/* * Copyright (c) 2017 The Linux Foundation. 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. */ #include "dp_types.h" #include "dp_rx.h" #include "dp_peer.h" #include "hal_rx.h" #include "hal_api.h" #include "qdf_trace.h" #include "qdf_nbuf.h" #include "hal_api_mon.h" #include "dp_rx_mon.h" #include "dp_internal.h" #include "qdf_mem.h" /* qdf_mem_malloc,free */ /** * dp_rx_populate_cdp_indication_ppdu() - Populate cdp rx indication structure * @soc: core txrx main context * @ppdu_info: ppdu info structure from ppdu ring * @ppdu_nbuf: qdf nbuf abstraction for linux skb * * Return: none */ #ifdef FEATURE_PERPKT_INFO static inline void dp_rx_populate_cdp_indication_ppdu(struct dp_soc *soc, struct hal_rx_ppdu_info *ppdu_info, qdf_nbuf_t ppdu_nbuf) { struct dp_peer *peer; struct dp_ast_entry *ast_entry; struct cdp_rx_indication_ppdu *cdp_rx_ppdu; uint32_t ast_index; cdp_rx_ppdu = (struct cdp_rx_indication_ppdu *)ppdu_nbuf->data; ast_index = ppdu_info->rx_status.ast_index; if (ast_index > (WLAN_UMAC_PSOC_MAX_PEERS * 2)) { cdp_rx_ppdu->peer_id = HTT_INVALID_PEER; return; } ast_entry = soc->ast_table[ast_index]; if (!ast_entry) { cdp_rx_ppdu->peer_id = HTT_INVALID_PEER; return; } peer = ast_entry->peer; if (!peer || peer->peer_ids[0] == HTT_INVALID_PEER) { cdp_rx_ppdu->peer_id = HTT_INVALID_PEER; return; } qdf_mem_copy(cdp_rx_ppdu->mac_addr, peer->mac_addr.raw, DP_MAC_ADDR_LEN); cdp_rx_ppdu->first_data_seq_ctrl = ppdu_info->rx_status.first_data_seq_ctrl; cdp_rx_ppdu->peer_id = peer->peer_ids[0]; cdp_rx_ppdu->vdev_id = peer->vdev->vdev_id; cdp_rx_ppdu->ppdu_id = ppdu_info->com_info.ppdu_id; cdp_rx_ppdu->duration = ppdu_info->rx_status.duration; cdp_rx_ppdu->u.bw = ppdu_info->rx_status.bw; cdp_rx_ppdu->tcp_msdu_count = ppdu_info->rx_status.tcp_msdu_count; cdp_rx_ppdu->udp_msdu_count = ppdu_info->rx_status.udp_msdu_count; cdp_rx_ppdu->other_msdu_count = ppdu_info->rx_status.other_msdu_count; cdp_rx_ppdu->u.nss = ppdu_info->rx_status.nss; cdp_rx_ppdu->u.mcs = ppdu_info->rx_status.mcs; cdp_rx_ppdu->u.preamble = ppdu_info->rx_status.preamble_type; cdp_rx_ppdu->rssi = ppdu_info->rx_status.rssi_comb; cdp_rx_ppdu->timestamp = ppdu_info->com_info.ppdu_timestamp; cdp_rx_ppdu->channel = ppdu_info->rx_status.chan_freq; cdp_rx_ppdu->num_msdu = (cdp_rx_ppdu->tcp_msdu_count + cdp_rx_ppdu->udp_msdu_count + cdp_rx_ppdu->other_msdu_count); } #else static inline void dp_rx_populate_cdp_indication_ppdu(struct dp_soc *soc, struct hal_rx_ppdu_info *ppdu_info, qdf_nbuf_t ppdu_nbuf) { } #endif /** * dp_rx_stats_update() - Update per-peer statistics * @soc: Datapath SOC handle * @peer: Datapath peer handle * @ppdu: PPDU Descriptor * * Return: None */ #ifdef FEATURE_PERPKT_INFO static void dp_rx_stats_update(struct dp_soc *soc, struct dp_peer *peer, struct cdp_rx_indication_ppdu *ppdu) { struct dp_pdev *pdev = NULL; uint8_t mcs, preamble; uint16_t num_msdu; mcs = ppdu->u.mcs; preamble = ppdu->u.preamble; num_msdu = ppdu->num_msdu; if (!peer) return; pdev = peer->vdev->pdev; if (soc->process_rx_status) return; DP_STATS_UPD(peer, rx.rssi, ppdu->rssi); DP_STATS_INC(peer, rx.sgi_count[ppdu->u.gi], 1); DP_STATS_INC(peer, rx.bw[ppdu->u.bw], num_msdu); DP_STATS_INCC(peer, rx.ampdu_cnt, 1, ppdu->is_ampdu); DP_STATS_INCC(peer, rx.non_ampdu_cnt, 1, !(ppdu->is_ampdu)); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[MAX_MCS], num_msdu, ((mcs >= MAX_MCS_11A) && (preamble == DOT11_A))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[mcs], num_msdu, ((mcs < MAX_MCS_11A) && (preamble == DOT11_A))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[MAX_MCS], num_msdu, ((mcs >= MAX_MCS_11B) && (preamble == DOT11_B))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[mcs], num_msdu, ((mcs < MAX_MCS_11B) && (preamble == DOT11_B))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[MAX_MCS], num_msdu, ((mcs >= MAX_MCS_11A) && (preamble == DOT11_N))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[mcs], num_msdu, ((mcs < MAX_MCS_11A) && (preamble == DOT11_N))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[MAX_MCS], num_msdu, ((mcs >= MAX_MCS_11AC) && (preamble == DOT11_AC))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[mcs], num_msdu, ((mcs < MAX_MCS_11AC) && (preamble == DOT11_AC))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[MAX_MCS], num_msdu, ((mcs >= (MAX_MCS - 1)) && (preamble == DOT11_AX))); DP_STATS_INCC(peer, rx.pkt_type[preamble].mcs_count[mcs], num_msdu, ((mcs < (MAX_MCS - 1)) && (preamble == DOT11_AX))); DP_STATS_INC(peer, rx.wme_ac_type[TID_TO_WME_AC(ppdu->tid)], 1); if (soc->cdp_soc.ol_ops->update_dp_stats) { soc->cdp_soc.ol_ops->update_dp_stats(pdev->osif_pdev, &peer->stats, ppdu->peer_id, UPDATE_PEER_STATS); } } #endif /** * dp_rx_handle_ppdu_stats() - Allocate and deliver ppdu stats to cdp layer * @soc: core txrx main context * @pdev: pdev strcuture * @ppdu_info: structure for rx ppdu ring * * Return: none */ #ifdef FEATURE_PERPKT_INFO static inline void dp_rx_handle_ppdu_stats(struct dp_soc *soc, struct dp_pdev *pdev, struct hal_rx_ppdu_info *ppdu_info) { qdf_nbuf_t ppdu_nbuf; struct dp_peer *peer; struct cdp_rx_indication_ppdu *cdp_rx_ppdu; ppdu_nbuf = qdf_nbuf_alloc(pdev->osif_pdev, sizeof(struct hal_rx_ppdu_info), 0, 0, FALSE); if (ppdu_nbuf) { dp_rx_populate_cdp_indication_ppdu(soc, ppdu_info, ppdu_nbuf); qdf_nbuf_put_tail(ppdu_nbuf, sizeof(struct cdp_rx_indication_ppdu)); cdp_rx_ppdu = (struct cdp_rx_indication_ppdu *)ppdu_nbuf->data; peer = dp_peer_find_by_id(soc, cdp_rx_ppdu->peer_id); if (peer && cdp_rx_ppdu->peer_id != HTT_INVALID_PEER) { dp_rx_stats_update(soc, peer, cdp_rx_ppdu); dp_wdi_event_handler(WDI_EVENT_RX_PPDU_DESC, soc, ppdu_nbuf, cdp_rx_ppdu->peer_id, WDI_NO_VAL, pdev->pdev_id); } else qdf_nbuf_free(ppdu_nbuf); } } #else static inline void dp_rx_handle_ppdu_stats(struct dp_soc *soc, struct dp_pdev *pdev, struct hal_rx_ppdu_info *ppdu_info) { } #endif /** * dp_rx_mon_status_process_tlv() - Process status TLV in status * buffer on Rx status Queue posted by status SRNG processing. * @soc: core txrx main context * @mac_id: mac_id which is one of 3 mac_ids _ring * * Return: none */ static inline void dp_rx_mon_status_process_tlv(struct dp_soc *soc, uint32_t mac_id, uint32_t quota) { struct dp_pdev *pdev = soc->pdev_list[mac_id]; struct hal_rx_ppdu_info *ppdu_info; qdf_nbuf_t status_nbuf; uint8_t *rx_tlv; uint8_t *rx_tlv_start; uint32_t tlv_status = HAL_TLV_STATUS_BUF_DONE; ppdu_info = &pdev->ppdu_info; if (pdev->mon_ppdu_status != DP_PPDU_STATUS_START) return; while (!qdf_nbuf_is_queue_empty(&pdev->rx_status_q)) { status_nbuf = qdf_nbuf_queue_remove(&pdev->rx_status_q); rx_tlv = qdf_nbuf_data(status_nbuf); rx_tlv_start = rx_tlv; #if defined(CONFIG_WIN) && WDI_EVENT_ENABLE #ifndef REMOVE_PKT_LOG dp_wdi_event_handler(WDI_EVENT_RX_DESC, soc, status_nbuf, HTT_INVALID_PEER, WDI_NO_VAL, mac_id); #endif #endif if ((pdev->monitor_vdev != NULL) || (pdev->enhanced_stats_en)) { do { tlv_status = hal_rx_status_get_tlv_info(rx_tlv, ppdu_info); rx_tlv = hal_rx_status_get_next_tlv(rx_tlv); if ((rx_tlv - rx_tlv_start) >= RX_BUFFER_SIZE) break; } while (tlv_status == HAL_TLV_STATUS_PPDU_NOT_DONE); } qdf_nbuf_free(status_nbuf); if (tlv_status == HAL_TLV_STATUS_PPDU_DONE) { if (pdev->enhanced_stats_en) dp_rx_handle_ppdu_stats(soc, pdev, ppdu_info); pdev->mon_ppdu_status = DP_PPDU_STATUS_DONE; dp_rx_mon_dest_process(soc, mac_id, quota); pdev->mon_ppdu_status = DP_PPDU_STATUS_START; } } return; } /* * dp_rx_mon_status_srng_process() - Process monitor status ring * post the status ring buffer to Rx status Queue for later * processing when status ring is filled with status TLV. * Allocate a new buffer to status ring if the filled buffer * is posted. * * @soc: core txrx main context * @mac_id: mac_id which is one of 3 mac_ids * @quota: No. of ring entry that can be serviced in one shot. * Return: uint32_t: No. of ring entry that is processed. */ static inline uint32_t dp_rx_mon_status_srng_process(struct dp_soc *soc, uint32_t mac_id, uint32_t quota) { struct dp_pdev *pdev = soc->pdev_list[mac_id]; void *hal_soc; void *mon_status_srng; void *rxdma_mon_status_ring_entry; QDF_STATUS status; uint32_t work_done = 0; mon_status_srng = pdev->rxdma_mon_status_ring.hal_srng; qdf_assert(mon_status_srng); if (!mon_status_srng || !hal_srng_initialized(mon_status_srng)) { QDF_TRACE(QDF_MODULE_ID_TXRX, QDF_TRACE_LEVEL_ERROR, "%s %d : HAL Monitor Destination Ring Init Failed -- %pK\n", __func__, __LINE__, mon_status_srng); return work_done; } hal_soc = soc->hal_soc; qdf_assert(hal_soc); if (qdf_unlikely(hal_srng_access_start(hal_soc, mon_status_srng))) goto done; /* mon_status_ring_desc => WBM_BUFFER_RING STRUCT => * BUFFER_ADDR_INFO STRUCT */ while (qdf_likely((rxdma_mon_status_ring_entry = hal_srng_src_peek(hal_soc, mon_status_srng)) && quota--)) { uint32_t rx_buf_cookie; qdf_nbuf_t status_nbuf; struct dp_rx_desc *rx_desc; uint8_t *status_buf; qdf_dma_addr_t paddr; uint64_t buf_addr; buf_addr = (HAL_RX_BUFFER_ADDR_31_0_GET( rxdma_mon_status_ring_entry) | ((uint64_t)(HAL_RX_BUFFER_ADDR_39_32_GET( rxdma_mon_status_ring_entry)) << 32)); if (qdf_likely(buf_addr)) { rx_buf_cookie = HAL_RX_BUF_COOKIE_GET( rxdma_mon_status_ring_entry); rx_desc = dp_rx_cookie_2_va_mon_status(soc, rx_buf_cookie); qdf_assert(rx_desc); status_nbuf = rx_desc->nbuf; qdf_nbuf_sync_for_cpu(soc->osdev, status_nbuf, QDF_DMA_FROM_DEVICE); status_buf = qdf_nbuf_data(status_nbuf); status = hal_get_rx_status_done(status_buf); if (status != QDF_STATUS_SUCCESS) { QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_WARN, "[%s][%d] status not done", __func__, __LINE__); break; } qdf_nbuf_set_pktlen(status_nbuf, RX_BUFFER_SIZE); qdf_nbuf_unmap_single(soc->osdev, status_nbuf, QDF_DMA_FROM_DEVICE); /* Put the status_nbuf to queue */ qdf_nbuf_queue_add(&pdev->rx_status_q, status_nbuf); } else { union dp_rx_desc_list_elem_t *desc_list = NULL; union dp_rx_desc_list_elem_t *tail = NULL; struct rx_desc_pool *rx_desc_pool; uint32_t num_alloc_desc; rx_desc_pool = &soc->rx_desc_status[mac_id]; num_alloc_desc = dp_rx_get_free_desc_list(soc, mac_id, rx_desc_pool, 1, &desc_list, &tail); rx_desc = &desc_list->rx_desc; } /* Allocate a new skb */ status_nbuf = qdf_nbuf_alloc(pdev->osif_pdev, RX_BUFFER_SIZE, RX_BUFFER_RESERVATION, RX_BUFFER_ALIGNMENT, FALSE); status_buf = qdf_nbuf_data(status_nbuf); hal_clear_rx_status_done(status_buf); qdf_nbuf_map_single(soc->osdev, status_nbuf, QDF_DMA_BIDIRECTIONAL); paddr = qdf_nbuf_get_frag_paddr(status_nbuf, 0); rx_desc->nbuf = status_nbuf; rx_desc->in_use = 1; hal_rxdma_buff_addr_info_set(rxdma_mon_status_ring_entry, paddr, rx_desc->cookie, HAL_RX_BUF_RBM_SW3_BM); rxdma_mon_status_ring_entry = hal_srng_src_get_next(hal_soc, mon_status_srng); work_done++; } done: hal_srng_access_end(hal_soc, mon_status_srng); return work_done; } /* * dp_rx_mon_status_process() - Process monitor status ring and * TLV in status ring. * * @soc: core txrx main context * @mac_id: mac_id which is one of 3 mac_ids * @quota: No. of ring entry that can be serviced in one shot. * Return: uint32_t: No. of ring entry that is processed. */ static inline uint32_t dp_rx_mon_status_process(struct dp_soc *soc, uint32_t mac_id, uint32_t quota) { uint32_t work_done; work_done = dp_rx_mon_status_srng_process(soc, mac_id, quota); quota -= work_done; dp_rx_mon_status_process_tlv(soc, mac_id, quota); return work_done; } /** * dp_mon_process() - Main monitor mode processing roution. * This call monitor status ring process then monitor * destination ring process. * Called from the bottom half (tasklet/NET_RX_SOFTIRQ) * @soc: core txrx main context * @mac_id: mac_id which is one of 3 mac_ids * @quota: No. of status ring entry that can be serviced in one shot. * Return: uint32_t: No. of ring entry that is processed. */ uint32_t dp_mon_process(struct dp_soc *soc, uint32_t mac_id, uint32_t quota) { return dp_rx_mon_status_process(soc, mac_id, quota); } /** * dp_rx_pdev_mon_detach() - detach dp rx for status ring * @pdev: core txrx pdev context * * This function will detach DP RX status ring from * main device context. will free DP Rx resources for * status ring * * Return: QDF_STATUS_SUCCESS: success * QDF_STATUS_E_RESOURCES: Error return */ QDF_STATUS dp_rx_pdev_mon_status_detach(struct dp_pdev *pdev) { uint8_t pdev_id = pdev->pdev_id; struct dp_soc *soc = pdev->soc; struct rx_desc_pool *rx_desc_pool; rx_desc_pool = &soc->rx_desc_status[pdev_id]; if (rx_desc_pool->pool_size != 0) { dp_rx_desc_pool_free(soc, pdev_id, rx_desc_pool); } return QDF_STATUS_SUCCESS; } /* * dp_rx_buffers_replenish() - replenish monitor status ring with * rx nbufs called during dp rx * monitor status ring initialization * * @soc: core txrx main context * @mac_id: mac_id which is one of 3 mac_ids * @dp_rxdma_srng: dp monitor status circular ring * @rx_desc_pool; Pointer to Rx descriptor pool * @num_req_buffers: number of buffer to be replenished * @desc_list: list of descs if called from dp rx monitor status * process or NULL during dp rx initialization or * out of buffer interrupt * @tail: tail of descs list * @owner: who owns the nbuf (host, NSS etc...) * Return: return success or failure */ static inline QDF_STATUS dp_rx_mon_status_buffers_replenish(struct dp_soc *dp_soc, uint32_t mac_id, struct dp_srng *dp_rxdma_srng, struct rx_desc_pool *rx_desc_pool, uint32_t num_req_buffers, union dp_rx_desc_list_elem_t **desc_list, union dp_rx_desc_list_elem_t **tail, uint8_t owner) { uint32_t num_alloc_desc; uint16_t num_desc_to_free = 0; uint32_t num_entries_avail; uint32_t count; int sync_hw_ptr = 1; qdf_dma_addr_t paddr; qdf_nbuf_t rx_netbuf; void *rxdma_ring_entry; union dp_rx_desc_list_elem_t *next; void *rxdma_srng; uint8_t *status_buf; rxdma_srng = dp_rxdma_srng->hal_srng; qdf_assert(rxdma_srng); QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "[%s][%d] requested %d buffers for replenish\n", __func__, __LINE__, num_req_buffers); /* * if desc_list is NULL, allocate the descs from freelist */ if (!(*desc_list)) { num_alloc_desc = dp_rx_get_free_desc_list(dp_soc, mac_id, rx_desc_pool, num_req_buffers, desc_list, tail); if (!num_alloc_desc) { QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR, "[%s][%d] no free rx_descs in freelist\n", __func__, __LINE__); return QDF_STATUS_E_NOMEM; } QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "[%s][%d] %d rx desc allocated\n", __func__, __LINE__, num_alloc_desc); num_req_buffers = num_alloc_desc; } hal_srng_access_start(dp_soc->hal_soc, rxdma_srng); num_entries_avail = hal_srng_src_num_avail(dp_soc->hal_soc, rxdma_srng, sync_hw_ptr); QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "[%s][%d] no of availble entries in rxdma ring: %d\n", __func__, __LINE__, num_entries_avail); if (num_entries_avail < num_req_buffers) { num_desc_to_free = num_req_buffers - num_entries_avail; num_req_buffers = num_entries_avail; } for (count = 0; count < num_req_buffers; count++) { rxdma_ring_entry = hal_srng_src_get_next(dp_soc->hal_soc, rxdma_srng); rx_netbuf = qdf_nbuf_alloc(dp_soc->osdev, RX_BUFFER_SIZE, RX_BUFFER_RESERVATION, RX_BUFFER_ALIGNMENT, FALSE); status_buf = qdf_nbuf_data(rx_netbuf); hal_clear_rx_status_done(status_buf); memset(status_buf, 0, RX_BUFFER_SIZE); qdf_nbuf_map_single(dp_soc->osdev, rx_netbuf, QDF_DMA_BIDIRECTIONAL); paddr = qdf_nbuf_get_frag_paddr(rx_netbuf, 0); next = (*desc_list)->next; (*desc_list)->rx_desc.nbuf = rx_netbuf; (*desc_list)->rx_desc.in_use = 1; hal_rxdma_buff_addr_info_set(rxdma_ring_entry, paddr, (*desc_list)->rx_desc.cookie, owner); QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "[%s][%d] rx_desc=%pK, cookie=%d, nbuf=%pK, \ status_buf=%pK paddr=%pK\n", __func__, __LINE__, &(*desc_list)->rx_desc, (*desc_list)->rx_desc.cookie, rx_netbuf, status_buf, (void *)paddr); *desc_list = next; } hal_srng_access_end(dp_soc->hal_soc, rxdma_srng); QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "successfully replenished %d buffers\n", num_req_buffers); QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "%d rx desc added back to free list\n", num_desc_to_free); QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_DEBUG, "[%s][%d] desc_list=%pK, tail=%pK rx_desc=%pK, cookie=%d\n", __func__, __LINE__, desc_list, tail, &(*desc_list)->rx_desc, (*desc_list)->rx_desc.cookie); /* * add any available free desc back to the free list */ if (*desc_list) { dp_rx_add_desc_list_to_free_list(dp_soc, desc_list, tail, mac_id, rx_desc_pool); } return QDF_STATUS_SUCCESS; } /** * dp_rx_pdev_mon_status_attach() - attach DP RX monitor status ring * @pdev: core txrx pdev context * * This function will attach a DP RX monitor status ring into pDEV * and replenish monitor status ring with buffer. * * Return: QDF_STATUS_SUCCESS: success * QDF_STATUS_E_RESOURCES: Error return */ QDF_STATUS dp_rx_pdev_mon_status_attach(struct dp_pdev *pdev) { uint8_t pdev_id = pdev->pdev_id; struct dp_soc *soc = pdev->soc; union dp_rx_desc_list_elem_t *desc_list = NULL; union dp_rx_desc_list_elem_t *tail = NULL; struct dp_srng *rxdma_srng; uint32_t rxdma_entries; struct rx_desc_pool *rx_desc_pool; QDF_STATUS status; rxdma_srng = &pdev->rxdma_mon_status_ring; rxdma_entries = rxdma_srng->alloc_size/hal_srng_get_entrysize( soc->hal_soc, RXDMA_MONITOR_STATUS); rx_desc_pool = &soc->rx_desc_status[pdev_id]; QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_INFO_LOW, "%s: Mon RX Status Pool[%d] allocation size=%d\n", __func__, pdev_id, rxdma_entries); status = dp_rx_desc_pool_alloc(soc, pdev_id, rxdma_entries+1, rx_desc_pool); if (!QDF_IS_STATUS_SUCCESS(status)) { QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR, "%s: dp_rx_desc_pool_alloc() failed \n", __func__); return status; } QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_INFO_LOW, "%s: Mon RX Status Buffers Replenish pdev_id=%d\n", __func__, pdev_id); status = dp_rx_mon_status_buffers_replenish(soc, pdev_id, rxdma_srng, rx_desc_pool, rxdma_entries, &desc_list, &tail, HAL_RX_BUF_RBM_SW3_BM); if (!QDF_IS_STATUS_SUCCESS(status)) { QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_ERROR, "%s: dp_rx_buffers_replenish() failed \n", __func__); return status; } qdf_nbuf_queue_init(&pdev->rx_status_q); pdev->mon_ppdu_status = DP_PPDU_STATUS_START; qdf_mem_zero(&(pdev->ppdu_info.rx_status), sizeof(pdev->ppdu_info.rx_status)); return QDF_STATUS_SUCCESS; }