Index: stable/10/sys/dev/hyperv/vmbus/hv_channel_mgmt.c =================================================================== --- stable/10/sys/dev/hyperv/vmbus/hv_channel_mgmt.c (revision 292796) +++ stable/10/sys/dev/hyperv/vmbus/hv_channel_mgmt.c (revision 292797) @@ -1,866 +1,864 @@ /*- * Copyright (c) 2009-2012 Microsoft Corp. * Copyright (c) 2012 NetApp Inc. * Copyright (c) 2012 Citrix Inc. * 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 unmodified, 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 ``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 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 #include #include "hv_vmbus_priv.h" typedef void (*hv_pfn_channel_msg_handler)(hv_vmbus_channel_msg_header* msg); typedef struct hv_vmbus_channel_msg_table_entry { hv_vmbus_channel_msg_type messageType; hv_pfn_channel_msg_handler messageHandler; } hv_vmbus_channel_msg_table_entry; /* * Internal functions */ static void vmbus_channel_on_offer(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_on_open_result(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_on_offer_rescind(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_on_gpadl_created(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_on_gpadl_torndown(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_on_offers_delivered(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_on_version_response(hv_vmbus_channel_msg_header* hdr); static void vmbus_channel_process_offer(void *context); -struct hv_vmbus_channel* - vmbus_select_outgoing_channel(struct hv_vmbus_channel *promary); /** * Channel message dispatch table */ hv_vmbus_channel_msg_table_entry g_channel_message_table[HV_CHANNEL_MESSAGE_COUNT] = { { HV_CHANNEL_MESSAGE_INVALID, NULL }, { HV_CHANNEL_MESSAGE_OFFER_CHANNEL, vmbus_channel_on_offer }, { HV_CHANNEL_MESSAGE_RESCIND_CHANNEL_OFFER, vmbus_channel_on_offer_rescind }, { HV_CHANNEL_MESSAGE_REQUEST_OFFERS, NULL }, { HV_CHANNEL_MESSAGE_ALL_OFFERS_DELIVERED, vmbus_channel_on_offers_delivered }, { HV_CHANNEL_MESSAGE_OPEN_CHANNEL, NULL }, { HV_CHANNEL_MESSAGE_OPEN_CHANNEL_RESULT, vmbus_channel_on_open_result }, { HV_CHANNEL_MESSAGE_CLOSE_CHANNEL, NULL }, { HV_CHANNEL_MESSAGEL_GPADL_HEADER, NULL }, { HV_CHANNEL_MESSAGE_GPADL_BODY, NULL }, { HV_CHANNEL_MESSAGE_GPADL_CREATED, vmbus_channel_on_gpadl_created }, { HV_CHANNEL_MESSAGE_GPADL_TEARDOWN, NULL }, { HV_CHANNEL_MESSAGE_GPADL_TORNDOWN, vmbus_channel_on_gpadl_torndown }, { HV_CHANNEL_MESSAGE_REL_ID_RELEASED, NULL }, { HV_CHANNEL_MESSAGE_INITIATED_CONTACT, NULL }, { HV_CHANNEL_MESSAGE_VERSION_RESPONSE, vmbus_channel_on_version_response }, { HV_CHANNEL_MESSAGE_UNLOAD, NULL } }; /** * Implementation of the work abstraction. */ static void work_item_callback(void *work, int pending) { struct hv_work_item *w = (struct hv_work_item *)work; /* * Serialize work execution. */ if (w->wq->work_sema != NULL) { sema_wait(w->wq->work_sema); } w->callback(w->context); if (w->wq->work_sema != NULL) { sema_post(w->wq->work_sema); } free(w, M_DEVBUF); } struct hv_work_queue* hv_work_queue_create(char* name) { static unsigned int qid = 0; char qname[64]; int pri; struct hv_work_queue* wq; wq = malloc(sizeof(struct hv_work_queue), M_DEVBUF, M_NOWAIT | M_ZERO); KASSERT(wq != NULL, ("Error VMBUS: Failed to allocate work_queue\n")); if (wq == NULL) return (NULL); /* * We use work abstraction to handle messages * coming from the host and these are typically offers. * Some FreeBsd drivers appear to have a concurrency issue * where probe/attach needs to be serialized. We ensure that * by having only one thread process work elements in a * specific queue by serializing work execution. * */ if (strcmp(name, "vmbusQ") == 0) { pri = PI_DISK; } else { /* control */ pri = PI_NET; /* * Initialize semaphore for this queue by pointing * to the globale semaphore used for synchronizing all * control messages. */ wq->work_sema = &hv_vmbus_g_connection.control_sema; } sprintf(qname, "hv_%s_%u", name, qid); /* * Fixme: FreeBSD 8.2 has a different prototype for * taskqueue_create(), and for certain other taskqueue functions. * We need to research the implications of these changes. * Fixme: Not sure when the changes were introduced. */ wq->queue = taskqueue_create(qname, M_NOWAIT, taskqueue_thread_enqueue, &wq->queue #if __FreeBSD_version < 800000 , &wq->proc #endif ); if (wq->queue == NULL) { free(wq, M_DEVBUF); return (NULL); } if (taskqueue_start_threads(&wq->queue, 1, pri, "%s taskq", qname)) { taskqueue_free(wq->queue); free(wq, M_DEVBUF); return (NULL); } qid++; return (wq); } void hv_work_queue_close(struct hv_work_queue *wq) { /* * KYS: Need to drain the taskqueue * before we close the hv_work_queue. */ /*KYS: taskqueue_drain(wq->tq, ); */ taskqueue_free(wq->queue); free(wq, M_DEVBUF); } /** * @brief Create work item */ int hv_queue_work_item( struct hv_work_queue *wq, void (*callback)(void *), void *context) { struct hv_work_item *w = malloc(sizeof(struct hv_work_item), M_DEVBUF, M_NOWAIT | M_ZERO); KASSERT(w != NULL, ("Error VMBUS: Failed to allocate WorkItem\n")); if (w == NULL) return (ENOMEM); w->callback = callback; w->context = context; w->wq = wq; TASK_INIT(&w->work, 0, work_item_callback, w); return (taskqueue_enqueue(wq->queue, &w->work)); } /** * @brief Rescind the offer by initiating a device removal */ static void vmbus_channel_process_rescind_offer(void *context) { hv_vmbus_channel* channel = (hv_vmbus_channel*) context; hv_vmbus_child_device_unregister(channel->device); } /** * @brief Allocate and initialize a vmbus channel object */ hv_vmbus_channel* hv_vmbus_allocate_channel(void) { hv_vmbus_channel* channel; channel = (hv_vmbus_channel*) malloc( sizeof(hv_vmbus_channel), M_DEVBUF, M_NOWAIT | M_ZERO); KASSERT(channel != NULL, ("Error VMBUS: Failed to allocate channel!")); if (channel == NULL) return (NULL); mtx_init(&channel->inbound_lock, "channel inbound", NULL, MTX_DEF); mtx_init(&channel->sc_lock, "vmbus multi channel", NULL, MTX_DEF); TAILQ_INIT(&channel->sc_list_anchor); channel->control_work_queue = hv_work_queue_create("control"); if (channel->control_work_queue == NULL) { mtx_destroy(&channel->inbound_lock); free(channel, M_DEVBUF); return (NULL); } return (channel); } /** * @brief Release the vmbus channel object itself */ static inline void ReleaseVmbusChannel(void *context) { hv_vmbus_channel* channel = (hv_vmbus_channel*) context; hv_work_queue_close(channel->control_work_queue); free(channel, M_DEVBUF); } /** * @brief Release the resources used by the vmbus channel object */ void hv_vmbus_free_vmbus_channel(hv_vmbus_channel* channel) { mtx_destroy(&channel->sc_lock); mtx_destroy(&channel->inbound_lock); /* * We have to release the channel's workqueue/thread in * the vmbus's workqueue/thread context * ie we can't destroy ourselves */ hv_queue_work_item(hv_vmbus_g_connection.work_queue, ReleaseVmbusChannel, (void *) channel); } /** * @brief Process the offer by creating a channel/device * associated with this offer */ static void vmbus_channel_process_offer(void *context) { hv_vmbus_channel* new_channel; boolean_t f_new; hv_vmbus_channel* channel; int ret; new_channel = (hv_vmbus_channel*) context; f_new = TRUE; channel = NULL; /* * Make sure this is a new offer */ mtx_lock(&hv_vmbus_g_connection.channel_lock); TAILQ_FOREACH(channel, &hv_vmbus_g_connection.channel_anchor, list_entry) { if (memcmp(&channel->offer_msg.offer.interface_type, &new_channel->offer_msg.offer.interface_type, sizeof(hv_guid)) == 0 && memcmp(&channel->offer_msg.offer.interface_instance, &new_channel->offer_msg.offer.interface_instance, sizeof(hv_guid)) == 0) { f_new = FALSE; break; } } if (f_new) { /* Insert at tail */ TAILQ_INSERT_TAIL( &hv_vmbus_g_connection.channel_anchor, new_channel, list_entry); } mtx_unlock(&hv_vmbus_g_connection.channel_lock); /*XXX add new channel to percpu_list */ if (!f_new) { /* * Check if this is a sub channel. */ if (new_channel->offer_msg.offer.sub_channel_index != 0) { /* * It is a sub channel offer, process it. */ new_channel->primary_channel = channel; mtx_lock(&channel->sc_lock); TAILQ_INSERT_TAIL( &channel->sc_list_anchor, new_channel, sc_list_entry); mtx_unlock(&channel->sc_lock); /* Insert new channel into channel_anchor. */ printf("Storvsc get multi-channel offer, rel=%u.\n", new_channel->offer_msg.child_rel_id); mtx_lock(&hv_vmbus_g_connection.channel_lock); TAILQ_INSERT_TAIL(&hv_vmbus_g_connection.channel_anchor, new_channel, list_entry); mtx_unlock(&hv_vmbus_g_connection.channel_lock); if(bootverbose) printf("VMBUS: new multi-channel offer <%p>.\n", new_channel); /*XXX add it to percpu_list */ new_channel->state = HV_CHANNEL_OPEN_STATE; if (channel->sc_creation_callback != NULL) { channel->sc_creation_callback(new_channel); } return; } hv_vmbus_free_vmbus_channel(new_channel); return; } new_channel->state = HV_CHANNEL_OPEN_STATE; /* * Start the process of binding this offer to the driver * (We need to set the device field before calling * hv_vmbus_child_device_add()) */ new_channel->device = hv_vmbus_child_device_create( new_channel->offer_msg.offer.interface_type, new_channel->offer_msg.offer.interface_instance, new_channel); /* * Add the new device to the bus. This will kick off device-driver * binding which eventually invokes the device driver's AddDevice() * method. */ ret = hv_vmbus_child_device_register(new_channel->device); if (ret != 0) { mtx_lock(&hv_vmbus_g_connection.channel_lock); TAILQ_REMOVE( &hv_vmbus_g_connection.channel_anchor, new_channel, list_entry); mtx_unlock(&hv_vmbus_g_connection.channel_lock); hv_vmbus_free_vmbus_channel(new_channel); } } /** * Array of device guids that are performance critical. We try to distribute * the interrupt load for these devices across all online cpus. */ static const hv_guid high_perf_devices[] = { {HV_NIC_GUID, }, {HV_IDE_GUID, }, {HV_SCSI_GUID, }, }; enum { PERF_CHN_NIC = 0, PERF_CHN_IDE, PERF_CHN_SCSI, MAX_PERF_CHN, }; /* * We use this static number to distribute the channel interrupt load. */ static uint32_t next_vcpu; /** * Starting with Win8, we can statically distribute the incoming * channel interrupt load by binding a channel to VCPU. We * implement here a simple round robin scheme for distributing * the interrupt load. * We will bind channels that are not performance critical to cpu 0 and * performance critical channels (IDE, SCSI and Network) will be uniformly * distributed across all available CPUs. */ static void vmbus_channel_select_cpu(hv_vmbus_channel *channel, hv_guid *guid) { uint32_t current_cpu; int i; boolean_t is_perf_channel = FALSE; for (i = PERF_CHN_NIC; i < MAX_PERF_CHN; i++) { if (memcmp(guid->data, high_perf_devices[i].data, sizeof(hv_guid)) == 0) { is_perf_channel = TRUE; break; } } if ((hv_vmbus_protocal_version == HV_VMBUS_VERSION_WS2008) || (hv_vmbus_protocal_version == HV_VMBUS_VERSION_WIN7) || (!is_perf_channel)) { /* Host's view of guest cpu */ channel->target_vcpu = 0; /* Guest's own view of cpu */ channel->target_cpu = 0; return; } /* mp_ncpus should have the number cpus currently online */ current_cpu = (++next_vcpu % mp_ncpus); channel->target_cpu = current_cpu; channel->target_vcpu = hv_vmbus_g_context.hv_vcpu_index[current_cpu]; if (bootverbose) printf("VMBUS: Total online cpus %d, assign perf channel %d " "to vcpu %d, cpu %d\n", mp_ncpus, i, channel->target_vcpu, current_cpu); } /** * @brief Handler for channel offers from Hyper-V/Azure * * Handler for channel offers from vmbus in parent partition. We ignore * all offers except network and storage offers. For each network and storage * offers, we create a channel object and queue a work item to the channel * object to process the offer synchronously */ static void vmbus_channel_on_offer(hv_vmbus_channel_msg_header* hdr) { hv_vmbus_channel_offer_channel* offer; hv_vmbus_channel* new_channel; offer = (hv_vmbus_channel_offer_channel*) hdr; hv_guid *guidType; hv_guid *guidInstance; guidType = &offer->offer.interface_type; guidInstance = &offer->offer.interface_instance; /* Allocate the channel object and save this offer */ new_channel = hv_vmbus_allocate_channel(); if (new_channel == NULL) return; /* * By default we setup state to enable batched * reading. A specific service can choose to * disable this prior to opening the channel. */ new_channel->batched_reading = TRUE; new_channel->signal_event_param = (hv_vmbus_input_signal_event *) (HV_ALIGN_UP((unsigned long) &new_channel->signal_event_buffer, HV_HYPERCALL_PARAM_ALIGN)); new_channel->signal_event_param->connection_id.as_uint32_t = 0; new_channel->signal_event_param->connection_id.u.id = HV_VMBUS_EVENT_CONNECTION_ID; new_channel->signal_event_param->flag_number = 0; new_channel->signal_event_param->rsvd_z = 0; if (hv_vmbus_protocal_version != HV_VMBUS_VERSION_WS2008) { new_channel->is_dedicated_interrupt = (offer->is_dedicated_interrupt != 0); new_channel->signal_event_param->connection_id.u.id = offer->connection_id; } /* * Bind the channel to a chosen cpu. */ vmbus_channel_select_cpu(new_channel, &offer->offer.interface_type); memcpy(&new_channel->offer_msg, offer, sizeof(hv_vmbus_channel_offer_channel)); new_channel->monitor_group = (uint8_t) offer->monitor_id / 32; new_channel->monitor_bit = (uint8_t) offer->monitor_id % 32; /* TODO: Make sure the offer comes from our parent partition */ hv_queue_work_item( new_channel->control_work_queue, vmbus_channel_process_offer, new_channel); } /** * @brief Rescind offer handler. * * We queue a work item to process this offer * synchronously */ static void vmbus_channel_on_offer_rescind(hv_vmbus_channel_msg_header* hdr) { hv_vmbus_channel_rescind_offer* rescind; hv_vmbus_channel* channel; rescind = (hv_vmbus_channel_rescind_offer*) hdr; channel = hv_vmbus_get_channel_from_rel_id(rescind->child_rel_id); if (channel == NULL) return; hv_queue_work_item(channel->control_work_queue, vmbus_channel_process_rescind_offer, channel); } /** * * @brief Invoked when all offers have been delivered. */ static void vmbus_channel_on_offers_delivered(hv_vmbus_channel_msg_header* hdr) { } /** * @brief Open result handler. * * This is invoked when we received a response * to our channel open request. Find the matching request, copy the * response and signal the requesting thread. */ static void vmbus_channel_on_open_result(hv_vmbus_channel_msg_header* hdr) { hv_vmbus_channel_open_result* result; hv_vmbus_channel_msg_info* msg_info; hv_vmbus_channel_msg_header* requestHeader; hv_vmbus_channel_open_channel* openMsg; result = (hv_vmbus_channel_open_result*) hdr; /* * Find the open msg, copy the result and signal/unblock the wait event */ mtx_lock_spin(&hv_vmbus_g_connection.channel_msg_lock); TAILQ_FOREACH(msg_info, &hv_vmbus_g_connection.channel_msg_anchor, msg_list_entry) { requestHeader = (hv_vmbus_channel_msg_header*) msg_info->msg; if (requestHeader->message_type == HV_CHANNEL_MESSAGE_OPEN_CHANNEL) { openMsg = (hv_vmbus_channel_open_channel*) msg_info->msg; if (openMsg->child_rel_id == result->child_rel_id && openMsg->open_id == result->open_id) { memcpy(&msg_info->response.open_result, result, sizeof(hv_vmbus_channel_open_result)); sema_post(&msg_info->wait_sema); break; } } } mtx_unlock_spin(&hv_vmbus_g_connection.channel_msg_lock); } /** * @brief GPADL created handler. * * This is invoked when we received a response * to our gpadl create request. Find the matching request, copy the * response and signal the requesting thread. */ static void vmbus_channel_on_gpadl_created(hv_vmbus_channel_msg_header* hdr) { hv_vmbus_channel_gpadl_created* gpadl_created; hv_vmbus_channel_msg_info* msg_info; hv_vmbus_channel_msg_header* request_header; hv_vmbus_channel_gpadl_header* gpadl_header; gpadl_created = (hv_vmbus_channel_gpadl_created*) hdr; /* Find the establish msg, copy the result and signal/unblock * the wait event */ mtx_lock_spin(&hv_vmbus_g_connection.channel_msg_lock); TAILQ_FOREACH(msg_info, &hv_vmbus_g_connection.channel_msg_anchor, msg_list_entry) { request_header = (hv_vmbus_channel_msg_header*) msg_info->msg; if (request_header->message_type == HV_CHANNEL_MESSAGEL_GPADL_HEADER) { gpadl_header = (hv_vmbus_channel_gpadl_header*) request_header; if ((gpadl_created->child_rel_id == gpadl_header->child_rel_id) && (gpadl_created->gpadl == gpadl_header->gpadl)) { memcpy(&msg_info->response.gpadl_created, gpadl_created, sizeof(hv_vmbus_channel_gpadl_created)); sema_post(&msg_info->wait_sema); break; } } } mtx_unlock_spin(&hv_vmbus_g_connection.channel_msg_lock); } /** * @brief GPADL torndown handler. * * This is invoked when we received a respons * to our gpadl teardown request. Find the matching request, copy the * response and signal the requesting thread */ static void vmbus_channel_on_gpadl_torndown(hv_vmbus_channel_msg_header* hdr) { hv_vmbus_channel_gpadl_torndown* gpadl_torndown; hv_vmbus_channel_msg_info* msg_info; hv_vmbus_channel_msg_header* requestHeader; hv_vmbus_channel_gpadl_teardown* gpadlTeardown; gpadl_torndown = (hv_vmbus_channel_gpadl_torndown*)hdr; /* * Find the open msg, copy the result and signal/unblock the * wait event. */ mtx_lock_spin(&hv_vmbus_g_connection.channel_msg_lock); TAILQ_FOREACH(msg_info, &hv_vmbus_g_connection.channel_msg_anchor, msg_list_entry) { requestHeader = (hv_vmbus_channel_msg_header*) msg_info->msg; if (requestHeader->message_type == HV_CHANNEL_MESSAGE_GPADL_TEARDOWN) { gpadlTeardown = (hv_vmbus_channel_gpadl_teardown*) requestHeader; if (gpadl_torndown->gpadl == gpadlTeardown->gpadl) { memcpy(&msg_info->response.gpadl_torndown, gpadl_torndown, sizeof(hv_vmbus_channel_gpadl_torndown)); sema_post(&msg_info->wait_sema); break; } } } mtx_unlock_spin(&hv_vmbus_g_connection.channel_msg_lock); } /** * @brief Version response handler. * * This is invoked when we received a response * to our initiate contact request. Find the matching request, copy th * response and signal the requesting thread. */ static void vmbus_channel_on_version_response(hv_vmbus_channel_msg_header* hdr) { hv_vmbus_channel_msg_info* msg_info; hv_vmbus_channel_msg_header* requestHeader; hv_vmbus_channel_initiate_contact* initiate; hv_vmbus_channel_version_response* versionResponse; versionResponse = (hv_vmbus_channel_version_response*)hdr; mtx_lock_spin(&hv_vmbus_g_connection.channel_msg_lock); TAILQ_FOREACH(msg_info, &hv_vmbus_g_connection.channel_msg_anchor, msg_list_entry) { requestHeader = (hv_vmbus_channel_msg_header*) msg_info->msg; if (requestHeader->message_type == HV_CHANNEL_MESSAGE_INITIATED_CONTACT) { initiate = (hv_vmbus_channel_initiate_contact*) requestHeader; memcpy(&msg_info->response.version_response, versionResponse, sizeof(hv_vmbus_channel_version_response)); sema_post(&msg_info->wait_sema); } } mtx_unlock_spin(&hv_vmbus_g_connection.channel_msg_lock); } /** * @brief Handler for channel protocol messages. * * This is invoked in the vmbus worker thread context. */ void hv_vmbus_on_channel_message(void *context) { hv_vmbus_message* msg; hv_vmbus_channel_msg_header* hdr; int size; msg = (hv_vmbus_message*) context; hdr = (hv_vmbus_channel_msg_header*) msg->u.payload; size = msg->header.payload_size; if (hdr->message_type >= HV_CHANNEL_MESSAGE_COUNT) { free(msg, M_DEVBUF); return; } if (g_channel_message_table[hdr->message_type].messageHandler) { g_channel_message_table[hdr->message_type].messageHandler(hdr); } /* Free the msg that was allocated in VmbusOnMsgDPC() */ free(msg, M_DEVBUF); } /** * @brief Send a request to get all our pending offers. */ int hv_vmbus_request_channel_offers(void) { int ret; hv_vmbus_channel_msg_header* msg; hv_vmbus_channel_msg_info* msg_info; msg_info = (hv_vmbus_channel_msg_info *) malloc(sizeof(hv_vmbus_channel_msg_info) + sizeof(hv_vmbus_channel_msg_header), M_DEVBUF, M_NOWAIT); if (msg_info == NULL) { if(bootverbose) printf("Error VMBUS: malloc failed for Request Offers\n"); return (ENOMEM); } msg = (hv_vmbus_channel_msg_header*) msg_info->msg; msg->message_type = HV_CHANNEL_MESSAGE_REQUEST_OFFERS; ret = hv_vmbus_post_message(msg, sizeof(hv_vmbus_channel_msg_header)); if (msg_info) free(msg_info, M_DEVBUF); return (ret); } /** * @brief Release channels that are unattached/unconnected (i.e., no drivers associated) */ void hv_vmbus_release_unattached_channels(void) { hv_vmbus_channel *channel; mtx_lock(&hv_vmbus_g_connection.channel_lock); while (!TAILQ_EMPTY(&hv_vmbus_g_connection.channel_anchor)) { channel = TAILQ_FIRST(&hv_vmbus_g_connection.channel_anchor); TAILQ_REMOVE(&hv_vmbus_g_connection.channel_anchor, channel, list_entry); hv_vmbus_child_device_unregister(channel->device); hv_vmbus_free_vmbus_channel(channel); } mtx_unlock(&hv_vmbus_g_connection.channel_lock); } /** * @brief Select the best outgoing channel * * The channel whose vcpu binding is closest to the currect vcpu will * be selected. * If no multi-channel, always select primary channel * * @param primary - primary channel */ struct hv_vmbus_channel * vmbus_select_outgoing_channel(struct hv_vmbus_channel *primary) { hv_vmbus_channel *new_channel = NULL; hv_vmbus_channel *outgoing_channel = primary; int old_cpu_distance = 0; int new_cpu_distance = 0; int cur_vcpu = 0; int smp_pro_id = PCPU_GET(cpuid); if (TAILQ_EMPTY(&primary->sc_list_anchor)) { return outgoing_channel; } if (smp_pro_id >= MAXCPU) { return outgoing_channel; } cur_vcpu = hv_vmbus_g_context.hv_vcpu_index[smp_pro_id]; TAILQ_FOREACH(new_channel, &primary->sc_list_anchor, sc_list_entry) { if (new_channel->state != HV_CHANNEL_OPENED_STATE){ continue; } if (new_channel->target_vcpu == cur_vcpu){ return new_channel; } old_cpu_distance = ((outgoing_channel->target_vcpu > cur_vcpu) ? (outgoing_channel->target_vcpu - cur_vcpu) : (cur_vcpu - outgoing_channel->target_vcpu)); new_cpu_distance = ((new_channel->target_vcpu > cur_vcpu) ? (new_channel->target_vcpu - cur_vcpu) : (cur_vcpu - new_channel->target_vcpu)); if (old_cpu_distance < new_cpu_distance) { continue; } outgoing_channel = new_channel; } return(outgoing_channel); } Index: stable/10 =================================================================== --- stable/10 (revision 292796) +++ stable/10 (revision 292797) Property changes on: stable/10 ___________________________________________________________________ Modified: svn:mergeinfo ## -0,0 +0,1 ## Merged /head:r292661