/* * DHD debugability header file * * Copyright (C) 2022, Broadcom. * * Unless you and Broadcom execute a separate written software license * agreement governing use of this software, this software is licensed to you * under the terms of the GNU General Public License version 2 (the "GPL"), * available at http://www.broadcom.com/licenses/GPLv2.php, with the * following added to such license: * * As a special exception, the copyright holders of this software give you * permission to link this software with independent modules, and to copy and * distribute the resulting executable under terms of your choice, provided that * you also meet, for each linked independent module, the terms and conditions of * the license of that module. An independent module is a module which is not * derived from this software. The special exception does not apply to any * modifications of the software. * * * <> * * $Id$ */ #ifndef _dhd_debug_h_ #define _dhd_debug_h_ #include #include #include enum { /* Feature set */ DBG_MEMORY_DUMP_SUPPORTED = (1 << (0)), /* Memory dump of FW */ DBG_PER_PACKET_TX_RX_STATUS_SUPPORTED = (1 << (1)), /* PKT Status */ DBG_CONNECT_EVENT_SUPPORTED = (1 << (2)), /* Connectivity Event */ DBG_POWER_EVENT_SUPOORTED = (1 << (3)), /* POWER of Driver */ DBG_WAKE_LOCK_SUPPORTED = (1 << (4)), /* WAKE LOCK of Driver */ DBG_VERBOSE_LOG_SUPPORTED = (1 << (5)), /* verbose log of FW */ DBG_HEALTH_CHECK_SUPPORTED = (1 << (6)), /* monitor the health of FW */ DBG_DRIVER_DUMP_SUPPORTED = (1 << (7)), /* dumps driver state */ DBG_PACKET_FATE_SUPPORTED = (1 << (8)), /* tracks connection packets' fate */ DBG_NAN_EVENT_SUPPORTED = (1 << (9)), /* NAN Events */ DBG_PACKET_LOG_SUPPORTED = (1 << (10)), /* Packet log with dbgring */ }; enum { /* set for binary entries */ DBG_RING_ENTRY_FLAGS_HAS_BINARY = (1 << (0)), /* set if 64 bits timestamp is present */ DBG_RING_ENTRY_FLAGS_HAS_TIMESTAMP = (1 << (1)) }; enum { /* Verbose logging level to set for each debug ring buffer */ RING_LOG_LEVEL_NONE = 0, RING_LOG_LEVEL_DEFAULT = 1, RING_LOG_LEVEL_VERBOSE = 2, RING_LOG_LEVEL_EXCESSIVE = 3 }; /* firmware verbose ring, ring id 1 */ #define FW_VERBOSE_RING_NAME "fw_verbose" #define FW_VERBOSE_RING_SIZE (256 * 1024) /* firmware event ring, ring id 2 */ #define FW_EVENT_RING_NAME "fw_event" #define FW_EVENT_RING_SIZE (64 * 1024) /* DHD connection event ring, ring id 3 */ #define DHD_EVENT_RING_NAME "dhd_event" #define DHD_EVENT_RING_SIZE (64 * 1024) /* NAN event ring, ring id 4 */ #define NAN_EVENT_RING_NAME "nan_event" #define NAN_EVENT_RING_SIZE (64 * 1024) #ifdef DHD_DEBUGABILITY_LOG_DUMP_RING /* DHD driver log ring */ #define DRIVER_LOG_RING_NAME "driver_log" #define DRIVER_LOG_RING_SIZE (256 * 1024) /* ROAM stats log ring */ #define ROAM_STATS_RING_NAME "roam_stats" #define ROAM_STATS_RING_SIZE (64 * 1024) #define DEBUG_DUMP_RING1_NAME "debug_dump1_" #define DEBUG_DUMP_RING1_SIZE (2 * 1024 * 1024) #define DEBUG_DUMP_RING2_NAME "debug_dump2_" #define DEBUG_DUMP_RING2_SIZE (2 * 1024 * 1024) #define MEM_DUMP_RING_NAME "mem_dump" #define MEM_DUMP_RING_SIZE (3 * 1024 * 1024) #define DHD_DEBUG_DUMP_NETLINK_MAX (1024 * 8) #define DHD_DEBUG_DUMP_MAX_SYNC_CNT 5u #endif /* DHD_DEBUGABILITY_LOG_DUMP_RING */ #ifdef BTLOG /* BT log ring, ring id 5 */ #define BT_LOG_RING_NAME "bt_log" #define BT_LOG_RING_SIZE (64 * 1024) #endif /* BTLOG */ /* Packet log ring, ring id 7 */ #ifdef DHD_PKT_LOGGING_DBGRING #define DHD_PACKET_LOG_RING_NAME "packet_log" #define DHD_PACKET_LOG_RING_PKTS MIN_PKTLOG_LEN #define DHD_PACKET_LOG_RING_SUSPEND_THRESHOLD \ (DHD_PACKET_LOG_RING_PKTS * 8u / 10u) #define DHD_PACKET_LOG_RING_RESUME_THRESHOLD \ (DHD_PACKET_LOG_RING_PKTS * 2u / 10u) #define DHD_PACKET_LOG_RING_SIZE \ (DHD_PACKET_LOG_RING_PKTS * sizeof(dhd_pktlog_ring_info_t)) #endif /* DHD_PKT_LOGGING_DBGRING */ #define TLV_LOG_SIZE(tlv) ((tlv) ? (sizeof(tlv_log) + (tlv)->len) : 0) #define TLV_LOG_NEXT(tlv) \ ((tlv) ? ((tlv_log *)((uint8 *)tlv + TLV_LOG_SIZE(tlv))) : 0) #define DBG_RING_STATUS_SIZE (sizeof(dhd_dbg_ring_status_t)) #define VALID_RING(id) \ ((id > DEBUG_RING_ID_INVALID) && (id < DEBUG_RING_ID_MAX)) #ifdef DEBUGABILITY #define DBG_RING_ACTIVE(dhdp, ring_id) \ ((dhdp)->dbg && (dhdp)->dbg->dbg_rings[(ring_id)].state == RING_ACTIVE) #else #define DBG_RING_ACTIVE(dhdp, ring_id) 0 #endif /* DEBUGABILITY */ enum { /* driver receive association command from kernel */ WIFI_EVENT_ASSOCIATION_REQUESTED = 0, WIFI_EVENT_AUTH_COMPLETE, WIFI_EVENT_ASSOC_COMPLETE, /* received firmware event indicating auth frames are sent */ WIFI_EVENT_FW_AUTH_STARTED, /* received firmware event indicating assoc frames are sent */ WIFI_EVENT_FW_ASSOC_STARTED, /* received firmware event indicating reassoc frames are sent */ WIFI_EVENT_FW_RE_ASSOC_STARTED, WIFI_EVENT_DRIVER_SCAN_REQUESTED, WIFI_EVENT_DRIVER_SCAN_RESULT_FOUND, WIFI_EVENT_DRIVER_SCAN_COMPLETE, WIFI_EVENT_G_SCAN_STARTED, WIFI_EVENT_G_SCAN_COMPLETE, WIFI_EVENT_DISASSOCIATION_REQUESTED, WIFI_EVENT_RE_ASSOCIATION_REQUESTED, WIFI_EVENT_ROAM_REQUESTED, /* received beacon from AP (event enabled only in verbose mode) */ WIFI_EVENT_BEACON_RECEIVED, /* firmware has triggered a roam scan (not g-scan) */ WIFI_EVENT_ROAM_SCAN_STARTED, /* firmware has completed a roam scan (not g-scan) */ WIFI_EVENT_ROAM_SCAN_COMPLETE, /* firmware has started searching for roam candidates (with reason =xx) */ WIFI_EVENT_ROAM_SEARCH_STARTED, /* firmware has stopped searching for roam candidates (with reason =xx) */ WIFI_EVENT_ROAM_SEARCH_STOPPED, WIFI_EVENT_UNUSED_0, /* received channel switch anouncement from AP */ WIFI_EVENT_CHANNEL_SWITCH_ANOUNCEMENT, /* fw start transmit eapol frame, with EAPOL index 1-4 */ WIFI_EVENT_FW_EAPOL_FRAME_TRANSMIT_START, /* fw gives up eapol frame, with rate, success/failure and number retries */ WIFI_EVENT_FW_EAPOL_FRAME_TRANSMIT_STOP, /* kernel queue EAPOL for transmission in driver with EAPOL index 1-4 */ WIFI_EVENT_DRIVER_EAPOL_FRAME_TRANSMIT_REQUESTED, /* with rate, regardless of the fact that EAPOL frame is accepted or * rejected by firmware */ WIFI_EVENT_FW_EAPOL_FRAME_RECEIVED, WIFI_EVENT_UNUSED_1, /* with rate, and eapol index, driver has received */ /* EAPOL frame and will queue it up to wpa_supplicant */ WIFI_EVENT_DRIVER_EAPOL_FRAME_RECEIVED, /* with success/failure, parameters */ WIFI_EVENT_BLOCK_ACK_NEGOTIATION_COMPLETE, WIFI_EVENT_BT_COEX_BT_SCO_START, WIFI_EVENT_BT_COEX_BT_SCO_STOP, /* for paging/scan etc..., when BT starts transmiting twice per BT slot */ WIFI_EVENT_BT_COEX_BT_SCAN_START, WIFI_EVENT_BT_COEX_BT_SCAN_STOP, WIFI_EVENT_BT_COEX_BT_HID_START, WIFI_EVENT_BT_COEX_BT_HID_STOP, /* firmware sends auth frame in roaming to next candidate */ WIFI_EVENT_ROAM_AUTH_STARTED, /* firmware receive auth confirm from ap */ WIFI_EVENT_ROAM_AUTH_COMPLETE, /* firmware sends assoc/reassoc frame in */ WIFI_EVENT_ROAM_ASSOC_STARTED, /* firmware receive assoc/reassoc confirm from ap */ WIFI_EVENT_ROAM_ASSOC_COMPLETE, /* firmware sends stop G_SCAN */ WIFI_EVENT_G_SCAN_STOP, /* firmware indicates G_SCAN scan cycle started */ WIFI_EVENT_G_SCAN_CYCLE_STARTED, /* firmware indicates G_SCAN scan cycle completed */ WIFI_EVENT_G_SCAN_CYCLE_COMPLETED, /* firmware indicates G_SCAN scan start for a particular bucket */ WIFI_EVENT_G_SCAN_BUCKET_STARTED, /* firmware indicates G_SCAN scan completed for particular bucket */ WIFI_EVENT_G_SCAN_BUCKET_COMPLETED, /* Event received from firmware about G_SCAN scan results being available */ WIFI_EVENT_G_SCAN_RESULTS_AVAILABLE, /* Event received from firmware with G_SCAN capabilities */ WIFI_EVENT_G_SCAN_CAPABILITIES, /* Event received from firmware when eligible candidate is found */ WIFI_EVENT_ROAM_CANDIDATE_FOUND, /* Event received from firmware when roam scan configuration gets enabled or disabled */ WIFI_EVENT_ROAM_SCAN_CONFIG, /* firmware/driver timed out authentication */ WIFI_EVENT_AUTH_TIMEOUT, /* firmware/driver timed out association */ WIFI_EVENT_ASSOC_TIMEOUT, /* firmware/driver encountered allocation failure */ WIFI_EVENT_MEM_ALLOC_FAILURE, /* driver added a PNO network in firmware */ WIFI_EVENT_DRIVER_PNO_ADD, /* driver removed a PNO network in firmware */ WIFI_EVENT_DRIVER_PNO_REMOVE, /* driver received PNO networks found indication from firmware */ WIFI_EVENT_DRIVER_PNO_NETWORK_FOUND, /* driver triggered a scan for PNO networks */ WIFI_EVENT_DRIVER_PNO_SCAN_REQUESTED, /* driver received scan results of PNO networks */ WIFI_EVENT_DRIVER_PNO_SCAN_RESULT_FOUND, /* driver updated scan results from PNO candidates to cfg */ WIFI_EVENT_DRIVER_PNO_SCAN_COMPLETE }; enum { WIFI_TAG_VENDOR_SPECIFIC = 0, /* take a byte stream as parameter */ WIFI_TAG_BSSID, /* takes a 6 bytes MAC address as parameter */ WIFI_TAG_ADDR, /* takes a 6 bytes MAC address as parameter */ WIFI_TAG_SSID, /* takes a 32 bytes SSID address as parameter */ WIFI_TAG_STATUS, /* takes an integer as parameter */ WIFI_TAG_CHANNEL_SPEC, /* takes one or more wifi_channel_spec as parameter */ WIFI_TAG_WAKE_LOCK_EVENT, /* takes a wake_lock_event struct as parameter */ WIFI_TAG_ADDR1, /* takes a 6 bytes MAC address as parameter */ WIFI_TAG_ADDR2, /* takes a 6 bytes MAC address as parameter */ WIFI_TAG_ADDR3, /* takes a 6 bytes MAC address as parameter */ WIFI_TAG_ADDR4, /* takes a 6 bytes MAC address as parameter */ WIFI_TAG_TSF, /* take a 64 bits TSF value as parameter */ WIFI_TAG_IE, /* take one or more specific 802.11 IEs parameter, IEs are in turn * indicated in TLV format as per 802.11 spec */ WIFI_TAG_INTERFACE, /* take interface name as parameter */ WIFI_TAG_REASON_CODE, /* take a reason code as per 802.11 as parameter */ WIFI_TAG_RATE_MBPS, /* take a wifi rate in 0.5 mbps */ WIFI_TAG_REQUEST_ID, /* take an integer as parameter */ WIFI_TAG_BUCKET_ID, /* take an integer as parameter */ WIFI_TAG_GSCAN_PARAMS, /* takes a wifi_scan_cmd_params struct as parameter */ WIFI_TAG_GSCAN_CAPABILITIES, /* takes a wifi_gscan_capabilities struct as parameter */ WIFI_TAG_SCAN_ID, /* take an integer as parameter */ WIFI_TAG_RSSI, /* takes s16 as parameter */ WIFI_TAG_CHANNEL, /* takes u16 as parameter */ WIFI_TAG_LINK_ID, /* take an integer as parameter */ WIFI_TAG_LINK_ROLE, /* take an integer as parameter */ WIFI_TAG_LINK_STATE, /* take an integer as parameter */ WIFI_TAG_LINK_TYPE, /* take an integer as parameter */ WIFI_TAG_TSCO, /* take an integer as parameter */ WIFI_TAG_RSCO, /* take an integer as parameter */ WIFI_TAG_EAPOL_MESSAGE_TYPE /* take an integer as parameter */ }; /* NAN events */ typedef enum { NAN_EVENT_INVALID = 0, NAN_EVENT_CLUSTER_STARTED = 1, NAN_EVENT_CLUSTER_JOINED = 2, NAN_EVENT_CLUSTER_MERGED = 3, NAN_EVENT_ROLE_CHANGED = 4, NAN_EVENT_SCAN_COMPLETE = 5, NAN_EVENT_STATUS_CHNG = 6, /* ADD new events before this line */ NAN_EVENT_MAX } nan_event_id_t; typedef struct { uint16 tag; uint16 len; /* length of value */ uint8 value[0]; } tlv_log; typedef struct per_packet_status_entry { uint8 flags; uint8 tid; /* transmit or received tid */ uint16 MCS; /* modulation and bandwidth */ /* * TX: RSSI of ACK for that packet * RX: RSSI of packet */ uint8 rssi; uint8 num_retries; /* number of attempted retries */ uint16 last_transmit_rate; /* last transmit rate in .5 mbps */ /* transmit/reeive sequence for that MPDU packet */ uint16 link_layer_transmit_sequence; /* * TX: firmware timestamp (us) when packet is queued within firmware buffer * for SDIO/HSIC or into PCIe buffer * RX : firmware receive timestamp */ uint64 firmware_entry_timestamp; /* * firmware timestamp (us) when packet start contending for the * medium for the first time, at head of its AC queue, * or as part of an MPDU or A-MPDU. This timestamp is not updated * for each retry, only the first transmit attempt. */ uint64 start_contention_timestamp; /* * fimrware timestamp (us) when packet is successfully transmitted * or aborted because it has exhausted its maximum number of retries */ uint64 transmit_success_timestamp; /* * packet data. The length of packet data is determined by the entry_size field of * the wifi_ring_buffer_entry structure. It is expected that first bytes of the * packet, or packet headers only (up to TCP or RTP/UDP headers) will be copied into the ring */ uint8 *data; } per_packet_status_entry_t; #if defined(LINUX) #define PACKED_STRUCT __attribute__ ((packed)) #else #define PACKED_STRUCT #endif #if defined(LINUX) typedef struct log_conn_event { uint16 event; tlv_log tlvs[0]; /* * separate parameter structure per event to be provided and optional data * the event_data is expected to include an official android part, with some * parameter as transmit rate, num retries, num scan result found etc... * as well, event_data can include a vendor proprietary part which is * understood by the developer only. */ } PACKED_STRUCT log_conn_event_t; #endif /* defined(LINUX) */ /* * Ring buffer name for power events ring. note that power event are extremely frequents * and thus should be stored in their own ring/file so as not to clobber connectivity events */ typedef struct wake_lock_event { uint32 status; /* 0 taken, 1 released */ uint32 reason; /* reason why this wake lock is taken */ char *name; /* null terminated */ } wake_lock_event_t; typedef struct wifi_power_event { uint16 event; tlv_log *tlvs; } wifi_power_event_t; #define NAN_EVENT_VERSION 1 typedef struct log_nan_event { uint8 version; uint8 pad; uint16 event; tlv_log *tlvs; } log_nan_event_t; /* entry type */ enum { DBG_RING_ENTRY_EVENT_TYPE = 1, DBG_RING_ENTRY_PKT_TYPE, DBG_RING_ENTRY_WAKE_LOCK_EVENT_TYPE, DBG_RING_ENTRY_POWER_EVENT_TYPE, DBG_RING_ENTRY_DATA_TYPE, DBG_RING_ENTRY_NAN_EVENT_TYPE }; struct log_level_table { int log_level; uint16 tag; char *desc; }; /* * Assuming that the Ring lock is mutex, bailing out if the * callers are from atomic context. On a long term, one has to * schedule a job to execute in sleepable context so that * contents are pushed to the ring. */ #define DBG_EVENT_LOG(dhdp, connect_state) \ { \ do { \ uint16 state = connect_state; \ if (CAN_SLEEP() && DBG_RING_ACTIVE(dhdp, DHD_EVENT_RING_ID)) \ dhd_os_push_push_ring_data(dhdp, DHD_EVENT_RING_ID, \ &state, sizeof(state)); \ } while (0); \ } /* * Packet logging - HAL specific data * XXX: These should be moved to wl_cfgvendor.h */ #define MD5_PREFIX_LEN 4 #define MAX_FATE_LOG_LEN 32 #define MAX_FRAME_LEN_ETHERNET 1518 #define MAX_FRAME_LEN_80211_MGMT 2352 /* 802.11-2012 Fig. 8-34 */ typedef enum { /* Sent over air and ACKed. */ TX_PKT_FATE_ACKED, /* Sent over air but not ACKed. (Normal for broadcast/multicast.) */ TX_PKT_FATE_SENT, /* Queued within firmware, but not yet sent over air. */ TX_PKT_FATE_FW_QUEUED, /* * Dropped by firmware as invalid. E.g. bad source address, * bad checksum, or invalid for current state. */ TX_PKT_FATE_FW_DROP_INVALID, /* Dropped by firmware due to lifetime expiration. */ TX_PKT_FATE_FW_DROP_EXPTIME, /* * Dropped by firmware for any other reason. Includes * frames that were sent by driver to firmware, but * unaccounted for by firmware. */ TX_PKT_FATE_FW_DROP_OTHER, /* Queued within driver, not yet sent to firmware. */ TX_PKT_FATE_DRV_QUEUED, /* * Dropped by driver as invalid. E.g. bad source address, * or invalid for current state. */ TX_PKT_FATE_DRV_DROP_INVALID, /* Dropped by driver due to lack of buffer space. */ TX_PKT_FATE_DRV_DROP_NOBUFS, /* Dropped by driver for any other reason. */ TX_PKT_FATE_DRV_DROP_OTHER, /* Packet free by firmware. */ TX_PKT_FATE_FW_PKT_FREE, /* Firmware dropped the frame after suppress retries reached max */ TX_PKT_FATE_FW_MAX_SUP_RETR, /* Firmware forced packet lifetime expiry */ TX_PKT_FATE_FW_FORCED_EXPIRED, #ifdef DHD_PKT_LOGGING_DBGRING /* Indicate to wait for updating txfate. */ TX_PKT_FATE_DRV_WAIT_UPDATE = 0x80000000, #endif /* DHD_PKT_LOGGING_DBGRING */ } wifi_tx_packet_fate; typedef enum { /* Valid and delivered to network stack (e.g., netif_rx()). */ RX_PKT_FATE_SUCCESS, /* Queued within firmware, but not yet sent to driver. */ RX_PKT_FATE_FW_QUEUED, /* Dropped by firmware due to host-programmable filters. */ RX_PKT_FATE_FW_DROP_FILTER, /* * Dropped by firmware as invalid. E.g. bad checksum, * decrypt failed, or invalid for current state. */ RX_PKT_FATE_FW_DROP_INVALID, /* Dropped by firmware due to lack of buffer space. */ RX_PKT_FATE_FW_DROP_NOBUFS, /* Dropped by firmware for any other reason. */ RX_PKT_FATE_FW_DROP_OTHER, /* Queued within driver, not yet delivered to network stack. */ RX_PKT_FATE_DRV_QUEUED, /* Dropped by driver due to filter rules. */ RX_PKT_FATE_DRV_DROP_FILTER, /* Dropped by driver as invalid. E.g. not permitted in current state. */ RX_PKT_FATE_DRV_DROP_INVALID, /* Dropped by driver due to lack of buffer space. */ RX_PKT_FATE_DRV_DROP_NOBUFS, /* Dropped by driver for any other reason. */ RX_PKT_FATE_DRV_DROP_OTHER, /* Indicate RX Host Wake up packet. */ RX_PKT_FATE_WAKE_PKT, } wifi_rx_packet_fate; typedef enum { FRAME_TYPE_UNKNOWN, FRAME_TYPE_ETHERNET_II, FRAME_TYPE_80211_MGMT, } frame_type; typedef struct wifi_frame_info { /* * The type of MAC-layer frame that this frame_info holds. * - For data frames, use FRAME_TYPE_ETHERNET_II. * - For management frames, use FRAME_TYPE_80211_MGMT. * - If the type of the frame is unknown, use FRAME_TYPE_UNKNOWN. */ frame_type payload_type; /* * The number of bytes included in |frame_content|. If the frame * contents are missing (e.g. RX frame dropped in firmware), * |frame_len| should be set to 0. */ size_t frame_len; /* * Host clock when this frame was received by the driver (either * outbound from the host network stack, or inbound from the * firmware). * - The timestamp should be taken from a clock which includes time * the host spent suspended (e.g. ktime_get_boottime()). * - If no host timestamp is available (e.g. RX frame was dropped in * firmware), this field should be set to 0. */ uint32 driver_timestamp_usec; /* * Firmware clock when this frame was received by the firmware * (either outbound from the host, or inbound from a remote * station). * - The timestamp should be taken from a clock which includes time * firmware spent suspended (if applicable). * - If no firmware timestamp is available (e.g. TX frame was * dropped by driver), this field should be set to 0. * - Consumers of |frame_info| should _not_ assume any * synchronization between driver and firmware clocks. */ uint32 firmware_timestamp_usec; /* * Actual frame content. * - Should be provided for TX frames originated by the host. * - Should be provided for RX frames received by the driver. * - Optionally provided for TX frames originated by firmware. (At * discretion of HAL implementation.) * - Optionally provided for RX frames dropped in firmware. (At * discretion of HAL implementation.) * - If frame content is not provided, |frame_len| should be set * to 0. */ union { char ethernet_ii[MAX_FRAME_LEN_ETHERNET]; char ieee_80211_mgmt[MAX_FRAME_LEN_80211_MGMT]; } frame_content; } wifi_frame_info_t; typedef struct wifi_tx_report { /* * Prefix of MD5 hash of |frame_inf.frame_content|. If frame * content is not provided, prefix of MD5 hash over the same data * that would be in frame_content, if frame content were provided. */ char md5_prefix[MD5_PREFIX_LEN]; wifi_tx_packet_fate fate; wifi_frame_info_t frame_inf; } wifi_tx_report_t; typedef struct wifi_rx_report { /* * Prefix of MD5 hash of |frame_inf.frame_content|. If frame * content is not provided, prefix of MD5 hash over the same data * that would be in frame_content, if frame content were provided. */ char md5_prefix[MD5_PREFIX_LEN]; wifi_rx_packet_fate fate; wifi_frame_info_t frame_inf; } wifi_rx_report_t; typedef struct compat_wifi_frame_info { frame_type payload_type; uint32 frame_len; uint32 driver_timestamp_usec; uint32 firmware_timestamp_usec; union { char ethernet_ii[MAX_FRAME_LEN_ETHERNET]; char ieee_80211_mgmt[MAX_FRAME_LEN_80211_MGMT]; } frame_content; } compat_wifi_frame_info_t; typedef struct compat_wifi_tx_report { char md5_prefix[MD5_PREFIX_LEN]; wifi_tx_packet_fate fate; compat_wifi_frame_info_t frame_inf; } compat_wifi_tx_report_t; typedef struct compat_wifi_rx_report { char md5_prefix[MD5_PREFIX_LEN]; wifi_rx_packet_fate fate; compat_wifi_frame_info_t frame_inf; } compat_wifi_rx_report_t; /* * Packet logging - internal data */ typedef enum dhd_dbg_pkt_mon_state { PKT_MON_INVALID = 0, PKT_MON_ATTACHED, PKT_MON_STARTING, PKT_MON_STARTED, PKT_MON_STOPPING, PKT_MON_STOPPED, PKT_MON_DETACHED, } dhd_dbg_pkt_mon_state_t; typedef struct dhd_dbg_pkt_info { frame_type payload_type; size_t pkt_len; uint32 driver_ts; uint32 firmware_ts; uint32 pkt_hash; void *pkt; } dhd_dbg_pkt_info_t; typedef struct compat_dhd_dbg_pkt_info { frame_type payload_type; uint32 pkt_len; uint32 driver_ts; uint32 firmware_ts; uint32 pkt_hash; void *pkt; } compat_dhd_dbg_pkt_info_t; typedef struct dhd_dbg_tx_info { wifi_tx_packet_fate fate; dhd_dbg_pkt_info_t info; } dhd_dbg_tx_info_t; typedef struct dhd_dbg_rx_info { wifi_rx_packet_fate fate; dhd_dbg_pkt_info_t info; } dhd_dbg_rx_info_t; typedef struct dhd_dbg_tx_report { dhd_dbg_tx_info_t *tx_pkts; /* Indicates how many packets queued to send over the air */ uint16 pkt_pos; /* Indicates how many packets sent over the air and received txstatus */ uint16 status_pos; } dhd_dbg_tx_report_t; typedef struct dhd_dbg_rx_report { dhd_dbg_rx_info_t *rx_pkts; /* Indicates how many packets sent over the air and received txstatus */ uint16 pkt_pos; } dhd_dbg_rx_report_t; typedef void (*dbg_pullreq_t)(void *os_priv, const int ring_id); typedef void (*dbg_urgent_noti_t) (dhd_pub_t *dhdp, const void *data, const uint32 len); typedef int (*dbg_mon_tx_pkts_t) (dhd_pub_t *dhdp, void *pkt, uint32 pktid, frame_type type, uint8 mgmt_acked); typedef int (*dbg_mon_tx_status_t) (dhd_pub_t *dhdp, void *pkt, uint32 pktid, uint16 status); typedef int (*dbg_mon_rx_pkts_t) (dhd_pub_t *dhdp, void *pkt, frame_type type); typedef struct dhd_dbg_pkt_mon { dhd_dbg_tx_report_t *tx_report; dhd_dbg_rx_report_t *rx_report; dhd_dbg_pkt_mon_state_t tx_pkt_state; dhd_dbg_pkt_mon_state_t tx_status_state; dhd_dbg_pkt_mon_state_t rx_pkt_state; /* call backs */ dbg_mon_tx_pkts_t tx_pkt_mon; dbg_mon_tx_status_t tx_status_mon; dbg_mon_rx_pkts_t rx_pkt_mon; } dhd_dbg_pkt_mon_t; typedef struct dhd_dbg { dhd_dbg_ring_t dbg_rings[DEBUG_RING_ID_MAX]; void *private; /* os private_data */ dhd_dbg_pkt_mon_t pkt_mon; void *pkt_mon_lock; /* spin lock for packet monitoring */ dbg_pullreq_t pullreq; dbg_urgent_noti_t urgent_notifier; } dhd_dbg_t; #define PKT_MON_ATTACHED(state) \ (((state) > PKT_MON_INVALID) && ((state) < PKT_MON_DETACHED)) #define PKT_MON_DETACHED(state) \ (((state) == PKT_MON_INVALID) || ((state) == PKT_MON_DETACHED)) #define PKT_MON_STARTED(state) ((state) == PKT_MON_STARTED) #define PKT_MON_STOPPED(state) ((state) == PKT_MON_STOPPED) #define PKT_MON_NOT_OPERATIONAL(state) \ (((state) != PKT_MON_STARTED) && ((state) != PKT_MON_STOPPED)) #define PKT_MON_SAFE_TO_FREE(state) \ (((state) == PKT_MON_STARTING) || ((state) == PKT_MON_STOPPED)) #define PKT_MON_PKT_FULL(pkt_count) ((pkt_count) >= MAX_FATE_LOG_LEN) #define PKT_MON_STATUS_FULL(pkt_count, status_count) \ (((status_count) >= (pkt_count)) || ((status_count) >= MAX_FATE_LOG_LEN)) #ifdef DBG_PKT_MON #define DHD_DBG_PKT_MON_TX(dhdp, pkt, pktid, type, mgmt_acked) \ do { \ if ((dhdp) && (dhdp)->dbg && (dhdp)->dbg->pkt_mon.tx_pkt_mon && (pkt)) { \ (dhdp)->dbg->pkt_mon.tx_pkt_mon((dhdp), (pkt), \ (pktid), (type), (mgmt_acked)); \ } \ } while (0); #define DHD_DBG_PKT_MON_TX_STATUS(dhdp, pkt, pktid, status) \ do { \ if ((dhdp) && (dhdp)->dbg && (dhdp)->dbg->pkt_mon.tx_status_mon && (pkt)) { \ (dhdp)->dbg->pkt_mon.tx_status_mon((dhdp), (pkt), (pktid), (status)); \ } \ } while (0); #define DHD_DBG_PKT_MON_RX(dhdp, pkt, type) \ do { \ if ((dhdp) && (dhdp)->dbg && (dhdp)->dbg->pkt_mon.rx_pkt_mon && (pkt)) { \ if (ntoh16((pkt)->protocol) != ETHER_TYPE_BRCM) { \ (dhdp)->dbg->pkt_mon.rx_pkt_mon((dhdp), (pkt), (type)); \ } \ } \ } while (0); #define DHD_DBG_PKT_MON_START(dhdp) \ dhd_os_dbg_start_pkt_monitor((dhdp)); #define DHD_DBG_PKT_MON_STOP(dhdp) \ dhd_os_dbg_stop_pkt_monitor((dhdp)); #else #define DHD_DBG_PKT_MON_TX(dhdp, pkt, pktid, type, mgmt_acked) #define DHD_DBG_PKT_MON_TX_STATUS(dhdp, pkt, pktid, status) #define DHD_DBG_PKT_MON_RX(dhdp, pkt, type) #define DHD_DBG_PKT_MON_START(dhdp) #define DHD_DBG_PKT_MON_STOP(dhdp) #endif /* DBG_PKT_MON */ #ifdef DUMP_IOCTL_IOV_LIST typedef struct dhd_iov_li { dll_t list; uint32 cmd; /* command number */ char buff[100]; /* command name */ } dhd_iov_li_t; #endif /* DUMP_IOCTL_IOV_LIST */ #define IOV_LIST_MAX_LEN 5 #ifdef DHD_DEBUG typedef struct { dll_t list; uint32 id; /* wasted chunk id */ uint32 handle; /* wasted chunk handle */ uint32 size; /* wasted chunk size */ } dhd_dbg_mwli_t; #endif /* DHD_DEBUG */ #define DHD_OW_BI_RAW_EVENT_LOG_FMT 0xFFFF /* LSB 2 bits of format number to identify the type of event log */ #define DHD_EVENT_LOG_HDR_MASK 0x3 #define DHD_EVENT_LOG_FMT_NUM_OFFSET 2 #define DHD_EVENT_LOG_FMT_NUM_MASK 0x3FFF /** * OW:- one word * TW:- two word * NB:- non binary * BI:- binary */ #define DHD_OW_NB_EVENT_LOG_HDR 0 #define DHD_TW_NB_EVENT_LOG_HDR 1 #define DHD_BI_EVENT_LOG_HDR 3 #define DHD_INVALID_EVENT_LOG_HDR 2 #define DHD_TW_VALID_TAG_BITS_MASK 0xF #define DHD_OW_BI_EVENT_FMT_NUM 0x3FFF #define DHD_TW_BI_EVENT_FMT_NUM 0x3FFE #define DHD_TW_EVENT_LOG_TAG_OFFSET 8 #define EVENT_TAG_TIMESTAMP_OFFSET 1 #define EVENT_TAG_TIMESTAMP_EXT_OFFSET 2 typedef struct prcd_event_log_hdr { uint32 tag; /* Event_log entry tag */ uint32 count; /* Count of 4-byte entries */ uint32 fmt_num_raw; /* Format number */ uint32 fmt_num; /* Format number >> 2 */ uint32 armcycle; /* global ARM CYCLE for TAG */ uint32 *log_ptr; /* start of payload */ uint32 payload_len; /* Extended event log header info * 0 - legacy, 1 - extended event log header present */ bool ext_event_log_hdr; bool binary_payload; /* 0 - non binary payload, 1 - binary payload */ } prcd_event_log_hdr_t; /* Processed event log header */ /* dhd_dbg functions */ extern void dhd_dbg_trace_evnt_handler(dhd_pub_t *dhdp, void *event_data, void *raw_event_ptr, uint datalen); void dhd_dbg_msgtrace_log_parser(dhd_pub_t *dhdp, void *event_data, void *raw_event_ptr, uint datalen, bool msgtrace_hdr_present, uint32 msgtrace_seqnum); #ifdef BTLOG extern void dhd_dbg_bt_log_handler(dhd_pub_t *dhdp, void *data, uint datalen); #endif /* BTLOG */ extern int dhd_dbg_attach(dhd_pub_t *dhdp, dbg_pullreq_t os_pullreq, dbg_urgent_noti_t os_urgent_notifier, void *os_priv); extern void dhd_dbg_detach(dhd_pub_t *dhdp); extern int dhd_dbg_start(dhd_pub_t *dhdp, bool start); extern int dhd_dbg_set_configuration(dhd_pub_t *dhdp, int ring_id, int log_level, int flags, uint32 threshold); extern int dhd_dbg_find_ring_id(dhd_pub_t *dhdp, char *ring_name); extern dhd_dbg_ring_t *dhd_dbg_get_ring_from_ring_id(dhd_pub_t *dhdp, int ring_id); extern void *dhd_dbg_get_priv(dhd_pub_t *dhdp); extern int dhd_dbg_send_urgent_evt(dhd_pub_t *dhdp, const void *data, const uint32 len); extern void dhd_dbg_verboselog_printf(dhd_pub_t *dhdp, prcd_event_log_hdr_t *plog_hdr, void *raw_event_ptr, uint32 *log_ptr, uint32 logset, uint16 block); int dhd_dbg_pull_from_ring(dhd_pub_t *dhdp, int ring_id, void *data, uint32 buf_len); int dhd_dbg_pull_single_from_ring(dhd_pub_t *dhdp, int ring_id, void *data, uint32 buf_len, bool strip_header); #ifdef DHD_PKT_LOGGING_DBGRING int dhd_dbg_update_to_ring(dhd_pub_t *dhdp, void *ring, uint32 w_len); int dhd_dbg_pull_from_pktlog(dhd_pub_t *dhdp, int ring_id, void *data, uint32 buf_len); void dhd_os_dbg_urgent_pullreq(void *os_priv, int ring_id); #endif /* DHD_PKT_LOGGING_DBGRING */ #ifdef DHD_DEBUGABILITY_DEBUG_DUMP int dhd_debug_dump_ring_push(dhd_pub_t *dhdp, int ring_id, uint32 len, void *data); #endif /* DHD_DEBUGABILITY_DEBUG_DUMP */ int dhd_dbg_push_to_ring(dhd_pub_t *dhdp, int ring_id, dhd_dbg_ring_entry_t *hdr, void *data); int __dhd_dbg_get_ring_status(dhd_dbg_ring_t *ring, dhd_dbg_ring_status_t *ring_status); int dhd_dbg_get_ring_status(dhd_pub_t *dhdp, int ring_id, dhd_dbg_ring_status_t *dbg_ring_status); #ifdef SHOW_LOGTRACE void dhd_dbg_read_ring_into_trace_buf(dhd_dbg_ring_t *ring, trace_buf_info_t *trace_buf_info); #endif /* SHOW_LOGTRACE */ #ifdef DBG_PKT_MON extern int dhd_dbg_attach_pkt_monitor(dhd_pub_t *dhdp, dbg_mon_tx_pkts_t tx_pkt_mon, dbg_mon_tx_status_t tx_status_mon, dbg_mon_rx_pkts_t rx_pkt_mon); extern int dhd_dbg_start_pkt_monitor(dhd_pub_t *dhdp); extern int dhd_dbg_monitor_tx_pkts(dhd_pub_t *dhdp, void *pkt, uint32 pktid, frame_type type, uint8 mgmt_acked); extern int dhd_dbg_monitor_tx_status(dhd_pub_t *dhdp, void *pkt, uint32 pktid, uint16 status); extern int dhd_dbg_monitor_rx_pkts(dhd_pub_t *dhdp, void *pkt, frame_type type); extern int dhd_dbg_stop_pkt_monitor(dhd_pub_t *dhdp); extern int dhd_dbg_monitor_get_tx_pkts(dhd_pub_t *dhdp, void __user *user_buf, uint16 req_count, uint16 *resp_count); extern int dhd_dbg_monitor_get_rx_pkts(dhd_pub_t *dhdp, void __user *user_buf, uint16 req_count, uint16 *resp_count); extern int dhd_dbg_detach_pkt_monitor(dhd_pub_t *dhdp); #endif /* DBG_PKT_MON */ extern bool dhd_dbg_process_tx_status(dhd_pub_t *dhdp, void *pkt, uint32 pktid, uint16 status); /* os wrapper function */ extern int dhd_os_dbg_attach(dhd_pub_t *dhdp); extern void dhd_os_dbg_detach(dhd_pub_t *dhdp); extern int dhd_os_dbg_register_callback(int ring_id, void (*dbg_ring_sub_cb)(void *ctx, const int ring_id, const void *data, const uint32 len, const dhd_dbg_ring_status_t dbg_ring_status)); extern int dhd_os_dbg_register_urgent_notifier(dhd_pub_t *dhdp, void (*urgent_noti)(void *ctx, const void *data, const uint32 len, const uint32 fw_len)); extern int dhd_os_start_logging(dhd_pub_t *dhdp, char *ring_name, int log_level, int flags, int time_intval, int threshold); extern int dhd_os_reset_logging(dhd_pub_t *dhdp); extern int dhd_os_suppress_logging(dhd_pub_t *dhdp, bool suppress); extern int dhd_os_get_ring_status(dhd_pub_t *dhdp, int ring_id, dhd_dbg_ring_status_t *dbg_ring_status); extern int dhd_os_trigger_get_ring_data(dhd_pub_t *dhdp, char *ring_name); extern int dhd_os_push_push_ring_data(dhd_pub_t *dhdp, int ring_id, void *data, int32 data_len); extern int dhd_os_dbg_get_feature(dhd_pub_t *dhdp, int32 *features); #ifdef DBG_PKT_MON extern int dhd_os_dbg_attach_pkt_monitor(dhd_pub_t *dhdp); extern int dhd_os_dbg_start_pkt_monitor(dhd_pub_t *dhdp); extern int dhd_os_dbg_monitor_tx_pkts(dhd_pub_t *dhdp, void *pkt, uint32 pktid, frame_type type, uint8 mgmt_acked); extern int dhd_os_dbg_monitor_tx_status(dhd_pub_t *dhdp, void *pkt, uint32 pktid, uint16 status); extern int dhd_os_dbg_monitor_rx_pkts(dhd_pub_t *dhdp, void *pkt, frame_type type); extern int dhd_os_dbg_stop_pkt_monitor(dhd_pub_t *dhdp); extern int dhd_os_dbg_monitor_get_tx_pkts(dhd_pub_t *dhdp, void __user *user_buf, uint16 req_count, uint16 *resp_count); extern int dhd_os_dbg_monitor_get_rx_pkts(dhd_pub_t *dhdp, void __user *user_buf, uint16 req_count, uint16 *resp_count); extern int dhd_os_dbg_detach_pkt_monitor(dhd_pub_t *dhdp); #endif /* DBG_PKT_MON */ #ifdef DUMP_IOCTL_IOV_LIST extern void dhd_iov_li_append(dhd_pub_t *dhd, dll_t *list_head, dll_t *node); extern void dhd_iov_li_print(dll_t *list_head); extern void dhd_iov_li_delete(dhd_pub_t *dhd, dll_t *list_head); #endif /* DUMP_IOCTL_IOV_LIST */ #ifdef DHD_DEBUG extern void dhd_mw_list_delete(dhd_pub_t *dhd, dll_t *list_head); #endif /* DHD_DEBUG */ void print_roam_enhanced_log(prcd_event_log_hdr_t *plog_hdr); typedef void (*print_roam_enhance_log_func)(prcd_event_log_hdr_t *plog_hdr); typedef struct _pr_roam_tbl { uint8 version; uint8 id; print_roam_enhance_log_func pr_func; } pr_roam_tbl_t; extern uint32 dhd_dbg_get_fwverbose(dhd_pub_t *dhdp); extern void dhd_dbg_set_fwverbose(dhd_pub_t *dhdp, uint32 new_val); #endif /* _dhd_debug_h_ */