/* * Copyright (c) 2013-2016 The Linux Foundation. All rights reserved. * * Previously licensed under the ISC license by Qualcomm Atheros, Inc. * * * Permission to use, copy, modify, and/or distribute this software for * any purpose with or without fee is hereby granted, provided that the * above copyright notice and this permission notice appear in all * copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* * This file was originally distributed by Qualcomm Atheros, Inc. * under proprietary terms before Copyright ownership was assigned * to the Linux Foundation. */ #include "htc_debug.h" #include "htc_internal.h" #include #include /* qdf_nbuf_t */ #include /* qdf_print */ #if defined(WLAN_DEBUG) || defined(DEBUG) static ATH_DEBUG_MASK_DESCRIPTION g_htc_debug_description[] = { {ATH_DEBUG_SEND, "Send"}, {ATH_DEBUG_RECV, "Recv"}, {ATH_DEBUG_SYNC, "Sync"}, {ATH_DEBUG_DUMP, "Dump Data (RX or TX)"}, {ATH_DEBUG_SETUP, "Setup"}, }; ATH_DEBUG_INSTANTIATE_MODULE_VAR(htc, "htc", "Host Target Communications", ATH_DEBUG_MASK_DEFAULTS | ATH_DEBUG_INFO | ATH_DEBUG_SETUP, ATH_DEBUG_DESCRIPTION_COUNT (g_htc_debug_description), g_htc_debug_description); #endif extern unsigned int htc_credit_flow; static void reset_endpoint_states(HTC_TARGET *target); static void destroy_htc_tx_ctrl_packet(HTC_PACKET *pPacket) { qdf_nbuf_t netbuf; netbuf = (qdf_nbuf_t) GET_HTC_PACKET_NET_BUF_CONTEXT(pPacket); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("free ctrl netbuf :0x%p\n", netbuf)); if (netbuf != NULL) { qdf_nbuf_free(netbuf); } qdf_mem_free(pPacket); } static HTC_PACKET *build_htc_tx_ctrl_packet(qdf_device_t osdev) { HTC_PACKET *pPacket = NULL; qdf_nbuf_t netbuf; do { pPacket = (HTC_PACKET *) qdf_mem_malloc(sizeof(HTC_PACKET)); if (NULL == pPacket) { break; } qdf_mem_zero(pPacket, sizeof(HTC_PACKET)); netbuf = qdf_nbuf_alloc(osdev, HTC_CONTROL_BUFFER_SIZE, 20, 4, true); if (NULL == netbuf) { qdf_mem_free(pPacket); pPacket = NULL; qdf_print("%s: nbuf alloc failed\n", __func__); break; } AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("alloc ctrl netbuf :0x%p \n", netbuf)); SET_HTC_PACKET_NET_BUF_CONTEXT(pPacket, netbuf); } while (false); return pPacket; } void htc_free_control_tx_packet(HTC_TARGET *target, HTC_PACKET *pPacket) { #ifdef TODO_FIXME LOCK_HTC(target); HTC_PACKET_ENQUEUE(&target->ControlBufferTXFreeList, pPacket); UNLOCK_HTC(target); /* TODO_FIXME netbufs cannot be RESET! */ #else destroy_htc_tx_ctrl_packet(pPacket); #endif } HTC_PACKET *htc_alloc_control_tx_packet(HTC_TARGET *target) { #ifdef TODO_FIXME HTC_PACKET *pPacket; LOCK_HTC(target); pPacket = htc_packet_dequeue(&target->ControlBufferTXFreeList); UNLOCK_HTC(target); return pPacket; #else return build_htc_tx_ctrl_packet(target->osdev); #endif } /* Set the target failure handling callback */ void htc_set_target_failure_callback(HTC_HANDLE HTCHandle, HTC_TARGET_FAILURE Callback) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); target->HTCInitInfo.TargetFailure = Callback; } void htc_dump(HTC_HANDLE HTCHandle, uint8_t CmdId, bool start) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); hif_dump(target->hif_dev, CmdId, start); } /* cleanup the HTC instance */ static void htc_cleanup(HTC_TARGET *target) { HTC_PACKET *pPacket; /* qdf_nbuf_t netbuf; */ if (target->hif_dev != NULL) { hif_detach_htc(target->hif_dev); hif_mask_interrupt_call(target->hif_dev); target->hif_dev = NULL; } while (true) { pPacket = allocate_htc_packet_container(target); if (NULL == pPacket) { break; } qdf_mem_free(pPacket); } pPacket = target->pBundleFreeList; while (pPacket) { HTC_PACKET *pPacketTmp = (HTC_PACKET *) pPacket->ListLink.pNext; qdf_mem_free(pPacket); pPacket = pPacketTmp; } #ifdef TODO_FIXME while (true) { pPacket = htc_alloc_control_tx_packet(target); if (NULL == pPacket) { break; } netbuf = (qdf_nbuf_t) GET_HTC_PACKET_NET_BUF_CONTEXT(pPacket); if (netbuf != NULL) { qdf_nbuf_free(netbuf); } qdf_mem_free(pPacket); } #endif qdf_spinlock_destroy(&target->HTCLock); qdf_spinlock_destroy(&target->HTCRxLock); qdf_spinlock_destroy(&target->HTCTxLock); qdf_spinlock_destroy(&target->HTCCreditLock); /* free our instance */ qdf_mem_free(target); } #ifdef FEATURE_RUNTIME_PM /** * htc_runtime_pm_init(): runtime pm related intialization * * need to initialize a work item. */ static void htc_runtime_pm_init(HTC_TARGET *target) { qdf_create_work(0, &target->queue_kicker, htc_kick_queues, target); } /** * htc_runtime_suspend() - runtime suspend HTC * * @htc_ctx: HTC context pointer * * This is a dummy function for symmetry. * * Return: 0 for success */ int htc_runtime_suspend(HTC_HANDLE htc_ctx) { return 0; } /** * htc_runtime_resume(): resume htc * * The htc message queue needs to be kicked off after * a runtime resume. Otherwise messages would get stuck. * * @htc_ctx: HTC context pointer * * Return: 0 for success; */ int htc_runtime_resume(HTC_HANDLE htc_ctx) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_ctx); if (target == NULL) return 0; qdf_sched_work(0, &target->queue_kicker); return 0; } #else static inline void htc_runtime_pm_init(HTC_TARGET *target) { } #endif /* registered target arrival callback from the HIF layer */ HTC_HANDLE htc_create(void *ol_sc, HTC_INIT_INFO *pInfo, qdf_device_t osdev, uint32_t con_mode) { struct hif_msg_callbacks htcCallbacks; HTC_ENDPOINT *pEndpoint = NULL; HTC_TARGET *target = NULL; int i; if (ol_sc == NULL) { HTC_ERROR("%s: ol_sc = NULL", __func__); return NULL; } HTC_TRACE("+htc_create .. HIF :%p", ol_sc); A_REGISTER_MODULE_DEBUG_INFO(htc); target = (HTC_TARGET *) qdf_mem_malloc(sizeof(HTC_TARGET)); if (target == NULL) { HTC_ERROR("%s: Unable to allocate memory", __func__); return NULL; } qdf_mem_zero(target, sizeof(HTC_TARGET)); htc_runtime_pm_init(target); qdf_spinlock_create(&target->HTCLock); qdf_spinlock_create(&target->HTCRxLock); qdf_spinlock_create(&target->HTCTxLock); qdf_spinlock_create(&target->HTCCreditLock); do { qdf_mem_copy(&target->HTCInitInfo, pInfo, sizeof(HTC_INIT_INFO)); target->host_handle = pInfo->pContext; target->osdev = osdev; target->con_mode = con_mode; reset_endpoint_states(target); INIT_HTC_PACKET_QUEUE(&target->ControlBufferTXFreeList); for (i = 0; i < HTC_PACKET_CONTAINER_ALLOCATION; i++) { HTC_PACKET *pPacket = (HTC_PACKET *) qdf_mem_malloc(sizeof(HTC_PACKET)); if (pPacket != NULL) { qdf_mem_zero(pPacket, sizeof(HTC_PACKET)); free_htc_packet_container(target, pPacket); } } #ifdef TODO_FIXME for (i = 0; i < NUM_CONTROL_TX_BUFFERS; i++) { pPacket = build_htc_tx_ctrl_packet(); if (NULL == pPacket) { break; } htc_free_control_tx_packet(target, pPacket); } #endif /* setup HIF layer callbacks */ qdf_mem_zero(&htcCallbacks, sizeof(struct hif_msg_callbacks)); htcCallbacks.Context = target; htcCallbacks.rxCompletionHandler = htc_rx_completion_handler; htcCallbacks.txCompletionHandler = htc_tx_completion_handler; htcCallbacks.txResourceAvailHandler = htc_tx_resource_avail_handler; htcCallbacks.fwEventHandler = htc_fw_event_handler; target->hif_dev = ol_sc; /* Get HIF default pipe for HTC message exchange */ pEndpoint = &target->endpoint[ENDPOINT_0]; hif_post_init(target->hif_dev, target, &htcCallbacks); hif_get_default_pipe(target->hif_dev, &pEndpoint->UL_PipeID, &pEndpoint->DL_PipeID); } while (false); htc_recv_init(target); HTC_TRACE("-htc_create: (0x%p)", target); return (HTC_HANDLE) target; } void htc_destroy(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("+htc_destroy .. Destroying :0x%p\n", target)); hif_stop(htc_get_hif_device(HTCHandle)); if (target) htc_cleanup(target); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("-htc_destroy\n")); } /* get the low level HIF device for the caller , the caller may wish to do low level * HIF requests */ void *htc_get_hif_device(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); return target->hif_dev; } void htc_control_tx_complete(void *Context, HTC_PACKET *pPacket) { HTC_TARGET *target = (HTC_TARGET *) Context; AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("+-htc_control_tx_complete 0x%p (l:%d) \n", pPacket, pPacket->ActualLength)); htc_free_control_tx_packet(target, pPacket); } /* TODO, this is just a temporary max packet size */ #define MAX_MESSAGE_SIZE 1536 /** * htc_setup_epping_credit_allocation() - allocate credits/HTC buffers to WMI * @scn: pointer to hif_opaque_softc * @pEntry: pointer to tx credit allocation entry * @credits: number of credits * * Return: None */ static void htc_setup_epping_credit_allocation(struct hif_opaque_softc *scn, HTC_SERVICE_TX_CREDIT_ALLOCATION *pEntry, int credits) { switch (hif_get_bus_type(scn)) { case QDF_BUS_TYPE_PCI: pEntry++; pEntry->service_id = WMI_DATA_BE_SVC; pEntry->CreditAllocation = (credits >> 1); pEntry++; pEntry->service_id = WMI_DATA_BK_SVC; pEntry->CreditAllocation = (credits >> 1); break; case QDF_BUS_TYPE_SDIO: pEntry++; pEntry->service_id = WMI_DATA_BE_SVC; pEntry->CreditAllocation = credits; break; default: break; } return; } /** * htc_setup_target_buffer_assignments() - setup target buffer assignments * @target: HTC Target Pointer * * Return: A_STATUS */ A_STATUS htc_setup_target_buffer_assignments(HTC_TARGET *target) { HTC_SERVICE_TX_CREDIT_ALLOCATION *pEntry; A_STATUS status; int credits; int creditsPerMaxMsg; creditsPerMaxMsg = MAX_MESSAGE_SIZE / target->TargetCreditSize; if (MAX_MESSAGE_SIZE % target->TargetCreditSize) { creditsPerMaxMsg++; } /* TODO, this should be configured by the caller! */ credits = target->TotalTransmitCredits; pEntry = &target->ServiceTxAllocTable[0]; /* * Allocate all credists/HTC buffers to WMI. * no buffers are used/required for data. data always * remains on host. */ status = A_OK; pEntry++; pEntry->service_id = WMI_CONTROL_SVC; pEntry->CreditAllocation = credits; if (HTC_IS_EPPING_ENABLED(target->con_mode)) { /* endpoint ping is a testing tool directly on top of HTC in * both target and host sides. * In target side, the endppint ping fw has no wlan stack and the * FW mboxping app directly sits on HTC and it simply drops * or loops back TX packets. For rx perf, FW mboxping app * generates packets and passes packets to HTC to send to host. * There is no WMI mesage exchanges between host and target * in endpoint ping case. * In host side, the endpoint ping driver is a Ethernet driver * and it directly sits on HTC. Only HIF, HTC, QDF, ADF are * used by the endpoint ping driver. There is no wifi stack * at all in host side also. For tx perf use case, * the user space mboxping app sends the raw packets to endpoint * ping driver and it directly forwards to HTC for transmission * to stress the bus. For the rx perf, HTC passes the received * packets to endpoint ping driver and it is passed to the user * space through the Ethernet interface. * For credit allocation, in SDIO bus case, only BE service is * used for tx/rx perf testing so that all credits are given * to BE service. In PCIe and USB bus case, endpoint ping uses both * BE and BK services to stress the bus so that the total credits * are equally distributed to BE and BK services. */ htc_setup_epping_credit_allocation(target->hif_dev, pEntry, credits); } if (A_SUCCESS(status)) { int i; for (i = 0; i < HTC_MAX_SERVICE_ALLOC_ENTRIES; i++) { if (target->ServiceTxAllocTable[i].service_id != 0) { AR_DEBUG_PRINTF(ATH_DEBUG_INIT, ("HTC Service Index : %d TX : 0x%2.2X : alloc:%d\n", i, target->ServiceTxAllocTable[i]. service_id, target->ServiceTxAllocTable[i]. CreditAllocation)); } } } return status; } uint8_t htc_get_credit_allocation(HTC_TARGET *target, uint16_t service_id) { uint8_t allocation = 0; int i; for (i = 0; i < HTC_MAX_SERVICE_ALLOC_ENTRIES; i++) { if (target->ServiceTxAllocTable[i].service_id == service_id) { allocation = target->ServiceTxAllocTable[i].CreditAllocation; } } if (0 == allocation) { AR_DEBUG_PRINTF(ATH_DEBUG_INIT, ("HTC Service TX : 0x%2.2X : allocation is zero!\n", service_id)); } return allocation; } A_STATUS htc_wait_target(HTC_HANDLE HTCHandle) { A_STATUS status = A_OK; HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); HTC_READY_EX_MSG *pReadyMsg; HTC_SERVICE_CONNECT_REQ connect; HTC_SERVICE_CONNECT_RESP resp; HTC_READY_MSG *rdy_msg; uint16_t htc_rdy_msg_id; AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("htc_wait_target - Enter (target:0x%p) \n", HTCHandle)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("+HWT\n")); do { status = hif_start(target->hif_dev); if (A_FAILED(status)) { AR_DEBUG_PRINTF(ATH_DEBUG_ERROR, ("hif_start failed\n")); break; } status = htc_wait_recv_ctrl_message(target); if (A_FAILED(status)) { break; } if (target->CtrlResponseLength < (sizeof(HTC_READY_EX_MSG))) { AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Invalid HTC Ready Msg Len:%d! \n", target->CtrlResponseLength)); status = A_ECOMM; break; } pReadyMsg = (HTC_READY_EX_MSG *) target->CtrlResponseBuffer; rdy_msg = &pReadyMsg->Version2_0_Info; htc_rdy_msg_id = HTC_GET_FIELD(rdy_msg, HTC_READY_MSG, MESSAGEID); if (htc_rdy_msg_id != HTC_MSG_READY_ID) { AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Invalid HTC Ready Msg : 0x%X ! \n", htc_rdy_msg_id)); status = A_ECOMM; break; } target->TotalTransmitCredits = HTC_GET_FIELD(rdy_msg, HTC_READY_MSG, CREDITCOUNT); target->TargetCreditSize = (int)HTC_GET_FIELD(rdy_msg, HTC_READY_MSG, CREDITSIZE); target->MaxMsgsPerHTCBundle = (uint8_t) pReadyMsg->MaxMsgsPerHTCBundle; /* for old fw this value is set to 0. But the minimum value should be 1, * i.e., no bundling */ if (target->MaxMsgsPerHTCBundle < 1) target->MaxMsgsPerHTCBundle = 1; AR_DEBUG_PRINTF(ATH_DEBUG_INIT, ("Target Ready! : transmit resources : %d size:%d, MaxMsgsPerHTCBundle = %d\n", target->TotalTransmitCredits, target->TargetCreditSize, target->MaxMsgsPerHTCBundle)); if ((0 == target->TotalTransmitCredits) || (0 == target->TargetCreditSize)) { status = A_ECOMM; break; } /* done processing */ target->CtrlResponseProcessing = false; htc_setup_target_buffer_assignments(target); /* setup our pseudo HTC control endpoint connection */ qdf_mem_zero(&connect, sizeof(connect)); qdf_mem_zero(&resp, sizeof(resp)); connect.EpCallbacks.pContext = target; connect.EpCallbacks.EpTxComplete = htc_control_tx_complete; connect.EpCallbacks.EpRecv = htc_control_rx_complete; connect.MaxSendQueueDepth = NUM_CONTROL_TX_BUFFERS; connect.service_id = HTC_CTRL_RSVD_SVC; /* connect fake service */ status = htc_connect_service((HTC_HANDLE) target, &connect, &resp); } while (false); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("htc_wait_target - Exit (%d)\n", status)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("-HWT\n")); return status; } /* start HTC, this is called after all services are connected */ static A_STATUS htc_config_target_hif_pipe(HTC_TARGET *target) { return A_OK; } static void reset_endpoint_states(HTC_TARGET *target) { HTC_ENDPOINT *pEndpoint; int i; for (i = ENDPOINT_0; i < ENDPOINT_MAX; i++) { pEndpoint = &target->endpoint[i]; pEndpoint->service_id = 0; pEndpoint->MaxMsgLength = 0; pEndpoint->MaxTxQueueDepth = 0; pEndpoint->Id = i; INIT_HTC_PACKET_QUEUE(&pEndpoint->TxQueue); INIT_HTC_PACKET_QUEUE(&pEndpoint->TxLookupQueue); INIT_HTC_PACKET_QUEUE(&pEndpoint->RxBufferHoldQueue); pEndpoint->target = target; pEndpoint->TxCreditFlowEnabled = (bool)htc_credit_flow; qdf_atomic_init(&pEndpoint->TxProcessCount); } } /** * htc_start() - Main HTC function to trigger HTC start * @HTCHandle: pointer to HTC handle * * Return: A_OK for success or an appropriate A_STATUS error */ A_STATUS htc_start(HTC_HANDLE HTCHandle) { qdf_nbuf_t netbuf; A_STATUS status = A_OK; HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); HTC_SETUP_COMPLETE_EX_MSG *pSetupComp; HTC_PACKET *pSendPacket; AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("htc_start Enter\n")); do { htc_config_target_hif_pipe(target); /* allocate a buffer to send */ pSendPacket = htc_alloc_control_tx_packet(target); if (NULL == pSendPacket) { AR_DEBUG_ASSERT(false); qdf_print("%s: allocControlTxPacket failed\n", __func__); status = A_NO_MEMORY; break; } netbuf = (qdf_nbuf_t) GET_HTC_PACKET_NET_BUF_CONTEXT(pSendPacket); /* assemble setup complete message */ qdf_nbuf_put_tail(netbuf, sizeof(HTC_SETUP_COMPLETE_EX_MSG)); pSetupComp = (HTC_SETUP_COMPLETE_EX_MSG *) qdf_nbuf_data(netbuf); qdf_mem_zero(pSetupComp, sizeof(HTC_SETUP_COMPLETE_EX_MSG)); HTC_SET_FIELD(pSetupComp, HTC_SETUP_COMPLETE_EX_MSG, MESSAGEID, HTC_MSG_SETUP_COMPLETE_EX_ID); if (!htc_credit_flow) { AR_DEBUG_PRINTF(ATH_DEBUG_INIT, ("HTC will not use TX credit flow control\n")); pSetupComp->SetupFlags |= HTC_SETUP_COMPLETE_FLAGS_DISABLE_TX_CREDIT_FLOW; } else { AR_DEBUG_PRINTF(ATH_DEBUG_INIT, ("HTC using TX credit flow control\n")); } if ((hif_get_bus_type(target->hif_dev) == QDF_BUS_TYPE_SDIO) || (hif_get_bus_type(target->hif_dev) == QDF_BUS_TYPE_USB)) { if (HTC_RX_BUNDLE_ENABLED(target)) pSetupComp->SetupFlags |= HTC_SETUP_COMPLETE_FLAGS_ENABLE_BUNDLE_RECV; hif_set_bundle_mode(target->hif_dev, true, HTC_MAX_MSG_PER_BUNDLE_RX); } SET_HTC_PACKET_INFO_TX(pSendPacket, NULL, (uint8_t *) pSetupComp, sizeof(HTC_SETUP_COMPLETE_EX_MSG), ENDPOINT_0, HTC_SERVICE_TX_PACKET_TAG); status = htc_send_pkt((HTC_HANDLE) target, pSendPacket); if (A_FAILED(status)) { break; } } while (false); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("htc_start Exit\n")); return status; } /*flush all queued buffers for surpriseremove case*/ void htc_flush_surprise_remove(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); int i; HTC_ENDPOINT *pEndpoint; #ifdef RX_SG_SUPPORT qdf_nbuf_t netbuf; qdf_nbuf_queue_t *rx_sg_queue = &target->RxSgQueue; #endif AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("+htc_flush_surprise_remove\n")); /* cleanup endpoints */ for (i = 0; i < ENDPOINT_MAX; i++) { pEndpoint = &target->endpoint[i]; htc_flush_rx_hold_queue(target, pEndpoint); htc_flush_endpoint_tx(target, pEndpoint, HTC_TX_PACKET_TAG_ALL); } hif_flush_surprise_remove(target->hif_dev); #ifdef RX_SG_SUPPORT LOCK_HTC_RX(target); while ((netbuf = qdf_nbuf_queue_remove(rx_sg_queue)) != NULL) qdf_nbuf_free(netbuf); RESET_RX_SG_CONFIG(target); UNLOCK_HTC_RX(target); #endif reset_endpoint_states(target); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("-htc_flush_surprise_remove \n")); } /* stop HTC communications, i.e. stop interrupt reception, and flush all queued buffers */ void htc_stop(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); int i; HTC_ENDPOINT *pEndpoint; #ifdef RX_SG_SUPPORT qdf_nbuf_t netbuf; qdf_nbuf_queue_t *rx_sg_queue = &target->RxSgQueue; #endif AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("+htc_stop\n")); /* cleanup endpoints */ for (i = 0; i < ENDPOINT_MAX; i++) { pEndpoint = &target->endpoint[i]; htc_flush_rx_hold_queue(target, pEndpoint); htc_flush_endpoint_tx(target, pEndpoint, HTC_TX_PACKET_TAG_ALL); if (pEndpoint->ul_is_polled) { qdf_timer_stop(&pEndpoint->ul_poll_timer); qdf_timer_free(&pEndpoint->ul_poll_timer); } } /* Note: htc_flush_endpoint_tx for all endpoints should be called before * hif_stop - otherwise htc_tx_completion_handler called from * hif_send_buffer_cleanup_on_pipe for residual tx frames in HIF layer, * might queue the packet again to HIF Layer - which could cause tx * buffer leak */ hif_stop(target->hif_dev); #ifdef RX_SG_SUPPORT LOCK_HTC_RX(target); while ((netbuf = qdf_nbuf_queue_remove(rx_sg_queue)) != NULL) qdf_nbuf_free(netbuf); RESET_RX_SG_CONFIG(target); UNLOCK_HTC_RX(target); #endif reset_endpoint_states(target); AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("-htc_stop\n")); } void htc_dump_credit_states(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); HTC_ENDPOINT *pEndpoint; int i; for (i = 0; i < ENDPOINT_MAX; i++) { pEndpoint = &target->endpoint[i]; if (0 == pEndpoint->service_id) continue; AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("--- EP : %d service_id: 0x%X --------------\n", pEndpoint->Id, pEndpoint->service_id)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, (" TxCredits : %d\n", pEndpoint->TxCredits)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, (" TxCreditSize : %d\n", pEndpoint->TxCreditSize)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, (" TxCreditsPerMaxMsg : %d\n", pEndpoint->TxCreditsPerMaxMsg)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, (" TxQueueDepth : %d\n", HTC_PACKET_QUEUE_DEPTH(&pEndpoint->TxQueue))); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("----------------------------------------------------\n")); } } bool htc_get_endpoint_statistics(HTC_HANDLE HTCHandle, HTC_ENDPOINT_ID Endpoint, HTC_ENDPOINT_STAT_ACTION Action, HTC_ENDPOINT_STATS *pStats) { #ifdef HTC_EP_STAT_PROFILING HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); bool clearStats = false; bool sample = false; switch (Action) { case HTC_EP_STAT_SAMPLE: sample = true; break; case HTC_EP_STAT_SAMPLE_AND_CLEAR: sample = true; clearStats = true; break; case HTC_EP_STAT_CLEAR: clearStats = true; break; default: break; } A_ASSERT(Endpoint < ENDPOINT_MAX); /* lock out TX and RX while we sample and/or clear */ LOCK_HTC_TX(target); LOCK_HTC_RX(target); if (sample) { A_ASSERT(pStats != NULL); /* return the stats to the caller */ qdf_mem_copy(pStats, &target->endpoint[Endpoint].endpoint_stats, sizeof(HTC_ENDPOINT_STATS)); } if (clearStats) { /* reset stats */ qdf_mem_zero(&target->endpoint[Endpoint].endpoint_stats, sizeof(HTC_ENDPOINT_STATS)); } UNLOCK_HTC_RX(target); UNLOCK_HTC_TX(target); return true; #else return false; #endif } void *htc_get_targetdef(HTC_HANDLE htc_handle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); return hif_get_targetdef(target->hif_dev); } #ifdef IPA_OFFLOAD /** * htc_ipa_get_ce_resource() - get uc resource on lower layer * @htc_handle: htc context * @ce_sr_base_paddr: copyengine source ring base physical address * @ce_sr_ring_size: copyengine source ring size * @ce_reg_paddr: copyengine register physical address * * Return: None */ void htc_ipa_get_ce_resource(HTC_HANDLE htc_handle, qdf_dma_addr_t *ce_sr_base_paddr, uint32_t *ce_sr_ring_size, qdf_dma_addr_t *ce_reg_paddr) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); if (target->hif_dev != NULL) { hif_ipa_get_ce_resource(target->hif_dev, ce_sr_base_paddr, ce_sr_ring_size, ce_reg_paddr); } } #endif /* IPA_OFFLOAD */ #if defined(DEBUG_HL_LOGGING) && defined(CONFIG_HL_SUPPORT) void htc_dump_bundle_stats(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); int total, i; total = 0; for (i = 0; i < HTC_MAX_MSG_PER_BUNDLE_RX; i++) total += target->rx_bundle_stats[i]; if (total) { AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("RX Bundle stats:\n")); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("Total RX packets: %d\n", total)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ( "Number of bundle: Number of packets\n")); for (i = 0; i < HTC_MAX_MSG_PER_BUNDLE_RX; i++) AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("%10d:%10d(%2d%s)\n", (i+1), target->rx_bundle_stats[i], ((target->rx_bundle_stats[i]*100)/ total), "%")); } total = 0; for (i = 0; i < HTC_MAX_MSG_PER_BUNDLE_TX; i++) total += target->tx_bundle_stats[i]; if (total) { AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("TX Bundle stats:\n")); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("Total TX packets: %d\n", total)); AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("Number of bundle: Number of packets\n")); for (i = 0; i < HTC_MAX_MSG_PER_BUNDLE_TX; i++) AR_DEBUG_PRINTF(ATH_DEBUG_ANY, ("%10d:%10d(%2d%s)\n", (i+1), target->tx_bundle_stats[i], ((target->tx_bundle_stats[i]*100)/ total), "%")); } } void htc_clear_bundle_stats(HTC_HANDLE HTCHandle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(HTCHandle); qdf_mem_zero(&target->rx_bundle_stats, sizeof(target->rx_bundle_stats)); qdf_mem_zero(&target->tx_bundle_stats, sizeof(target->tx_bundle_stats)); } #endif /** * htc_vote_link_down - API to vote for link down * @htc_handle: HTC handle * * API for upper layers to call HIF to vote for link down * * Return: void */ void htc_vote_link_down(HTC_HANDLE htc_handle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); if (!target->hif_dev) return; hif_vote_link_down(target->hif_dev); } /** * htc_vote_link_up - API to vote for link up * @htc_handle: HTC Handle * * API for upper layers to call HIF to vote for link up * * Return: void */ void htc_vote_link_up(HTC_HANDLE htc_handle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); if (!target->hif_dev) return; hif_vote_link_up(target->hif_dev); } /** * htc_can_suspend_link - API to query HIF for link status * @htc_handle: HTC Handle * * API for upper layers to call HIF to query if the link can suspend * * Return: void */ bool htc_can_suspend_link(HTC_HANDLE htc_handle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); if (!target->hif_dev) return false; return hif_can_suspend_link(target->hif_dev); } #ifdef FEATURE_RUNTIME_PM int htc_pm_runtime_get(HTC_HANDLE htc_handle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); HTC_INFO("%s: %pS\n", __func__, (void *)_RET_IP_); return hif_pm_runtime_get(target->hif_dev); } int htc_pm_runtime_put(HTC_HANDLE htc_handle) { HTC_TARGET *target = GET_HTC_TARGET_FROM_HANDLE(htc_handle); HTC_INFO("%s: %pS\n", __func__, (void *)_RET_IP_); return hif_pm_runtime_put(target->hif_dev); } #endif