/* * Copyright (c) 2011, 2014-2019-2020 The Linux Foundation. All rights reserved. * Copyright (c) 2022 Qualcomm Innovation Center, Inc. All rights reserved. * * 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. */ /** * @file htt.c * @brief Provide functions to create+init and destroy a HTT instance. * @details * This file contains functions for creating a HTT instance; initializing * the HTT instance, e.g. by allocating a pool of HTT tx descriptors and * connecting the HTT service with HTC; and deleting a HTT instance. */ #include /* qdf_mem_malloc */ #include /* qdf_device_t, qdf_print */ #include /* htt_tx_msdu_desc_t */ #include #include /* ol_tx_dowload_done_ll, etc. */ #include #include #include #include #include "hif.h" #include #include #define HTT_HTC_PKT_POOL_INIT_SIZE 100 /* enough for a large A-MPDU */ QDF_STATUS(*htt_h2t_rx_ring_cfg_msg)(struct htt_pdev_t *pdev); QDF_STATUS(*htt_h2t_rx_ring_rfs_cfg_msg)(struct htt_pdev_t *pdev); #ifdef IPA_OFFLOAD static QDF_STATUS htt_ipa_config(htt_pdev_handle pdev, QDF_STATUS status) { if ((QDF_STATUS_SUCCESS == status) && ol_cfg_ipa_uc_offload_enabled(pdev->ctrl_pdev)) status = htt_h2t_ipa_uc_rsc_cfg_msg(pdev); return status; } #define HTT_IPA_CONFIG htt_ipa_config #else #define HTT_IPA_CONFIG(pdev, status) status /* no-op */ #endif /* IPA_OFFLOAD */ struct htt_htc_pkt *htt_htc_pkt_alloc(struct htt_pdev_t *pdev) { struct htt_htc_pkt_union *pkt = NULL; HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex); if (pdev->htt_htc_pkt_freelist) { pkt = pdev->htt_htc_pkt_freelist; pdev->htt_htc_pkt_freelist = pdev->htt_htc_pkt_freelist->u.next; } HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex); if (!pkt) pkt = qdf_mem_malloc(sizeof(*pkt)); if (!pkt) return NULL; htc_packet_set_magic_cookie(&(pkt->u.pkt.htc_pkt), 0); return &pkt->u.pkt; /* not actually a dereference */ } void htt_htc_pkt_free(struct htt_pdev_t *pdev, struct htt_htc_pkt *pkt) { struct htt_htc_pkt_union *u_pkt = (struct htt_htc_pkt_union *)pkt; if (!u_pkt) { qdf_print("HTC packet is NULL"); return; } HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex); htc_packet_set_magic_cookie(&(u_pkt->u.pkt.htc_pkt), 0); u_pkt->u.next = pdev->htt_htc_pkt_freelist; pdev->htt_htc_pkt_freelist = u_pkt; HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex); } void htt_htc_pkt_pool_free(struct htt_pdev_t *pdev) { struct htt_htc_pkt_union *pkt, *next; HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex); pkt = pdev->htt_htc_pkt_freelist; pdev->htt_htc_pkt_freelist = NULL; HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex); while (pkt) { next = pkt->u.next; qdf_mem_free(pkt); pkt = next; } } #ifdef ATH_11AC_TXCOMPACT void htt_htc_misc_pkt_list_trim(struct htt_pdev_t *pdev, int level) { struct htt_htc_pkt_union *pkt, *next, *prev = NULL; int i = 0; qdf_nbuf_t netbuf; HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex); pkt = pdev->htt_htc_pkt_misclist; while (pkt) { next = pkt->u.next; /* trim the out grown list*/ if (++i > level) { netbuf = (qdf_nbuf_t)(pkt->u.pkt.htc_pkt.pNetBufContext); qdf_nbuf_unmap(pdev->osdev, netbuf, QDF_DMA_TO_DEVICE); qdf_nbuf_free(netbuf); qdf_mem_free(pkt); pkt = NULL; if (prev) prev->u.next = NULL; } prev = pkt; pkt = next; } HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex); } void htt_htc_misc_pkt_list_add(struct htt_pdev_t *pdev, struct htt_htc_pkt *pkt) { struct htt_htc_pkt_union *u_pkt = (struct htt_htc_pkt_union *)pkt; int misclist_trim_level = htc_get_tx_queue_depth(pdev->htc_pdev, pkt->htc_pkt.Endpoint) + HTT_HTC_PKT_MISCLIST_SIZE; HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex); if (pdev->htt_htc_pkt_misclist) { u_pkt->u.next = pdev->htt_htc_pkt_misclist; pdev->htt_htc_pkt_misclist = u_pkt; } else { pdev->htt_htc_pkt_misclist = u_pkt; } HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex); /* only ce pipe size + tx_queue_depth could possibly be in use * free older packets in the msiclist */ htt_htc_misc_pkt_list_trim(pdev, misclist_trim_level); } void htt_htc_misc_pkt_pool_free(struct htt_pdev_t *pdev) { struct htt_htc_pkt_union *pkt, *next; qdf_nbuf_t netbuf; HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex); pkt = pdev->htt_htc_pkt_misclist; pdev->htt_htc_pkt_misclist = NULL; HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex); while (pkt) { next = pkt->u.next; if (htc_packet_get_magic_cookie(&(pkt->u.pkt.htc_pkt)) != HTC_PACKET_MAGIC_COOKIE) { QDF_ASSERT(0); pkt = next; continue; } netbuf = (qdf_nbuf_t) (pkt->u.pkt.htc_pkt.pNetBufContext); qdf_nbuf_unmap(pdev->osdev, netbuf, QDF_DMA_TO_DEVICE); qdf_nbuf_free(netbuf); qdf_mem_free(pkt); pkt = next; } } #endif /* AR6004 don't need HTT layer. */ #ifdef AR6004_HW #define NO_HTT_NEEDED true #else #define NO_HTT_NEEDED false #endif #if defined(QCA_TX_HTT2_SUPPORT) && defined(CONFIG_HL_SUPPORT) /** * htt_htc_tx_htt2_service_start() - Start TX HTT2 service * * @pdev: pointer to htt device. * @connect_req: pointer to service connection request information * @connect_resp: pointer to service connection response information * * * Return: None */ static void htt_htc_tx_htt2_service_start(struct htt_pdev_t *pdev, struct htc_service_connect_req *connect_req, struct htc_service_connect_resp *connect_resp) { QDF_STATUS status; qdf_mem_zero(connect_req, sizeof(struct htc_service_connect_req)); qdf_mem_zero(connect_resp, sizeof(struct htc_service_connect_resp)); /* The same as HTT service but no RX. */ connect_req->EpCallbacks.pContext = pdev; connect_req->EpCallbacks.EpTxComplete = htt_h2t_send_complete; connect_req->EpCallbacks.EpSendFull = htt_h2t_full; connect_req->MaxSendQueueDepth = HTT_MAX_SEND_QUEUE_DEPTH; /* Should NOT support credit flow control. */ connect_req->ConnectionFlags |= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL; /* Enable HTC schedule mechanism for TX HTT2 service. */ connect_req->ConnectionFlags |= HTC_CONNECT_FLAGS_ENABLE_HTC_SCHEDULE; connect_req->service_id = HTT_DATA2_MSG_SVC; status = htc_connect_service(pdev->htc_pdev, connect_req, connect_resp); if (status != QDF_STATUS_SUCCESS) { pdev->htc_tx_htt2_endpoint = ENDPOINT_UNUSED; pdev->htc_tx_htt2_max_size = 0; } else { pdev->htc_tx_htt2_endpoint = connect_resp->Endpoint; pdev->htc_tx_htt2_max_size = HTC_TX_HTT2_MAX_SIZE; } qdf_print("TX HTT %s, ep %d size %d\n", (status == QDF_STATUS_SUCCESS ? "ON" : "OFF"), pdev->htc_tx_htt2_endpoint, pdev->htc_tx_htt2_max_size); } #else static inline void htt_htc_tx_htt2_service_start(struct htt_pdev_t *pdev, struct htc_service_connect_req *connect_req, struct htc_service_connect_resp *connect_resp) { } #endif /** * htt_htc_credit_flow_disable() - disable flow control for * HTT data message service * * @pdev: pointer to htt device. * @connect_req: pointer to service connection request information * * HTC Credit mechanism is disabled based on * default_tx_comp_req as throughput will be lower * if we disable htc credit mechanism with default_tx_comp_req * set since txrx download packet will be limited by ota * completion. * * Return: None */ static void htt_htc_credit_flow_disable(struct htt_pdev_t *pdev, struct htc_service_connect_req *connect_req) { if (pdev->osdev->bus_type == QDF_BUS_TYPE_SDIO) { /* * TODO:Conditional disabling will be removed once firmware * with reduced tx completion is pushed into release builds. */ if (!pdev->cfg.default_tx_comp_req) connect_req->ConnectionFlags |= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL; } else { connect_req->ConnectionFlags |= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL; } } #if defined(DEBUG_HL_LOGGING) && defined(CONFIG_HL_SUPPORT) /** * htt_dump_bundle_stats() - dump wlan stats * @pdev: handle to the HTT instance * * Return: None */ void htt_dump_bundle_stats(htt_pdev_handle pdev) { htc_dump_bundle_stats(pdev->htc_pdev); } /** * htt_clear_bundle_stats() - clear wlan stats * @pdev: handle to the HTT instance * * Return: None */ void htt_clear_bundle_stats(htt_pdev_handle pdev) { htc_clear_bundle_stats(pdev->htc_pdev); } #endif #if defined(QCA_WIFI_3_0_ADRASTEA) /** * htt_htc_attach_all() - Connect to HTC service for HTT * @pdev: pdev ptr * * Return: 0 for success or error code. */ #if defined(QCN7605_SUPPORT) && defined(IPA_OFFLOAD) /* In case of QCN7605 with IPA offload only 2 CE * are used for RFS */ static int htt_htc_attach_all(struct htt_pdev_t *pdev) { if (htt_htc_attach(pdev, HTT_DATA_MSG_SVC)) goto flush_endpoint; if (htt_htc_attach(pdev, HTT_DATA2_MSG_SVC)) goto flush_endpoint; return 0; flush_endpoint: htc_flush_endpoint(pdev->htc_pdev, ENDPOINT_0, HTC_TX_PACKET_TAG_ALL); return -EIO; } #else static int htt_htc_attach_all(struct htt_pdev_t *pdev) { if (htt_htc_attach(pdev, HTT_DATA_MSG_SVC)) goto flush_endpoint; if (htt_htc_attach(pdev, HTT_DATA2_MSG_SVC)) goto flush_endpoint; if (htt_htc_attach(pdev, HTT_DATA3_MSG_SVC)) goto flush_endpoint; return 0; flush_endpoint: htc_flush_endpoint(pdev->htc_pdev, ENDPOINT_0, HTC_TX_PACKET_TAG_ALL); return -EIO; } #endif #else /** * htt_htc_attach_all() - Connect to HTC service for HTT * @pdev: pdev ptr * * Return: 0 for success or error code. */ static int htt_htc_attach_all(struct htt_pdev_t *pdev) { return htt_htc_attach(pdev, HTT_DATA_MSG_SVC); } #endif /** * htt_pdev_alloc() - allocate HTT pdev * @txrx_pdev: txrx pdev * @ctrl_pdev: cfg pdev * @htc_pdev: HTC pdev * @osdev: os device * * Return: HTT pdev handle */ htt_pdev_handle htt_pdev_alloc(ol_txrx_pdev_handle txrx_pdev, struct cdp_cfg *ctrl_pdev, HTC_HANDLE htc_pdev, qdf_device_t osdev) { struct htt_pdev_t *pdev; struct hif_opaque_softc *osc = cds_get_context(QDF_MODULE_ID_HIF); if (!osc) goto fail1; pdev = qdf_mem_malloc(sizeof(*pdev)); if (!pdev) goto fail1; pdev->osdev = osdev; pdev->ctrl_pdev = ctrl_pdev; pdev->txrx_pdev = txrx_pdev; pdev->htc_pdev = htc_pdev; pdev->htt_htc_pkt_freelist = NULL; #ifdef ATH_11AC_TXCOMPACT pdev->htt_htc_pkt_misclist = NULL; #endif /* for efficiency, store a local copy of the is_high_latency flag */ pdev->cfg.is_high_latency = ol_cfg_is_high_latency(pdev->ctrl_pdev); /* * Credit reporting through HTT_T2H_MSG_TYPE_TX_CREDIT_UPDATE_IND * enabled or not. */ pdev->cfg.credit_update_enabled = ol_cfg_is_credit_update_enabled(pdev->ctrl_pdev); pdev->cfg.request_tx_comp = cds_is_ptp_rx_opt_enabled() || cds_is_packet_log_enabled(); pdev->cfg.default_tx_comp_req = !ol_cfg_tx_free_at_download(pdev->ctrl_pdev); pdev->cfg.is_full_reorder_offload = ol_cfg_is_full_reorder_offload(pdev->ctrl_pdev); QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_INFO_LOW, "full_reorder_offloaded %d", (int)pdev->cfg.is_full_reorder_offload); pdev->cfg.ce_classify_enabled = ol_cfg_is_ce_classify_enabled(ctrl_pdev); QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_INFO_LOW, "ce_classify %d", pdev->cfg.ce_classify_enabled); if (pdev->cfg.is_high_latency) { qdf_atomic_init(&pdev->htt_tx_credit.target_delta); qdf_atomic_init(&pdev->htt_tx_credit.bus_delta); qdf_atomic_add(HTT_MAX_BUS_CREDIT, &pdev->htt_tx_credit.bus_delta); } pdev->targetdef = htc_get_targetdef(htc_pdev); #if defined(HELIUMPLUS) HTT_SET_WIFI_IP(pdev, 2, 0); #endif /* defined(HELIUMPLUS) */ if (NO_HTT_NEEDED) goto success; /* * Connect to HTC service. * This has to be done before calling htt_rx_attach, * since htt_rx_attach involves sending a rx ring configure * message to the target. */ HTT_TX_MUTEX_INIT(&pdev->htt_tx_mutex); HTT_TX_NBUF_QUEUE_MUTEX_INIT(pdev); HTT_TX_MUTEX_INIT(&pdev->credit_mutex); if (htt_htc_attach_all(pdev)) goto htt_htc_attach_fail; if (hif_ce_fastpath_cb_register(osc, htt_t2h_msg_handler_fast, pdev)) qdf_print("failed to register fastpath callback\n"); success: return pdev; htt_htc_attach_fail: HTT_TX_MUTEX_DESTROY(&pdev->credit_mutex); HTT_TX_MUTEX_DESTROY(&pdev->htt_tx_mutex); HTT_TX_NBUF_QUEUE_MUTEX_DESTROY(pdev); qdf_mem_free(pdev); fail1: return NULL; } /** * htt_attach() - Allocate and setup HTT TX/RX descriptors * @pdev: pdev ptr * @desc_pool_size: size of tx descriptors * * Return: 0 for success or error code. */ int htt_attach(struct htt_pdev_t *pdev, int desc_pool_size) { int i; int ret = 0; pdev->is_ipa_uc_enabled = false; if (ol_cfg_ipa_uc_offload_enabled(pdev->ctrl_pdev)) pdev->is_ipa_uc_enabled = true; pdev->new_htt_format_enabled = false; if (ol_cfg_is_htt_new_format_enabled(pdev->ctrl_pdev)) pdev->new_htt_format_enabled = true; htc_enable_hdr_length_check(pdev->htc_pdev, pdev->new_htt_format_enabled); ret = htt_tx_attach(pdev, desc_pool_size); if (ret) goto fail1; ret = htt_rx_attach(pdev); if (ret) goto fail2; /* pre-allocate some HTC_PACKET objects */ for (i = 0; i < HTT_HTC_PKT_POOL_INIT_SIZE; i++) { struct htt_htc_pkt_union *pkt; pkt = qdf_mem_malloc(sizeof(*pkt)); if (!pkt) break; htt_htc_pkt_free(pdev, &pkt->u.pkt); } if (pdev->cfg.is_high_latency) { /* * HL - download the whole frame. * Specify a download length greater than the max MSDU size, * so the downloads will be limited by the actual frame sizes. */ pdev->download_len = 5000; if (ol_cfg_tx_free_at_download(pdev->ctrl_pdev) && !pdev->cfg.request_tx_comp) pdev->tx_send_complete_part2 = ol_tx_download_done_hl_free; else pdev->tx_send_complete_part2 = ol_tx_download_done_hl_retain; /* * CHECK THIS LATER: does the HL HTT version of * htt_rx_mpdu_desc_list_next * (which is not currently implemented) present the * adf_nbuf_data(rx_ind_msg) * as the abstract rx descriptor? * If not, the rx_fw_desc_offset initialization * here will have to be adjusted accordingly. * NOTE: for HL, because fw rx desc is in ind msg, * not in rx desc, so the * offset should be negative value */ pdev->rx_fw_desc_offset = HTT_ENDIAN_BYTE_IDX_SWAP( HTT_RX_IND_FW_RX_DESC_BYTE_OFFSET - HTT_RX_IND_HL_BYTES); htt_h2t_rx_ring_cfg_msg = htt_h2t_rx_ring_cfg_msg_hl; htt_h2t_rx_ring_rfs_cfg_msg = htt_h2t_rx_ring_rfs_cfg_msg_hl; /* initialize the txrx credit count */ ol_tx_target_credit_update( pdev->txrx_pdev, ol_cfg_target_tx_credit( pdev->ctrl_pdev)); DPTRACE(qdf_dp_trace_credit_record(QDF_HTT_ATTACH, QDF_CREDIT_INC, ol_cfg_target_tx_credit(pdev->ctrl_pdev), qdf_atomic_read(&pdev->txrx_pdev->target_tx_credit), qdf_atomic_read(&pdev->txrx_pdev->txq_grps[0].credit), qdf_atomic_read(&pdev->txrx_pdev->txq_grps[1].credit))); } else { enum wlan_frm_fmt frm_type; /* * LL - download just the initial portion of the frame. * Download enough to cover the encapsulation headers checked * by the target's tx classification descriptor engine. * * For LL, the FW rx desc directly referenced at its location * inside the rx indication message. */ /* account for the 802.3 or 802.11 header */ frm_type = ol_cfg_frame_type(pdev->ctrl_pdev); if (frm_type == wlan_frm_fmt_native_wifi) { pdev->download_len = HTT_TX_HDR_SIZE_NATIVE_WIFI; } else if (frm_type == wlan_frm_fmt_802_3) { pdev->download_len = HTT_TX_HDR_SIZE_ETHERNET; } else { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "Unexpected frame type spec: %d", frm_type); HTT_ASSERT0(0); } /* * Account for the optional L2 / ethernet header fields: * 802.1Q, LLC/SNAP */ pdev->download_len += HTT_TX_HDR_SIZE_802_1Q + HTT_TX_HDR_SIZE_LLC_SNAP; /* * Account for the portion of the L3 (IP) payload that the * target needs for its tx classification. */ pdev->download_len += ol_cfg_tx_download_size(pdev->ctrl_pdev); /* * Account for the HTT tx descriptor, including the * HTC header + alignment padding. */ pdev->download_len += sizeof(struct htt_host_tx_desc_t); /* * The TXCOMPACT htt_tx_sched function uses pdev->download_len * to apply for all requeued tx frames. Thus, * pdev->download_len has to be the largest download length of * any tx frame that will be downloaded. * This maximum download length is for management tx frames, * which have an 802.11 header. */ #ifdef ATH_11AC_TXCOMPACT pdev->download_len = sizeof(struct htt_host_tx_desc_t) + HTT_TX_HDR_SIZE_OUTER_HDR_MAX /* worst case */ + HTT_TX_HDR_SIZE_802_1Q + HTT_TX_HDR_SIZE_LLC_SNAP + ol_cfg_tx_download_size(pdev->ctrl_pdev); #endif pdev->tx_send_complete_part2 = ol_tx_download_done_ll; /* * For LL, the FW rx desc is alongside the HW rx desc fields in * the htt_host_rx_desc_base struct/. */ pdev->rx_fw_desc_offset = RX_STD_DESC_FW_MSDU_OFFSET; htt_h2t_rx_ring_cfg_msg = htt_h2t_rx_ring_cfg_msg_ll; htt_h2t_rx_ring_rfs_cfg_msg = htt_h2t_rx_ring_rfs_cfg_msg_ll; } return 0; fail2: htt_tx_detach(pdev); fail1: return ret; } QDF_STATUS htt_attach_target(htt_pdev_handle pdev) { QDF_STATUS status; status = htt_h2t_ver_req_msg(pdev); if (status != QDF_STATUS_SUCCESS) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s:%d: could not send h2t_ver_req msg", __func__, __LINE__); return status; } #if defined(HELIUMPLUS) /* * Send the frag_desc info to target. */ status = htt_h2t_frag_desc_bank_cfg_msg(pdev); if (status != QDF_STATUS_SUCCESS) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s:%d: could not send h2t_frag_desc_bank_cfg msg", __func__, __LINE__); return status; } #endif /* defined(HELIUMPLUS) */ /* * If applicable, send the rx ring config message to the target. * The host could wait for the HTT version number confirmation message * from the target before sending any further HTT messages, but it's * reasonable to assume that the host and target HTT version numbers * match, and proceed immediately with the remaining configuration * handshaking. */ status = htt_h2t_rx_ring_rfs_cfg_msg(pdev); if (status != QDF_STATUS_SUCCESS) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s:%d: could not send h2t_rx_ring_rfs_cfg msg", __func__, __LINE__); return status; } status = htt_h2t_rx_ring_cfg_msg(pdev); if (status != QDF_STATUS_SUCCESS) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s:%d: could not send h2t_rx_ring_cfg msg", __func__, __LINE__); return status; } status = HTT_IPA_CONFIG(pdev, status); if (status != QDF_STATUS_SUCCESS) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s:%d: could not send h2t_ipa_uc_rsc_cfg msg", __func__, __LINE__); return status; } return status; } void htt_detach(htt_pdev_handle pdev) { htt_rx_detach(pdev); htt_tx_detach(pdev); htt_htc_pkt_pool_free(pdev); #ifdef ATH_11AC_TXCOMPACT htt_htc_misc_pkt_pool_free(pdev); #endif HTT_TX_MUTEX_DESTROY(&pdev->credit_mutex); HTT_TX_MUTEX_DESTROY(&pdev->htt_tx_mutex); HTT_TX_NBUF_QUEUE_MUTEX_DESTROY(pdev); } /** * htt_pdev_free() - Free HTT pdev * @pdev: htt pdev * * Return: none */ void htt_pdev_free(htt_pdev_handle pdev) { qdf_mem_free(pdev); } void htt_detach_target(htt_pdev_handle pdev) { } static inline int htt_update_endpoint(struct htt_pdev_t *pdev, uint16_t service_id, HTC_ENDPOINT_ID ep) { struct hif_opaque_softc *hif_ctx; uint8_t ul = 0xff, dl = 0xff; int ul_polled, dl_polled; int tx_service = 0; int rc = 0; hif_ctx = cds_get_context(QDF_MODULE_ID_HIF); if (qdf_unlikely(!hif_ctx)) { QDF_ASSERT(hif_ctx); QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s:%d: assuming non-tx service.", __func__, __LINE__); } else { ul = dl = 0xff; if (QDF_STATUS_SUCCESS != hif_map_service_to_pipe(hif_ctx, service_id, &ul, &dl, &ul_polled, &dl_polled)) QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_INFO, "%s:%d: assuming non-tx srv.", __func__, __LINE__); else tx_service = (ul != 0xff); } if (tx_service) { /* currently we have only one OUT htt tx service */ QDF_BUG(service_id == HTT_DATA_MSG_SVC); pdev->htc_tx_endpoint = ep; hif_save_htc_htt_config_endpoint(hif_ctx, ep); rc = 1; } return rc; } int htt_htc_attach(struct htt_pdev_t *pdev, uint16_t service_id) { struct htc_service_connect_req connect; struct htc_service_connect_resp response; QDF_STATUS status; qdf_mem_zero(&connect, sizeof(connect)); qdf_mem_zero(&response, sizeof(response)); connect.pMetaData = NULL; connect.MetaDataLength = 0; connect.EpCallbacks.pContext = pdev; connect.EpCallbacks.EpTxComplete = htt_h2t_send_complete; connect.EpCallbacks.EpTxCompleteMultiple = NULL; connect.EpCallbacks.EpRecv = htt_t2h_msg_handler; connect.EpCallbacks.ep_resume_tx_queue = htt_tx_resume_handler; connect.EpCallbacks.ep_padding_credit_update = htt_tx_padding_credit_update_handler; /* rx buffers currently are provided by HIF, not by EpRecvRefill */ connect.EpCallbacks.EpRecvRefill = NULL; connect.EpCallbacks.RecvRefillWaterMark = 1; /* N/A, fill is done by HIF */ connect.EpCallbacks.EpSendFull = htt_h2t_full; /* * Specify how deep to let a queue get before htc_send_pkt will * call the EpSendFull function due to excessive send queue depth. */ connect.MaxSendQueueDepth = HTT_MAX_SEND_QUEUE_DEPTH; /* disable flow control for HTT data message service */ htt_htc_credit_flow_disable(pdev, &connect); /* connect to control service */ connect.service_id = service_id; status = htc_connect_service(pdev->htc_pdev, &connect, &response); if (status != QDF_STATUS_SUCCESS) { if (cds_is_fw_down()) return -EIO; if (status == QDF_STATUS_E_NOMEM || cds_is_self_recovery_enabled()) return qdf_status_to_os_return(status); QDF_BUG(0); } htt_update_endpoint(pdev, service_id, response.Endpoint); /* Start TX HTT2 service if the target support it. */ htt_htc_tx_htt2_service_start(pdev, &connect, &response); return 0; /* success */ } void htt_log_rx_ring_info(htt_pdev_handle pdev) { if (!pdev) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s: htt pdev is NULL", __func__); return; } QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_DEBUG, "%s: Data Stall Detected with reason 4 (=FW_RX_REFILL_FAILED)." "src htt rx ring: space for %d elements, filled with %d buffers, buffers in the ring %d, refill debt %d", __func__, pdev->rx_ring.size, pdev->rx_ring.fill_level, qdf_atomic_read(&pdev->rx_ring.fill_cnt), qdf_atomic_read(&pdev->rx_ring.refill_debt)); } void htt_rx_refill_failure(htt_pdev_handle pdev) { QDF_BUG(qdf_atomic_read(&pdev->rx_ring.refill_debt)); } #if HTT_DEBUG_LEVEL > 5 void htt_display(htt_pdev_handle pdev, int indent) { qdf_print("%*s%s:\n", indent, " ", "HTT"); qdf_print("%*stx desc pool: %d elems of %d bytes, %d allocated\n", indent + 4, " ", pdev->tx_descs.pool_elems, pdev->tx_descs.size, pdev->tx_descs.alloc_cnt); qdf_print("%*srx ring: space for %d elems, filled with %d buffers\n", indent + 4, " ", pdev->rx_ring.size, pdev->rx_ring.fill_level); qdf_print("%*sat %pK (%llx paddr)\n", indent + 8, " ", pdev->rx_ring.buf.paddrs_ring, (unsigned long long)pdev->rx_ring.base_paddr); qdf_print("%*snetbuf ring @ %pK\n", indent + 8, " ", pdev->rx_ring.buf.netbufs_ring); qdf_print("%*sFW_IDX shadow register: vaddr = %pK, paddr = %llx\n", indent + 8, " ", pdev->rx_ring.alloc_idx.vaddr, (unsigned long long)pdev->rx_ring.alloc_idx.paddr); qdf_print("%*sSW enqueue idx= %d, SW dequeue idx: desc= %d, buf= %d\n", indent + 8, " ", *pdev->rx_ring.alloc_idx.vaddr, pdev->rx_ring.sw_rd_idx.msdu_desc, pdev->rx_ring.sw_rd_idx.msdu_payld); } #endif #ifdef IPA_OFFLOAD /** * htt_ipa_uc_attach() - Allocate UC data path resources * @pdev: handle to the HTT instance * * Return: 0 success * none 0 fail */ int htt_ipa_uc_attach(struct htt_pdev_t *pdev) { int error; QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_DEBUG, "%s: enter", __func__); /* TX resource attach */ error = htt_tx_ipa_uc_attach( pdev, ol_cfg_ipa_uc_tx_buf_size(pdev->ctrl_pdev), ol_cfg_ipa_uc_tx_max_buf_cnt(pdev->ctrl_pdev), ol_cfg_ipa_uc_tx_partition_base(pdev->ctrl_pdev)); if (error) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "HTT IPA UC TX attach fail code %d", error); HTT_ASSERT0(0); return error; } /* RX resource attach */ error = htt_rx_ipa_uc_attach( pdev, qdf_get_pwr2(pdev->rx_ring.fill_level)); if (error) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "HTT IPA UC RX attach fail code %d", error); htt_tx_ipa_uc_detach(pdev); HTT_ASSERT0(0); return error; } QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_DEBUG, "%s: exit", __func__); return 0; /* success */ } /** * htt_ipa_uc_attach() - Remove UC data path resources * @pdev: handle to the HTT instance * * Return: None */ void htt_ipa_uc_detach(struct htt_pdev_t *pdev) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_DEBUG, "%s: enter", __func__); /* TX IPA micro controller detach */ htt_tx_ipa_uc_detach(pdev); /* RX IPA micro controller detach */ htt_rx_ipa_uc_detach(pdev); QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_DEBUG, "%s: exit", __func__); } int htt_ipa_uc_get_resource(htt_pdev_handle pdev, qdf_shared_mem_t **ce_sr, qdf_shared_mem_t **tx_comp_ring, qdf_shared_mem_t **rx_rdy_ring, qdf_shared_mem_t **rx2_rdy_ring, qdf_shared_mem_t **rx_proc_done_idx, qdf_shared_mem_t **rx2_proc_done_idx, uint32_t *ce_sr_ring_size, qdf_dma_addr_t *ce_reg_paddr, uint32_t *tx_num_alloc_buffer) { /* Release allocated resource to client */ *tx_comp_ring = pdev->ipa_uc_tx_rsc.tx_comp_ring; *rx_rdy_ring = pdev->ipa_uc_rx_rsc.rx_ind_ring; *rx2_rdy_ring = pdev->ipa_uc_rx_rsc.rx2_ind_ring; *rx_proc_done_idx = pdev->ipa_uc_rx_rsc.rx_ipa_prc_done_idx; *rx2_proc_done_idx = pdev->ipa_uc_rx_rsc.rx2_ipa_prc_done_idx; *tx_num_alloc_buffer = (uint32_t)pdev->ipa_uc_tx_rsc.alloc_tx_buf_cnt; /* Get copy engine, bus resource */ htc_ipa_get_ce_resource(pdev->htc_pdev, ce_sr, ce_sr_ring_size, ce_reg_paddr); return 0; } /** * htt_ipa_uc_set_doorbell_paddr() - Propagate IPA doorbell address * @pdev: handle to the HTT instance * @ipa_uc_tx_doorbell_paddr: TX doorbell base physical address * @ipa_uc_rx_doorbell_paddr: RX doorbell base physical address * * Return: 0 success */ int htt_ipa_uc_set_doorbell_paddr(htt_pdev_handle pdev, qdf_dma_addr_t ipa_uc_tx_doorbell_paddr, qdf_dma_addr_t ipa_uc_rx_doorbell_paddr) { pdev->ipa_uc_tx_rsc.tx_comp_idx_paddr = ipa_uc_tx_doorbell_paddr; pdev->ipa_uc_rx_rsc.rx_rdy_idx_paddr = ipa_uc_rx_doorbell_paddr; return 0; } #endif /* IPA_OFFLOAD */ /** * htt_mark_first_wakeup_packet() - set flag to indicate that * fw is compatible for marking first packet after wow wakeup * @pdev: pointer to htt pdev * @value: 1 for enabled/ 0 for disabled * * Return: None */ void htt_mark_first_wakeup_packet(htt_pdev_handle pdev, uint8_t value) { if (!pdev) { QDF_TRACE(QDF_MODULE_ID_HTT, QDF_TRACE_LEVEL_ERROR, "%s: htt pdev is NULL", __func__); return; } pdev->cfg.is_first_wakeup_packet = value; }