evdev.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef EVDEV_DEBUG #define debugf(evdev, fmt, args...) printf("evdev: " fmt "\n", ##args) #else #define debugf(evdev, fmt, args...) #endif #ifdef FEATURE FEATURE(evdev, "Input event devices support"); #ifdef EVDEV_SUPPORT FEATURE(evdev_support, "Evdev support in hybrid drivers"); #endif #endif enum evdev_sparse_result { EV_SKIP_EVENT, /* Event value not changed */ EV_REPORT_EVENT, /* Event value changed */ EV_REPORT_MT_SLOT, /* Event value and MT slot number changed */ }; MALLOC_DEFINE(M_EVDEV, "evdev", "evdev memory"); /* adb keyboard driver used on powerpc does not support evdev yet */ #if defined(__powerpc__) && !defined(__powerpc64__) int evdev_rcpt_mask = EVDEV_RCPT_KBDMUX | EVDEV_RCPT_HW_MOUSE; #else int evdev_rcpt_mask = EVDEV_RCPT_HW_MOUSE | EVDEV_RCPT_HW_KBD; #endif int evdev_sysmouse_t_axis = 0; SYSCTL_NODE(_kern, OID_AUTO, evdev, CTLFLAG_RW | CTLFLAG_MPSAFE, 0, "Evdev args"); #ifdef EVDEV_SUPPORT SYSCTL_INT(_kern_evdev, OID_AUTO, rcpt_mask, CTLFLAG_RWTUN, &evdev_rcpt_mask, 0, "Who is receiving events: bit0 - sysmouse, bit1 - kbdmux, " "bit2 - mouse hardware, bit3 - keyboard hardware"); SYSCTL_INT(_kern_evdev, OID_AUTO, sysmouse_t_axis, CTLFLAG_RWTUN, &evdev_sysmouse_t_axis, 0, "Extract T-axis from 0-none, 1-ums, 2-psm"); #endif SYSCTL_NODE(_kern_evdev, OID_AUTO, input, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "Evdev input devices"); static void evdev_start_repeat(struct evdev_dev *, uint16_t); static void evdev_stop_repeat(struct evdev_dev *); static int evdev_check_event(struct evdev_dev *, uint16_t, uint16_t, int32_t); struct evdev_dev * evdev_alloc(void) { return malloc(sizeof(struct evdev_dev), M_EVDEV, M_WAITOK | M_ZERO); } void evdev_free(struct evdev_dev *evdev) { if (evdev != NULL && evdev->ev_cdev != NULL && evdev->ev_cdev->si_drv1 != NULL) evdev_unregister(evdev); free(evdev, M_EVDEV); } static struct input_absinfo * evdev_alloc_absinfo(void) { return (malloc(sizeof(struct input_absinfo) * ABS_CNT, M_EVDEV, M_WAITOK | M_ZERO)); } static void evdev_free_absinfo(struct input_absinfo *absinfo) { free(absinfo, M_EVDEV); } int evdev_set_report_size(struct evdev_dev *evdev, size_t report_size) { if (report_size > KEY_CNT + REL_CNT + ABS_CNT + MAX_MT_SLOTS * MT_CNT + MSC_CNT + LED_CNT + SND_CNT + SW_CNT + FF_CNT) return (EINVAL); evdev->ev_report_size = report_size; return (0); } static size_t evdev_estimate_report_size(struct evdev_dev *evdev) { size_t size = 0; int res; /* * Keyboards generate one event per report but other devices with * buttons like mouses can report events simultaneously */ bit_ffs_at(evdev->ev_key_flags, KEY_OK, KEY_CNT - KEY_OK, &res); if (res == -1) bit_ffs(evdev->ev_key_flags, BTN_MISC, &res); size += (res != -1); bit_count(evdev->ev_key_flags, BTN_MISC, KEY_OK - BTN_MISC, &res); size += res; /* All relative axes can be reported simultaneously */ bit_count(evdev->ev_rel_flags, 0, REL_CNT, &res); size += res; /* * All absolute axes can be reported simultaneously. * Multitouch axes can be reported ABS_MT_SLOT times */ if (evdev->ev_absinfo != NULL) { bit_count(evdev->ev_abs_flags, 0, ABS_CNT, &res); size += res; bit_count(evdev->ev_abs_flags, ABS_MT_FIRST, MT_CNT, &res); if (res > 0) { res++; /* ABS_MT_SLOT or SYN_MT_REPORT */ if (bit_test(evdev->ev_abs_flags, ABS_MT_SLOT)) /* MT type B */ size += res * MAXIMAL_MT_SLOT(evdev); else /* MT type A */ size += res * (MAX_MT_REPORTS - 1); } } /* All misc events can be reported simultaneously */ bit_count(evdev->ev_msc_flags, 0, MSC_CNT, &res); size += res; /* All leds can be reported simultaneously */ bit_count(evdev->ev_led_flags, 0, LED_CNT, &res); size += res; /* Assume other events are generated once per report */ bit_ffs(evdev->ev_snd_flags, SND_CNT, &res); size += (res != -1); bit_ffs(evdev->ev_sw_flags, SW_CNT, &res); size += (res != -1); /* XXX: FF part is not implemented yet */ size++; /* SYN_REPORT */ return (size); } static void evdev_sysctl_create(struct evdev_dev *evdev) { struct sysctl_oid *ev_sysctl_tree; char ev_unit_str[8]; snprintf(ev_unit_str, sizeof(ev_unit_str), "%d", evdev->ev_unit); sysctl_ctx_init(&evdev->ev_sysctl_ctx); ev_sysctl_tree = SYSCTL_ADD_NODE_WITH_LABEL(&evdev->ev_sysctl_ctx, SYSCTL_STATIC_CHILDREN(_kern_evdev_input), OID_AUTO, ev_unit_str, CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, "", "device index"); SYSCTL_ADD_STRING(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "name", CTLFLAG_RD, evdev->ev_name, 0, "Input device name"); SYSCTL_ADD_STRUCT(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "id", CTLFLAG_RD, &evdev->ev_id, input_id, "Input device identification"); /* ioctl returns ENOENT if phys is not set. sysctl returns "" here */ SYSCTL_ADD_STRING(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "phys", CTLFLAG_RD, evdev->ev_shortname, 0, "Input device short name"); /* ioctl returns ENOENT if uniq is not set. sysctl returns "" here */ SYSCTL_ADD_STRING(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "uniq", CTLFLAG_RD, evdev->ev_serial, 0, "Input device unique number"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "props", CTLFLAG_RD, evdev->ev_prop_flags, sizeof(evdev->ev_prop_flags), "", "Input device properties"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "type_bits", CTLFLAG_RD, evdev->ev_type_flags, sizeof(evdev->ev_type_flags), "", "Input device supported events types"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "key_bits", CTLFLAG_RD, evdev->ev_key_flags, sizeof(evdev->ev_key_flags), "", "Input device supported keys"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "rel_bits", CTLFLAG_RD, evdev->ev_rel_flags, sizeof(evdev->ev_rel_flags), "", "Input device supported relative events"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "abs_bits", CTLFLAG_RD, evdev->ev_abs_flags, sizeof(evdev->ev_abs_flags), "", "Input device supported absolute events"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "msc_bits", CTLFLAG_RD, evdev->ev_msc_flags, sizeof(evdev->ev_msc_flags), "", "Input device supported miscellaneous events"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "led_bits", CTLFLAG_RD, evdev->ev_led_flags, sizeof(evdev->ev_led_flags), "", "Input device supported LED events"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "snd_bits", CTLFLAG_RD, evdev->ev_snd_flags, sizeof(evdev->ev_snd_flags), "", "Input device supported sound events"); SYSCTL_ADD_OPAQUE(&evdev->ev_sysctl_ctx, SYSCTL_CHILDREN(ev_sysctl_tree), OID_AUTO, "sw_bits", CTLFLAG_RD, evdev->ev_sw_flags, sizeof(evdev->ev_sw_flags), "", "Input device supported switch events"); } static int evdev_register_common(struct evdev_dev *evdev) { int ret; debugf(evdev, "%s: registered evdev provider: %s <%s>\n", evdev->ev_shortname, evdev->ev_name, evdev->ev_serial); /* Initialize internal structures */ CK_SLIST_INIT(&evdev->ev_clients); sx_init(&evdev->ev_list_lock, "evsx"); if (evdev_event_supported(evdev, EV_REP) && bit_test(evdev->ev_flags, EVDEV_FLAG_SOFTREPEAT)) { /* Initialize callout */ callout_init_mtx(&evdev->ev_rep_callout, evdev->ev_state_lock, 0); if (evdev->ev_rep[REP_DELAY] == 0 && evdev->ev_rep[REP_PERIOD] == 0) { /* Supply default values */ evdev->ev_rep[REP_DELAY] = 250; evdev->ev_rep[REP_PERIOD] = 33; } } /* Initialize multitouch protocol type B states or A to B converter */ if (bit_test(evdev->ev_abs_flags, ABS_MT_SLOT) || bit_test(evdev->ev_flags, EVDEV_FLAG_MT_TRACK)) evdev_mt_init(evdev); /* Estimate maximum report size */ if (evdev->ev_report_size == 0) { ret = evdev_set_report_size(evdev, evdev_estimate_report_size(evdev)); if (ret != 0) goto bail_out; } /* Create char device node */ ret = evdev_cdev_create(evdev); if (ret != 0) goto bail_out; /* Create sysctls (for device enumeration without /dev/input access rights) */ evdev_sysctl_create(evdev); bail_out: if (ret != 0) sx_destroy(&evdev->ev_list_lock); return (ret); } int evdev_register(struct evdev_dev *evdev) { int ret; if (bit_test(evdev->ev_flags, EVDEV_FLAG_EXT_EPOCH)) evdev->ev_lock_type = EV_LOCK_EXT_EPOCH; else evdev->ev_lock_type = EV_LOCK_INTERNAL; evdev->ev_state_lock = &evdev->ev_mtx; mtx_init(&evdev->ev_mtx, "evmtx", NULL, MTX_DEF); ret = evdev_register_common(evdev); if (ret != 0) mtx_destroy(&evdev->ev_mtx); return (ret); } int evdev_register_mtx(struct evdev_dev *evdev, struct mtx *mtx) { evdev->ev_lock_type = EV_LOCK_MTX; evdev->ev_state_lock = mtx; return (evdev_register_common(evdev)); } int evdev_unregister(struct evdev_dev *evdev) { struct evdev_client *client, *tmp; int ret; debugf(evdev, "%s: unregistered evdev provider: %s\n", evdev->ev_shortname, evdev->ev_name); sysctl_ctx_free(&evdev->ev_sysctl_ctx); EVDEV_LIST_LOCK(evdev); evdev->ev_cdev->si_drv1 = NULL; /* Wake up sleepers */ CK_SLIST_FOREACH_SAFE(client, &evdev->ev_clients, ec_link, tmp) { evdev_revoke_client(client); evdev_dispose_client(evdev, client); EVDEV_CLIENT_LOCKQ(client); evdev_notify_event(client); EVDEV_CLIENT_UNLOCKQ(client); } EVDEV_LIST_UNLOCK(evdev); /* release lock to avoid deadlock with evdev_dtor */ ret = evdev_cdev_destroy(evdev); evdev->ev_cdev = NULL; sx_destroy(&evdev->ev_list_lock); if (ret == 0 && evdev->ev_lock_type != EV_LOCK_MTX) mtx_destroy(&evdev->ev_mtx); evdev_free_absinfo(evdev->ev_absinfo); evdev_mt_free(evdev); return (ret); } inline void evdev_set_name(struct evdev_dev *evdev, const char *name) { snprintf(evdev->ev_name, NAMELEN, "%s", name); } inline void evdev_set_id(struct evdev_dev *evdev, uint16_t bustype, uint16_t vendor, uint16_t product, uint16_t version) { evdev->ev_id = (struct input_id) { .bustype = bustype, .vendor = vendor, .product = product, .version = version }; } inline void evdev_set_phys(struct evdev_dev *evdev, const char *name) { snprintf(evdev->ev_shortname, NAMELEN, "%s", name); } inline void evdev_set_serial(struct evdev_dev *evdev, const char *serial) { snprintf(evdev->ev_serial, NAMELEN, "%s", serial); } inline void evdev_set_methods(struct evdev_dev *evdev, void *softc, const struct evdev_methods *methods) { evdev->ev_methods = methods; evdev->ev_softc = softc; } inline void * evdev_get_softc(struct evdev_dev *evdev) { return (evdev->ev_softc); } inline void evdev_support_prop(struct evdev_dev *evdev, uint16_t prop) { KASSERT(prop < INPUT_PROP_CNT, ("invalid evdev input property")); bit_set(evdev->ev_prop_flags, prop); } inline void evdev_support_event(struct evdev_dev *evdev, uint16_t type) { KASSERT(type < EV_CNT, ("invalid evdev event property")); bit_set(evdev->ev_type_flags, type); } inline void evdev_support_key(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < KEY_CNT, ("invalid evdev key property")); bit_set(evdev->ev_key_flags, code); } inline void evdev_support_rel(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < REL_CNT, ("invalid evdev rel property")); bit_set(evdev->ev_rel_flags, code); } inline void evdev_support_abs(struct evdev_dev *evdev, uint16_t code, int32_t minimum, int32_t maximum, int32_t fuzz, int32_t flat, int32_t resolution) { struct input_absinfo absinfo; KASSERT(code < ABS_CNT, ("invalid evdev abs property")); absinfo = (struct input_absinfo) { .value = 0, .minimum = minimum, .maximum = maximum, .fuzz = fuzz, .flat = flat, .resolution = resolution, }; evdev_set_abs_bit(evdev, code); evdev_set_absinfo(evdev, code, &absinfo); } inline void evdev_set_abs_bit(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < ABS_CNT, ("invalid evdev abs property")); if (evdev->ev_absinfo == NULL) evdev->ev_absinfo = evdev_alloc_absinfo(); bit_set(evdev->ev_abs_flags, code); } inline void evdev_support_msc(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < MSC_CNT, ("invalid evdev msc property")); bit_set(evdev->ev_msc_flags, code); } inline void evdev_support_led(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < LED_CNT, ("invalid evdev led property")); bit_set(evdev->ev_led_flags, code); } inline void evdev_support_snd(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < SND_CNT, ("invalid evdev snd property")); bit_set(evdev->ev_snd_flags, code); } inline void evdev_support_sw(struct evdev_dev *evdev, uint16_t code) { KASSERT(code < SW_CNT, ("invalid evdev sw property")); bit_set(evdev->ev_sw_flags, code); } bool evdev_event_supported(struct evdev_dev *evdev, uint16_t type) { KASSERT(type < EV_CNT, ("invalid evdev event property")); return (bit_test(evdev->ev_type_flags, type)); } inline void evdev_set_absinfo(struct evdev_dev *evdev, uint16_t axis, struct input_absinfo *absinfo) { KASSERT(axis < ABS_CNT, ("invalid evdev abs property")); if (axis == ABS_MT_SLOT && (absinfo->maximum < 1 || absinfo->maximum >= MAX_MT_SLOTS)) return; if (evdev->ev_absinfo == NULL) evdev->ev_absinfo = evdev_alloc_absinfo(); if (axis == ABS_MT_SLOT) evdev->ev_absinfo[ABS_MT_SLOT].maximum = absinfo->maximum; else memcpy(&evdev->ev_absinfo[axis], absinfo, sizeof(struct input_absinfo)); } inline void evdev_set_repeat_params(struct evdev_dev *evdev, uint16_t property, int value) { KASSERT(property < REP_CNT, ("invalid evdev repeat property")); evdev->ev_rep[property] = value; } inline void evdev_set_flag(struct evdev_dev *evdev, uint16_t flag) { KASSERT(flag < EVDEV_FLAG_CNT, ("invalid evdev flag property")); bit_set(evdev->ev_flags, flag); } static int evdev_check_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t value) { if (type >= EV_CNT) return (EINVAL); /* Allow SYN events implicitly */ if (type != EV_SYN && !evdev_event_supported(evdev, type)) return (EINVAL); switch (type) { case EV_SYN: if (code >= SYN_CNT) return (EINVAL); break; case EV_KEY: if (code >= KEY_CNT) return (EINVAL); if (!bit_test(evdev->ev_key_flags, code)) return (EINVAL); break; case EV_REL: if (code >= REL_CNT) return (EINVAL); if (!bit_test(evdev->ev_rel_flags, code)) return (EINVAL); break; case EV_ABS: if (code >= ABS_CNT) return (EINVAL); if (!bit_test(evdev->ev_abs_flags, code)) return (EINVAL); if (code == ABS_MT_SLOT && (value < 0 || value > MAXIMAL_MT_SLOT(evdev))) return (EINVAL); if (ABS_IS_MT(code) && evdev->ev_mt == NULL && bit_test(evdev->ev_abs_flags, ABS_MT_SLOT)) return (EINVAL); break; case EV_MSC: if (code >= MSC_CNT) return (EINVAL); if (!bit_test(evdev->ev_msc_flags, code)) return (EINVAL); break; case EV_LED: if (code >= LED_CNT) return (EINVAL); if (!bit_test(evdev->ev_led_flags, code)) return (EINVAL); break; case EV_SND: if (code >= SND_CNT) return (EINVAL); if (!bit_test(evdev->ev_snd_flags, code)) return (EINVAL); break; case EV_SW: if (code >= SW_CNT) return (EINVAL); if (!bit_test(evdev->ev_sw_flags, code)) return (EINVAL); break; case EV_REP: if (code >= REP_CNT) return (EINVAL); break; default: return (EINVAL); } return (0); } static void evdev_modify_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t *value) { int32_t fuzz, old_value, abs_change; EVDEV_LOCK_ASSERT(evdev); switch (type) { case EV_KEY: if (!evdev_event_supported(evdev, EV_REP)) break; if (!bit_test(evdev->ev_flags, EVDEV_FLAG_SOFTREPEAT)) { /* Detect driver key repeats. */ if (bit_test(evdev->ev_key_states, code) && *value == KEY_EVENT_DOWN) *value = KEY_EVENT_REPEAT; } else { /* Start/stop callout for evdev repeats */ if (bit_test(evdev->ev_key_states, code) == !*value && !CK_SLIST_EMPTY(&evdev->ev_clients)) { if (*value == KEY_EVENT_DOWN) evdev_start_repeat(evdev, code); else evdev_stop_repeat(evdev); } } break; case EV_ABS: if (code == ABS_MT_SLOT) break; else if (!ABS_IS_MT(code)) old_value = evdev->ev_absinfo[code].value; else if (!bit_test(evdev->ev_abs_flags, ABS_MT_SLOT)) /* Pass MT protocol type A events as is */ break; else if (code == ABS_MT_TRACKING_ID) { *value = evdev_mt_reassign_id(evdev, evdev_mt_get_last_slot(evdev), *value); break; } else old_value = evdev_mt_get_value(evdev, evdev_mt_get_last_slot(evdev), code); fuzz = evdev->ev_absinfo[code].fuzz; if (fuzz == 0) break; abs_change = abs(*value - old_value); if (abs_change < fuzz / 2) *value = old_value; else if (abs_change < fuzz) *value = (old_value * 3 + *value) / 4; else if (abs_change < fuzz * 2) *value = (old_value + *value) / 2; break; } } static enum evdev_sparse_result evdev_sparse_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t value) { int32_t last_mt_slot; EVDEV_LOCK_ASSERT(evdev); /* * For certain event types, update device state bits * and convert level reporting to edge reporting */ switch (type) { case EV_KEY: switch (value) { case KEY_EVENT_UP: case KEY_EVENT_DOWN: if (bit_test(evdev->ev_key_states, code) == value) return (EV_SKIP_EVENT); bit_change(evdev->ev_key_states, code, value); break; case KEY_EVENT_REPEAT: if (bit_test(evdev->ev_key_states, code) == 0 || !evdev_event_supported(evdev, EV_REP)) return (EV_SKIP_EVENT); break; default: return (EV_SKIP_EVENT); } break; case EV_LED: if (bit_test(evdev->ev_led_states, code) == value) return (EV_SKIP_EVENT); bit_change(evdev->ev_led_states, code, value); break; case EV_SND: bit_change(evdev->ev_snd_states, code, value); break; case EV_SW: if (bit_test(evdev->ev_sw_states, code) == value) return (EV_SKIP_EVENT); bit_change(evdev->ev_sw_states, code, value); break; case EV_REP: if (evdev->ev_rep[code] == value) return (EV_SKIP_EVENT); evdev_set_repeat_params(evdev, code, value); break; case EV_REL: if (value == 0) return (EV_SKIP_EVENT); break; /* For EV_ABS, save last value in absinfo and ev_mt_states */ case EV_ABS: switch (code) { case ABS_MT_SLOT: /* Postpone ABS_MT_SLOT till next event */ evdev_mt_set_last_slot(evdev, value); return (EV_SKIP_EVENT); case ABS_MT_FIRST ... ABS_MT_LAST: /* Pass MT protocol type A events as is */ if (!bit_test(evdev->ev_abs_flags, ABS_MT_SLOT)) break; /* Don`t repeat MT protocol type B events */ last_mt_slot = evdev_mt_get_last_slot(evdev); if (evdev_mt_get_value(evdev, last_mt_slot, code) == value) return (EV_SKIP_EVENT); evdev_mt_set_value(evdev, last_mt_slot, code, value); if (last_mt_slot != CURRENT_MT_SLOT(evdev)) { CURRENT_MT_SLOT(evdev) = last_mt_slot; evdev->ev_report_opened = true; return (EV_REPORT_MT_SLOT); } break; default: if (evdev->ev_absinfo[code].value == value) return (EV_SKIP_EVENT); evdev->ev_absinfo[code].value = value; } break; case EV_SYN: if (code == SYN_REPORT) { /* Count empty reports as well as non empty */ evdev->ev_report_count++; /* Skip empty reports */ if (!evdev->ev_report_opened) return (EV_SKIP_EVENT); evdev->ev_report_opened = false; return (EV_REPORT_EVENT); } break; } evdev->ev_report_opened = true; return (EV_REPORT_EVENT); } static void evdev_propagate_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t value) { struct epoch_tracker et; struct evdev_client *client; debugf(evdev, "%s pushed event %d/%d/%d", evdev->ev_shortname, type, code, value); EVDEV_LOCK_ASSERT(evdev); /* Propagate event through all clients */ if (evdev->ev_lock_type == EV_LOCK_INTERNAL) epoch_enter_preempt(INPUT_EPOCH, &et); KASSERT( evdev->ev_lock_type == EV_LOCK_MTX || in_epoch(INPUT_EPOCH) != 0, ("Input epoch has not been entered\n")); CK_SLIST_FOREACH(client, &evdev->ev_clients, ec_link) { if (evdev->ev_grabber != NULL && evdev->ev_grabber != client) continue; EVDEV_CLIENT_LOCKQ(client); evdev_client_push(client, type, code, value); if (type == EV_SYN && code == SYN_REPORT) evdev_notify_event(client); EVDEV_CLIENT_UNLOCKQ(client); } if (evdev->ev_lock_type == EV_LOCK_INTERNAL) epoch_exit_preempt(INPUT_EPOCH, &et); evdev->ev_event_count++; } void evdev_send_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t value) { enum evdev_sparse_result sparse; EVDEV_LOCK_ASSERT(evdev); evdev_modify_event(evdev, type, code, &value); sparse = evdev_sparse_event(evdev, type, code, value); switch (sparse) { case EV_REPORT_MT_SLOT: /* report postponed ABS_MT_SLOT */ evdev_propagate_event(evdev, EV_ABS, ABS_MT_SLOT, CURRENT_MT_SLOT(evdev)); /* FALLTHROUGH */ case EV_REPORT_EVENT: evdev_propagate_event(evdev, type, code, value); /* FALLTHROUGH */ case EV_SKIP_EVENT: break; } } void evdev_restore_after_kdb(struct evdev_dev *evdev) { int code; EVDEV_LOCK_ASSERT(evdev); /* Report postponed leds */ bit_foreach(evdev->ev_kdb_led_states, LED_CNT, code) evdev_send_event(evdev, EV_LED, code, !bit_test(evdev->ev_led_states, code)); bit_nclear(evdev->ev_kdb_led_states, 0, LED_MAX); /* Release stuck keys (CTRL + ALT + ESC) */ evdev_stop_repeat(evdev); bit_foreach(evdev->ev_key_states, KEY_CNT, code) evdev_send_event(evdev, EV_KEY, code, KEY_EVENT_UP); evdev_send_event(evdev, EV_SYN, SYN_REPORT, 1); } int evdev_push_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t value) { if (evdev_check_event(evdev, type, code, value) != 0) return (EINVAL); /* * Discard all but LEDs kdb events as unrelated to userspace. * Aggregate LED updates and postpone reporting until kdb deactivation. */ if (kdb_active || SCHEDULER_STOPPED()) { evdev->ev_kdb_active = true; if (type == EV_LED) bit_set(evdev->ev_kdb_led_states, bit_test(evdev->ev_led_states, code) != value); return (0); } EVDEV_ENTER(evdev); /* Fix evdev state corrupted with discarding of kdb events */ if (evdev->ev_kdb_active) { evdev->ev_kdb_active = false; evdev_restore_after_kdb(evdev); } if (type == EV_SYN && code == SYN_REPORT && bit_test(evdev->ev_abs_flags, ABS_MT_SLOT)) evdev_mt_sync_frame(evdev); else if (bit_test(evdev->ev_flags, EVDEV_FLAG_MT_TRACK) && evdev_mt_record_event(evdev, type, code, value)) goto exit; evdev_send_event(evdev, type, code, value); exit: EVDEV_EXIT(evdev); return (0); } int evdev_inject_event(struct evdev_dev *evdev, uint16_t type, uint16_t code, int32_t value) { struct epoch_tracker et; int ret = 0; switch (type) { case EV_REP: /* evdev repeats should not be processed by hardware driver */ if (bit_test(evdev->ev_flags, EVDEV_FLAG_SOFTREPEAT)) goto push; /* FALLTHROUGH */ case EV_LED: case EV_MSC: case EV_SND: case EV_FF: if (evdev->ev_methods != NULL && evdev->ev_methods->ev_event != NULL) evdev->ev_methods->ev_event(evdev, type, code, value); /* * Leds and driver repeats should be reported in ev_event * method body to interoperate with kbdmux states and rates * propagation so both ways (ioctl and evdev) of changing it * will produce only one evdev event report to client. */ if (type == EV_LED || type == EV_REP) break; /* FALLTHROUGH */ case EV_SYN: case EV_KEY: case EV_REL: case EV_ABS: case EV_SW: push: if (evdev->ev_lock_type == EV_LOCK_MTX) EVDEV_LOCK(evdev); else if (evdev->ev_lock_type == EV_LOCK_EXT_EPOCH) epoch_enter_preempt(INPUT_EPOCH, &et); ret = evdev_push_event(evdev, type, code, value); if (evdev->ev_lock_type == EV_LOCK_MTX) EVDEV_UNLOCK(evdev); else if (evdev->ev_lock_type == EV_LOCK_EXT_EPOCH) epoch_exit_preempt(INPUT_EPOCH, &et); break; default: ret = EINVAL; } return (ret); } int evdev_register_client(struct evdev_dev *evdev, struct evdev_client *client) { int ret = 0; debugf(evdev, "adding new client for device %s", evdev->ev_shortname); EVDEV_LIST_LOCK_ASSERT(evdev); if (CK_SLIST_EMPTY(&evdev->ev_clients) && evdev->ev_methods != NULL && evdev->ev_methods->ev_open != NULL) { debugf(evdev, "calling ev_open() on device %s", evdev->ev_shortname); ret = evdev->ev_methods->ev_open(evdev); } if (ret == 0) CK_SLIST_INSERT_HEAD(&evdev->ev_clients, client, ec_link); return (ret); } void evdev_dispose_client(struct evdev_dev *evdev, struct evdev_client *client) { debugf(evdev, "removing client for device %s", evdev->ev_shortname); EVDEV_LIST_LOCK_ASSERT(evdev); CK_SLIST_REMOVE(&evdev->ev_clients, client, evdev_client, ec_link); if (CK_SLIST_EMPTY(&evdev->ev_clients)) { if (evdev->ev_methods != NULL && evdev->ev_methods->ev_close != NULL) (void)evdev->ev_methods->ev_close(evdev); if (evdev_event_supported(evdev, EV_REP) && bit_test(evdev->ev_flags, EVDEV_FLAG_SOFTREPEAT)) { if (evdev->ev_lock_type != EV_LOCK_MTX) EVDEV_LOCK(evdev); evdev_stop_repeat(evdev); if (evdev->ev_lock_type != EV_LOCK_MTX) EVDEV_UNLOCK(evdev); } } if (evdev->ev_lock_type != EV_LOCK_MTX) EVDEV_LOCK(evdev); evdev_release_client(evdev, client); if (evdev->ev_lock_type != EV_LOCK_MTX) EVDEV_UNLOCK(evdev); } int evdev_grab_client(struct evdev_dev *evdev, struct evdev_client *client) { EVDEV_LOCK_ASSERT(evdev); if (evdev->ev_grabber != NULL) return (EBUSY); evdev->ev_grabber = client; return (0); } int evdev_release_client(struct evdev_dev *evdev, struct evdev_client *client) { EVDEV_LOCK_ASSERT(evdev); if (evdev->ev_grabber != client) return (EINVAL); evdev->ev_grabber = NULL; return (0); } +bool +evdev_is_grabbed(struct evdev_dev *evdev) +{ + /* + * The function is intended to be called from evdev-unrelated parts of + * code like syscons-compatible parts of mouse and keyboard drivers. + * That makes unlocked read-only access acceptable. + */ + return (evdev->ev_grabber != NULL); +} + static void evdev_repeat_callout(void *arg) { struct epoch_tracker et; struct evdev_dev *evdev = (struct evdev_dev *)arg; if (evdev->ev_lock_type == EV_LOCK_EXT_EPOCH) epoch_enter_preempt(INPUT_EPOCH, &et); evdev_send_event(evdev, EV_KEY, evdev->ev_rep_key, KEY_EVENT_REPEAT); evdev_send_event(evdev, EV_SYN, SYN_REPORT, 1); if (evdev->ev_lock_type == EV_LOCK_EXT_EPOCH) epoch_exit_preempt(INPUT_EPOCH, &et); if (evdev->ev_rep[REP_PERIOD]) callout_reset(&evdev->ev_rep_callout, evdev->ev_rep[REP_PERIOD] * hz / 1000, evdev_repeat_callout, evdev); else evdev->ev_rep_key = KEY_RESERVED; } static void evdev_start_repeat(struct evdev_dev *evdev, uint16_t key) { EVDEV_LOCK_ASSERT(evdev); if (evdev->ev_rep[REP_DELAY]) { evdev->ev_rep_key = key; callout_reset(&evdev->ev_rep_callout, evdev->ev_rep[REP_DELAY] * hz / 1000, evdev_repeat_callout, evdev); } } static void evdev_stop_repeat(struct evdev_dev *evdev) { EVDEV_LOCK_ASSERT(evdev); if (evdev->ev_rep_key != KEY_RESERVED) { callout_stop(&evdev->ev_rep_callout); evdev->ev_rep_key = KEY_RESERVED; } } MODULE_VERSION(evdev, 1); diff --git a/sys/dev/evdev/evdev.h b/sys/dev/evdev/evdev.h index 90bea09b70c9..892e6b1bc071 100644 --- a/sys/dev/evdev/evdev.h +++ b/sys/dev/evdev/evdev.h @@ -1,240 +1,241 @@ /*- * Copyright (c) 2014 Jakub Wojciech Klama * 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. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE. * * $FreeBSD$ */ #ifndef _DEV_EVDEV_EVDEV_H #define _DEV_EVDEV_EVDEV_H #include #include #include #include #include #define NAMELEN 80 struct evdev_dev; typedef int (evdev_open_t)(struct evdev_dev *); typedef int (evdev_close_t)(struct evdev_dev *); typedef void (evdev_event_t)(struct evdev_dev *, uint16_t, uint16_t, int32_t); typedef void (evdev_keycode_t)(struct evdev_dev *, struct input_keymap_entry *); /* * Keyboard and mouse events recipient mask. * evdev_rcpt_mask variable should be respected by keyboard and mouse drivers * that are able to send events through both evdev and sysmouse/kbdmux * interfaces so user can choose preferred one to not receive one event twice. */ #define EVDEV_RCPT_SYSMOUSE (1<<0) #define EVDEV_RCPT_KBDMUX (1<<1) #define EVDEV_RCPT_HW_MOUSE (1<<2) #define EVDEV_RCPT_HW_KBD (1<<3) extern int evdev_rcpt_mask; /* * Sysmouse protocol does not support horizontal wheel movement reporting. * To overcome this limitation different drivers use different sysmouse proto * extensions. Set kern.evdev.sysmouse_t_axis to tell sysmouse evdev driver * which protocol extension is used. * 0 - do not extract horizontal wheel movement (default). * 1 - ums(4) horizontal wheel encoding. T-axis is mapped to buttons 6 and 7 * 2 - psm(4) wheels encoding: z = 1,-1 - vert. wheel, z = 2,-2 - horiz. wheel */ enum { EVDEV_SYSMOUSE_T_AXIS_NONE = 0, EVDEV_SYSMOUSE_T_AXIS_UMS = 1, EVDEV_SYSMOUSE_T_AXIS_PSM = 2, }; extern int evdev_sysmouse_t_axis; #define ABS_MT_FIRST ABS_MT_TOUCH_MAJOR #define ABS_MT_LAST ABS_MT_TOOL_Y #define ABS_IS_MT(x) ((x) >= ABS_MT_FIRST && (x) <= ABS_MT_LAST) #define ABS_MT_INDEX(x) ((x) - ABS_MT_FIRST) #define MT_CNT (ABS_MT_INDEX(ABS_MT_LAST) + 1) /* Multitouch protocol type A */ #define MAX_MT_REPORTS 5 /* Multitouch protocol type B interface */ #define MAX_MT_SLOTS 16 #define EVDEV_FLAG_SOFTREPEAT 0x00 /* use evdev to repeat keys */ #define EVDEV_FLAG_MT_STCOMPAT 0x01 /* autogenerate ST-compatible events * for MT protocol type B reports */ #define EVDEV_FLAG_MT_AUTOREL 0x02 /* Autorelease MT-slots not listed in * current MT protocol type B report */ #define EVDEV_FLAG_EXT_EPOCH 0x03 /* evdev_push_* is allways called with * input (global) epoch entered */ #define EVDEV_FLAG_MT_KEEPID 0x04 /* Do not reassign tracking ID */ #define EVDEV_FLAG_MT_TRACK 0x05 /* Assign touch to slot by evdev */ #define EVDEV_FLAG_MAX 0x1F #define EVDEV_FLAG_CNT (EVDEV_FLAG_MAX + 1) struct evdev_methods { evdev_open_t *ev_open; evdev_close_t *ev_close; evdev_event_t *ev_event; evdev_keycode_t *ev_get_keycode; evdev_keycode_t *ev_set_keycode; }; union evdev_mt_slot { int32_t val[MT_CNT]; struct { int32_t maj; /* ABS_MT_TOUCH_MAJOR */ int32_t min; /* ABS_MT_TOUCH_MINOR */ int32_t w_maj; /* ABS_MT_WIDTH_MAJOR */ int32_t w_min; /* ABS_MT_WIDTH_MINOR */ int32_t ori; /* ABS_MT_ORIENTATION */ int32_t x; /* ABS_MT_POSITION_X */ int32_t y; /* ABS_MT_POSITION_Y */ int32_t type; /* ABS_MT_TOOL_TYPE */ int32_t blob_id; /* ABS_MT_BLOB_ID */ int32_t id; /* ABS_MT_TRACKING_ID */ int32_t p; /* ABS_MT_PRESSURE */ int32_t dist; /* ABS_MT_DISTANCE */ int32_t tool_x; /* ABS_MT_TOOL_X */ int32_t tool_y; /* ABS_MT_TOOL_Y */ }; }; _Static_assert(offsetof(union evdev_mt_slot, tool_y) == offsetof(union evdev_mt_slot, val[ABS_MT_INDEX(ABS_MT_TOOL_Y)]), "evdev_mt_slot array members does not match their structure aliases"); /* Input device interface: */ struct evdev_dev *evdev_alloc(void); void evdev_free(struct evdev_dev *); void evdev_set_name(struct evdev_dev *, const char *); void evdev_set_id(struct evdev_dev *, uint16_t, uint16_t, uint16_t, uint16_t); void evdev_set_phys(struct evdev_dev *, const char *); void evdev_set_serial(struct evdev_dev *, const char *); void evdev_set_methods(struct evdev_dev *, void *, const struct evdev_methods *); int evdev_register(struct evdev_dev *); int evdev_register_mtx(struct evdev_dev *, struct mtx *); int evdev_unregister(struct evdev_dev *); int evdev_push_event(struct evdev_dev *, uint16_t, uint16_t, int32_t); void evdev_support_prop(struct evdev_dev *, uint16_t); void evdev_support_event(struct evdev_dev *, uint16_t); void evdev_support_key(struct evdev_dev *, uint16_t); void evdev_support_rel(struct evdev_dev *, uint16_t); void evdev_support_abs(struct evdev_dev *, uint16_t, int32_t, int32_t, int32_t, int32_t, int32_t); void evdev_support_msc(struct evdev_dev *, uint16_t); void evdev_support_led(struct evdev_dev *, uint16_t); void evdev_support_snd(struct evdev_dev *, uint16_t); void evdev_support_sw(struct evdev_dev *, uint16_t); void evdev_set_repeat_params(struct evdev_dev *, uint16_t, int); int evdev_set_report_size(struct evdev_dev *, size_t); void evdev_set_flag(struct evdev_dev *, uint16_t); void *evdev_get_softc(struct evdev_dev *); +bool evdev_is_grabbed(struct evdev_dev *); /* Multitouch related functions: */ int evdev_mt_id_to_slot(struct evdev_dev *, int32_t); int evdev_mt_push_slot(struct evdev_dev *, int, union evdev_mt_slot *); int evdev_mt_push_frame(struct evdev_dev *, union evdev_mt_slot *, int); void evdev_mt_match_frame(struct evdev_dev *, union evdev_mt_slot *, int); union evdev_mt_slot *evdev_mt_get_match_slots(struct evdev_dev *); void evdev_mt_push_autorel(struct evdev_dev *); /* Utility functions: */ uint16_t evdev_hid2key(int); void evdev_support_all_known_keys(struct evdev_dev *); uint16_t evdev_scancode2key(int *, int); void evdev_push_mouse_btn(struct evdev_dev *, int); void evdev_push_leds(struct evdev_dev *, int); void evdev_push_repeats(struct evdev_dev *, keyboard_t *); void evdev_support_nfingers(struct evdev_dev *, int); void evdev_push_nfingers(struct evdev_dev *, int); /* Event reporting shortcuts: */ static __inline int evdev_sync(struct evdev_dev *evdev) { return (evdev_push_event(evdev, EV_SYN, SYN_REPORT, 1)); } static __inline int evdev_mt_sync(struct evdev_dev *evdev) { return (evdev_push_event(evdev, EV_SYN, SYN_MT_REPORT, 1)); } static __inline int evdev_push_key(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_KEY, code, value != 0)); } static __inline int evdev_push_rel(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_REL, code, value)); } static __inline int evdev_push_abs(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_ABS, code, value)); } static __inline int evdev_push_msc(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_MSC, code, value)); } static __inline int evdev_push_led(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_LED, code, value != 0)); } static __inline int evdev_push_snd(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_SND, code, value)); } static __inline int evdev_push_sw(struct evdev_dev *evdev, uint16_t code, int32_t value) { return (evdev_push_event(evdev, EV_SW, code, value != 0)); } #endif /* _DEV_EVDEV_EVDEV_H */ diff --git a/sys/dev/syscons/sysmouse.c b/sys/dev/syscons/sysmouse.c index ef851058a6ef..73167bdb34f8 100644 --- a/sys/dev/syscons/sysmouse.c +++ b/sys/dev/syscons/sysmouse.c @@ -1,330 +1,332 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 1999 Kazutaka YOKOTA * 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 as * the first lines of this file unmodified. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, 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 DAMAGE. * */ #include __FBSDID("$FreeBSD$"); #include "opt_evdev.h" #include "opt_syscons.h" #include #include #include #include #include #include #include #include #include #include #include #ifdef EVDEV_SUPPORT #include #include #endif #ifndef SC_NO_SYSMOUSE /* local variables */ static struct tty *sysmouse_tty; static int mouse_level; /* sysmouse protocol level */ static mousestatus_t mouse_status; #ifdef EVDEV_SUPPORT static struct evdev_dev *sysmouse_evdev; static void smdev_evdev_init(void) { int i; sysmouse_evdev = evdev_alloc(); evdev_set_name(sysmouse_evdev, "System mouse"); evdev_set_phys(sysmouse_evdev, "sysmouse"); evdev_set_id(sysmouse_evdev, BUS_VIRTUAL, 0, 0, 0); evdev_support_prop(sysmouse_evdev, INPUT_PROP_POINTER); evdev_support_event(sysmouse_evdev, EV_SYN); evdev_support_event(sysmouse_evdev, EV_REL); evdev_support_event(sysmouse_evdev, EV_KEY); evdev_support_rel(sysmouse_evdev, REL_X); evdev_support_rel(sysmouse_evdev, REL_Y); evdev_support_rel(sysmouse_evdev, REL_WHEEL); evdev_support_rel(sysmouse_evdev, REL_HWHEEL); for (i = 0; i < 8; i++) evdev_support_key(sysmouse_evdev, BTN_MOUSE + i); if (evdev_register(sysmouse_evdev)) { evdev_free(sysmouse_evdev); sysmouse_evdev = NULL; } } static void smdev_evdev_write(int x, int y, int z, int buttons) { if (sysmouse_evdev == NULL || !(evdev_rcpt_mask & EVDEV_RCPT_SYSMOUSE)) return; evdev_push_event(sysmouse_evdev, EV_REL, REL_X, x); evdev_push_event(sysmouse_evdev, EV_REL, REL_Y, y); switch (evdev_sysmouse_t_axis) { case EVDEV_SYSMOUSE_T_AXIS_PSM: switch (z) { case 1: case -1: evdev_push_rel(sysmouse_evdev, REL_WHEEL, -z); break; case 2: case -2: evdev_push_rel(sysmouse_evdev, REL_HWHEEL, z / 2); break; } break; case EVDEV_SYSMOUSE_T_AXIS_UMS: if (buttons & (1 << 6)) evdev_push_rel(sysmouse_evdev, REL_HWHEEL, 1); else if (buttons & (1 << 5)) evdev_push_rel(sysmouse_evdev, REL_HWHEEL, -1); buttons &= ~((1 << 5)|(1 << 6)); /* PASSTHROUGH */ case EVDEV_SYSMOUSE_T_AXIS_NONE: default: evdev_push_rel(sysmouse_evdev, REL_WHEEL, -z); } evdev_push_mouse_btn(sysmouse_evdev, buttons); evdev_sync(sysmouse_evdev); } #endif static void smdev_close(struct tty *tp) { mouse_level = 0; } static int smdev_ioctl(struct tty *tp, u_long cmd, caddr_t data, struct thread *td) { mousehw_t *hw; mousemode_t *mode; switch (cmd) { case MOUSE_GETHWINFO: /* get device information */ hw = (mousehw_t *)data; hw->buttons = 10; /* XXX unknown */ hw->iftype = MOUSE_IF_SYSMOUSE; hw->type = MOUSE_MOUSE; hw->model = MOUSE_MODEL_GENERIC; hw->hwid = 0; return 0; case MOUSE_GETMODE: /* get protocol/mode */ mode = (mousemode_t *)data; mode->level = mouse_level; switch (mode->level) { case 0: /* emulate MouseSystems protocol */ mode->protocol = MOUSE_PROTO_MSC; mode->rate = -1; /* unknown */ mode->resolution = -1; /* unknown */ mode->accelfactor = 0; /* disabled */ mode->packetsize = MOUSE_MSC_PACKETSIZE; mode->syncmask[0] = MOUSE_MSC_SYNCMASK; mode->syncmask[1] = MOUSE_MSC_SYNC; break; case 1: /* sysmouse protocol */ mode->protocol = MOUSE_PROTO_SYSMOUSE; mode->rate = -1; mode->resolution = -1; mode->accelfactor = 0; mode->packetsize = MOUSE_SYS_PACKETSIZE; mode->syncmask[0] = MOUSE_SYS_SYNCMASK; mode->syncmask[1] = MOUSE_SYS_SYNC; break; } return 0; case MOUSE_SETMODE: /* set protocol/mode */ mode = (mousemode_t *)data; if (mode->level == -1) ; /* don't change the current setting */ else if ((mode->level < 0) || (mode->level > 1)) return EINVAL; else mouse_level = mode->level; return 0; case MOUSE_GETLEVEL: /* get operation level */ *(int *)data = mouse_level; return 0; case MOUSE_SETLEVEL: /* set operation level */ if ((*(int *)data < 0) || (*(int *)data > 1)) return EINVAL; mouse_level = *(int *)data; return 0; case MOUSE_GETSTATUS: /* get accumulated mouse events */ *(mousestatus_t *)data = mouse_status; mouse_status.flags = 0; mouse_status.obutton = mouse_status.button; mouse_status.dx = 0; mouse_status.dy = 0; mouse_status.dz = 0; return 0; case MOUSE_READSTATE: /* read status from the device */ case MOUSE_READDATA: /* read data from the device */ return ENODEV; } return (ENOIOCTL); } static int smdev_param(struct tty *tp, struct termios *t) { /* * Set the output baud rate to zero. The mouse device supports * no output, so we don't want to waste buffers. */ t->c_ispeed = TTYDEF_SPEED; t->c_ospeed = B0; return (0); } static struct ttydevsw smdev_ttydevsw = { .tsw_flags = TF_NOPREFIX, .tsw_close = smdev_close, .tsw_ioctl = smdev_ioctl, .tsw_param = smdev_param, }; static void sm_attach_mouse(void *unused) { if (!vty_enabled(VTY_SC)) return; sysmouse_tty = tty_alloc(&smdev_ttydevsw, NULL); tty_makedev(sysmouse_tty, NULL, "sysmouse"); #ifdef EVDEV_SUPPORT smdev_evdev_init(); #endif } SYSINIT(sysmouse, SI_SUB_DRIVERS, SI_ORDER_MIDDLE, sm_attach_mouse, NULL); int sysmouse_event(mouse_info_t *info) { /* MOUSE_BUTTON?DOWN -> MOUSE_MSC_BUTTON?UP */ static int butmap[8] = { MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP, MOUSE_MSC_BUTTON2UP, MOUSE_MSC_BUTTON1UP, 0, }; u_char buf[8]; int x, y, z; int i, flags = 0; tty_lock(sysmouse_tty); switch (info->operation) { case MOUSE_ACTION: mouse_status.button = info->u.data.buttons; /* FALL THROUGH */ case MOUSE_MOTION_EVENT: x = info->u.data.x; y = info->u.data.y; z = info->u.data.z; break; case MOUSE_BUTTON_EVENT: x = y = z = 0; if (info->u.event.value > 0) mouse_status.button |= info->u.event.id; else mouse_status.button &= ~info->u.event.id; break; default: goto done; } mouse_status.dx += x; mouse_status.dy += y; mouse_status.dz += z; mouse_status.flags |= ((x || y || z) ? MOUSE_POSCHANGED : 0) | (mouse_status.obutton ^ mouse_status.button); flags = mouse_status.flags; if (flags == 0) goto done; #ifdef EVDEV_SUPPORT smdev_evdev_write(x, y, z, mouse_status.button); + if (evdev_is_grabbed(sysmouse_evdev)) + goto done; #endif if (!tty_opened(sysmouse_tty)) goto done; /* the first five bytes are compatible with MouseSystems' */ buf[0] = MOUSE_MSC_SYNC | butmap[mouse_status.button & MOUSE_STDBUTTONS]; x = imax(imin(x, 255), -256); buf[1] = x >> 1; buf[3] = x - buf[1]; y = -imax(imin(y, 255), -256); buf[2] = y >> 1; buf[4] = y - buf[2]; for (i = 0; i < MOUSE_MSC_PACKETSIZE; ++i) ttydisc_rint(sysmouse_tty, buf[i], 0); if (mouse_level >= 1) { /* extended part */ z = imax(imin(z, 127), -128); buf[5] = (z >> 1) & 0x7f; buf[6] = (z - (z >> 1)) & 0x7f; /* buttons 4-10 */ buf[7] = (~mouse_status.button >> 3) & 0x7f; for (i = MOUSE_MSC_PACKETSIZE; i < MOUSE_SYS_PACKETSIZE; ++i) ttydisc_rint(sysmouse_tty, buf[i], 0); } ttydisc_rint_done(sysmouse_tty); done: tty_unlock(sysmouse_tty); return (flags); } #endif /* !SC_NO_SYSMOUSE */ diff --git a/sys/dev/usb/input/ums.c b/sys/dev/usb/input/ums.c index 5b3ac2af4cd0..987c4b9d1309 100644 --- a/sys/dev/usb/input/ums.c +++ b/sys/dev/usb/input/ums.c @@ -1,1224 +1,1228 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 1998 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Lennart Augustsson (lennart@augustsson.net) at * Carlstedt Research & Technology. * * 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. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE. */ #include __FBSDID("$FreeBSD$"); /* * HID spec: http://www.usb.org/developers/devclass_docs/HID1_11.pdf */ #include "opt_evdev.h" #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 "usbdevs.h" #define USB_DEBUG_VAR ums_debug #include #include #ifdef EVDEV_SUPPORT #include #include #endif #include #include #include #ifdef USB_DEBUG static int ums_debug = 0; static SYSCTL_NODE(_hw_usb, OID_AUTO, ums, CTLFLAG_RW | CTLFLAG_MPSAFE, 0, "USB ums"); SYSCTL_INT(_hw_usb_ums, OID_AUTO, debug, CTLFLAG_RWTUN, &ums_debug, 0, "Debug level"); #endif #define MOUSE_FLAGS_MASK (HIO_CONST|HIO_RELATIVE) #define MOUSE_FLAGS (HIO_RELATIVE) #define UMS_BUF_SIZE 8 /* bytes */ #define UMS_IFQ_MAXLEN 50 /* units */ #define UMS_BUTTON_MAX 31 /* exclusive, must be less than 32 */ #define UMS_BUT(i) ((i) < 3 ? (((i) + 2) % 3) : (i)) #define UMS_INFO_MAX 2 /* maximum number of HID sets */ enum { UMS_INTR_DT, UMS_N_TRANSFER, }; struct ums_info { struct hid_location sc_loc_w; struct hid_location sc_loc_x; struct hid_location sc_loc_y; struct hid_location sc_loc_z; struct hid_location sc_loc_t; struct hid_location sc_loc_btn[UMS_BUTTON_MAX]; uint32_t sc_flags; #define UMS_FLAG_X_AXIS 0x0001 #define UMS_FLAG_Y_AXIS 0x0002 #define UMS_FLAG_Z_AXIS 0x0004 #define UMS_FLAG_T_AXIS 0x0008 #define UMS_FLAG_SBU 0x0010 /* spurious button up events */ #define UMS_FLAG_REVZ 0x0020 /* Z-axis is reversed */ #define UMS_FLAG_W_AXIS 0x0040 uint8_t sc_iid_w; uint8_t sc_iid_x; uint8_t sc_iid_y; uint8_t sc_iid_z; uint8_t sc_iid_t; uint8_t sc_iid_btn[UMS_BUTTON_MAX]; uint8_t sc_buttons; }; struct ums_softc { struct usb_fifo_sc sc_fifo; struct mtx sc_mtx; struct usb_callout sc_callout; struct ums_info sc_info[UMS_INFO_MAX]; mousehw_t sc_hw; mousemode_t sc_mode; mousestatus_t sc_status; struct usb_xfer *sc_xfer[UMS_N_TRANSFER]; int sc_pollrate; int sc_fflags; #ifdef EVDEV_SUPPORT int sc_evflags; #define UMS_EVDEV_OPENED 1 #endif uint8_t sc_buttons; uint8_t sc_iid; uint8_t sc_temp[64]; #ifdef EVDEV_SUPPORT struct evdev_dev *sc_evdev; #endif }; static void ums_put_queue_timeout(void *__sc); static usb_callback_t ums_intr_callback; static device_probe_t ums_probe; static device_attach_t ums_attach; static device_detach_t ums_detach; static usb_fifo_cmd_t ums_fifo_start_read; static usb_fifo_cmd_t ums_fifo_stop_read; static usb_fifo_open_t ums_fifo_open; static usb_fifo_close_t ums_fifo_close; static usb_fifo_ioctl_t ums_fifo_ioctl; #ifdef EVDEV_SUPPORT static evdev_open_t ums_ev_open; static evdev_close_t ums_ev_close; static void ums_evdev_push(struct ums_softc *, int32_t, int32_t, int32_t, int32_t, int32_t); #endif static void ums_start_rx(struct ums_softc *); static void ums_stop_rx(struct ums_softc *); static void ums_put_queue(struct ums_softc *, int32_t, int32_t, int32_t, int32_t, int32_t); static int ums_sysctl_handler_parseinfo(SYSCTL_HANDLER_ARGS); static struct usb_fifo_methods ums_fifo_methods = { .f_open = &ums_fifo_open, .f_close = &ums_fifo_close, .f_ioctl = &ums_fifo_ioctl, .f_start_read = &ums_fifo_start_read, .f_stop_read = &ums_fifo_stop_read, .basename[0] = "ums", }; #ifdef EVDEV_SUPPORT static const struct evdev_methods ums_evdev_methods = { .ev_open = &ums_ev_open, .ev_close = &ums_ev_close, }; #endif static void ums_put_queue_timeout(void *__sc) { struct ums_softc *sc = __sc; mtx_assert(&sc->sc_mtx, MA_OWNED); ums_put_queue(sc, 0, 0, 0, 0, 0); #ifdef EVDEV_SUPPORT ums_evdev_push(sc, 0, 0, 0, 0, 0); #endif } static void ums_intr_callback(struct usb_xfer *xfer, usb_error_t error) { struct ums_softc *sc = usbd_xfer_softc(xfer); struct ums_info *info = &sc->sc_info[0]; struct usb_page_cache *pc; uint8_t *buf = sc->sc_temp; int32_t buttons = 0; int32_t buttons_found = 0; #ifdef EVDEV_SUPPORT int32_t buttons_reported = 0; #endif int32_t dw = 0; int32_t dx = 0; int32_t dy = 0; int32_t dz = 0; int32_t dt = 0; uint8_t i; uint8_t id; int len; usbd_xfer_status(xfer, &len, NULL, NULL, NULL); switch (USB_GET_STATE(xfer)) { case USB_ST_TRANSFERRED: DPRINTFN(6, "sc=%p actlen=%d\n", sc, len); if (len > (int)sizeof(sc->sc_temp)) { DPRINTFN(6, "truncating large packet to %zu bytes\n", sizeof(sc->sc_temp)); len = sizeof(sc->sc_temp); } if (len == 0) goto tr_setup; pc = usbd_xfer_get_frame(xfer, 0); usbd_copy_out(pc, 0, buf, len); DPRINTFN(6, "data = %02x %02x %02x %02x " "%02x %02x %02x %02x\n", (len > 0) ? buf[0] : 0, (len > 1) ? buf[1] : 0, (len > 2) ? buf[2] : 0, (len > 3) ? buf[3] : 0, (len > 4) ? buf[4] : 0, (len > 5) ? buf[5] : 0, (len > 6) ? buf[6] : 0, (len > 7) ? buf[7] : 0); if (sc->sc_iid) { id = *buf; len--; buf++; } else { id = 0; if (sc->sc_info[0].sc_flags & UMS_FLAG_SBU) { if ((*buf == 0x14) || (*buf == 0x15)) { goto tr_setup; } } } repeat: if ((info->sc_flags & UMS_FLAG_W_AXIS) && (id == info->sc_iid_w)) dw += hid_get_data(buf, len, &info->sc_loc_w); if ((info->sc_flags & UMS_FLAG_X_AXIS) && (id == info->sc_iid_x)) dx += hid_get_data(buf, len, &info->sc_loc_x); if ((info->sc_flags & UMS_FLAG_Y_AXIS) && (id == info->sc_iid_y)) dy -= hid_get_data(buf, len, &info->sc_loc_y); if ((info->sc_flags & UMS_FLAG_Z_AXIS) && (id == info->sc_iid_z)) { int32_t temp; temp = hid_get_data(buf, len, &info->sc_loc_z); if (info->sc_flags & UMS_FLAG_REVZ) temp = -temp; dz -= temp; } if ((info->sc_flags & UMS_FLAG_T_AXIS) && (id == info->sc_iid_t)) { dt += hid_get_data(buf, len, &info->sc_loc_t); /* T-axis is translated into button presses */ buttons_found |= (1UL << 5) | (1UL << 6); } for (i = 0; i < info->sc_buttons; i++) { uint32_t mask; mask = 1UL << UMS_BUT(i); /* check for correct button ID */ if (id != info->sc_iid_btn[i]) continue; /* check for button pressed */ if (hid_get_data(buf, len, &info->sc_loc_btn[i])) buttons |= mask; /* register button mask */ buttons_found |= mask; } if (++info != &sc->sc_info[UMS_INFO_MAX]) goto repeat; #ifdef EVDEV_SUPPORT buttons_reported = buttons; #endif /* keep old button value(s) for non-detected buttons */ buttons |= sc->sc_status.button & ~buttons_found; if (dx || dy || dz || dt || dw || (buttons != sc->sc_status.button)) { DPRINTFN(6, "x:%d y:%d z:%d t:%d w:%d buttons:0x%08x\n", dx, dy, dz, dt, dw, buttons); /* translate T-axis into button presses until further */ if (dt > 0) { ums_put_queue(sc, 0, 0, 0, 0, buttons); buttons |= 1UL << 6; } else if (dt < 0) { ums_put_queue(sc, 0, 0, 0, 0, buttons); buttons |= 1UL << 5; } sc->sc_status.button = buttons; sc->sc_status.dx += dx; sc->sc_status.dy += dy; sc->sc_status.dz += dz; /* * sc->sc_status.dt += dt; * no way to export this yet */ /* * The Qtronix keyboard has a built in PS/2 * port for a mouse. The firmware once in a * while posts a spurious button up * event. This event we ignore by doing a * timeout for 50 msecs. If we receive * dx=dy=dz=buttons=0 before we add the event * to the queue. In any other case we delete * the timeout event. */ if ((sc->sc_info[0].sc_flags & UMS_FLAG_SBU) && (dx == 0) && (dy == 0) && (dz == 0) && (dt == 0) && (dw == 0) && (buttons == 0)) { usb_callout_reset(&sc->sc_callout, hz / 20, &ums_put_queue_timeout, sc); } else { usb_callout_stop(&sc->sc_callout); ums_put_queue(sc, dx, dy, dz, dt, buttons); #ifdef EVDEV_SUPPORT ums_evdev_push(sc, dx, dy, dz, dt, buttons_reported); #endif } } case USB_ST_SETUP: tr_setup: /* check if we can put more data into the FIFO */ if (usb_fifo_put_bytes_max(sc->sc_fifo.fp[USB_FIFO_RX]) == 0) { #ifdef EVDEV_SUPPORT if ((sc->sc_evflags & UMS_EVDEV_OPENED) == 0) break; #else break; #endif } usbd_xfer_set_frame_len(xfer, 0, usbd_xfer_max_len(xfer)); usbd_transfer_submit(xfer); break; default: /* Error */ if (error != USB_ERR_CANCELLED) { /* try clear stall first */ usbd_xfer_set_stall(xfer); goto tr_setup; } break; } } static const struct usb_config ums_config[UMS_N_TRANSFER] = { [UMS_INTR_DT] = { .type = UE_INTERRUPT, .endpoint = UE_ADDR_ANY, .direction = UE_DIR_IN, .flags = {.pipe_bof = 1,.short_xfer_ok = 1,}, .bufsize = 0, /* use wMaxPacketSize */ .callback = &ums_intr_callback, }, }; /* A match on these entries will load ums */ static const STRUCT_USB_HOST_ID __used ums_devs[] = { {USB_IFACE_CLASS(UICLASS_HID), USB_IFACE_SUBCLASS(UISUBCLASS_BOOT), USB_IFACE_PROTOCOL(UIPROTO_MOUSE),}, }; static int ums_probe(device_t dev) { struct usb_attach_arg *uaa = device_get_ivars(dev); void *d_ptr; int error; uint16_t d_len; DPRINTFN(11, "\n"); if (uaa->usb_mode != USB_MODE_HOST) return (ENXIO); if (uaa->info.bInterfaceClass != UICLASS_HID) return (ENXIO); if (usb_test_quirk(uaa, UQ_UMS_IGNORE)) return (ENXIO); if ((uaa->info.bInterfaceSubClass == UISUBCLASS_BOOT) && (uaa->info.bInterfaceProtocol == UIPROTO_MOUSE)) return (BUS_PROBE_DEFAULT); error = usbd_req_get_hid_desc(uaa->device, NULL, &d_ptr, &d_len, M_TEMP, uaa->info.bIfaceIndex); if (error) return (ENXIO); if (hid_is_mouse(d_ptr, d_len)) error = BUS_PROBE_DEFAULT; else error = ENXIO; free(d_ptr, M_TEMP); return (error); } static void ums_hid_parse(struct ums_softc *sc, device_t dev, const uint8_t *buf, uint16_t len, uint8_t index) { struct ums_info *info = &sc->sc_info[index]; uint32_t flags; uint8_t i; uint8_t j; if (hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_X), hid_input, index, &info->sc_loc_x, &flags, &info->sc_iid_x)) { if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) { info->sc_flags |= UMS_FLAG_X_AXIS; } } if (hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_Y), hid_input, index, &info->sc_loc_y, &flags, &info->sc_iid_y)) { if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) { info->sc_flags |= UMS_FLAG_Y_AXIS; } } /* Try the wheel first as the Z activator since it's tradition. */ if (hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_WHEEL), hid_input, index, &info->sc_loc_z, &flags, &info->sc_iid_z) || hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_TWHEEL), hid_input, index, &info->sc_loc_z, &flags, &info->sc_iid_z)) { if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) { info->sc_flags |= UMS_FLAG_Z_AXIS; } /* * We might have both a wheel and Z direction, if so put * put the Z on the W coordinate. */ if (hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_Z), hid_input, index, &info->sc_loc_w, &flags, &info->sc_iid_w)) { if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) { info->sc_flags |= UMS_FLAG_W_AXIS; } } } else if (hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_Z), hid_input, index, &info->sc_loc_z, &flags, &info->sc_iid_z)) { if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) { info->sc_flags |= UMS_FLAG_Z_AXIS; } } /* * The Microsoft Wireless Intellimouse 2.0 reports it's wheel * using 0x0048, which is HUG_TWHEEL, and seems to expect you * to know that the byte after the wheel is the tilt axis. * There are no other HID axis descriptors other than X,Y and * TWHEEL */ if (hid_locate(buf, len, HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_TWHEEL), hid_input, index, &info->sc_loc_t, &flags, &info->sc_iid_t)) { info->sc_loc_t.pos += 8; if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) { info->sc_flags |= UMS_FLAG_T_AXIS; } } else if (hid_locate(buf, len, HID_USAGE2(HUP_CONSUMER, HUC_AC_PAN), hid_input, index, &info->sc_loc_t, &flags, &info->sc_iid_t)) { if ((flags & MOUSE_FLAGS_MASK) == MOUSE_FLAGS) info->sc_flags |= UMS_FLAG_T_AXIS; } /* figure out the number of buttons */ for (i = 0; i < UMS_BUTTON_MAX; i++) { if (!hid_locate(buf, len, HID_USAGE2(HUP_BUTTON, (i + 1)), hid_input, index, &info->sc_loc_btn[i], NULL, &info->sc_iid_btn[i])) { break; } } /* detect other buttons */ for (j = 0; (i < UMS_BUTTON_MAX) && (j < 2); i++, j++) { if (!hid_locate(buf, len, HID_USAGE2(HUP_MICROSOFT, (j + 1)), hid_input, index, &info->sc_loc_btn[i], NULL, &info->sc_iid_btn[i])) { break; } } info->sc_buttons = i; if (i > sc->sc_buttons) sc->sc_buttons = i; if (info->sc_flags == 0) return; /* announce information about the mouse */ device_printf(dev, "%d buttons and [%s%s%s%s%s] coordinates ID=%u\n", (info->sc_buttons), (info->sc_flags & UMS_FLAG_X_AXIS) ? "X" : "", (info->sc_flags & UMS_FLAG_Y_AXIS) ? "Y" : "", (info->sc_flags & UMS_FLAG_Z_AXIS) ? "Z" : "", (info->sc_flags & UMS_FLAG_T_AXIS) ? "T" : "", (info->sc_flags & UMS_FLAG_W_AXIS) ? "W" : "", info->sc_iid_x); } static int ums_attach(device_t dev) { struct usb_attach_arg *uaa = device_get_ivars(dev); struct ums_softc *sc = device_get_softc(dev); struct ums_info *info; void *d_ptr = NULL; int isize; int err; uint16_t d_len; uint8_t i; #ifdef USB_DEBUG uint8_t j; #endif DPRINTFN(11, "sc=%p\n", sc); device_set_usb_desc(dev); mtx_init(&sc->sc_mtx, "ums lock", NULL, MTX_DEF | MTX_RECURSE); usb_callout_init_mtx(&sc->sc_callout, &sc->sc_mtx, 0); /* * Force the report (non-boot) protocol. * * Mice without boot protocol support may choose not to implement * Set_Protocol at all; Ignore any error. */ err = usbd_req_set_protocol(uaa->device, NULL, uaa->info.bIfaceIndex, 1); err = usbd_transfer_setup(uaa->device, &uaa->info.bIfaceIndex, sc->sc_xfer, ums_config, UMS_N_TRANSFER, sc, &sc->sc_mtx); if (err) { DPRINTF("error=%s\n", usbd_errstr(err)); goto detach; } /* Get HID descriptor */ err = usbd_req_get_hid_desc(uaa->device, NULL, &d_ptr, &d_len, M_TEMP, uaa->info.bIfaceIndex); if (err) { device_printf(dev, "error reading report description\n"); goto detach; } isize = hid_report_size_max(d_ptr, d_len, hid_input, &sc->sc_iid); /* * The Microsoft Wireless Notebook Optical Mouse seems to be in worse * shape than the Wireless Intellimouse 2.0, as its X, Y, wheel, and * all of its other button positions are all off. It also reports that * it has two additional buttons and a tilt wheel. */ if (usb_test_quirk(uaa, UQ_MS_BAD_CLASS)) { sc->sc_iid = 0; info = &sc->sc_info[0]; info->sc_flags = (UMS_FLAG_X_AXIS | UMS_FLAG_Y_AXIS | UMS_FLAG_Z_AXIS | UMS_FLAG_SBU); info->sc_buttons = 3; isize = 5; /* 1st byte of descriptor report contains garbage */ info->sc_loc_x.pos = 16; info->sc_loc_x.size = 8; info->sc_loc_y.pos = 24; info->sc_loc_y.size = 8; info->sc_loc_z.pos = 32; info->sc_loc_z.size = 8; info->sc_loc_btn[0].pos = 8; info->sc_loc_btn[0].size = 1; info->sc_loc_btn[1].pos = 9; info->sc_loc_btn[1].size = 1; info->sc_loc_btn[2].pos = 10; info->sc_loc_btn[2].size = 1; /* Announce device */ device_printf(dev, "3 buttons and [XYZ] " "coordinates ID=0\n"); } else { /* Search the HID descriptor and announce device */ for (i = 0; i < UMS_INFO_MAX; i++) { ums_hid_parse(sc, dev, d_ptr, d_len, i); } } if (usb_test_quirk(uaa, UQ_MS_REVZ)) { info = &sc->sc_info[0]; /* Some wheels need the Z axis reversed. */ info->sc_flags |= UMS_FLAG_REVZ; } if (isize > (int)usbd_xfer_max_framelen(sc->sc_xfer[UMS_INTR_DT])) { DPRINTF("WARNING: report size, %d bytes, is larger " "than interrupt size, %d bytes!\n", isize, usbd_xfer_max_framelen(sc->sc_xfer[UMS_INTR_DT])); } free(d_ptr, M_TEMP); d_ptr = NULL; #ifdef USB_DEBUG for (j = 0; j < UMS_INFO_MAX; j++) { info = &sc->sc_info[j]; DPRINTF("sc=%p, index=%d\n", sc, j); DPRINTF("X\t%d/%d id=%d\n", info->sc_loc_x.pos, info->sc_loc_x.size, info->sc_iid_x); DPRINTF("Y\t%d/%d id=%d\n", info->sc_loc_y.pos, info->sc_loc_y.size, info->sc_iid_y); DPRINTF("Z\t%d/%d id=%d\n", info->sc_loc_z.pos, info->sc_loc_z.size, info->sc_iid_z); DPRINTF("T\t%d/%d id=%d\n", info->sc_loc_t.pos, info->sc_loc_t.size, info->sc_iid_t); DPRINTF("W\t%d/%d id=%d\n", info->sc_loc_w.pos, info->sc_loc_w.size, info->sc_iid_w); for (i = 0; i < info->sc_buttons; i++) { DPRINTF("B%d\t%d/%d id=%d\n", i + 1, info->sc_loc_btn[i].pos, info->sc_loc_btn[i].size, info->sc_iid_btn[i]); } } DPRINTF("size=%d, id=%d\n", isize, sc->sc_iid); #endif err = usb_fifo_attach(uaa->device, sc, &sc->sc_mtx, &ums_fifo_methods, &sc->sc_fifo, device_get_unit(dev), -1, uaa->info.bIfaceIndex, UID_ROOT, GID_OPERATOR, 0644); if (err) goto detach; #ifdef EVDEV_SUPPORT sc->sc_evdev = evdev_alloc(); evdev_set_name(sc->sc_evdev, device_get_desc(dev)); evdev_set_phys(sc->sc_evdev, device_get_nameunit(dev)); evdev_set_id(sc->sc_evdev, BUS_USB, uaa->info.idVendor, uaa->info.idProduct, 0); evdev_set_serial(sc->sc_evdev, usb_get_serial(uaa->device)); evdev_set_methods(sc->sc_evdev, sc, &ums_evdev_methods); evdev_support_prop(sc->sc_evdev, INPUT_PROP_POINTER); evdev_support_event(sc->sc_evdev, EV_SYN); evdev_support_event(sc->sc_evdev, EV_REL); evdev_support_event(sc->sc_evdev, EV_KEY); info = &sc->sc_info[0]; if (info->sc_flags & UMS_FLAG_X_AXIS) evdev_support_rel(sc->sc_evdev, REL_X); if (info->sc_flags & UMS_FLAG_Y_AXIS) evdev_support_rel(sc->sc_evdev, REL_Y); if (info->sc_flags & UMS_FLAG_Z_AXIS) evdev_support_rel(sc->sc_evdev, REL_WHEEL); if (info->sc_flags & UMS_FLAG_T_AXIS) evdev_support_rel(sc->sc_evdev, REL_HWHEEL); for (i = 0; i < info->sc_buttons; i++) evdev_support_key(sc->sc_evdev, BTN_MOUSE + i); err = evdev_register_mtx(sc->sc_evdev, &sc->sc_mtx); if (err) goto detach; #endif SYSCTL_ADD_PROC(device_get_sysctl_ctx(dev), SYSCTL_CHILDREN(device_get_sysctl_tree(dev)), OID_AUTO, "parseinfo", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, sc, 0, ums_sysctl_handler_parseinfo, "", "Dump of parsed HID report descriptor"); return (0); detach: if (d_ptr) { free(d_ptr, M_TEMP); } ums_detach(dev); return (ENOMEM); } static int ums_detach(device_t self) { struct ums_softc *sc = device_get_softc(self); DPRINTF("sc=%p\n", sc); usb_fifo_detach(&sc->sc_fifo); #ifdef EVDEV_SUPPORT evdev_free(sc->sc_evdev); #endif usbd_transfer_unsetup(sc->sc_xfer, UMS_N_TRANSFER); usb_callout_drain(&sc->sc_callout); mtx_destroy(&sc->sc_mtx); return (0); } static void ums_reset(struct ums_softc *sc) { /* reset all USB mouse parameters */ if (sc->sc_buttons > MOUSE_MSC_MAXBUTTON) sc->sc_hw.buttons = MOUSE_MSC_MAXBUTTON; else sc->sc_hw.buttons = sc->sc_buttons; sc->sc_hw.iftype = MOUSE_IF_USB; sc->sc_hw.type = MOUSE_MOUSE; sc->sc_hw.model = MOUSE_MODEL_GENERIC; sc->sc_hw.hwid = 0; sc->sc_mode.protocol = MOUSE_PROTO_MSC; sc->sc_mode.rate = -1; sc->sc_mode.resolution = MOUSE_RES_UNKNOWN; sc->sc_mode.accelfactor = 0; sc->sc_mode.level = 0; sc->sc_mode.packetsize = MOUSE_MSC_PACKETSIZE; sc->sc_mode.syncmask[0] = MOUSE_MSC_SYNCMASK; sc->sc_mode.syncmask[1] = MOUSE_MSC_SYNC; /* reset status */ sc->sc_status.flags = 0; sc->sc_status.button = 0; sc->sc_status.obutton = 0; sc->sc_status.dx = 0; sc->sc_status.dy = 0; sc->sc_status.dz = 0; /* sc->sc_status.dt = 0; */ } static void ums_start_rx(struct ums_softc *sc) { int rate; /* Check if we should override the default polling interval */ rate = sc->sc_pollrate; /* Range check rate */ if (rate > 1000) rate = 1000; /* Check for set rate */ if ((rate > 0) && (sc->sc_xfer[UMS_INTR_DT] != NULL)) { DPRINTF("Setting pollrate = %d\n", rate); /* Stop current transfer, if any */ usbd_transfer_stop(sc->sc_xfer[UMS_INTR_DT]); /* Set new interval */ usbd_xfer_set_interval(sc->sc_xfer[UMS_INTR_DT], 1000 / rate); /* Only set pollrate once */ sc->sc_pollrate = 0; } usbd_transfer_start(sc->sc_xfer[UMS_INTR_DT]); } static void ums_stop_rx(struct ums_softc *sc) { usbd_transfer_stop(sc->sc_xfer[UMS_INTR_DT]); usb_callout_stop(&sc->sc_callout); } static void ums_fifo_start_read(struct usb_fifo *fifo) { struct ums_softc *sc = usb_fifo_softc(fifo); ums_start_rx(sc); } static void ums_fifo_stop_read(struct usb_fifo *fifo) { struct ums_softc *sc = usb_fifo_softc(fifo); #ifdef EVDEV_SUPPORT if ((sc->sc_evflags & UMS_EVDEV_OPENED) == 0) #endif ums_stop_rx(sc); } #if ((MOUSE_SYS_PACKETSIZE != 8) || \ (MOUSE_MSC_PACKETSIZE != 5)) #error "Software assumptions are not met. Please update code." #endif static void ums_put_queue(struct ums_softc *sc, int32_t dx, int32_t dy, int32_t dz, int32_t dt, int32_t buttons) { uint8_t buf[8]; +#ifdef EVDEV_SUPPORT + if (evdev_is_grabbed(sc->sc_evdev)) + return; +#endif if (1) { if (dx > 254) dx = 254; if (dx < -256) dx = -256; if (dy > 254) dy = 254; if (dy < -256) dy = -256; if (dz > 126) dz = 126; if (dz < -128) dz = -128; if (dt > 126) dt = 126; if (dt < -128) dt = -128; buf[0] = sc->sc_mode.syncmask[1]; buf[0] |= (~buttons) & MOUSE_MSC_BUTTONS; buf[1] = dx >> 1; buf[2] = dy >> 1; buf[3] = dx - (dx >> 1); buf[4] = dy - (dy >> 1); if (sc->sc_mode.level == 1) { buf[5] = dz >> 1; buf[6] = dz - (dz >> 1); buf[7] = (((~buttons) >> 3) & MOUSE_SYS_EXTBUTTONS); } usb_fifo_put_data_linear(sc->sc_fifo.fp[USB_FIFO_RX], buf, sc->sc_mode.packetsize, 1); } else { DPRINTF("Buffer full, discarded packet\n"); } } #ifdef EVDEV_SUPPORT static void ums_evdev_push(struct ums_softc *sc, int32_t dx, int32_t dy, int32_t dz, int32_t dt, int32_t buttons) { if (evdev_rcpt_mask & EVDEV_RCPT_HW_MOUSE) { /* Push evdev event */ evdev_push_rel(sc->sc_evdev, REL_X, dx); evdev_push_rel(sc->sc_evdev, REL_Y, -dy); evdev_push_rel(sc->sc_evdev, REL_WHEEL, -dz); evdev_push_rel(sc->sc_evdev, REL_HWHEEL, dt); evdev_push_mouse_btn(sc->sc_evdev, (buttons & ~MOUSE_STDBUTTONS) | (buttons & (1 << 2) ? MOUSE_BUTTON1DOWN : 0) | (buttons & (1 << 1) ? MOUSE_BUTTON2DOWN : 0) | (buttons & (1 << 0) ? MOUSE_BUTTON3DOWN : 0)); evdev_sync(sc->sc_evdev); } } #endif static void ums_reset_buf(struct ums_softc *sc) { /* reset read queue, must be called locked */ usb_fifo_reset(sc->sc_fifo.fp[USB_FIFO_RX]); } #ifdef EVDEV_SUPPORT static int ums_ev_open(struct evdev_dev *evdev) { struct ums_softc *sc = evdev_get_softc(evdev); mtx_assert(&sc->sc_mtx, MA_OWNED); sc->sc_evflags |= UMS_EVDEV_OPENED; if (sc->sc_fflags == 0) { ums_reset(sc); } ums_start_rx(sc); return (0); } static int ums_ev_close(struct evdev_dev *evdev) { struct ums_softc *sc = evdev_get_softc(evdev); mtx_assert(&sc->sc_mtx, MA_OWNED); sc->sc_evflags &= ~UMS_EVDEV_OPENED; if (sc->sc_fflags == 0) ums_stop_rx(sc); return (0); } #endif static int ums_fifo_open(struct usb_fifo *fifo, int fflags) { struct ums_softc *sc = usb_fifo_softc(fifo); DPRINTFN(2, "\n"); /* check for duplicate open, should not happen */ if (sc->sc_fflags & fflags) return (EBUSY); /* check for first open */ #ifdef EVDEV_SUPPORT if (sc->sc_fflags == 0 && (sc->sc_evflags & UMS_EVDEV_OPENED) == 0) ums_reset(sc); #else if (sc->sc_fflags == 0) ums_reset(sc); #endif if (fflags & FREAD) { /* allocate RX buffer */ if (usb_fifo_alloc_buffer(fifo, UMS_BUF_SIZE, UMS_IFQ_MAXLEN)) { return (ENOMEM); } } sc->sc_fflags |= fflags & (FREAD | FWRITE); return (0); } static void ums_fifo_close(struct usb_fifo *fifo, int fflags) { struct ums_softc *sc = usb_fifo_softc(fifo); DPRINTFN(2, "\n"); if (fflags & FREAD) usb_fifo_free_buffer(fifo); sc->sc_fflags &= ~(fflags & (FREAD | FWRITE)); } static int ums_fifo_ioctl(struct usb_fifo *fifo, u_long cmd, void *addr, int fflags) { struct ums_softc *sc = usb_fifo_softc(fifo); mousemode_t mode; int error = 0; DPRINTFN(2, "\n"); mtx_lock(&sc->sc_mtx); switch (cmd) { case MOUSE_GETHWINFO: *(mousehw_t *)addr = sc->sc_hw; break; case MOUSE_GETMODE: *(mousemode_t *)addr = sc->sc_mode; break; case MOUSE_SETMODE: mode = *(mousemode_t *)addr; if (mode.level == -1) { /* don't change the current setting */ } else if ((mode.level < 0) || (mode.level > 1)) { error = EINVAL; break; } else { sc->sc_mode.level = mode.level; } /* store polling rate */ sc->sc_pollrate = mode.rate; if (sc->sc_mode.level == 0) { if (sc->sc_buttons > MOUSE_MSC_MAXBUTTON) sc->sc_hw.buttons = MOUSE_MSC_MAXBUTTON; else sc->sc_hw.buttons = sc->sc_buttons; sc->sc_mode.protocol = MOUSE_PROTO_MSC; sc->sc_mode.packetsize = MOUSE_MSC_PACKETSIZE; sc->sc_mode.syncmask[0] = MOUSE_MSC_SYNCMASK; sc->sc_mode.syncmask[1] = MOUSE_MSC_SYNC; } else if (sc->sc_mode.level == 1) { if (sc->sc_buttons > MOUSE_SYS_MAXBUTTON) sc->sc_hw.buttons = MOUSE_SYS_MAXBUTTON; else sc->sc_hw.buttons = sc->sc_buttons; sc->sc_mode.protocol = MOUSE_PROTO_SYSMOUSE; sc->sc_mode.packetsize = MOUSE_SYS_PACKETSIZE; sc->sc_mode.syncmask[0] = MOUSE_SYS_SYNCMASK; sc->sc_mode.syncmask[1] = MOUSE_SYS_SYNC; } ums_reset_buf(sc); break; case MOUSE_GETLEVEL: *(int *)addr = sc->sc_mode.level; break; case MOUSE_SETLEVEL: if (*(int *)addr < 0 || *(int *)addr > 1) { error = EINVAL; break; } sc->sc_mode.level = *(int *)addr; if (sc->sc_mode.level == 0) { if (sc->sc_buttons > MOUSE_MSC_MAXBUTTON) sc->sc_hw.buttons = MOUSE_MSC_MAXBUTTON; else sc->sc_hw.buttons = sc->sc_buttons; sc->sc_mode.protocol = MOUSE_PROTO_MSC; sc->sc_mode.packetsize = MOUSE_MSC_PACKETSIZE; sc->sc_mode.syncmask[0] = MOUSE_MSC_SYNCMASK; sc->sc_mode.syncmask[1] = MOUSE_MSC_SYNC; } else if (sc->sc_mode.level == 1) { if (sc->sc_buttons > MOUSE_SYS_MAXBUTTON) sc->sc_hw.buttons = MOUSE_SYS_MAXBUTTON; else sc->sc_hw.buttons = sc->sc_buttons; sc->sc_mode.protocol = MOUSE_PROTO_SYSMOUSE; sc->sc_mode.packetsize = MOUSE_SYS_PACKETSIZE; sc->sc_mode.syncmask[0] = MOUSE_SYS_SYNCMASK; sc->sc_mode.syncmask[1] = MOUSE_SYS_SYNC; } ums_reset_buf(sc); break; case MOUSE_GETSTATUS:{ mousestatus_t *status = (mousestatus_t *)addr; *status = sc->sc_status; sc->sc_status.obutton = sc->sc_status.button; sc->sc_status.button = 0; sc->sc_status.dx = 0; sc->sc_status.dy = 0; sc->sc_status.dz = 0; /* sc->sc_status.dt = 0; */ if (status->dx || status->dy || status->dz /* || status->dt */ ) { status->flags |= MOUSE_POSCHANGED; } if (status->button != status->obutton) { status->flags |= MOUSE_BUTTONSCHANGED; } break; } default: error = ENOTTY; break; } mtx_unlock(&sc->sc_mtx); return (error); } static int ums_sysctl_handler_parseinfo(SYSCTL_HANDLER_ARGS) { struct ums_softc *sc = arg1; struct ums_info *info; struct sbuf *sb; int i, j, err, had_output; sb = sbuf_new_auto(); for (i = 0, had_output = 0; i < UMS_INFO_MAX; i++) { info = &sc->sc_info[i]; /* Don't emit empty info */ if ((info->sc_flags & (UMS_FLAG_X_AXIS | UMS_FLAG_Y_AXIS | UMS_FLAG_Z_AXIS | UMS_FLAG_T_AXIS | UMS_FLAG_W_AXIS)) == 0 && info->sc_buttons == 0) continue; if (had_output) sbuf_printf(sb, "\n"); had_output = 1; sbuf_printf(sb, "i%d:", i + 1); if (info->sc_flags & UMS_FLAG_X_AXIS) sbuf_printf(sb, " X:r%d, p%d, s%d;", (int)info->sc_iid_x, (int)info->sc_loc_x.pos, (int)info->sc_loc_x.size); if (info->sc_flags & UMS_FLAG_Y_AXIS) sbuf_printf(sb, " Y:r%d, p%d, s%d;", (int)info->sc_iid_y, (int)info->sc_loc_y.pos, (int)info->sc_loc_y.size); if (info->sc_flags & UMS_FLAG_Z_AXIS) sbuf_printf(sb, " Z:r%d, p%d, s%d;", (int)info->sc_iid_z, (int)info->sc_loc_z.pos, (int)info->sc_loc_z.size); if (info->sc_flags & UMS_FLAG_T_AXIS) sbuf_printf(sb, " T:r%d, p%d, s%d;", (int)info->sc_iid_t, (int)info->sc_loc_t.pos, (int)info->sc_loc_t.size); if (info->sc_flags & UMS_FLAG_W_AXIS) sbuf_printf(sb, " W:r%d, p%d, s%d;", (int)info->sc_iid_w, (int)info->sc_loc_w.pos, (int)info->sc_loc_w.size); for (j = 0; j < info->sc_buttons; j++) { sbuf_printf(sb, " B%d:r%d, p%d, s%d;", j + 1, (int)info->sc_iid_btn[j], (int)info->sc_loc_btn[j].pos, (int)info->sc_loc_btn[j].size); } } sbuf_finish(sb); err = SYSCTL_OUT(req, sbuf_data(sb), sbuf_len(sb) + 1); sbuf_delete(sb); return (err); } static device_method_t ums_methods[] = { DEVMETHOD(device_probe, ums_probe), DEVMETHOD(device_attach, ums_attach), DEVMETHOD(device_detach, ums_detach), DEVMETHOD_END }; static driver_t ums_driver = { .name = "ums", .methods = ums_methods, .size = sizeof(struct ums_softc), }; DRIVER_MODULE(ums, uhub, ums_driver, NULL, NULL); MODULE_DEPEND(ums, usb, 1, 1, 1); MODULE_DEPEND(ums, hid, 1, 1, 1); #ifdef EVDEV_SUPPORT MODULE_DEPEND(ums, evdev, 1, 1, 1); #endif MODULE_VERSION(ums, 1); USB_PNP_HOST_INFO(ums_devs); diff --git a/sys/dev/vt/vt_sysmouse.c b/sys/dev/vt/vt_sysmouse.c index e10ac829abf3..c6426f3a8f17 100644 --- a/sys/dev/vt/vt_sysmouse.c +++ b/sys/dev/vt/vt_sysmouse.c @@ -1,492 +1,494 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 1999 Kazutaka YOKOTA * All rights reserved. * * Copyright (c) 2009 The FreeBSD Foundation * All rights reserved. * * This software was developed by Ed Schouten 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. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE. */ #include __FBSDID("$FreeBSD$"); #include "opt_evdev.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef EVDEV_SUPPORT #include #include #endif static d_open_t sysmouse_open; static d_close_t sysmouse_close; static d_read_t sysmouse_read; static d_ioctl_t sysmouse_ioctl; static d_poll_t sysmouse_poll; static struct cdevsw sysmouse_cdevsw = { .d_version = D_VERSION, .d_open = sysmouse_open, .d_close = sysmouse_close, .d_read = sysmouse_read, .d_ioctl = sysmouse_ioctl, .d_poll = sysmouse_poll, .d_name = "sysmouse", }; static struct mtx sysmouse_lock; static struct cv sysmouse_sleep; static struct selinfo sysmouse_bufpoll; static int sysmouse_level; static mousestatus_t sysmouse_status; static int sysmouse_flags; #define SM_ASYNC 0x1 static struct sigio *sysmouse_sigio; #define SYSMOUSE_MAXFRAMES 250 /* 2 KB */ static MALLOC_DEFINE(M_SYSMOUSE, "sysmouse", "sysmouse device"); static unsigned char *sysmouse_buffer; static unsigned int sysmouse_start, sysmouse_length; #ifdef EVDEV_SUPPORT static struct evdev_dev *sysmouse_evdev; static void sysmouse_evdev_init(void) { int i; sysmouse_evdev = evdev_alloc(); evdev_set_name(sysmouse_evdev, "System mouse"); evdev_set_phys(sysmouse_evdev, "sysmouse"); evdev_set_id(sysmouse_evdev, BUS_VIRTUAL, 0, 0, 0); evdev_support_prop(sysmouse_evdev, INPUT_PROP_POINTER); evdev_support_event(sysmouse_evdev, EV_SYN); evdev_support_event(sysmouse_evdev, EV_REL); evdev_support_event(sysmouse_evdev, EV_KEY); evdev_support_rel(sysmouse_evdev, REL_X); evdev_support_rel(sysmouse_evdev, REL_Y); evdev_support_rel(sysmouse_evdev, REL_WHEEL); evdev_support_rel(sysmouse_evdev, REL_HWHEEL); for (i = 0; i < 8; i++) evdev_support_key(sysmouse_evdev, BTN_MOUSE + i); if (evdev_register(sysmouse_evdev)) { evdev_free(sysmouse_evdev); sysmouse_evdev = NULL; } } static void sysmouse_evdev_store(int x, int y, int z, int buttons) { if (sysmouse_evdev == NULL || !(evdev_rcpt_mask & EVDEV_RCPT_SYSMOUSE)) return; evdev_push_event(sysmouse_evdev, EV_REL, REL_X, x); evdev_push_event(sysmouse_evdev, EV_REL, REL_Y, y); switch (evdev_sysmouse_t_axis) { case EVDEV_SYSMOUSE_T_AXIS_PSM: switch (z) { case 1: case -1: evdev_push_rel(sysmouse_evdev, REL_WHEEL, -z); break; case 2: case -2: evdev_push_rel(sysmouse_evdev, REL_HWHEEL, z / 2); break; } break; case EVDEV_SYSMOUSE_T_AXIS_UMS: if (buttons & (1 << 6)) evdev_push_rel(sysmouse_evdev, REL_HWHEEL, 1); else if (buttons & (1 << 5)) evdev_push_rel(sysmouse_evdev, REL_HWHEEL, -1); buttons &= ~((1 << 5)|(1 << 6)); /* PASSTHROUGH */ case EVDEV_SYSMOUSE_T_AXIS_NONE: default: evdev_push_rel(sysmouse_evdev, REL_WHEEL, -z); } evdev_push_mouse_btn(sysmouse_evdev, buttons); evdev_sync(sysmouse_evdev); } #endif static int sysmouse_buf_read(struct uio *uio, unsigned int length) { unsigned char buf[MOUSE_SYS_PACKETSIZE]; int error; if (sysmouse_buffer == NULL) return (ENXIO); else if (sysmouse_length == 0) return (EWOULDBLOCK); memcpy(buf, sysmouse_buffer + sysmouse_start * MOUSE_SYS_PACKETSIZE, MOUSE_SYS_PACKETSIZE); sysmouse_start = (sysmouse_start + 1) % SYSMOUSE_MAXFRAMES; sysmouse_length--; mtx_unlock(&sysmouse_lock); error = uiomove(buf, length, uio); mtx_lock(&sysmouse_lock); return (error); } static void sysmouse_buf_store(const unsigned char buf[MOUSE_SYS_PACKETSIZE]) { unsigned int idx; if (sysmouse_buffer == NULL || sysmouse_length == SYSMOUSE_MAXFRAMES) return; idx = (sysmouse_start + sysmouse_length) % SYSMOUSE_MAXFRAMES; memcpy(sysmouse_buffer + idx * MOUSE_SYS_PACKETSIZE, buf, MOUSE_SYS_PACKETSIZE); sysmouse_length++; cv_broadcast(&sysmouse_sleep); selwakeup(&sysmouse_bufpoll); if (sysmouse_flags & SM_ASYNC && sysmouse_sigio != NULL) pgsigio(&sysmouse_sigio, SIGIO, 0); } void sysmouse_process_event(mouse_info_t *mi) { /* MOUSE_BUTTON?DOWN -> MOUSE_MSC_BUTTON?UP */ static const int buttonmap[8] = { MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON2UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON3UP, MOUSE_MSC_BUTTON1UP | MOUSE_MSC_BUTTON2UP, MOUSE_MSC_BUTTON2UP, MOUSE_MSC_BUTTON1UP, 0, }; unsigned char buf[MOUSE_SYS_PACKETSIZE]; int x, y, iy, z; random_harvest_queue(mi, sizeof *mi, RANDOM_MOUSE); mtx_lock(&sysmouse_lock); switch (mi->operation) { case MOUSE_ACTION: sysmouse_status.button = mi->u.data.buttons; /* FALLTHROUGH */ case MOUSE_MOTION_EVENT: x = mi->u.data.x; y = mi->u.data.y; z = mi->u.data.z; break; case MOUSE_BUTTON_EVENT: x = y = z = 0; if (mi->u.event.value > 0) sysmouse_status.button |= mi->u.event.id; else sysmouse_status.button &= ~mi->u.event.id; break; default: goto done; } sysmouse_status.dx += x; sysmouse_status.dy += y; sysmouse_status.dz += z; sysmouse_status.flags |= ((x || y || z) ? MOUSE_POSCHANGED : 0) | (sysmouse_status.obutton ^ sysmouse_status.button); if (sysmouse_status.flags == 0) goto done; #ifdef EVDEV_SUPPORT sysmouse_evdev_store(x, y, z, sysmouse_status.button); + if (evdev_is_grabbed(sysmouse_evdev)) + goto done; #endif /* The first five bytes are compatible with MouseSystems. */ buf[0] = MOUSE_MSC_SYNC | buttonmap[sysmouse_status.button & MOUSE_STDBUTTONS]; x = imax(imin(x, 255), -256); buf[1] = x >> 1; buf[3] = x - buf[1]; iy = -imax(imin(y, 255), -256); buf[2] = iy >> 1; buf[4] = iy - buf[2]; /* Extended part. */ z = imax(imin(z, 127), -128); buf[5] = (z >> 1) & 0x7f; buf[6] = (z - (z >> 1)) & 0x7f; /* Buttons 4-10. */ buf[7] = (~sysmouse_status.button >> 3) & 0x7f; sysmouse_buf_store(buf); #ifndef SC_NO_CUTPASTE mtx_unlock(&sysmouse_lock); vt_mouse_event(mi->operation, x, y, mi->u.event.id, mi->u.event.value, sysmouse_level); return; #endif done: mtx_unlock(&sysmouse_lock); } static int sysmouse_open(struct cdev *dev, int oflags, int devtype, struct thread *td) { void *buf; buf = malloc(MOUSE_SYS_PACKETSIZE * SYSMOUSE_MAXFRAMES, M_SYSMOUSE, M_WAITOK); mtx_lock(&sysmouse_lock); if (sysmouse_buffer == NULL) { sysmouse_buffer = buf; sysmouse_start = sysmouse_length = 0; sysmouse_level = 0; } else { free(buf, M_SYSMOUSE); } mtx_unlock(&sysmouse_lock); return (0); } static int sysmouse_close(struct cdev *dev, int fflag, int devtype, struct thread *td) { mtx_lock(&sysmouse_lock); free(sysmouse_buffer, M_SYSMOUSE); sysmouse_buffer = NULL; sysmouse_level = 0; mtx_unlock(&sysmouse_lock); return (0); } static int sysmouse_read(struct cdev *dev, struct uio *uio, int ioflag) { unsigned int length; ssize_t oresid; int error = 0; oresid = uio->uio_resid; mtx_lock(&sysmouse_lock); length = sysmouse_level >= 1 ? MOUSE_SYS_PACKETSIZE : MOUSE_MSC_PACKETSIZE; while (uio->uio_resid >= length) { error = sysmouse_buf_read(uio, length); if (error == 0) { /* Process the next frame. */ continue; } else if (error != EWOULDBLOCK) { /* Error (e.g. EFAULT). */ break; } else { /* Block. */ if (oresid != uio->uio_resid || ioflag & O_NONBLOCK) break; error = cv_wait_sig(&sysmouse_sleep, &sysmouse_lock); if (error != 0) break; } } mtx_unlock(&sysmouse_lock); return (error); } static int sysmouse_ioctl(struct cdev *dev, u_long cmd, caddr_t data, int flag, struct thread *td) { switch (cmd) { case FIOASYNC: mtx_lock(&sysmouse_lock); if (*(int *)data) sysmouse_flags |= SM_ASYNC; else sysmouse_flags &= ~SM_ASYNC; mtx_unlock(&sysmouse_lock); return (0); case FIONBIO: return (0); case FIOGETOWN: *(int *)data = fgetown(&sysmouse_sigio); return (0); case FIOSETOWN: return (fsetown(*(int *)data, &sysmouse_sigio)); case MOUSE_GETHWINFO: { mousehw_t *hw = (mousehw_t *)data; hw->buttons = 10; hw->iftype = MOUSE_IF_SYSMOUSE; hw->type = MOUSE_MOUSE; hw->model = MOUSE_MODEL_GENERIC; hw->hwid = 0; return (0); } case MOUSE_GETLEVEL: *(int *)data = sysmouse_level; return (0); case MOUSE_GETMODE: { mousemode_t *mode = (mousemode_t *)data; mode->rate = -1; mode->resolution = -1; mode->accelfactor = 0; mode->level = sysmouse_level; switch (mode->level) { case 0: mode->protocol = MOUSE_PROTO_MSC; mode->packetsize = MOUSE_MSC_PACKETSIZE; mode->syncmask[0] = MOUSE_MSC_SYNCMASK; mode->syncmask[1] = MOUSE_MSC_SYNC; break; case 1: mode->protocol = MOUSE_PROTO_SYSMOUSE; mode->packetsize = MOUSE_SYS_PACKETSIZE; mode->syncmask[0] = MOUSE_SYS_SYNCMASK; mode->syncmask[1] = MOUSE_SYS_SYNC; break; } return (0); } case MOUSE_GETSTATUS: mtx_lock(&sysmouse_lock); *(mousestatus_t *)data = sysmouse_status; sysmouse_status.flags = 0; sysmouse_status.obutton = sysmouse_status.button; sysmouse_status.dx = 0; sysmouse_status.dy = 0; sysmouse_status.dz = 0; mtx_unlock(&sysmouse_lock); return (0); case MOUSE_SETLEVEL: { int level; level = *(int *)data; if (level != 0 && level != 1) return (EINVAL); sysmouse_level = level; return (0); } case MOUSE_SETMODE: { mousemode_t *mode = (mousemode_t *)data; switch (mode->level) { case -1: /* Do nothing. */ break; case 0: case 1: sysmouse_level = mode->level; break; default: return (EINVAL); } return (0); } case MOUSE_MOUSECHAR: return (0); default: #ifdef VT_SYSMOUSE_DEBUG printf("sysmouse: unknown ioctl: %c:%lx\n", (char)IOCGROUP(cmd), IOCBASECMD(cmd)); #endif return (ENOIOCTL); } } static int sysmouse_poll(struct cdev *dev, int events, struct thread *td) { int revents = 0; mtx_lock(&sysmouse_lock); if (events & (POLLIN|POLLRDNORM)) { if (sysmouse_length > 0) revents = events & (POLLIN|POLLRDNORM); else selrecord(td, &sysmouse_bufpoll); } mtx_unlock(&sysmouse_lock); return (revents); } static void sysmouse_drvinit(void *unused) { if (!vty_enabled(VTY_VT)) return; mtx_init(&sysmouse_lock, "sysmouse", NULL, MTX_DEF); cv_init(&sysmouse_sleep, "sysmrd"); make_dev(&sysmouse_cdevsw, 0, UID_ROOT, GID_WHEEL, 0600, "sysmouse"); #ifdef EVDEV_SUPPORT sysmouse_evdev_init(); #endif } SYSINIT(sysmouse, SI_SUB_DRIVERS, SI_ORDER_MIDDLE, sysmouse_drvinit, NULL);