/* * Copyright (c) 2011-2018 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. */ /** * @file cdp_txrx_cmn_struct.h * @brief Define the host data path converged API functions * called by the host control SW and the OS interface module */ #ifndef _CDP_TXRX_CMN_STRUCT_H_ #define _CDP_TXRX_CMN_STRUCT_H_ /** * For WIN legacy header compilation * Temporary add dummy definitions * should be removed properly WIN legacy code handle */ #include "htc_api.h" #include "qdf_types.h" #include "qdf_nbuf.h" #include "qdf_atomic.h" #ifndef CONFIG_WIN #include #endif /* CONFIG_WIN */ #include #ifndef OL_TXRX_NUM_LOCAL_PEER_IDS #define OL_TXRX_NUM_LOCAL_PEER_IDS 33 /* default */ #endif #define CDP_BA_256_BIT_MAP_SIZE_DWORDS 8 #define CDP_BA_64_BIT_MAP_SIZE_DWORDS 2 #define OL_TXRX_INVALID_LOCAL_PEER_ID 0xffff #define CDP_INVALID_VDEV_ID 0xff /* 1 additional MCS is for invalid values */ #define MAX_MCS (12 + 1) #define MAX_MCS_11A 8 #define MAX_MCS_11B 7 #define MAX_MCS_11AC 12 /* 1 additional GI is for invalid values */ #define MAX_GI (4 + 1) #define SS_COUNT 8 #define MAX_BW 7 #define MAX_RECEPTION_TYPES 4 /* Options for Dump Statistics */ #define CDP_HDD_STATS 0 #define CDP_TXRX_PATH_STATS 1 #define CDP_TXRX_HIST_STATS 2 #define CDP_TXRX_TSO_STATS 3 #define CDP_HDD_NETIF_OPER_HISTORY 4 #define CDP_DUMP_TX_FLOW_POOL_INFO 5 #define CDP_TXRX_DESC_STATS 6 #define CDP_HIF_STATS 7 #define CDP_LRO_STATS 8 #define CDP_NAPI_STATS 9 #define CDP_WLAN_RX_BUF_DEBUG_STATS 10 #define CDP_RX_RING_STATS 11 #define CDP_DP_NAPI_STATS 12 #define CDP_SCHEDULER_STATS 21 #define CDP_TX_QUEUE_STATS 22 #define CDP_BUNDLE_STATS 23 #define CDP_CREDIT_STATS 24 #define CDP_DISCONNECT_STATS 25 /* WME stream classes */ #define WME_AC_BE 0 /* best effort */ #define WME_AC_BK 1 /* background */ #define WME_AC_VI 2 /* video */ #define WME_AC_VO 3 /* voice */ #define WME_AC_MAX 4 /* MAX AC Value */ #define WME_AC_TO_TID(_ac) ( \ ((_ac) == WME_AC_VO) ? 6 : \ ((_ac) == WME_AC_VI) ? 5 : \ ((_ac) == WME_AC_BK) ? 1 : \ 0) #define TID_TO_WME_AC(_tid) ( \ (((_tid) == 0) || ((_tid) == 3)) ? WME_AC_BE : \ (((_tid) == 1) || ((_tid) == 2)) ? WME_AC_BK : \ (((_tid) == 4) || ((_tid) == 5)) ? WME_AC_VI : \ WME_AC_VO) #define CDP_MAX_RX_RINGS 4 #define CDP_MU_MAX_USERS 8 #define CDP_MU_MAX_USER_INDEX (CDP_MU_MAX_USERS - 1) /* * advance rx monitor filter * */ #define MON_FILTER_PASS 0x0001 #define MON_FILTER_OTHER 0x0002 #define MON_FILTER_ALL 0x0003 #define FILTER_MGMT_ALL 0xFFFF #define FILTER_MGMT_ASSOC_REQ 0x0001 #define FILTER_MGMT_ASSOC_RES 0x0002 #define FILTER_MGMT_REASSOC_REQ 0x0004 #define FILTER_MGMT_REASSOC_RES 0x0008 #define FILTER_MGMT_PROBE_REQ 0x0010 #define FILTER_MGMT_PROBE_RES 0x0020 #define FILTER_MGMT_TIM_ADVT 0x0040 #define FILTER_MGMT_RESERVED_7 0x0080 #define FILTER_MGMT_BEACON 0x0100 #define FILTER_MGMT_ATIM 0x0200 #define FILTER_MGMT_DISASSOC 0x0400 #define FILTER_MGMT_AUTH 0x0800 #define FILTER_MGMT_DEAUTH 0x1000 #define FILTER_MGMT_ACTION 0x2000 #define FILTER_MGMT_ACT_NO_ACK 0x4000 #define FILTER_MGMT_RESERVED_15 0x8000 #define FILTER_CTRL_ALL 0xFFFF #define FILTER_CTRL_RESERVED_1 0x0001 #define FILTER_CTRL_RESERVED_2 0x0002 #define FILTER_CTRL_TRIGGER 0x0004 #define FILTER_CTRL_RESERVED_4 0x0008 #define FILTER_CTRL_BF_REP_POLL 0x0010 #define FILTER_CTRL_VHT_NDP 0x0020 #define FILTER_CTRL_FRAME_EXT 0x0040 #define FILTER_CTRL_CTRLWRAP 0x0080 #define FILTER_CTRL_BA_REQ 0x0100 #define FILTER_CTRL_BA 0x0200 #define FILTER_CTRL_PSPOLL 0x0400 #define FILTER_CTRL_RTS 0x0800 #define FILTER_CTRL_CTS 0x1000 #define FILTER_CTRL_ACK 0x2000 #define FILTER_CTRL_CFEND 0x4000 #define FILTER_CTRL_CFEND_CFACK 0x8000 #define FILTER_DATA_ALL 0xFFFF #define FILTER_DATA_MCAST 0x4000 #define FILTER_DATA_UCAST 0x8000 #define FILTER_DATA_DATA 0x0001 #define FILTER_DATA_NULL 0x0008 /* * DP configuration parameters */ enum cdp_cfg_param_type { CDP_CFG_MAX_PEER_ID, CDP_CFG_CCE_DISABLE, CDP_CFG_NUM_PARAMS }; /* * htt_dbg_stats_type - * bit positions for each stats type within a stats type bitmask * The bitmask contains 24 bits. */ enum htt_cmn_dbg_stats_type { HTT_DBG_CMN_STATS_WAL_PDEV_TXRX = 0, /* bit 0 -> 0x1 */ HTT_DBG_CMN_STATS_RX_REORDER = 1, /* bit 1 -> 0x2 */ HTT_DBG_CMN_STATS_RX_RATE_INFO = 2, /* bit 2 -> 0x4 */ HTT_DBG_CMN_STATS_TX_PPDU_LOG = 3, /* bit 3 -> 0x8 */ HTT_DBG_CMN_STATS_TX_RATE_INFO = 4, /* bit 4 -> 0x10 */ HTT_DBG_CMN_STATS_TIDQ = 5, /* bit 5 -> 0x20 */ HTT_DBG_CMN_STATS_TXBF_INFO = 6, /* bit 6 -> 0x40 */ HTT_DBG_CMN_STATS_SND_INFO = 7, /* bit 7 -> 0x80 */ HTT_DBG_CMN_STATS_ERROR_INFO = 8, /* bit 8 -> 0x100 */ HTT_DBG_CMN_STATS_TX_SELFGEN_INFO = 9, /* bit 9 -> 0x200 */ HTT_DBG_CMN_STATS_TX_MU_INFO = 10, /* bit 10 -> 0x400 */ HTT_DBG_CMN_STATS_SIFS_RESP_INFO = 11, /* bit 11 -> 0x800 */ HTT_DBG_CMN_STATS_RESET_INFO = 12, /* bit 12 -> 0x1000 */ HTT_DBG_CMN_STATS_MAC_WDOG_INFO = 13, /* bit 13 -> 0x2000 */ HTT_DBG_CMN_STATS_TX_DESC_INFO = 14, /* bit 14 -> 0x4000 */ HTT_DBG_CMN_STATS_TX_FETCH_MGR_INFO = 15, /* bit 15 -> 0x8000 */ HTT_DBG_CMN_STATS_TX_PFSCHED_INFO = 16, /* bit 16 -> 0x10000 */ HTT_DBG_CMN_STATS_TX_PATH_STATS_INFO = 17, /* bit 17 -> 0x20000 */ /* bits 18-23 currently reserved */ /* keep this last */ HTT_DBG_CMN_NUM_STATS }; /* * cdp_host_txrx_stats: Different types of host stats * @TXRX_HOST_STATS_INVALID: Invalid option * @TXRX_RX_RATE_STATS: Rx rate info * @TXRX_TX_RATE_STATS: Tx rate info * @TXRX_TX_HOST_STATS: Print Tx stats * @TXRX_RX_HOST_STATS: Print host Rx stats * @TXRX_CLEAR_STATS: clear all host stats * @TXRX_SRNG_PTR_STATS: Print SRNG pointer stats */ enum cdp_host_txrx_stats { TXRX_HOST_STATS_INVALID = -1, TXRX_CLEAR_STATS = 0, TXRX_RX_RATE_STATS = 1, TXRX_TX_RATE_STATS = 2, TXRX_TX_HOST_STATS = 3, TXRX_RX_HOST_STATS = 4, TXRX_AST_STATS = 5, TXRX_SRNG_PTR_STATS = 6, TXRX_HOST_STATS_MAX, }; /* * cdp_ppdu_ftype: PPDU Frame Type * @CDP_PPDU_FTYPE_DATA: SU or MU Data Frame * @CDP_PPDU_FTYPE_CTRL: Control/Management Frames */ enum cdp_ppdu_ftype { CDP_PPDU_FTYPE_CTRL, CDP_PPDU_FTYPE_DATA, CDP_PPDU_FTYPE_MAX }; /** * @brief General specification of the tx frame contents * * @details * for efficiency, the HTT packet type values correspond * to the bit positions of the WAL packet type values, so the * translation is a simple shift operation. */ enum htt_cmn_pkt_type { htt_cmn_pkt_type_raw = 0, htt_cmn_pkt_type_native_wifi = 1, htt_cmn_pkt_type_ethernet = 2, /* keep this last */ htt_cmn_pkt_num_types }; enum cdp_host_reo_dest_ring { cdp_host_reo_dest_ring_unknown = 0, cdp_host_reo_dest_ring_1 = 1, cdp_host_reo_dest_ring_2 = 2, cdp_host_reo_dest_ring_3 = 3, cdp_host_reo_dest_ring_4 = 4, }; enum htt_cmn_t2h_en_stats_type { /* keep this alwyas first */ HTT_CMN_T2H_EN_STATS_TYPE_START = 0, /** ppdu_common_stats is the payload */ HTT_CMN_T2H_EN_STATS_TYPE_COMMON = 1, /** ppdu_sant_stats is the payload */ HTT_CMN_T2H_EN_STATS_TYPE_SANT = 2, /** ppdu_common_stats_v2 is the payload */ HTT_CMN_T2H_EN_STATS_TYPE_COMMON_V2 = 3, /* Keep this last */ HTT_CMN_T2H_EN_STATS_TYPE_END = 0x1f, }; enum htt_cmn_t2h_en_stats_status { /* Keep this first always */ HTT_CMN_T2H_EN_STATS_STATUS_PARTIAL = 0, HTT_CMN_T2H_EN_STATS_STATUS_PRESENT = 1, HTT_CMN_T2H_EN_STATS_STATUS_ERROR = 2, HTT_CMN_T2H_EN_STATS_STATUS_INVALID = 3, /* keep this always last */ HTT_CMN_T2H_EN_STATS_STATUS_SERIES_DONE = 7, }; /** * struct ol_txrx_peer_state - Peer state information */ enum ol_txrx_peer_state { OL_TXRX_PEER_STATE_INVALID, OL_TXRX_PEER_STATE_DISC, /* initial state */ OL_TXRX_PEER_STATE_CONN, /* authentication in progress */ OL_TXRX_PEER_STATE_AUTH, /* authentication successful */ }; /** * struct ol_txrx_ast_type - AST entry type information */ enum cdp_txrx_ast_entry_type { CDP_TXRX_AST_TYPE_NONE, /* static ast entry for connected peer */ CDP_TXRX_AST_TYPE_STATIC,/* static ast entry for connected peer */ CDP_TXRX_AST_TYPE_WDS, /* WDS peer ast entry type*/ CDP_TXRX_AST_TYPE_MEC, /* Multicast echo ast entry type */ CDP_TXRX_AST_TYPE_MAX }; /** * struct cdp_sec_type - security type information */ enum cdp_sec_type { cdp_sec_type_none, cdp_sec_type_wep128, cdp_sec_type_wep104, cdp_sec_type_wep40, cdp_sec_type_tkip, cdp_sec_type_tkip_nomic, cdp_sec_type_aes_ccmp, cdp_sec_type_wapi, cdp_sec_type_aes_ccmp_256, cdp_sec_type_aes_gcmp, cdp_sec_type_aes_gcmp_256, /* keep this last! */ cdp_num_sec_types }; typedef struct cdp_soc_t *ol_txrx_soc_handle; /** * ol_txrx_vdev_delete_cb - callback registered during vdev * detach */ typedef void (*ol_txrx_vdev_delete_cb)(void *context); /** * ol_osif_vdev_handle - paque handle for OS shim virtual device * object */ struct ol_osif_vdev_t; typedef struct ol_osif_vdev_t *ol_osif_vdev_handle; /** * wlan_op_mode - Virtual device operation mode * @wlan_op_mode_unknown: Unknown mode * @wlan_op_mode_ap: AP mode * @wlan_op_mode_ibss: IBSS mode * @wlan_op_mode_sta: STA (client) mode * @wlan_op_mode_monitor: Monitor mode * @wlan_op_mode_ocb: OCB mode */ enum wlan_op_mode { wlan_op_mode_unknown, wlan_op_mode_ap, wlan_op_mode_ibss, wlan_op_mode_sta, wlan_op_mode_monitor, wlan_op_mode_ocb, wlan_op_mode_ndi, }; /** * cdp_mgmt_tx_cb - tx management delivery notification * callback function */ typedef void (*ol_txrx_mgmt_tx_cb)(void *ctxt, qdf_nbuf_t tx_mgmt_frm, int had_error); /** * ol_txrx_data_tx_cb - Function registered with the data path * that is called when tx frames marked as "no free" are * done being transmitted */ typedef void (*ol_txrx_data_tx_cb)(void *ctxt, qdf_nbuf_t tx_frm, int had_error); /** * ol_txrx_tx_fp - top-level transmit function * @data_vdev - handle to the virtual device object * @msdu_list - list of network buffers */ typedef qdf_nbuf_t (*ol_txrx_tx_fp)(void *data_vdev, qdf_nbuf_t msdu_list); /** * ol_txrx_tx_flow_control_fp - tx flow control notification * function from txrx to OS shim * @osif_dev - the virtual device's OS shim object * @tx_resume - tx os q should be resumed or not */ typedef void (*ol_txrx_tx_flow_control_fp)(void *osif_dev, bool tx_resume); /** * ol_txrx_tx_flow_control_is_pause_fp - is tx paused by flow control * function from txrx to OS shim * @osif_dev - the virtual device's OS shim object * * Return: true if tx is paused by flow control */ typedef bool (*ol_txrx_tx_flow_control_is_pause_fp)(void *osif_dev); /** * ol_txrx_rx_fp - receive function to hand batches of data * frames from txrx to OS shim * @data_vdev - handle to the OSIF virtual device object * @msdu_list - list of network buffers */ typedef QDF_STATUS(*ol_txrx_rx_fp)(void *osif_dev, qdf_nbuf_t msdu_list); /** * ol_txrx_get_key_fp - function to gey key based on keyix and peer * mac address * @osif_dev - the virtual device's OS shim object * @key_buf - pointer to store key * @mac_addr - pointer to mac address * @keyix - key id */ typedef QDF_STATUS(*ol_txrx_get_key_fp)(void *osif_dev, uint8_t *key_buf, uint8_t *mac_addr, uint8_t keyix); /** * ol_txrx_rsim_rx_decap_fp - raw mode simulation function to decap the * packets in receive path. * @osif_dev - the virtual device's OS shim object * @list_head - poniter to head of receive packet queue to decap * @list_tail - poniter to tail of receive packet queue to decap * @peer - Peer handler */ typedef QDF_STATUS(*ol_txrx_rsim_rx_decap_fp)(void *osif_dev, qdf_nbuf_t *list_head, qdf_nbuf_t *list_tail, struct cdp_peer *peer); /* ol_txrx_rx_fp - external tx free function to read per packet stats and * free tx buffer externally * @netbuf - tx network buffer */ typedef void (*ol_txrx_tx_free_ext_fp)(qdf_nbuf_t netbuf); /** * ol_txrx_rx_check_wai_fp - OSIF WAPI receive function */ typedef bool (*ol_txrx_rx_check_wai_fp)(ol_osif_vdev_handle vdev, qdf_nbuf_t mpdu_head, qdf_nbuf_t mpdu_tail); /** * ol_txrx_rx_mon_fp - OSIF monitor mode receive function for single * MPDU (802.11 format) */ typedef void (*ol_txrx_rx_mon_fp)(ol_osif_vdev_handle vdev, qdf_nbuf_t mpdu, void *rx_status); /** * ol_txrx_proxy_arp_fp - proxy arp function pointer */ typedef int (*ol_txrx_proxy_arp_fp)(ol_osif_vdev_handle vdev, qdf_nbuf_t netbuf); /* * ol_txrx_mcast_me_fp - function pointer for multicast enhancement */ typedef int (*ol_txrx_mcast_me_fp)(ol_osif_vdev_handle vdev, qdf_nbuf_t netbuf); /** * ol_txrx_stats_callback - statistics notify callback */ typedef void (*ol_txrx_stats_callback)(void *ctxt, enum htt_cmn_dbg_stats_type type, uint8_t *buf, int bytes); /** * ol_txrx_ops - (pointers to) the functions used for tx and rx * data xfer * * There are two portions of these txrx operations. * The rx portion is filled in by OSIF SW before calling * ol_txrx_osif_vdev_register; inside the ol_txrx_osif_vdev_register * the txrx SW stores a copy of these rx function pointers, to use * as it delivers rx data frames to the OSIF SW. * The tx portion is filled in by the txrx SW inside * ol_txrx_osif_vdev_register; when the function call returns, * the OSIF SW stores a copy of these tx functions to use as it * delivers tx data frames to the txrx SW. * * @tx.std - the tx function pointer for standard data * frames This function pointer is set by the txrx SW * perform host-side transmit operations based on * whether a HL or LL host/target interface is in use. * @tx.flow_control_cb - the transmit flow control * function that is registered by the * OSIF which is called from txrx to * indicate whether the transmit OS * queues should be paused/resumed * @rx.std - the OS shim rx function to deliver rx data * frames to. This can have different values for * different virtual devices, e.g. so one virtual * device's OS shim directly hands rx frames to the OS, * but another virtual device's OS shim filters out P2P * messages before sending the rx frames to the OS. The * netbufs delivered to the osif_rx function are in the * format specified by the OS to use for tx and rx * frames (either 802.3 or native WiFi) * @rx.wai_check - the tx function pointer for WAPI frames * @rx.mon - the OS shim rx monitor function to deliver * monitor data to Though in practice, it is probable * that the same function will be used for delivering * rx monitor data for all virtual devices, in theory * each different virtual device can have a different * OS shim function for accepting rx monitor data. The * netbufs delivered to the osif_rx_mon function are in * 802.11 format. Each netbuf holds a 802.11 MPDU, not * an 802.11 MSDU. Depending on compile-time * configuration, each netbuf may also have a * monitor-mode encapsulation header such as a radiotap * header added before the MPDU contents. * @rx.std - the OS shim rx function to deliver rx data * @proxy_arp - proxy arp function pointer - specified by * OS shim, stored by txrx * @get_key - function pointer to get key of the peer with * specific key index */ struct ol_txrx_ops { /* tx function pointers - specified by txrx, stored by OS shim */ struct { ol_txrx_tx_fp tx; ol_txrx_tx_free_ext_fp tx_free_ext; } tx; /* rx function pointers - specified by OS shim, stored by txrx */ struct { ol_txrx_rx_fp rx; ol_txrx_rx_check_wai_fp wai_check; ol_txrx_rx_mon_fp mon; ol_txrx_rsim_rx_decap_fp rsim_rx_decap; } rx; /* proxy arp function pointer - specified by OS shim, stored by txrx */ ol_txrx_proxy_arp_fp proxy_arp; ol_txrx_mcast_me_fp me_convert; ol_txrx_get_key_fp get_key; }; /** * ol_txrx_stats_req - specifications of the requested * statistics */ struct ol_txrx_stats_req { uint32_t stats_type_upload_mask; /* which stats to upload */ uint32_t stats_type_reset_mask; /* which stats to reset */ /* stats will be printed if either print element is set */ struct { int verbose; /* verbose stats printout */ int concise; /* concise stats printout (takes precedence) */ } print; /* print uploaded stats */ /* stats notify callback will be invoked if fp is non-NULL */ struct { ol_txrx_stats_callback fp; void *ctxt; } callback; /* stats will be copied into the specified buffer if buf is non-NULL */ struct { uint8_t *buf; int byte_limit; /* don't copy more than this */ } copy; /* * If blocking is true, the caller will take the specified semaphore * to wait for the stats to be uploaded, and the driver will release * the semaphore when the stats are done being uploaded. */ struct { int blocking; /*Note: this needs to change to some qdf_* type */ qdf_semaphore_t *sem_ptr; } wait; }; /* DP soc struct definition */ struct cdp_soc_t { struct cdp_ops *ops; struct ol_if_ops *ol_ops; }; /* * cdp_pdev_param_type: different types of parameters * to set values in pdev * @CDP_CONFIG_DEBUG_SNIFFER: Enable debug sniffer feature */ enum cdp_pdev_param_type { CDP_CONFIG_DEBUG_SNIFFER, }; /* * cdp_vdev_param_type: different types of parameters * to set values in vdev * @CDP_ENABLE_NAWDS: set nawds enable/disable * @CDP_ENABLE_MCAST_EN: enable/disable multicast enhancement * @CDP_ENABLE_WDS: wds sta * @CDP_ENABLE_PROXYSTA: proxy sta * @CDP_UPDATE_TDLS_FLAGS: tdls link flags * @CDP_ENABLE_AP_BRIDGE: set ap_bridging enable/disable * @CDP_ENABLE_CIPHER : set cipher type based on security * @CDP_ENABLE_QWRAP_ISOLATION: qwrap isolation mode */ enum cdp_vdev_param_type { CDP_ENABLE_NAWDS, CDP_ENABLE_MCAST_EN, CDP_ENABLE_WDS, CDP_ENABLE_PROXYSTA, CDP_UPDATE_TDLS_FLAGS, CDP_CFG_WDS_AGING_TIMER, CDP_ENABLE_AP_BRIDGE, CDP_ENABLE_CIPHER, CDP_ENABLE_QWRAP_ISOLATION }; #define TXRX_FW_STATS_TXSTATS 1 #define TXRX_FW_STATS_RXSTATS 2 #define TXRX_FW_STATS_RX_RATE_INFO 3 #define TXRX_FW_STATS_PHYSTATS 4 #define TXRX_FW_STATS_PHYSTATS_CONCISE 5 #define TXRX_FW_STATS_TX_RATE_INFO 6 #define TXRX_FW_STATS_TID_STATE 7 #define TXRX_FW_STATS_HOST_STATS 8 #define TXRX_FW_STATS_CLEAR_HOST_STATS 9 #define TXRX_FW_STATS_CE_STATS 10 #define TXRX_FW_STATS_VOW_UMAC_COUNTER 11 #define TXRX_FW_STATS_ME_STATS 12 #define TXRX_FW_STATS_TXBF_INFO 13 #define TXRX_FW_STATS_SND_INFO 14 #define TXRX_FW_STATS_ERROR_INFO 15 #define TXRX_FW_STATS_TX_SELFGEN_INFO 16 #define TXRX_FW_STATS_TX_MU_INFO 17 #define TXRX_FW_SIFS_RESP_INFO 18 #define TXRX_FW_RESET_STATS 19 #define TXRX_FW_MAC_WDOG_STATS 20 #define TXRX_FW_MAC_DESC_STATS 21 #define TXRX_FW_MAC_FETCH_MGR_STATS 22 #define TXRX_FW_MAC_PREFETCH_MGR_STATS 23 #define TXRX_FW_STATS_DURATION_INFO 24 #define TXRX_FW_STATS_DURATION_INFO_RESET 25 #define TXRX_FW_HALPHY_STATS 26 #define TXRX_FW_STATS_HOST_RX_STATS 27 #define PER_RADIO_FW_STATS_REQUEST 0 #define PER_VDEV_FW_STATS_REQUEST 1 /** * enum data_stall_log_event_indicator - Module triggering data stall * @DATA_STALL_LOG_INDICATOR_UNUSED: Unused * @DATA_STALL_LOG_INDICATOR_HOST_DRIVER: Host driver indicates data stall * @DATA_STALL_LOG_INDICATOR_FIRMWARE: FW indicates data stall * @DATA_STALL_LOG_INDICATOR_FRAMEWORK: Framework indicates data stall * * Enum indicating the module that indicates data stall event */ enum data_stall_log_event_indicator { DATA_STALL_LOG_INDICATOR_UNUSED, DATA_STALL_LOG_INDICATOR_HOST_DRIVER, DATA_STALL_LOG_INDICATOR_FIRMWARE, DATA_STALL_LOG_INDICATOR_FRAMEWORK, }; /** * enum data_stall_log_event_type - data stall event type * @DATA_STALL_LOG_NONE * @DATA_STALL_LOG_FW_VDEV_PAUSE * @DATA_STALL_LOG_HWSCHED_CMD_FILTER * @DATA_STALL_LOG_HWSCHED_CMD_FLUSH * @DATA_STALL_LOG_FW_RX_REFILL_FAILED * @DATA_STALL_LOG_FW_RX_FCS_LEN_ERROR * @DATA_STALL_LOG_FW_WDOG_ERRORS * @DATA_STALL_LOG_BB_WDOG_ERROR * @DATA_STALL_LOG_POST_TIM_NO_TXRX_ERROR * @DATA_STALL_LOG_HOST_STA_TX_TIMEOUT * @DATA_STALL_LOG_HOST_SOFTAP_TX_TIMEOUT * @DATA_STALL_LOG_NUD_FAILURE * * Enum indicating data stall event type */ enum data_stall_log_event_type { DATA_STALL_LOG_NONE, DATA_STALL_LOG_FW_VDEV_PAUSE, DATA_STALL_LOG_HWSCHED_CMD_FILTER, DATA_STALL_LOG_HWSCHED_CMD_FLUSH, DATA_STALL_LOG_FW_RX_REFILL_FAILED, DATA_STALL_LOG_FW_RX_FCS_LEN_ERROR, DATA_STALL_LOG_FW_WDOG_ERRORS, DATA_STALL_LOG_BB_WDOG_ERROR, DATA_STALL_LOG_POST_TIM_NO_TXRX_ERROR, /* Stall events triggered by host/framework start from 0x100 onwards. */ DATA_STALL_LOG_HOST_STA_TX_TIMEOUT = 0x100, DATA_STALL_LOG_HOST_SOFTAP_TX_TIMEOUT, DATA_STALL_LOG_NUD_FAILURE, }; /** * enum data_stall_log_recovery_type - data stall recovery type * @DATA_STALL_LOG_RECOVERY_NONE, * @DATA_STALL_LOG_RECOVERY_CONNECT_DISCONNECT, * @DATA_STALL_LOG_RECOVERY_TRIGGER_PDR * * Enum indicating data stall recovery type */ enum data_stall_log_recovery_type { DATA_STALL_LOG_RECOVERY_NONE = 0, DATA_STALL_LOG_RECOVERY_CONNECT_DISCONNECT, DATA_STALL_LOG_RECOVERY_TRIGGER_PDR, }; /** * struct data_stall_event_info - data stall info * @indicator: Module triggering data stall * @data_stall_type: data stall event type * @vdev_id_bitmap: vdev_id_bitmap * @pdev_id: pdev id * @recovery_type: data stall recovery type */ struct data_stall_event_info { uint32_t indicator; uint32_t data_stall_type; uint32_t vdev_id_bitmap; uint32_t pdev_id; uint32_t recovery_type; }; typedef void (*data_stall_detect_cb)(struct data_stall_event_info *); /* * cdp_stats - options for host and firmware * statistics */ enum cdp_stats { CDP_TXRX_STATS_0 = 0, CDP_TXRX_STATS_1, CDP_TXRX_STATS_2, CDP_TXRX_STATS_3, CDP_TXRX_STATS_4, CDP_TXRX_STATS_5, CDP_TXRX_STATS_6, CDP_TXRX_STATS_7, CDP_TXRX_STATS_8, CDP_TXRX_STATS_9, CDP_TXRX_STATS_10, CDP_TXRX_STATS_11, CDP_TXRX_STATS_12, CDP_TXRX_STATS_13, CDP_TXRX_STATS_14, CDP_TXRX_STATS_15, CDP_TXRX_STATS_16, CDP_TXRX_STATS_17, CDP_TXRX_STATS_18, CDP_TXRX_STATS_19, CDP_TXRX_STATS_20, CDP_TXRX_STATS_21, CDP_TXRX_STATS_22, CDP_TXRX_STATS_23, CDP_TXRX_STATS_24, CDP_TXRX_STATS_25, CDP_TXRX_STATS_26, CDP_TXRX_STATS_27, CDP_TXRX_STATS_HTT_MAX = 256, CDP_TXRX_MAX_STATS = 512, }; /* Different Packet Types */ enum cdp_packet_type { DOT11_A = 0, DOT11_B = 1, DOT11_N = 2, DOT11_AC = 3, DOT11_AX = 4, DOT11_MAX = 5, }; /* * Different Stat update types sent to OL_IF * @UPDATE_PEER_STATS: update peer stats * @UPDATE_VDEV_STATS: update vdev stats * @UPDATE_PDE_STATS: Update pdev stats */ enum cdp_stat_update_type { UPDATE_PEER_STATS = 0, UPDATE_VDEV_STATS = 1, UPDATE_PDEV_STATS = 2, }; /* packet info */ struct cdp_pkt_info { /*no of packets*/ uint32_t num; /* total no of bytes */ uint64_t bytes; }; /* Tx Stats */ struct cdp_tx_stats { /* Pkt Info for which completions were received */ struct cdp_pkt_info comp_pkt; /* Unicast Packet Count */ struct cdp_pkt_info ucast; /* Multicast Packet Count */ struct cdp_pkt_info mcast; /*NAWDS Multicast Packet Count */ struct cdp_pkt_info nawds_mcast; /*NAWDS Multicast Drop Count */ uint32_t nawds_mcast_drop; /* Successful Tx Packets */ struct cdp_pkt_info tx_success; /* Total Tx failure */ uint32_t tx_failed; /* Total Packets as ofdma*/ uint32_t ofdma; /* Packets in STBC */ uint32_t stbc; /* Packets in LDPC */ uint32_t ldpc; /* Packet retries */ uint32_t retries; /* Number of MSDUs with no MSDU level aggregation */ uint32_t non_amsdu_cnt; /* Number of MSDUs part of AMSDU*/ uint32_t amsdu_cnt; /* Tx Rate */ uint32_t tx_rate; /* RSSI of last packet */ uint32_t last_ack_rssi; /* Packet Type */ struct { /* MCS Count */ uint32_t mcs_count[MAX_MCS]; } pkt_type[DOT11_MAX]; /* SGI count */ uint32_t sgi_count[MAX_GI]; /* Packet Count for different bandwidths */ uint32_t bw[MAX_BW]; /* Excess Retry Count */ uint32_t excess_retries[WME_AC_MAX]; /* Wireless Multimedia type Count */ uint32_t wme_ac_type[WME_AC_MAX]; /* Wireless Multimedia type Count */ uint32_t excess_retries_ac[WME_AC_MAX]; /* Packets dropped on the Tx side */ struct { /* Discarded by firmware */ uint32_t fw_rem; /* firmware_discard_untransmitted */ uint32_t fw_rem_notx; /* firmware_discard_transmitted */ uint32_t fw_rem_tx; /* aged out in mpdu/msdu queues*/ uint32_t age_out; } dropped; }; /* Rx Level Stats */ struct cdp_rx_stats { /* Total packets sent up the stack */ struct cdp_pkt_info to_stack; /* Packets received on the reo ring */ struct cdp_pkt_info rcvd_reo[CDP_MAX_RX_RINGS]; /* Total unicast packets */ struct cdp_pkt_info unicast; /* Total multicast packets */ struct cdp_pkt_info multicast; /* WDS packets received */ struct cdp_pkt_info wds; /* Raw Pakets received */ struct cdp_pkt_info raw; /* Total multicast packets */ struct cdp_pkt_info nawds_mcast_drop; struct { /* Intra BSS packets received */ struct cdp_pkt_info pkts; struct cdp_pkt_info fail; } intra_bss; /* Errors */ struct { /* Rx MIC errors */ uint32_t mic_err; /* Rx Decryption Errors */ uint32_t decrypt_err; } err; /* Wireless Multimedia type Count */ uint32_t wme_ac_type[WME_AC_MAX]; /* Reception type os packets */ uint32_t reception_type[MAX_RECEPTION_TYPES]; /* Packet Type */ struct { /* MCS Count */ uint32_t mcs_count[MAX_MCS]; } pkt_type[DOT11_MAX]; /* SGI count */ uint32_t sgi_count[MAX_GI]; /* Packet count in spatiel Streams */ uint32_t nss[SS_COUNT]; /* Packet Count in different bandwidths */ uint32_t bw[MAX_BW]; /* Number of MSDUs with no MPDU level aggregation */ uint32_t non_ampdu_cnt; /* Number of MSDUs part of AMSPU */ uint32_t ampdu_cnt; /* Number of MSDUs with no MSDU level aggregation */ uint32_t non_amsdu_cnt; /* Number of MSDUs part of AMSDU*/ uint32_t amsdu_cnt; /* Number of bar received */ uint32_t bar_recv_cnt; /* RSSI of received signal */ uint32_t rssi; /*Rx rate */ uint32_t rx_rate; }; /* Tx ingress Stats */ struct cdp_tx_ingress_stats { /* Total packets received for transmission */ struct cdp_pkt_info rcvd; /* Tx packets processed*/ struct cdp_pkt_info processed; /* Total packets passed Reinject handler */ struct cdp_pkt_info reinject_pkts; /* Total packets passed to inspect handler */ struct cdp_pkt_info inspect_pkts; /*NAWDS Multicast Packet Count */ struct cdp_pkt_info nawds_mcast; struct { /* Total Raw packets */ struct cdp_pkt_info raw_pkt; /* DMA map error */ uint32_t dma_map_error; } raw; /* TSO packets info */ struct { /* No of segments in TSO packets */ uint32_t num_seg; /* total no of TSO packets */ struct cdp_pkt_info tso_pkt; /* TSO packets dropped by host */ uint32_t dropped_host; /* TSO packets dropped by target */ uint32_t dropped_target; } tso; /* Scatter Gather packet info */ struct { /* Total scatter gather packets */ struct cdp_pkt_info sg_pkt; /* SG packets dropped by host */ uint32_t dropped_host; /* SG packets dropped by target */ uint32_t dropped_target; /* Dma map error */ uint32_t dma_map_error; } sg; /* Multicast Enhancement packets info */ struct { /* total no of multicast conversion packets */ struct cdp_pkt_info mcast_pkt; /* packets dropped due to map error */ uint32_t dropped_map_error; /* packets dropped due to self Mac address */ uint32_t dropped_self_mac; /* Packets dropped due to send fail */ uint32_t dropped_send_fail; /* total unicast packets transmitted */ uint32_t ucast; /* Segment allocation failure */ uint32_t fail_seg_alloc; /* NBUF clone failure */ uint32_t clone_fail; } mcast_en; /* Packets dropped on the Tx side */ struct { /* Total scatter gather packets */ struct cdp_pkt_info dropped_pkt; /* Desc Not Available */ uint32_t desc_na; /* Ring Full */ uint32_t ring_full; /* Hwenqueue failed */ uint32_t enqueue_fail; /* DMA failed */ uint32_t dma_error; /* Resource Full: Congestion Control */ uint32_t res_full; } dropped; /* Mesh packets info */ struct { /* packets sent to fw */ uint32_t exception_fw; /* packets completions received from fw */ uint32_t completion_fw; } mesh; /*Number of packets classified by CCE*/ uint32_t cce_classified; /*Number of raw packets classified by CCE*/ uint32_t cce_classified_raw; }; struct cdp_vdev_stats { /* Tx ingress stats */ struct cdp_tx_ingress_stats tx_i; /* CDP Tx Stats */ struct cdp_tx_stats tx; /* CDP Rx Stats */ struct cdp_rx_stats rx; }; struct cdp_peer_stats { /* CDP Tx Stats */ struct cdp_tx_stats tx; /* CDP Rx Stats */ struct cdp_rx_stats rx; }; /* Tx completions per interrupt */ struct cdp_hist_tx_comp { uint32_t pkts_1; uint32_t pkts_2_20; uint32_t pkts_21_40; uint32_t pkts_41_60; uint32_t pkts_61_80; uint32_t pkts_81_100; uint32_t pkts_101_200; uint32_t pkts_201_plus; }; /* Rx ring descriptors reaped per interrupt */ struct cdp_hist_rx_ind { uint32_t pkts_1; uint32_t pkts_2_20; uint32_t pkts_21_40; uint32_t pkts_41_60; uint32_t pkts_61_80; uint32_t pkts_81_100; uint32_t pkts_101_200; uint32_t pkts_201_plus; }; struct cdp_pdev_stats { /* packets dropped on rx */ struct { /* packets dropped because nsdu_done bit not set */ uint32_t msdu_not_done; /* Multicast Echo check */ uint32_t mec; /* Mesh Filtered packets */ uint32_t mesh_filter; } dropped; struct { /* total packets replnished */ struct cdp_pkt_info pkts; /* rxdma errors */ uint32_t rxdma_err; /* nbuf alloc failed */ uint32_t nbuf_alloc_fail; /* Mapping failure */ uint32_t map_err; /* x86 failures */ uint32_t x86_fail; /* low threshold interrupts */ uint32_t low_thresh_intrs; } replenish; /* Rx Raw Packets */ uint32_t rx_raw_pkts; /* Mesh Rx Stats Alloc fail */ uint32_t mesh_mem_alloc; /* Rx errors */ struct { /* desc alloc failed errors */ uint32_t desc_alloc_fail; } err; /* buffers added back in freelist */ uint32_t buf_freelist; /* Tx Ingress stats */ struct cdp_tx_ingress_stats tx_i; /* CDP Tx Stats */ struct cdp_tx_stats tx; /* CDP Rx Stats */ struct cdp_rx_stats rx; /* Number of Tx completions per interrupt */ struct cdp_hist_tx_comp tx_comp_histogram; /* Number of Rx ring descriptors reaped per interrupt */ struct cdp_hist_rx_ind rx_ind_histogram; qdf_atomic_t cmd_complete; }; /** * struct cdp_tx_completion_ppdu_user - Tx PPDU completion per-user information * @completion_status: completion status - OK/Filter/Abort/Timeout * @tid: TID number * @peer_id: Peer ID * @frame_ctrl: frame control field in 802.11 header * @qos_ctrl: QoS control field in 802.11 header * @mpdu_tried: number of mpdus tried * @mpdu_success: number of mpdus successfully transmitted * @long_retries: long retries * @short_retries: short retries * @is_ampdu: mpdu aggregate or non-aggregate? * @success_bytes: bytes successfully transmitted * @retry_bytes: bytes retried * @failed_msdus: MSDUs failed transmission * @duration: user duration in ppdu * @ltf_size: ltf_size * @stbc: stbc * @he_re: he_re (range extension) * @txbf: txbf * @bw: Transmission bandwidth * * * * * @nss: NSS 1,2, ...8 * @mcs: MCS index * @preamble: preamble * @gi: guard interval 800/400/1600/3200 ns * @dcm: dcm * @ldpc: ldpc * @ppdu_type: SU/MU_MIMO/MU_OFDMA/MU_MIMO_OFDMA/UL_TRIG/BURST_BCN/UL_BSR_RESP/ * UL_BSR_TRIG/UNKNOWN * @ba_seq_no: Block Ack sequence number * @ba_bitmap: Block Ack bitmap * @start_seqa: Sequence number of first MPDU * @enq_bitmap: Enqueue MPDU bitmap * @is_mcast: MCAST or UCAST * @tx_rate: Transmission Rate */ struct cdp_tx_completion_ppdu_user { uint32_t completion_status:8, tid:8, peer_id:16; uint8_t mac_addr[6]; uint32_t frame_ctrl:16, qos_ctrl:16; uint32_t mpdu_tried_ucast:16, mpdu_tried_mcast:16; uint16_t mpdu_success:16; uint32_t long_retries:4, short_retries:4, tx_ratecode:8, is_ampdu:1, ppdu_type:5; uint32_t success_bytes; uint32_t retry_bytes; uint32_t failed_bytes; uint32_t success_msdus:16, retry_msdus:16; uint32_t failed_msdus:16, duration:16; uint32_t ltf_size:2, stbc:1, he_re:1, txbf:4, bw:4, nss:4, mcs:4, preamble:4, gi:4, dcm:1, ldpc:1; uint32_t ba_seq_no; uint32_t ba_bitmap[CDP_BA_256_BIT_MAP_SIZE_DWORDS]; uint32_t start_seq; uint32_t enq_bitmap[CDP_BA_256_BIT_MAP_SIZE_DWORDS]; uint32_t num_mpdu:9, num_msdu:16; uint32_t tx_duration; uint16_t ru_tones; bool is_mcast; uint32_t tx_rate; }; /** * struct cdp_tx_completion_ppdu - Tx PPDU completion information * @completion_status: completion status - OK/Filter/Abort/Timeout * @ppdu_id: PPDU Id * @vdev_id: VAP Id * @num_users: Number of users * @num_mpdu: Number of MPDUs in PPDU * @num_msdu: Number of MSDUs in PPDU * @channel: Channel informartion * @ack_rssi: RSSI value of last ack packet (units=dB above noise floor) * @tx_duration: PPDU airtime * @ppdu_start_timestamp: TSF at PPDU start * @ppdu_end_timestamp: TSF at PPDU end * @ack_timestamp: TSF at the reception of ACK * @user: per-User stats (array of per-user structures) */ struct cdp_tx_completion_ppdu { uint32_t ppdu_id; uint16_t vdev_id; uint32_t num_users; uint32_t num_mpdu:9, num_msdu:16; uint16_t frame_type; uint16_t channel; uint16_t phy_mode; uint32_t ack_rssi; uint32_t tx_duration; uint32_t ppdu_start_timestamp; uint32_t ppdu_end_timestamp; uint32_t ack_timestamp; struct cdp_tx_completion_ppdu_user user[CDP_MU_MAX_USERS]; }; /** * struct cdp_rate_stats - Tx/Rx Rate statistics * @bw: Indicates the BW of the upcoming transmission - * * * * * @pkt_type: Transmit Packet Type * @stbc: When set, STBC transmission rate was used * @ldpc: When set, use LDPC transmission rates * @sgi: Legacy normal GI * Legacy short GI * HE related GI * HE * @mcs: Transmit MCS Rate * @ofdma: Set when the transmission was an OFDMA transmission * @tones_in_ru: The number of tones in the RU used. * @tsf: Lower 32 bits of the TSF (timestamp when ppdu transmission finished) * @peer_id: Peer ID of the flow or MPDU queue * @tid: TID of the flow or MPDU queue */ struct cdp_rate_stats { uint32_t rate_stats_info_valid:1, bw:2, pkt_type:4, stbc:1, ldpc:1, sgi:2, mcs:4, ofdma:1, tones_in_ru:12, resvd0:4; uint32_t tsf; uint16_t peer_id; uint8_t tid; }; /** * struct cdp_tx_completion_msdu - Tx MSDU completion descriptor * @ppdu_id: PPDU to which this MSDU belongs * @transmit_cnt: Number of times this frame has been transmitted * @ack_frame_rssi: RSSI of the received ACK or BA frame * @first_msdu: Indicates this MSDU is the first MSDU in AMSDU * @last_msdu: Indicates this MSDU is the last MSDU in AMSDU * @msdu_part_of_amsdu : Indicates this MSDU was part of an A-MSDU in MPDU * @extd: Extended structure containing rate statistics */ struct cdp_tx_completion_msdu { uint32_t ppdu_id; uint8_t transmit_cnt; uint32_t ack_frame_rssi:8, resvd0:1, first_msdu:1, last_msdu:1, msdu_part_of_amsdu:1, resvd1:20; struct cdp_rate_stats extd; }; /** * struct cdp_rx_indication_ppdu - Rx PPDU indication structure * @ppdu_id: PPDU Id * @is_ampdu: mpdu aggregate or non-aggregate? * @num_mpdu: Number of MPDUs in PPDU * @reserved: Reserved bits for future use * @num_msdu: Number of MSDUs in PPDU * @udp_msdu_count: Number of UDP MSDUs in PPDU * @tcp_msdu_count: Number of TCP MSDUs in PPDU * @other_msdu_count: Number of MSDUs other than UDP and TCP MSDUs in PPDU * @duration: PPDU duration * @tid: TID number * @peer_id: Peer ID * @vdev_id: VAP ID * @mac_addr: Peer MAC Address * @first_data_seq_ctrl: Sequence control field of first data frame * @ltf_size: ltf_size * @stbc: When set, STBC rate was used * @he_re: he_re (range extension) * @bw: Bandwidth * * * * * @nss: NSS 1,2, ...8 * @mcs: MCS index * @preamble: preamble * @gi: Legacy normal GI * Legacy short GI * HE related GI * HE * @dcm: dcm * @ldpc: ldpc * @ppdu_type: SU/MU_MIMO/MU_OFDMA/MU_MIMO_OFDMA/UL_TRIG/BURST_BCN/UL_BSR_RESP/ * UL_BSR_TRIG/UNKNOWN * @rssi: RSSI value (units = dB above noise floor) * @timestamp: TSF at the reception of PPDU * @channel: Channel informartion * @lsig_A: L-SIG in 802.11 PHY header */ struct cdp_rx_indication_ppdu { uint32_t ppdu_id; uint16_t is_ampdu:1, num_mpdu:9, reserved:6; uint32_t num_msdu; uint16_t udp_msdu_count; uint16_t tcp_msdu_count; uint16_t other_msdu_count; uint16_t duration; uint32_t tid:8, peer_id:16; uint8_t vdev_id; uint8_t mac_addr[6]; uint16_t first_data_seq_ctrl; union { uint32_t rate_info; struct { uint32_t ltf_size:2, stbc:1, he_re:1, bw:4, nss:4, mcs:4, preamble:4, gi:4, dcm:1, ldpc:1, ppdu_type:2; }; } u; uint32_t lsig_a; uint32_t rssi; uint32_t timestamp; uint8_t channel; }; /** * struct cdp_rx_indication_msdu - Rx MSDU info * @ppdu_id: PPDU to which the MSDU belongs * @msdu_len: Length of MSDU in bytes * @ack_frame_rssi: RSSI of the received ACK or BA frame * @first_msdu: Indicates this MSDU is the first MSDU in AMSDU * @last_msdu: Indicates this MSDU is the last MSDU in AMSDU * @msdu_part_of_amsdu : Indicates this MSDU was part of an A-MSDU in MPDU * @extd: Extended structure containing rate statistics */ struct cdp_rx_indication_msdu { uint32_t ppdu_id; uint16_t msdu_len; uint32_t ack_frame_rssi:8, resvd0:1, first_msdu:1, last_msdu:1, msdu_part_of_amsdu:1, msdu_part_of_ampdu:1, resvd1:19; struct cdp_rate_stats extd; }; /** * struct cdp_config_params - Propagate configuration parameters to datapath * @tso_enable: Enable/Disable TSO * @lro_enable: Enable/Disable LRO * @flow_steering_enable: Enable/Disable Rx Hash * @tcp_Udp_ChecksumOffload: Enable/Disable tcp-Udp checksum Offload * @napi_enable: Enable/Disable Napi * @tx_flow_stop_queue_threshold: Value to Pause tx queues * @tx_flow_start_queue_offset: Available Tx descriptors to unpause * tx queue */ struct cdp_config_params { unsigned int tso_enable:1; unsigned int lro_enable:1; unsigned int flow_steering_enable:1; unsigned int tcp_udp_checksumoffload:1; unsigned int napi_enable:1; /* Set when QCA_LL_TX_FLOW_CONTROL_V2 is enabled */ uint8_t tx_flow_stop_queue_threshold; uint8_t tx_flow_start_queue_offset; }; /** * cdp_txrx_stats_req: stats request wrapper * used to pass request information to cdp layer * @stats: type of stats requested * @param0: opaque argument 0 to be passed to htt * @param1: opaque argument 1 to be passed to htt * @param2: opaque argument 2 to be passed to htt * @param3: opaque argument 3 to be passed to htt */ struct cdp_txrx_stats_req { enum cdp_stats stats; uint32_t param0; uint32_t param1; uint32_t param2; uint32_t param3; }; /** * struct cdp_monitor_filter - monitor filter info * @mode: set filter mode * @fp_mgmt: set Filter Pass MGMT Configuration * @fp_ctrl: set Filter Pass CTRL Configuration * @fp_data: set Filter Pass DATA Configuration * @mo_mgmt: set Monitor Other MGMT Configuration * @mo_ctrl: set Monitor Other CTRL Configuration * @mo_data: set Monitor other DATA Configuration * */ struct cdp_monitor_filter { uint16_t mode; uint16_t fp_mgmt; uint16_t fp_ctrl; uint16_t fp_data; uint16_t mo_mgmt; uint16_t mo_ctrl; uint16_t mo_data; }; #endif