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gerrit-public.fairphone.software / platform / vendor / qcom-opensource / wlan / qca-wifi-host-cmn / 0e00776f45b538888225b904016627dae90a8b4f / . / dp / inc / cdp_txrx_cmn_struct.h
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/*
* Copyright (c) 2011-2019 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"
#ifdef DP_MOB_DEFS
#include <cdp_txrx_mob_def.h>
#endif
#include <cdp_txrx_handle.h>
#include <cdp_txrx_stats_struct.h>
#ifdef WLAN_RX_PKT_CAPTURE_ENH
#include "cdp_txrx_extd_struct.h"
#endif
#ifndef OL_TXRX_NUM_LOCAL_PEER_IDS
/*
* Each AP will occupy one ID, so it will occupy two IDs for AP-AP mode.
* Clients will be assigned max 32 IDs.
* STA(associated)/P2P DEV(self-PEER) will get one ID.
*/
#define OL_TXRX_NUM_LOCAL_PEER_IDS (32 + 1 + 1 + 1)
#endif
#define CDP_BA_256_BIT_MAP_SIZE_DWORDS 8
#define CDP_BA_64_BIT_MAP_SIZE_DWORDS 2
#define CDP_RSSI_CHAIN_LEN 8
#define OL_TXRX_INVALID_PDEV_ID 0xff
#define OL_TXRX_INVALID_LOCAL_PEER_ID 0xffff
#define CDP_INVALID_VDEV_ID 0xff
/* 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_DP_RX_THREAD_STATS 13
#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
#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_MU_MAX_USERS 37
#define CDP_MU_MAX_USER_INDEX (CDP_MU_MAX_USERS - 1)
#define CDP_INVALID_PEER 0xffff
#define CDP_INVALID_TID 31
#define CDP_INVALID_TX_ENCAP_TYPE 6
#define CDP_INVALID_SEC_TYPE 12
#define CDP_DATA_TID_MAX 8
#define CDP_DATA_NON_QOS_TID 16
#define CDP_NUM_SA_BW 4
#define CDP_PERCENT_MACRO 100
#define CDP_NUM_KB_IN_MB 1000
/*
* 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
QDF_DECLARE_EWMA(tx_lag, 1024, 8)
struct cdp_stats_cookie;
/*
* 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,
HTT_DBG_CMN_NUM_STATS_INVALID = 31, /* bit 31 -> 0x80000000 */
};
/*
* 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
* @TXRX_RX_MON_STATS: Print monitor mode stats
* @TXRX_REO_QUEUE_STATS: Print Per peer REO Queue Stats
* @TXRX_SOC_CFG_PARAMS: Print soc cfg params info
* @TXRX_PDEV_CFG_PARAMS: Print pdev cfg params info
* @TXRX_NAPI_STATS: Print NAPI scheduling statistics
* @TXRX_SOC_INTERRUPT_STATS: Print soc interrupt 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_RX_MON_STATS = 7,
TXRX_REO_QUEUE_STATS = 8,
TXRX_SOC_CFG_PARAMS = 9,
TXRX_PDEV_CFG_PARAMS = 10,
TXRX_NAPI_STATS = 11,
TXRX_SOC_INTERRUPT_STATS = 12,
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
* @CDP_PPDU_FTYPE_BAR: SU or MU BAR frames
*/
enum cdp_ppdu_ftype {
CDP_PPDU_FTYPE_CTRL,
CDP_PPDU_FTYPE_DATA,
CDP_PPDU_FTYPE_BAR,
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,
htt_cmn_pkt_type_mgmt = 3,
htt_cmn_pkt_type_eth2 = 4,
/* keep this last */
htt_cmn_pkt_num_types
};
/**
* @General description of HTT received packets status
* It is similar to htt_rx_status enum
* but is added as a cdp enum can be freely used in OL_IF layer
*/
enum htt_cmn_rx_status {
htt_cmn_rx_status_unknown = 0x0,
htt_cmn_rx_status_ok,
htt_cmn_rx_status_err_fcs,
htt_cmn_rx_status_err_dup,
htt_cmn_rx_status_err_replay,
htt_cmn_rx_status_inv_peer,
htt_cmn_rx_status_ctrl_mgmt_null = 0x08,
htt_cmn_rx_status_tkip_mic_err = 0x09,
htt_cmn_rx_status_decrypt_err = 0x0A,
htt_cmn_rx_status_mpdu_length_err = 0x0B,
htt_cmn_rx_status_err_misc = 0xFF
};
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_SELF, /* static ast entry for self peer (STA mode) */
CDP_TXRX_AST_TYPE_WDS, /* WDS peer ast entry type*/
CDP_TXRX_AST_TYPE_MEC, /* Multicast echo ast entry type */
CDP_TXRX_AST_TYPE_WDS_HM, /* HM WDS entry */
CDP_TXRX_AST_TYPE_STA_BSS, /* BSS entry(STA mode) */
CDP_TXRX_AST_TYPE_DA, /* AST entry based on Destination address */
CDP_TXRX_AST_TYPE_WDS_HM_SEC, /* HM WDS entry for secondary radio */
CDP_TXRX_AST_TYPE_MAX
};
/*
* cdp_ast_free_status: status passed to callback function before freeing ast
* @CDP_TXRX_AST_DELETED - AST is deleted from FW and delete response received
* @CDP_TXRX_AST_DELETE_IN_PROGRESS - AST delete command sent to FW and host
* is waiting for FW response
*/
enum cdp_ast_free_status {
CDP_TXRX_AST_DELETED,
CDP_TXRX_AST_DELETE_IN_PROGRESS,
};
/**
* txrx_ast_free_cb - callback registered for ast free
* @ctrl_soc: control path soc context
* @cdp_soc: DP soc context
* @cookie: cookie
* @cdp_ast_free_status: ast free status
*/
typedef void (*txrx_ast_free_cb)(struct cdp_ctrl_objmgr_psoc *ctrl_soc,
struct cdp_soc *cdp_soc,
void *cookie,
enum cdp_ast_free_status);
/**
* struct cdp_ast_entry_info - AST entry information
* @peer_mac_addr: mac address of peer on which AST entry is added
* @type: ast entry type
* @vdev_id: vdev_id
* @pdev_id: pdev_id
* @peer_id: peer_id
*
* This structure holds the ast entry information
*
*/
struct cdp_ast_entry_info {
uint8_t peer_mac_addr[QDF_MAC_ADDR_SIZE];
enum cdp_txrx_ast_entry_type type;
uint8_t vdev_id;
uint8_t pdev_id;
uint16_t peer_id;
};
#define MIC_SEQ_CTR_SIZE 6
enum cdp_rx_frame_type {
cdp_rx_frame_type_802_11,
cdp_rx_frame_type_802_3,
};
/**
* struct cdp_rx_mic_err_info - rx mic error information
* @frame_type: frame type - 0 - 802.11 frame
* - 1 - 802.3 frame
* @data: 802.11 frame
* @ta_mac_addr: transmitter mac address
* @da_mac_addr: destination mac address
* @tsc: sequence number
* @key_id: Key ID
* @multicast: flag for multicast
* @vdev_id: vdev ID
*
* This structure holds rx mic error information
*
*/
struct cdp_rx_mic_err_info {
uint8_t frame_type;
uint8_t *data;
struct qdf_mac_addr ta_mac_addr;
struct qdf_mac_addr da_mac_addr;
uint8_t tsc[MIC_SEQ_CTR_SIZE];
uint8_t key_id;
bool multicast;
uint16_t vdev_id;
};
/**
* 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
};
/**
* struct cdp_tx_exception_metadata - Exception path parameters
* @peer_id: Peer id of the peer
* @tid: Transmit Identifier
* @tx_encap_type: Transmit encap type (i.e. Raw, Native Wi-Fi, Ethernet)
* @sec_type: sec_type to be passed to HAL
* @is_tx_sniffer: Indicates if the packet has to be sniffed
* @ppdu_cookie: 16-bit ppdu cookie that has to be replayed back in completions
*
* This structure holds the parameters needed in the exception path of tx
*
*/
struct cdp_tx_exception_metadata {
uint16_t peer_id;
uint8_t tid;
uint16_t tx_encap_type;
enum cdp_sec_type sec_type;
uint8_t is_tx_sniffer;
uint16_t ppdu_cookie;
};
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_txrx_peer_unmap_sync_cb - callback registered during peer detach sync
*/
typedef QDF_STATUS(*ol_txrx_peer_unmap_sync_cb)(uint8_t vdev_id,
uint32_t peer_id_cnt,
uint16_t *peer_id_list);
/**
* ol_txrx_pkt_direction - Packet Direction
* @rx_direction: rx path packet
* @tx_direction: tx path packet
*/
enum txrx_direction {
rx_direction = 1,
tx_direction = 0,
};
/**
* cdp_capabilities- DP capabilities
*/
enum cdp_capabilities {
CDP_CFG_DP_TSO,
CDP_CFG_DP_LRO,
CDP_CFG_DP_SG,
CDP_CFG_DP_GRO,
CDP_CFG_DP_OL_TX_CSUM,
CDP_CFG_DP_OL_RX_CSUM,
CDP_CFG_DP_RAWMODE,
CDP_CFG_DP_PEER_FLOW_CTRL,
};
/**
* ol_txrx_nbuf_classify - Packet classification object
* @peer_id: unique peer identifier from fw
* @tid: traffic identifier(could be overridden)
* @pkt_tid: traffic identifier(cannot be overridden)
* @pkt_tos: ip header tos value
* @pkt_dscp: ip header dscp value
* @tos: index value in map
* @dscp: DSCP_TID map index
* @is_mcast: multicast pkt check
* @is_eap: eapol pkt check
* @is_arp: arp pkt check
* @is_tcp: tcp pkt check
* @is_dhcp: dhcp pkt check
* @is_igmp: igmp pkt check
* @is_ipv4: ip version 4 pkt check
* @is_ipv6: ip version 6 pkt check
*/
struct ol_txrx_nbuf_classify {
uint16_t peer_id;
uint8_t tid;
uint8_t pkt_tid;
uint8_t pkt_tos;
uint8_t pkt_dscp;
uint8_t tos;
uint8_t dscp;
uint8_t is_mcast;
uint8_t is_eap;
uint8_t is_arp;
uint8_t is_tcp;
uint8_t is_dhcp;
uint8_t is_igmp;
uint8_t is_ipv4;
uint8_t is_ipv6;
};
/**
* 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,
};
/**
* enum wlan_op_subtype - Virtual device subtype
* @wlan_op_subtype_none: Subtype not applicable
* @wlan_op_subtype_p2p_device: P2P device
* @wlan_op_subtye_p2p_cli: P2P Client
* @wlan_op_subtype_p2p_go: P2P GO
*
* This enum lists the subtypes of a particular virtual
* device.
*/
enum wlan_op_subtype {
wlan_op_subtype_none,
wlan_op_subtype_p2p_device,
wlan_op_subtype_p2p_cli,
wlan_op_subtype_p2p_go,
};
/**
* connectivity_stats_pkt_status - data pkt type
* @PKT_TYPE_REQ: Request packet
* @PKT_TYPE_RSP: Response packet
* @PKT_TYPE_TX_DROPPED: TX packet dropped
* @PKT_TYPE_RX_DROPPED: RX packet dropped
* @PKT_TYPE_RX_DELIVERED: RX packet delivered
* @PKT_TYPE_RX_REFUSED: RX packet refused
* @PKT_TYPE_TX_HOST_FW_SENT: TX packet FW sent
* @PKT_TYPE_TX_ACK_CNT:TC packet acked
* @PKT_TYPE_NONE: Invalid packet
*/
enum connectivity_stats_pkt_status {
PKT_TYPE_REQ,
PKT_TYPE_RSP,
PKT_TYPE_TX_DROPPED,
PKT_TYPE_RX_DROPPED,
PKT_TYPE_RX_DELIVERED,
PKT_TYPE_RX_REFUSED,
PKT_TYPE_TX_HOST_FW_SENT,
PKT_TYPE_TX_ACK_CNT,
PKT_TYPE_NONE,
};
/**
* ol_txrx_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)(struct cdp_vdev *data_vdev,
qdf_nbuf_t msdu_list);
/**
* ol_txrx_tx_exc_fp - top-level transmit function on exception path
* @data_vdev - handle to the virtual device object
* @msdu_list - list of network buffers
* @tx_exc_metadata - structure that holds parameters to exception path
*/
typedef qdf_nbuf_t (*ol_txrx_tx_exc_fp)(struct cdp_vdev *data_vdev,
qdf_nbuf_t msdu_list,
struct cdp_tx_exception_metadata
*tx_exc_metadata);
/**
* ol_txrx_completion_fp - top-level transmit function
* for tx completion
* @skb: skb data
* @osif_dev: the virtual device's OS shim object
*/
typedef void (*ol_txrx_completion_fp)(qdf_nbuf_t skb,
void *osif_dev);
/**
* 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_rx_flush_fp - receive function to hand batches of data
* frames from txrx to OS shim
* @osif_dev: handle to the OSIF virtual device object
* @vdev_id: vdev_if of the packets to be flushed
*/
typedef QDF_STATUS(*ol_txrx_rx_flush_fp)(void *osif_dev, uint8_t vdev_id);
/**
* ol_txrx_rx_gro_flush_ind - function to send GRO flush indication to stack
* for a given RX Context Id.
* @osif_dev - handle to the OSIF virtual device object
* @rx_ctx_id - Rx context Id for which gro flush should happen
*/
typedef QDF_STATUS(*ol_txrx_rx_gro_flush_ind_fp)(void *osif_dev,
int rx_ctx_id);
/**
* ol_txrx_stats_rx_fp - receive function to hand batches of data
* frames from txrx to OS shim
* @skb: skb data
* @osif_dev: the virtual device's OS shim object
* @action: data packet type
* @pkt_type: packet data type
*/
typedef void (*ol_txrx_stats_rx_fp)(struct sk_buff *skb,
void *osif_dev, enum connectivity_stats_pkt_status action,
uint8_t *pkt_type);
/**
* 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_pktdump_cb - callback for packet dump feature
*/
typedef void (*ol_txrx_pktdump_cb)(ol_txrx_soc_handle soc,
uint8_t pdev_id,
uint8_t vdev_id,
qdf_nbuf_t netbuf,
uint8_t status,
uint8_t type);
/**
* 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.rx - 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). In case RX Threads are enabled, pkts
* are given to the thread, instead of the stack via this pointer.
* @rx.stack - function to give packets to the stack. Differs from @rx.rx.
* In case RX Threads are enabled, this pointer holds the callback to give
* packets to the stack.
* @rx.rx_gro_flush - GRO flush indication to stack for a given RX CTX ID
* @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_exc_fp tx_exception;
ol_txrx_tx_free_ext_fp tx_free_ext;
ol_txrx_completion_fp tx_comp;
} tx;
/* rx function pointers - specified by OS shim, stored by txrx */
struct {
ol_txrx_rx_fp rx;
ol_txrx_rx_fp rx_stack;
ol_txrx_rx_flush_fp rx_flush;
ol_txrx_rx_gro_flush_ind_fp rx_gro_flush;
ol_txrx_rx_check_wai_fp wai_check;
ol_txrx_rx_mon_fp mon;
ol_txrx_stats_rx_fp stats_rx;
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
* @CDP_CONFIG_BPR_ENABLE: Enable bcast probe feature
* @CDP_CONFIG_PRIMARY_RADIO: Configure radio as primary
* @CDP_CONFIG_ENABLE_PERPKT_TXSTATS: Enable per packet statistics
* @CDP_CONFIG_IGMPMLD_OVERRIDE: Override IGMP/MLD
* @CDP_CONFIG_IGMPMLD_TID: Configurable TID value when igmmld_override is set
* @CDP_CONFIG_ARP_DBG_CONF: Enable ARP debug
* @CDP_CONFIG_CAPTURE_LATENCY: Capture time latency
* @CDP_INGRESS_STATS: Accumulate ingress statistics
* @CDP_OSIF_DROP: Accumulate drops in OSIF layer
* @CDP_CONFIG_ENH_RX_CAPTURE: Enable enhanced RX capture
*/
enum cdp_pdev_param_type {
CDP_CONFIG_DEBUG_SNIFFER,
CDP_CONFIG_BPR_ENABLE,
CDP_CONFIG_PRIMARY_RADIO,
CDP_CONFIG_ENABLE_PERPKT_TXSTATS,
CDP_CONFIG_IGMPMLD_OVERRIDE,
CDP_CONFIG_IGMPMLD_TID,
CDP_CONFIG_ARP_DBG_CONF,
CDP_CONFIG_CAPTURE_LATENCY,
CDP_INGRESS_STATS,
CDP_OSIF_DROP,
CDP_CONFIG_ENH_RX_CAPTURE,
CDP_CONFIG_TX_CAPTURE,
};
/**
* cdp_rx_enh_capture_mode - Rx enhanced capture modes
* @CDP_RX_ENH_CAPTURE_DISABLED: Disable Rx enhance capture
* @CDP_RX_ENH_CAPTURE_MPDU: Enable capture of 128 bytes of each MPDU
* @CDP_RX_ENH_CAPTURE_MPDU_MSDU: Enable capture of 128 bytes of each MSDU
*/
enum cdp_rx_enh_capture_mode {
CDP_RX_ENH_CAPTURE_DISABLED = 0,
CDP_RX_ENH_CAPTURE_MPDU,
CDP_RX_ENH_CAPTURE_MPDU_MSDU,
};
/**
* cdp_rx_enh_capture_peer - Rx enhanced capture peer filtering
* @CDP_RX_ENH_CAPTURE_PEER_DISABLED: Disable Rx ENH capture peer filtering
* @CDP_RX_ENH_CAPTURE_PEER_ENABLED: Enable Rx ENH capture peer filtering
*/
enum cdp_rx_enh_capture_peer {
CDP_RX_ENH_CAPTURE_PEER_DISABLED = 0,
CDP_RX_ENH_CAPTURE_PEER_ENABLED,
};
/**
* cdp_tx_enh_capture_mode - Tx enhanced capture modes
* @CDP_TX_ENH_CAPTURE_DISABLED: Disable Tx enhance capture for all peers
* @CDP_TX_ENH_CAPTURE_ENABLE_ALL_PEERS: Enable tx capture for all peers
* @CDP_TX_ENH_CAPTURE_ENDIS_PER_PEER: Enable/disable per peer as necessary
*/
enum cdp_tx_enh_capture_mode {
CDP_TX_ENH_CAPTURE_DISABLED = 0,
CDP_TX_ENH_CAPTURE_ENABLE_ALL_PEERS,
CDP_TX_ENH_CAPTURE_ENDIS_PER_PEER,
};
/*
* enum cdp_pdev_bpr_param - different types of parameters
* to set value in pdev
* @CDP_BPR_DISABLE: Set bpr to disable state
* @CDP_BPR_ENABLE: set bpr to enable state
*
* Enum indicating bpr state to enable/disable.
*/
enum cdp_pdev_bpr_param {
CDP_BPR_DISABLE,
CDP_BPR_ENABLE,
};
/*
* 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_MEC: MEC enable flags
* @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_MEC,
CDP_ENABLE_DA_WAR,
CDP_ENABLE_PROXYSTA,
CDP_UPDATE_TDLS_FLAGS,
CDP_CFG_WDS_AGING_TIMER,
CDP_ENABLE_AP_BRIDGE,
CDP_ENABLE_CIPHER,
CDP_ENABLE_QWRAP_ISOLATION,
CDP_UPDATE_MULTIPASS
};
#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_COEX_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 *);
/*
* enum cdp_stats - options for host and firmware
* statistics
* @CDP_TXRX_STATS_1: HTT Pdev tx stats
* @CDP_TXRX_STATS_2: HTT Pdev rx stats
* @CDP_TXRX_STATS_3: HTT Pdev Tx HW Queue stats
* @CDP_TXRX_STATS_4: HTT Pdev Tx HW Sched stats
* @CDP_TXRX_STATS_5: HTT Pdev error stats
* @CDP_TXRX_STATS_6: HTT TQM stats
* @CDP_TXRX_STATS_7: HTT TQM CMDQ stats
* @CDP_TXRX_STATS_8: HTT Tx_de_cmn thread stats
* @CDP_TXRX_STATS_9: HTT Pdev Tx rate stats
* @CDP_TXRX_STATS_10: HTT Pdev Rx rate stats
* @CDP_TXRX_STATS_11: HTT Peer stats
* @CDP_TXRX_STATS_12: HTT Tx Self Gen Info
* @CDP_TXRX_STATS_13: HTT Tx MU HWQ stats
* @CDP_TXRX_STATS_14: HTT Ring interface info stats
* @CDP_TXRX_STATS_15: HTT SRNG info stats
* @CDP_TXRX_STATS_16: HTT SFM info stats
* @CDP_TXRX_STATS_17: HTT Pdev tx mu mimo sched info
* @CDP_TXRX_STATS_18: HTT Peer list details
* @CDP_TXRX_STATS_19: Reserved
* @CDP_TXRX_STATS_20: Reset Host stats
* @CDP_TXRX_STATS_21: Host Rx rate stats
* @CDP_TXRX_STATS_22: Host Tx rate stats
* @CDP_TXRX_STATS_23: Host Tx stats
* @CDP_TXRX_STATS_24: Host Rx stats
* @CDP_TXRX_STATS_25: Host Ast stats
* @CDP_TXRX_STATS_26: Host Head/Tail Pointer stats
* @CDP_TXRX_STATS_27: Host Monitor mode stats
* @CDP_TXRX_STATS_28: Host Peer entry stats
* @CDP_TXRX_STATS_29: Host Soc config params info
* @CDP_TXRX_STATS_30: Host Pdev config params info
* @CDP_TXRX_STATS_31: Host DP Interrupt Stats
*/
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_28,
CDP_TXRX_STATS_29,
CDP_TXRX_STATS_30,
CDP_TXRX_STATS_31,
CDP_TXRX_STATS_HTT_MAX = 256,
CDP_TXRX_MAX_STATS = 265,
};
/*
* 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,
};
/*
* struct cdp_tx_sojourn_stats - Tx sojourn stats
* @ppdu_seq_id: ppdu_seq_id from tx completion
* @avg_sojourn_msdu: average sojourn msdu time
* @sum_sojourn_msdu: sum sojourn msdu time
* @num_msdu: number of msdus per ppdu
* @cookie: cookie to be used by upper layer
*/
struct cdp_tx_sojourn_stats {
uint32_t ppdu_seq_id;
qdf_ewma_tx_lag avg_sojourn_msdu[CDP_DATA_TID_MAX];
uint32_t sum_sojourn_msdu[CDP_DATA_TID_MAX];
uint32_t num_msdus[CDP_DATA_TID_MAX];
struct cdp_stats_cookie *cookie;
};
/**
* struct cdp_delayed_tx_completion_ppdu_user - Delayed Tx PPDU completion
* per-user information
* @frame_ctrl: frame control field in 802.11 header
* @qos_ctrl: QoS control field in 802.11 header
* @mpdu_tried: number of mpdus tried
* @ltf_size: ltf_size
* @stbc: stbc
* @he_re: he_re (range extension)
* @txbf: txbf
* @bw: Transmission bandwidth
* <enum 2 transmit_bw_20_MHz>
* <enum 3 transmit_bw_40_MHz>
* <enum 4 transmit_bw_80_MHz>
* <enum 5 transmit_bw_160_MHz>
* @nss: NSS 1,2, ...8
* @mcs: MCS index
* @preamble: preamble
* @gi: guard interval 800/400/1600/3200 ns
* @dcm: dcm
* @ldpc: ldpc
* @ru_start: RU start index
* @ru_tones: RU tones length
* @is_mcast: MCAST or UCAST
* @user_pos: user position
* @mu_group_id: mu group id
*/
struct cdp_delayed_tx_completion_ppdu_user {
uint32_t frame_ctrl:16,
qos_ctrl:16;
uint32_t mpdu_tried_ucast:16,
mpdu_tried_mcast: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,
delayed_ba:1;
uint16_t ru_start;
uint16_t ru_tones;
bool is_mcast;
uint32_t user_pos;
uint32_t mu_group_id;
};
/**
* 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
* @ba_size: Block-Ack size
* @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
* <enum 2 transmit_bw_20_MHz>
* <enum 3 transmit_bw_40_MHz>
* <enum 4 transmit_bw_80_MHz>
* <enum 5 transmit_bw_160_MHz>
* @nss: NSS 1,2, ...8
* @mcs: MCS index
* @preamble: preamble
* @gi: guard interval 800/400/1600/3200 ns
* @dcm: dcm
* @ldpc: ldpc
* @delayed_ba: delayed ba bit
* @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
* @ru_start: RU start index
* @ru_tones: RU tones length
* @is_mcast: MCAST or UCAST
* @tx_rate: Transmission Rate
* @user_pos: user position
* @mu_group_id: mu group id
* @rix: rate index
* @cookie: cookie to used by upper layer
* @is_ppdu_cookie_valid : Indicates that ppdu_cookie is valid
* @ppdu_cookie: 16-bit ppdu_cookie
* @sa_is_training: smart antenna training packets indication
* @rssi_chain: rssi chain per bandwidth
* @sa_tx_antenna: antenna in which packet is transmitted
* @sa_max_rates: smart antenna tx feedback info max rates
* @sa_goodput: smart antenna tx feedback info goodput
* @current_rate_per: Moving average per
* @last_enq_seq: last equeue sequence number
*/
struct cdp_tx_completion_ppdu_user {
uint32_t completion_status:8,
tid:8,
peer_id:16;
uint8_t mac_addr[6];
uint16_t ba_size;
uint32_t frame_ctrl:16,
qos_ctrl:16;
uint32_t mpdu_tried_ucast:16,
mpdu_tried_mcast:16;
uint16_t mpdu_success:16;
uint16_t mpdu_failed:16;
uint32_t long_retries:4,
short_retries:4,
tx_ratecode:16,
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,
delayed_ba: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 failed_bitmap[CDP_BA_256_BIT_MAP_SIZE_DWORDS];
uint32_t num_mpdu:9,
num_msdu:16;
uint32_t tx_duration;
uint16_t ru_start;
uint16_t ru_tones;
bool is_mcast;
uint32_t tx_rate;
uint32_t tx_ratekbps;
/*ack rssi for separate chains*/
uint32_t ack_rssi[CDP_RSSI_CHAIN_LEN];
bool ack_rssi_valid;
uint32_t user_pos;
uint32_t mu_group_id;
uint32_t rix;
struct cdp_stats_cookie *cookie;
uint8_t is_ppdu_cookie_valid;
uint16_t ppdu_cookie;
uint8_t sa_is_training;
uint32_t rssi_chain[CDP_RSSI_CHAIN_LEN];
uint32_t sa_tx_antenna;
/*Max rates for BW: 20MHZ, 40MHZ and 80MHZ and 160MHZ
* |---------------------------------------|
* | 16 bits | 16 bits | 16 bits | 16 bits |
* | BW-1 | BW-2 | BW-3 | BW-4 |
* | /\ \ |
* | / \ \ |
* | / \ \ |
* | / \ \ |
* | / \ \ |
* | / \ \ |
* |/ \ \ |
* |[11|8] [5|8] \ |
* | BW1 PADDED \ |
* |---------------------------------------|
*/
uint16_t sa_max_rates[CDP_NUM_SA_BW];
uint32_t sa_goodput;
/* below field is used to calculate goodput in non-training period
* Note: As host is exposing goodput and hence current_rate_per is
* of no use. It is just for Host computation.
*/
uint32_t current_rate_per;
uint32_t last_enq_seq;
};
/**
* struct cdp_tx_indication_mpdu_info - Tx MPDU completion information
* @ppdu_id: PPDU id
* @duration: user duration in ppdu
* @frame_type: frame type MGMT/CTRL/DATA/BAR
* @frame_ctrl: frame control field in 802.11 header
* @qos_ctrl: QoS control field in 802.11 header
* @tid: TID number
* @num_msdu: number of msdu in MPDU
* @seq_no: Sequence number of first MPDU
* @ltf_size: ltf_size
* @stbc: stbc
* @he_re: he_re (range extension)
* @txbf: txbf
* @bw: Transmission bandwidth
* <enum 2 transmit_bw_20_MHz>
* <enum 3 transmit_bw_40_MHz>
* <enum 4 transmit_bw_80_MHz>
* <enum 5 transmit_bw_160_MHz>
* @nss: NSS 1,2, ...8
* @mcs: MCS index
* @preamble: preamble
* @gi: guard interval 800/400/1600/3200 ns
* @resp_type: response type
* @mprot_type: medium protection type
* @rts_success: rts success
* @rts failure: rts failure
* @channel: frequency
* @channel_num: channel number
* @ack_rssi: ack rssi
* @ldpc: ldpc
* @tx_rate: Transmission Rate
* @mac_address: peer mac address
* @bss_mac_address: bss mac address
* @ppdu_start_timestamp: TSF at PPDU start
* @ppdu_end_timestamp: TSF at PPDU end
* @ba_start_seq: Block Ack sequence number
* @ba_bitmap: Block Ack bitmap
* @ppdu_cookie: 16-bit ppdu_cookie
* @long_retries: long retries
* @short_retries: short retries
* @completion_status: completion status - OK/Filter/Abort/Timeout
*/
struct cdp_tx_indication_mpdu_info {
uint32_t ppdu_id;
uint32_t tx_duration;
uint16_t frame_type;
uint16_t frame_ctrl;
uint16_t qos_ctrl;
uint8_t tid;
uint32_t num_msdu;
uint32_t seq_no;
uint32_t ltf_size:2,
he_re:1,
txbf:4,
bw:4,
nss:4,
mcs:4,
preamble:4,
gi:4;
uint32_t channel;
uint8_t channel_num;
uint32_t ack_rssi;
uint32_t ldpc;
uint32_t tx_rate;
uint8_t mac_address[QDF_MAC_ADDR_SIZE];
uint8_t bss_mac_address[QDF_MAC_ADDR_SIZE];
uint64_t ppdu_start_timestamp;
uint64_t ppdu_end_timestamp;
uint32_t ba_start_seq;
uint32_t ba_bitmap[CDP_BA_256_BIT_MAP_SIZE_DWORDS];
uint16_t ppdu_cookie;
uint16_t long_retries:4,
short_retries:4,
completion_status:8;
uint16_t resp_type:4,
mprot_type:3,
rts_success:1,
rts_failure:1;
};
/**
* struct cdp_tx_indication_info - Tx capture information
* @mpdu_info: Tx MPDU completion information
* @mpdu_nbuf: reconstructed mpdu packet
*/
struct cdp_tx_indication_info {
struct cdp_tx_indication_mpdu_info mpdu_info;
qdf_nbuf_t mpdu_nbuf;
};
/**
* struct cdp_tx_mgmt_comp_info - Tx mgmt comp info
* @ppdu_id: ppdu_id
* @is_sgen_pkt: payload recevied from wmi or htt path
* @retries_count: retries count
* @tx_tsf: 64 bit timestamp
*/
struct cdp_tx_mgmt_comp_info {
uint32_t ppdu_id;
bool is_sgen_pkt;
uint16_t retries_count;
uint64_t tx_tsf;
};
/**
* struct cdp_tx_completion_ppdu - Tx PPDU completion information
* @completion_status: completion status - OK/Filter/Abort/Timeout
* @ppdu_id: PPDU Id
* @ppdu_seq_id: ppdu sequence id for sojourn stats
* @vdev_id: VAP Id
* @bar_num_users: BA response user count, based on completion common TLV
* @num_users: Number of users
* @pending_retries: pending MPDUs (retries)
* @drop_reason: drop reason from flush status
* @is_flush: is_flush is set based on flush tlv
* @flow_type: tx flow type from flush status
* @queue_type: queue type from flush status
* @num_mpdu: Number of MPDUs in PPDU
* @num_msdu: Number of MSDUs in PPDU
* @frame_type: frame SU or MU
* @htt_frame_type: frame type from htt
* @frame_ctrl: frame control of 80211 header
* @channel: Channel informartion
* @resp_type: response type
* @mprot_type: medium protection type
* @rts_success: rts success
* @rts failure: rts failure
* @phymode: phy mode
* @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
* @delayed_ba: Delayed ba flag
* @user: per-User stats (array of per-user structures)
* @mpdu_q: queue of mpdu in a ppdu
* @mpdus: MPDU list based on enqueue sequence bitmap
* @bar_ppdu_id: BAR ppdu_id
* @bar_tx_duration: BAR tx duration
* @bar_ppdu_start_timestamp: BAR start timestamp
* @bar_ppdu_end_timestamp: BAR end timestamp
*/
struct cdp_tx_completion_ppdu {
uint32_t ppdu_id;
uint32_t ppdu_seq_id;
uint16_t vdev_id;
uint16_t bar_num_users;
uint32_t num_users;
uint8_t last_usr_index;
uint32_t pending_retries;
uint32_t drop_reason;
uint32_t is_flush:1,
flow_type:8,
queue_type:8;
uint32_t num_mpdu:9,
num_msdu:16;
uint16_t frame_type;
uint16_t htt_frame_type;
uint16_t frame_ctrl;
uint16_t channel;
uint16_t resp_type:4,
mprot_type:3,
rts_success:1,
rts_failure:1;
uint16_t phy_mode;
uint32_t ack_rssi;
uint32_t tx_duration;
uint64_t ppdu_start_timestamp;
uint64_t ppdu_end_timestamp;
uint64_t ack_timestamp;
bool delayed_ba;
struct cdp_tx_completion_ppdu_user user[CDP_MU_MAX_USERS];
qdf_nbuf_queue_t mpdu_q;
qdf_nbuf_t *mpdus;
uint32_t bar_ppdu_id;
uint32_t bar_tx_duration;
uint32_t bar_ppdu_start_timestamp;
uint32_t bar_ppdu_end_timestamp;
};
/**
* struct cdp_dev_stats - Network device stats structure
* @tx_packets: Tx total packets transmitted
* @tx_bytes : Tx total bytes transmitted
* @tx_errors : Tx error due to FW tx failure, Ring failure DMA etc
* @tx_dropped: Tx dropped is same as tx errors as above
* @rx_packets: Rx total packets transmitted
* @rx_bytes : Rx total bytes transmitted
* @rx_errors : Rx erros
* @rx_dropped: Rx dropped stats
*/
struct cdp_dev_stats {
uint32_t tx_packets;
uint32_t tx_bytes;
uint32_t tx_errors;
uint32_t tx_dropped;
uint32_t rx_packets;
uint32_t rx_bytes;
uint32_t rx_errors;
uint32_t rx_dropped;
};
/**
* struct cdp_rate_stats - Tx/Rx Rate statistics
* @bw: Indicates the BW of the upcoming transmission -
* <enum 2 transmit_bw_20_MHz>
* <enum 3 transmit_bw_40_MHz>
* <enum 4 transmit_bw_80_MHz>
* <enum 5 transmit_bw_160_MHz>
* @pkt_type: Transmit Packet Type
* @stbc: When set, STBC transmission rate was used
* @ldpc: When set, use LDPC transmission rates
* @sgi: <enum 0 0_8_us_sgi > Legacy normal GI
* <enum 1 0_4_us_sgi > Legacy short GI
* <enum 2 1_6_us_sgi > HE related GI
* <enum 3 3_2_us_sgi > 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_stats_ppdu_user -- per user RX stats
* @peer_id: Peer ID
* @vdev_id: VAP ID
* @is_ampdu: mpdu aggregate or non-aggregate?
* @mu_ul_info_valid: MU UL info valid
* @ofdma_ru_start_index: RU index number(0-73)
* @ofdma_ru_width: size of RU in units of 1(26tone)RU
* @nss: NSS 1,2, ...8
* @mcs: MCS index
* @user_index: user ID in multi-user case
* @ast_index: ast index in multi-user case
* @tid: TID number
* @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
* @frame_control: frame control field
* @frame_control_info_valid: frame_control valid
* @data_sequence_control_info_valid: data_sequence_control_info valid
* @first_data_seq_ctrl: Sequence control field of first data frame
* @preamble: preamble
* @ht_flag: ht flag
* @vht_flag: vht flag
* @he_re: he_re (range extension)
* @mpdu_cnt_fcs_ok: Number of MPDUs in PPDU with fcs ok
* @mpdu_cnt_fcs_err: Number of MPDUs in PPDU with fcs err
* @mpdu_fcs_ok_bitmap - MPDU with fcs ok bitmap
* @retried - number of retries
* @mac_addr: Peer MAC Address
*/
struct cdp_rx_stats_ppdu_user {
uint16_t peer_id;
uint8_t vdev_id;
bool is_ampdu;
uint32_t mu_ul_info_valid:1,
ofdma_ru_start_index:7,
ofdma_ru_width:7,
nss:4,
mcs:4;
/* user id */
uint8_t user_index;
uint32_t ast_index;
uint32_t tid;
uint32_t num_msdu;
uint16_t tcp_msdu_count;
uint16_t udp_msdu_count;
uint16_t other_msdu_count;
uint16_t frame_control;
uint8_t frame_control_info_valid;
uint8_t data_sequence_control_info_valid;
uint16_t first_data_seq_ctrl;
uint32_t preamble_type;
uint16_t ht_flags;
uint16_t vht_flags;
uint16_t he_flags;
uint32_t mpdu_cnt_fcs_ok;
uint32_t mpdu_cnt_fcs_err;
uint32_t mpdu_fcs_ok_bitmap[QDF_MON_STATUS_MPDU_FCS_BMAP_NWORDS];
uint32_t mpdu_ok_byte_count;
uint32_t mpdu_err_byte_count;
uint32_t retries;
uint8_t mac_addr[QDF_MAC_ADDR_SIZE];
};
/**
* 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
* <enum 0 bw_20_MHz>
* <enum 1 bw_40_MHz>
* <enum 2 bw_80_MHz>
* <enum 3 bw_160_MHz>
* @nss: NSS 1,2, ...8
* @mcs: MCS index
* @preamble: preamble
* @gi: <enum 0 0_8_us_sgi > Legacy normal GI
* <enum 1 0_4_us_sgi > Legacy short GI
* <enum 2 1_6_us_sgi > HE related GI
* <enum 3 3_2_us_sgi > 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
* @length: PPDU length
* @channel: Channel informartion
* @lsig_A: L-SIG in 802.11 PHY header
* @frame_ctrl: frame control field
* @rix: rate index
* @rssi_chain: rssi chain per nss per bw
* @cookie: cookie to used by upper layer
* @user: per user stats in MU-user case
* @nf: noise floor
* @per_chain_rssi: rssi per antenna
*/
struct cdp_rx_indication_ppdu {
uint32_t ppdu_id;
uint16_t is_ampdu:1,
num_mpdu:9,
reserved:6;
uint32_t num_msdu;
uint32_t num_bytes;
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:5;
};
} u;
uint32_t rix;
uint32_t lsig_a;
uint32_t rssi;
uint64_t timestamp;
uint32_t length;
uint8_t channel;
uint8_t beamformed;
uint32_t rx_ratekbps;
uint32_t ppdu_rx_rate;
uint32_t retries;
uint32_t rx_byte_count;
uint16_t rx_ratecode;
uint8_t fcs_error_mpdus;
uint16_t frame_ctrl;
int8_t rssi_chain[SS_COUNT][MAX_BW];
struct cdp_stats_cookie *cookie;
struct cdp_rx_su_evm_info evm_info;
uint32_t rx_antenna;
uint8_t num_users;
struct cdp_rx_stats_ppdu_user user[CDP_MU_MAX_USERS];
uint32_t nf;
uint8_t per_chain_rssi[MAX_CHAIN];
uint8_t is_mcast_bcast;
};
/**
* 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
* @gro_enable: Enable/Disable GRO
* @flow_steering_enable: Enable/Disable Rx Hash based flow steering
* @tcp_Udp_ChecksumOffload: Enable/Disable tcp-Udp checksum Offload
* @napi_enable: Enable/Disable Napi
* @ipa_enable: Flag indicating if IPA is enabled or not
* @tx_flow_stop_queue_threshold: Value to Pause tx queues
* @tx_flow_start_queue_offset: Available Tx descriptors to unpause
* tx queue
* @tx_comp_loop_pkt_limit: Max # of packets to be processed in 1 tx comp loop
* @rx_reap_loop_pkt_limit: Max # of packets to be processed in 1 rx reap loop
* @rx_hp_oos_update_limit: Max # of HP OOS (out of sync) updates
*/
struct cdp_config_params {
unsigned int tso_enable:1;
unsigned int lro_enable:1;
unsigned int gro_enable:1;
unsigned int flow_steering_enable:1;
unsigned int tcp_udp_checksumoffload:1;
unsigned int napi_enable:1;
unsigned int ipa_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;
uint32_t tx_comp_loop_pkt_limit;
uint32_t rx_reap_loop_pkt_limit;
uint32_t rx_hp_oos_update_limit;
};
/**
* 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
* @mac id: mac_id
*/
struct cdp_txrx_stats_req {
enum cdp_stats stats;
uint32_t param0;
uint32_t param1;
uint32_t param2;
uint32_t param3;
uint32_t cookie_val;
uint8_t mac_id;
char *peer_addr;
};
/**
* 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;
};
/**
* cdp_dp_cfg - dp ini config enum
*/
enum cdp_dp_cfg {
cfg_dp_enable_data_stall,
cfg_dp_enable_ip_tcp_udp_checksum_offload,
cfg_dp_tso_enable,
cfg_dp_lro_enable,
cfg_dp_gro_enable,
cfg_dp_tx_flow_start_queue_offset,
cfg_dp_tx_flow_stop_queue_threshold,
cfg_dp_ipa_uc_tx_buf_size,
cfg_dp_ipa_uc_tx_partition_base,
cfg_dp_ipa_uc_rx_ind_ring_count,
cfg_dp_enable_flow_steering,
cfg_dp_reorder_offload_supported,
cfg_dp_ce_classify_enable,
cfg_dp_disable_intra_bss_fwd,
};
/**
* struct cdp_peer_cookie - cookie used when creating peer
* @peer_id: peer id
* @pdev_id: pdev_id
* @mac_addr: MAC address of peer
* @cookie: cookie to be used by consumer
* @ctx: context passed to be used by consumer
*/
struct cdp_peer_cookie {
uint8_t mac_addr[QDF_MAC_ADDR_SIZE];
uint8_t peer_id;
uint8_t cookie;
struct cdp_stats_cookie *ctx;
};
/**
* cdp_flow_stats - Per-Flow (5-tuple) statistics
* @msdu_count: number of rx msdus matching this flow
*
* HW also includes msdu_byte_count and timestamp, which
* are not currently tracked in SW.
*/
struct cdp_flow_stats {
uint32_t msdu_count;
};
/**
* cdp_flow_fst_operation - RX FST operations allowed
*/
enum cdp_flow_fst_operation {
CDP_FLOW_FST_ENTRY_ADD,
CDP_FLOW_FST_ENTRY_DEL,
CDP_FLOW_FST_RX_BYPASS_ENABLE,
CDP_FLOW_FST_RX_BYPASS_DISABLE
};
/**
* cdp_flow_protocol_type - RX FST supported protocol types, mapped to HW spec
*/
enum cdp_flow_protocol_type {
CDP_FLOW_PROTOCOL_TYPE_TCP = 6,
CDP_FLOW_PROTOCOL_TYPE_UDP = 17,
};
/**
* cdp_rx_flow_tuple_info - RX flow tuple info used for addition/deletion
* @dest_ip_127_96: destination IP address bit fields 96-127
* @dest_ip_95_64: destination IP address bit fields 64-95
* @dest_ip_63_32: destination IP address bit fields 32-63
* @dest_ip_31_0: destination IP address bit fields 0-31
* @src_ip_127_96: source IP address bit fields 96-127
* @src_ip_95_64: source IP address bit fields 64-95
* @src_ip_63_32: source IP address bit fields 32-63
* @src_ip_31_0: source IP address bit fields 0-31
* @dest_port: destination port of flow
* @src_port: source port of flow
* @l4_protocol: protocol type in flow (TCP/UDP)
*/
struct cdp_rx_flow_tuple_info {
uint32_t dest_ip_127_96;
uint32_t dest_ip_95_64;
uint32_t dest_ip_63_32;
uint32_t dest_ip_31_0;
uint32_t src_ip_127_96;
uint32_t src_ip_95_64;
uint32_t src_ip_63_32;
uint32_t src_ip_31_0;
uint16_t dest_port;
uint16_t src_port;
uint16_t l4_protocol;
};
/**
* cdp_rx_flow_info - RX flow info used for addition/deletion
* @is_addr_ipv4: indicates whether given IP address is IPv4/IPv6
* @op_code: add/delete/enable/disable operation requested
* @flow_tupe_info: structure containing tuple info
* @fse_metadata: metadata to be set in RX flow
*/
struct cdp_rx_flow_info {
bool is_addr_ipv4;
enum cdp_flow_fst_operation op_code;
struct cdp_rx_flow_tuple_info flow_tuple_info;
uint16_t fse_metadata;
};
#endif