1 /* 2 * Copyright (c) 2016-2021 The Linux Foundation. All rights reserved. 3 * Copyright (c) 2021-2024 Qualcomm Innovation Center, Inc. All rights reserved. 4 * 5 * Permission to use, copy, modify, and/or distribute this software for 6 * any purpose with or without fee is hereby granted, provided that the 7 * above copyright notice and this permission notice appear in all 8 * copies. 9 * 10 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL 11 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED 12 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE 13 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL 14 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR 15 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER 16 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR 17 * PERFORMANCE OF THIS SOFTWARE. 18 */ 19 20 /** 21 * DOC: cdp_txrx_stats_struct.h 22 * Define the host data path stats API functions 23 * called by the host control SW and the OS interface module 24 */ 25 #ifndef _CDP_TXRX_STATS_STRUCT_H_ 26 #define _CDP_TXRX_STATS_STRUCT_H_ 27 28 #include <qdf_types.h> 29 #include <cdp_txrx_hist_struct.h> 30 31 #define TXRX_STATS_LEVEL_OFF 0 32 #define TXRX_STATS_LEVEL_BASIC 1 33 #define TXRX_STATS_LEVEL_FULL 2 34 35 #define BSS_CHAN_INFO_READ 1 36 #define BSS_CHAN_INFO_READ_AND_CLEAR 2 37 38 #define TX_FRAME_TYPE_DATA 0 39 #define TX_FRAME_TYPE_MGMT 1 40 #define TX_FRAME_TYPE_BEACON 2 41 42 #ifndef TXRX_STATS_LEVEL 43 #define TXRX_STATS_LEVEL TXRX_STATS_LEVEL_BASIC 44 #endif 45 46 #define CDP_MU_MAX_USERS 37 47 #define CDP_MU_MAX_MIMO_USERS 8 48 /* 1 additional MCS is for invalid values */ 49 #ifdef WLAN_FEATURE_11BE 50 #define MAX_MCS (16 + 1) 51 #define MAX_MCS_11BE 16 52 #define MAX_PUNCTURED_MODE 5 53 #else 54 #define MAX_MCS (14 + 1) 55 #endif 56 57 #define MCS_INVALID_ARRAY_INDEX MAX_MCS 58 #define MAX_MCS_11A 8 59 #define MAX_MCS_11B 7 60 #define MAX_MCS_11N 8 61 #define MAX_MCS_11AC 12 62 #define MAX_MCS_11AX 14 63 /* 1 additional GI is for invalid values */ 64 #define MAX_GI (4 + 1) 65 #define SS_COUNT 8 66 #define MAX_BW 8 67 #define MAX_RECEPTION_TYPES 4 68 69 #define CDP_MAX_RX_DEST_RINGS 8 70 #define CDP_MAX_TX_DATA_RINGS 5 71 #define CDP_MAX_WIFI_INT_ERROR_REASONS 5 72 /* 73 * This header file is being accessed in userspace applications. 74 * NR_CPUS is a linux kernel macro and cannot be accessible by user space apps. 75 * Defining maximum possible cpu count locally. 76 */ 77 #define CDP_NR_CPUS 8 78 79 #define MAX_TRANSMIT_TYPES 9 80 81 #define MAX_USER_POS 8 82 #define MAX_MU_GROUP_ID 64 83 84 #ifdef WLAN_FEATURE_11BE 85 #define MAX_RU_LOCATIONS 16 86 #else 87 #define MAX_RU_LOCATIONS 6 88 #endif 89 #define RU_26 1 90 #define RU_52 2 91 #define RU_106 4 92 #define RU_242 9 93 #define RU_484 18 94 #define RU_996 37 95 #ifdef WLAN_FEATURE_11BE 96 #define RU_2X996 74 97 #define RU_3X996 111 98 #define RU_4X996 148 99 #define RU_52_26 RU_52 + RU_26 100 #define RU_106_26 RU_106 + RU_26 101 #define RU_484_242 RU_484 + RU_242 102 #define RU_996_484 RU_996 + RU_484 103 #define RU_996_484_242 RU_996 + RU_484_242 104 #define RU_2X996_484 RU_2X996 + RU_484 105 #define RU_3X996_484 RU_3X996 + RU_484 106 #endif 107 108 109 /* WME stream classes */ 110 #define WME_AC_BE 0 /* best effort */ 111 #define WME_AC_BK 1 /* background */ 112 #define WME_AC_VI 2 /* video */ 113 #define WME_AC_VO 3 /* voice */ 114 #define WME_AC_MAX 4 /* MAX AC Value */ 115 116 #define CDP_MAX_RX_RINGS 8 /* max rx rings */ 117 #define CDP_MAX_TX_COMP_RINGS 5 /* max tx/completion rings */ 118 #define CDP_MAX_TX_COMP_PPE_RING (CDP_MAX_TX_COMP_RINGS - 1) 119 #define CDP_MAX_RX_WBM_RINGS 1 /* max rx wbm rings */ 120 121 #define CDP_MAX_TX_TQM_STATUS 15 /* max tx tqm completion status */ 122 #define CDP_MAX_TX_HTT_STATUS 7 /* max tx htt completion status */ 123 124 #define CDP_DMA_CODE_MAX 14 /* max rxdma error */ 125 #define CDP_REO_CODE_MAX 15 /* max reo error */ 126 127 #define CDP_MAX_LMACS 2 /* max lmacs */ 128 129 /* 130 * Max of TxRx context 131 */ 132 #define CDP_MAX_TXRX_CTX CDP_MAX_RX_RINGS 133 134 /* TID level VoW stats macros 135 * to add and get stats 136 */ 137 #define PFLOW_TXRX_TIDQ_STATS_ADD(_peer, _tid, _var, _val) \ 138 (((_peer)->tidq_stats[_tid]).stats[_var]) += _val 139 #define PFLOW_TXRX_TIDQ_STATS_GET(_peer, _tid, _var, _val) \ 140 ((_peer)->tidq_stats[_tid].stats[_var]) 141 /* 142 * Video only stats 143 */ 144 #define PFLOW_CTRL_PDEV_VIDEO_STATS_SET(_pdev, _var, _val) \ 145 (((_pdev)->vow.vistats[_var]).value) = _val 146 #define PFLOW_CTRL_PDEV_VIDEO_STATS_GET(_pdev, _var) \ 147 ((_pdev)->vow.vistats[_var].value) 148 #define PFLOW_CTRL_PDEV_VIDEO_STATS_ADD(_pdev, _var, _val) \ 149 (((_pdev)->vow.vistats[_var]).value) += _val 150 /* 151 * video delay stats 152 */ 153 #define PFLOW_CTRL_PDEV_DELAY_VIDEO_STATS_SET(_pdev, _var, _val) \ 154 (((_pdev)->vow.delaystats[_var]).value) = _val 155 #define PFLOW_CTRL_PDEV_DELAY_VIDEO_STATS_GET(_pdev, _var) \ 156 ((_pdev)->vow.delaystats[_var].value) 157 #define PFLOW_CTRL_PDEV_DELAY_VIDEO_STATS_ADD(_pdev, _var, _val) \ 158 (((_pdev)->vow.delaystats[_var]).value) += _val 159 /* 160 * Number of TLVs sent by FW. Needs to reflect 161 * HTT_PPDU_STATS_MAX_TAG declared in FW 162 */ 163 #define CDP_PPDU_STATS_MAX_TAG 14 164 #define CDP_MAX_DATA_TIDS 9 165 #define CDP_MAX_VOW_TID 4 166 #define CDP_VDEV_ALL 0xff 167 168 #define CDP_MAX_TIDS 17 169 170 #define CDP_MAX_PKT_PER_WIN 1000 171 #define CDP_MAX_WIN_MOV_AVG 10 172 173 #define CDP_WDI_NUM_EVENTS WDI_NUM_EVENTS 174 175 #define CDP_FCTL_RETRY 0x0800 176 #define CDP_FC_IS_RETRY_SET(_fc) \ 177 ((_fc) & qdf_cpu_to_le16(CDP_FCTL_RETRY)) 178 179 #define CDP_INVALID_SNR 255 180 181 #define CDP_SNR_MULTIPLIER BIT(8) 182 #define CDP_SNR_MUL(x, mul) ((x) * (mul)) 183 #define CDP_SNR_RND(x, mul) ((((x) % (mul)) >= ((mul) / 2)) ?\ 184 ((x) + ((mul) - 1)) / (mul) : (x) / (mul)) 185 186 #define CDP_SNR_OUT(x) (CDP_SNR_RND((x), CDP_SNR_MULTIPLIER)) 187 #define CDP_SNR_IN(x) (CDP_SNR_MUL((x), CDP_SNR_MULTIPLIER)) 188 #define CDP_SNR_AVG(x, y) ((((x) << 2) + (y) - (x)) >> 2) 189 190 #define CDP_SNR_UPDATE_AVG(x, y) x = CDP_SNR_AVG((x), CDP_SNR_IN((y))) 191 192 /*Max SU EVM count */ 193 #ifdef QCA_MONITOR_2_0_SUPPORT 194 #define DP_RX_MAX_SU_EVM_COUNT 256 195 #else 196 #define DP_RX_MAX_SU_EVM_COUNT 32 197 #endif 198 199 #define WDI_EVENT_BASE 0x100 200 201 #define CDP_TXRX_RATECODE_MCS_MASK 0xF 202 #define CDP_TXRX_RATECODE_NSS_MASK 0x3 203 #define CDP_TXRX_RATECODE_NSS_LSB 4 204 #define CDP_TXRX_RATECODE_PREM_MASK 0x3 205 #define CDP_TXRX_RATECODE_PREM_LSB 6 206 207 /* Below BW_GAIN should be added to the SNR value of every ppdu based on the 208 * bandwidth. This table is obtained from HALPHY. 209 * BW BW_Gain 210 * 20 0 211 * 40 3dBm 212 * 80 6dBm 213 * 160/80P80 9dBm 214 * 320 12dBm 215 */ 216 217 #define PKT_BW_GAIN_20MHZ 0 218 #define PKT_BW_GAIN_40MHZ 3 219 #define PKT_BW_GAIN_80MHZ 6 220 #define PKT_BW_GAIN_160MHZ 9 221 #ifdef WLAN_FEATURE_11BE 222 #define PKT_BW_GAIN_320MHZ 12 223 #endif 224 225 /* Below indicates xmit path which can be taken by packet */ 226 #if defined(WLAN_FEATURE_11BE_MLO) && defined(WLAN_MLO_MULTI_CHIP) 227 #define DP_INGRESS_STATS_MAX_SIZE 2 228 #define DP_VDEV_XMIT_TYPE 1 /* Packet can take path as : MLD/MLO-VAP/WDS_EXT */ 229 #else 230 #define DP_INGRESS_STATS_MAX_SIZE 1 231 #define DP_VDEV_XMIT_TYPE 0 232 #endif 233 234 /** 235 * enum cdp_wifi_error_code - Code describing the type of WIFI error detected 236 * 237 * This enum is a direct replica of hal_rxdma_error_code enum. 238 * New element addition to the enum need to make a entry in this enum too. 239 * 240 * @CDP_WIFI_ERR_OVERFLOW: MPDU frame is not complete due to overflow 241 * @CDP_WIFI_ERR_MPDU_LENGTH: MPDU frame is not complete due to receiving 242 * incomplete MPDU from the PHY 243 * @CDP_WIFI_ERR_FCS: FCS check on the MPDU frame failed 244 * @CDP_WIFI_ERR_DECRYPT: Decryption error 245 * @CDP_WIFI_ERR_TKIP_MIC: TKIP MIC error 246 * @CDP_WIFI_ERR_UNENCRYPTED: Received a frame that was expected to be 247 * encrypted but wasn’t 248 * @CDP_WIFI_ERR_MSDU_LEN: MSDU related length error 249 * @CDP_WIFI_ERR_MSDU_LIMIT: Number of MSDUs in the MPDUs exceeded the max 250 * allowed 251 * @CDP_WIFI_ERR_WIFI_PARSE: Wifi parsing error 252 * @CDP_WIFI_ERR_AMSDU_PARSE: Amsdu parsing error 253 * @CDP_WIFI_ERR_SA_TIMEOUT: Source Address search timeout 254 * @CDP_WIFI_ERR_DA_TIMEOUT: Destination Address search timeout 255 * @CDP_WIFI_ERR_FLOW_TIMEOUT: Flow Search Timeout 256 * @CDP_WIFI_ERR_FLUSH_REQUEST: Flush request error 257 * @CDP_WIFI_ERR_AMSDU_FRAGMENT: Reported A-MSDU present along with a fragmented 258 * MPDU 259 * @CDP_WIFI_ERR_MULTICAST_ECHO: Reported a multicast echo error 260 * @CDP_WIFI_ERR_DUMMY: Dummy errors 261 * @CDP_WIFI_ERR_MAX: Maximum value 262 */ 263 enum cdp_wifi_error_code { 264 CDP_WIFI_ERR_OVERFLOW = 0, 265 CDP_WIFI_ERR_MPDU_LENGTH, 266 CDP_WIFI_ERR_FCS, 267 CDP_WIFI_ERR_DECRYPT, 268 CDP_WIFI_ERR_TKIP_MIC, 269 CDP_WIFI_ERR_UNENCRYPTED, 270 CDP_WIFI_ERR_MSDU_LEN, 271 CDP_WIFI_ERR_MSDU_LIMIT, 272 CDP_WIFI_ERR_WIFI_PARSE, 273 CDP_WIFI_ERR_AMSDU_PARSE, 274 CDP_WIFI_ERR_SA_TIMEOUT, 275 CDP_WIFI_ERR_DA_TIMEOUT, 276 CDP_WIFI_ERR_FLOW_TIMEOUT, 277 CDP_WIFI_ERR_FLUSH_REQUEST, 278 CDP_WIFI_ERR_AMSDU_FRAGMENT, 279 CDP_WIFI_ERR_MULTICAST_ECHO, 280 CDP_WIFI_ERR_DUMMY = 31, 281 CDP_WIFI_ERR_MAX 282 }; 283 284 /** 285 * enum cdp_phy_rx_error_code - Error code describing the type of error detected 286 * 287 * This enum is a direct replica of hal_reo_error_code enum. 288 * New element addition to the enum need to make a entry in this enum too. 289 * 290 * @CDP_RX_ERR_QUEUE_ADDR_0: Rx queue descriptor is set to 0 291 * @CDP_RX_ERR_QUEUE_INVALID: Rx queue descriptor valid bit is NOT set 292 * @CDP_RX_ERR_AMPDU_IN_NON_BA: AMPDU frame received without BA session having 293 * been setup 294 * @CDP_RX_ERR_NON_BA_DUPLICATE: Non-BA session, SN equal to SSN retry bit set 295 * duplicate frame 296 * @CDP_RX_ERR_BA_DUPLICATE: BA session, duplicate frame 297 * @CDP_RX_ERR_REGULAR_FRAME_2K_JUMP: A normal management/data frame received 298 * with 2K jump in SN 299 * @CDP_RX_ERR_BAR_FRAME_2K_JUMP: A bar received with 2K jump in SSN 300 * @CDP_RX_ERR_REGULAR_FRAME_OOR: A normal management/data frame received with 301 * SN falling within the OOR window 302 * @CDP_RX_ERR_BAR_FRAME_OOR: A bar received with SSN falling within the OOR 303 * window 304 * @CDP_RX_ERR_BAR_FRAME_NO_BA_SESSION: A bar received without a BA session 305 * @CDP_RX_ERR_BAR_FRAME_SN_EQUALS_SSN: A bar received with SSN equal to SN 306 * @CDP_RX_ERR_PN_CHECK_FAILED: PN Check Failed packet 307 * @CDP_RX_ERR_2K_ERROR_HANDLING_FLAG_SET: Frame is forwarded as a result of 308 * the Seq_2k_error_detected_flag been set in the REO Queue descriptor 309 * @CDP_RX_ERR_PN_ERROR_HANDLING_FLAG_SET: Frame is forwarded as a result of 310 * the pn_error_detected_flag been set in the REO Queue descriptor 311 * @CDP_RX_ERR_QUEUE_BLOCKED_SET: Frame is forwarded as a result of the queue 312 * descriptor(address) being blocked as SW/FW seems to be currently in the 313 * process of making updates to this descriptor 314 * @CDP_RX_ERR_MAX: Maximum value 315 */ 316 enum cdp_phy_rx_error_code { 317 CDP_RX_ERR_QUEUE_ADDR_0 = 0, 318 CDP_RX_ERR_QUEUE_INVALID, 319 CDP_RX_ERR_AMPDU_IN_NON_BA, 320 CDP_RX_ERR_NON_BA_DUPLICATE, 321 CDP_RX_ERR_BA_DUPLICATE, 322 CDP_RX_ERR_REGULAR_FRAME_2K_JUMP, 323 CDP_RX_ERR_BAR_FRAME_2K_JUMP, 324 CDP_RX_ERR_REGULAR_FRAME_OOR, 325 CDP_RX_ERR_BAR_FRAME_OOR, 326 CDP_RX_ERR_BAR_FRAME_NO_BA_SESSION, 327 CDP_RX_ERR_BAR_FRAME_SN_EQUALS_SSN, 328 CDP_RX_ERR_PN_CHECK_FAILED, 329 CDP_RX_ERR_2K_ERROR_HANDLING_FLAG_SET, 330 CDP_RX_ERR_PN_ERROR_HANDLING_FLAG_SET, 331 CDP_RX_ERR_QUEUE_BLOCKED_SET, 332 CDP_RX_ERR_MAX 333 }; 334 335 /** 336 * enum cdp_tx_transmit_type - Transmit type index 337 * @SU: SU Transmit type index 338 * @MU_MIMO: MU_MIMO Transmit type index 339 * @MU_OFDMA: MU_OFDMA Transmit type index 340 * @MU_MIMO_OFDMA: MU MIMO OFDMA Transmit type index 341 */ 342 enum cdp_tx_transmit_type { 343 SU = 0, 344 MU_MIMO, 345 MU_OFDMA, 346 MU_MIMO_OFDMA, 347 }; 348 349 /** 350 * enum cdp_tx_mode_type - Uplink transmit mode type 351 * @TX_MODE_TYPE_DL: DL TX mode 352 * @TX_MODE_TYPE_UL: UL TX mode 353 * @TX_MODE_TYPE_UNKNOWN: UL TX mode unknown 354 */ 355 enum cdp_tx_mode_type { 356 TX_MODE_TYPE_DL = 0, 357 TX_MODE_TYPE_UL, 358 TX_MODE_TYPE_UNKNOWN, 359 }; 360 361 /** 362 * enum cdp_tx_mode_dl - Downlink transmit mode index 363 * @TX_MODE_DL_SU_DATA: SU Transmit type index 364 * @TX_MODE_DL_OFDMA_DATA: OFDMA Transmit type index 365 * @TX_MODE_DL_MUMIMO_DATA: MIMO Transmit type index 366 * @TX_MODE_DL_MAX: Maximum value 367 */ 368 enum cdp_tx_mode_dl { 369 TX_MODE_DL_SU_DATA = 0, 370 TX_MODE_DL_OFDMA_DATA, 371 TX_MODE_DL_MUMIMO_DATA, 372 TX_MODE_DL_MAX, 373 }; 374 375 /** 376 * enum cdp_tx_mode_ul - Uplink transmit mode index 377 * @TX_MODE_UL_OFDMA_BASIC_TRIGGER_DATA: UL ofdma trigger index 378 * @TX_MODE_UL_MUMIMO_BASIC_TRIGGER_DATA: UL mimo trigger index 379 * @TX_MODE_UL_OFDMA_MU_BAR_TRIGGER: UL ofdma MU-BAR trigger index 380 * @TX_MODE_UL_MAX: Maximum value 381 */ 382 enum cdp_tx_mode_ul { 383 TX_MODE_UL_OFDMA_BASIC_TRIGGER_DATA = 0, 384 TX_MODE_UL_MUMIMO_BASIC_TRIGGER_DATA, 385 TX_MODE_UL_OFDMA_MU_BAR_TRIGGER, 386 TX_MODE_UL_MAX, 387 }; 388 389 /** 390 * enum cdp_msduq_index - TX msdu queue 391 * @MSDUQ_INDEX_DEFAULT: TCP/UDP msduq index 392 * @MSDUQ_INDEX_CUSTOM_PRIO_0: custom priority msduq index 393 * @MSDUQ_INDEX_CUSTOM_PRIO_1: custom priority msduq index 394 * @MSDUQ_INDEX_CUSTOM_EXT_PRIO_0: custom ext priority msduq index 395 * @MSDUQ_INDEX_CUSTOM_EXT_PRIO_1: custom ext priority msduq index 396 * @MSDUQ_INDEX_CUSTOM_EXT_PRIO_2: custom ext priority msduq index 397 * @MSDUQ_INDEX_CUSTOM_EXT_PRIO_3: custom ext priority msduq index 398 * @MSDUQ_INDEX_MAX: Maximum value 399 */ 400 enum cdp_msduq_index { 401 MSDUQ_INDEX_DEFAULT = 0, 402 MSDUQ_INDEX_CUSTOM_PRIO_0, 403 MSDUQ_INDEX_CUSTOM_PRIO_1, 404 MSDUQ_INDEX_CUSTOM_EXT_PRIO_0, 405 MSDUQ_INDEX_CUSTOM_EXT_PRIO_1, 406 MSDUQ_INDEX_CUSTOM_EXT_PRIO_2, 407 MSDUQ_INDEX_CUSTOM_EXT_PRIO_3, 408 MSDUQ_INDEX_MAX, 409 }; 410 411 /** 412 * enum cdp_ul_trigger_tids - UL trigger tids 413 * @CDP_UL_TRIG_BK_TID: Background tid 414 * @CDP_UL_TRIG_BE_TID: Best effort tid 415 * @CDP_UL_TRIG_VI_TID: Video tid 416 * @CDP_UL_TRIG_VO_TID: Voice tid 417 */ 418 enum cdp_ul_trigger_tids { 419 CDP_UL_TRIG_BK_TID = 25, 420 CDP_UL_TRIG_BE_TID, 421 CDP_UL_TRIG_VI_TID, 422 CDP_UL_TRIG_VO_TID, 423 }; 424 425 #define UL_TRIGGER_TID_TO_DATA_TID(_tid) ( \ 426 (((_tid) == CDP_UL_TRIG_BE_TID)) ? 0 : \ 427 (((_tid) == CDP_UL_TRIG_BK_TID)) ? 1 : \ 428 (((_tid) == CDP_UL_TRIG_VI_TID)) ? 5 : \ 429 6) 430 431 #ifdef WLAN_FEATURE_11BE 432 /** 433 * enum cdp_ru_index - Different RU index 434 * @RU_26_INDEX : 26-tone Resource Unit index 435 * @RU_52_INDEX : 52-tone Resource Unit index 436 * @RU_52_26_INDEX : 52_26-tone Resource Unit index 437 * @RU_106_INDEX: 106-tone Resource Unit index 438 * @RU_106_26_INDEX: 106_26-tone Resource Unit index 439 * @RU_242_INDEX: 242-tone Resource Unit index 440 * @RU_484_INDEX: 484-tone Resource Unit index 441 * @RU_484_242_INDEX: 484_242-tone Resource Unit index 442 * @RU_996_INDEX: 996-tone Resource Unit index 443 * @RU_996_484_INDEX: 996_484-tone Resource Unit index 444 * @RU_996_484_242_INDEX: 996_484_242-tone Resource Unit index 445 * @RU_2X996_INDEX: 2X996-tone Resource Unit index 446 * @RU_2X996_484_INDEX: 2X996_484-tone Resource Unit index 447 * @RU_3X996_INDEX: 3X996-tone Resource Unit index 448 * @RU_3X996_484_INDEX: 3X996_484-tone Resource Unit index 449 * @RU_4X996_INDEX: 4X996-tone Resource Unit index 450 * @RU_INDEX_MAX: Maximum value 451 */ 452 enum cdp_ru_index { 453 RU_26_INDEX = 0, 454 RU_52_INDEX, 455 RU_52_26_INDEX, 456 RU_106_INDEX, 457 RU_106_26_INDEX, 458 RU_242_INDEX, 459 RU_484_INDEX, 460 RU_484_242_INDEX, 461 RU_996_INDEX, 462 RU_996_484_INDEX, 463 RU_996_484_242_INDEX, 464 RU_2X996_INDEX, 465 RU_2X996_484_INDEX, 466 RU_3X996_INDEX, 467 RU_3X996_484_INDEX, 468 RU_4X996_INDEX, 469 RU_INDEX_MAX, 470 }; 471 #else 472 enum cdp_ru_index { 473 RU_26_INDEX = 0, 474 RU_52_INDEX, 475 RU_106_INDEX, 476 RU_242_INDEX, 477 RU_484_INDEX, 478 RU_996_INDEX, 479 RU_INDEX_MAX, 480 }; 481 #endif 482 483 struct cdp_ru_debug { 484 char *ru_type; 485 }; 486 487 #ifdef WLAN_FEATURE_11BE 488 static const struct cdp_ru_debug cdp_ru_string[RU_INDEX_MAX] = { 489 { "RU_26" }, 490 { "RU_52" }, 491 { "RU_52_26" }, 492 { "RU_106" }, 493 { "RU_106_26" }, 494 { "RU_242" }, 495 { "RU_484" }, 496 { "RU_484_242" }, 497 { "RU_996" }, 498 { "RU_996_484" }, 499 { "RU_996_484_242" }, 500 { "RU_2x996" }, 501 { "RU_2x996_484" }, 502 { "RU_3x996" }, 503 { "RU_3x996_484" }, 504 { "RU_4x996" }, 505 }; 506 #else 507 static const struct cdp_ru_debug cdp_ru_string[RU_INDEX_MAX] = { 508 { "RU_26" }, 509 { "RU_52" }, 510 { "RU_106" }, 511 { "RU_242" }, 512 { "RU_484" }, 513 { "RU_996" } 514 }; 515 #endif 516 517 #ifdef FEATURE_TSO_STATS 518 /* Number of TSO Packet Statistics captured */ 519 #define CDP_MAX_TSO_PACKETS 5 520 /* Information for Number of Segments for a TSO Packet captured */ 521 #define CDP_MAX_TSO_SEGMENTS 2 522 /* Information for Number of Fragments for a TSO Segment captured */ 523 #define CDP_MAX_TSO_FRAGMENTS 6 524 #endif /* FEATURE_TSO_STATS */ 525 526 /* Different Packet Types */ 527 enum cdp_packet_type { 528 DOT11_A = 0, 529 DOT11_B = 1, 530 DOT11_N = 2, 531 DOT11_AC = 3, 532 DOT11_AX = 4, 533 #ifdef WLAN_FEATURE_11BE 534 DOT11_BE = 5, 535 #endif 536 DOT11_MAX, 537 }; 538 539 #define MCS_VALID 1 540 #define MCS_INVALID 0 541 542 #ifdef WLAN_FEATURE_11BE 543 #define CDP_IS_PKT_TYPE_SUPPORT_NSS(_pkt_type) \ 544 (DOT11_N == (_pkt_type) || DOT11_AC == (_pkt_type) || \ 545 DOT11_AX == (_pkt_type) || DOT11_BE == (_pkt_type)) 546 #else 547 #define CDP_IS_PKT_TYPE_SUPPORT_NSS(_pkt_type) \ 548 (DOT11_N == (_pkt_type) || DOT11_AC == (_pkt_type) || \ 549 DOT11_AX == (_pkt_type)) 550 #endif /* WLAN_FEATURE_11BE */ 551 552 #define CDP_MAX_MCS_STRING_LEN 34 553 /** 554 * struct cdp_rate_debug - mcs rate debug record 555 * @mcs_type: print string for a given mcs 556 * @valid: valid mcs rate? 557 */ 558 struct cdp_rate_debug { 559 char mcs_type[CDP_MAX_MCS_STRING_LEN]; 560 uint8_t valid; 561 }; 562 563 #ifdef WLAN_FEATURE_11BE 564 static const struct cdp_rate_debug cdp_rate_string[DOT11_MAX][MAX_MCS] = { 565 { 566 {"OFDM 48 Mbps", MCS_VALID}, 567 {"OFDM 24 Mbps", MCS_VALID}, 568 {"OFDM 12 Mbps", MCS_VALID}, 569 {"OFDM 6 Mbps ", MCS_VALID}, 570 {"OFDM 54 Mbps", MCS_VALID}, 571 {"OFDM 36 Mbps", MCS_VALID}, 572 {"OFDM 18 Mbps", MCS_VALID}, 573 {"OFDM 9 Mbps ", MCS_VALID}, 574 {"INVALID ", MCS_INVALID}, 575 {"INVALID ", MCS_INVALID}, 576 {"INVALID ", MCS_INVALID}, 577 {"INVALID ", MCS_INVALID}, 578 {"INVALID ", MCS_INVALID}, 579 {"INVALID ", MCS_INVALID}, 580 {"INVALID ", MCS_INVALID}, 581 {"INVALID ", MCS_INVALID}, 582 {"INVALID ", MCS_INVALID}, 583 }, 584 { 585 {"CCK 11 Mbps Long ", MCS_VALID}, 586 {"CCK 5.5 Mbps Long ", MCS_VALID}, 587 {"CCK 2 Mbps Long ", MCS_VALID}, 588 {"CCK 1 Mbps Long ", MCS_VALID}, 589 {"CCK 11 Mbps Short ", MCS_VALID}, 590 {"CCK 5.5 Mbps Short", MCS_VALID}, 591 {"CCK 2 Mbps Short ", MCS_VALID}, 592 {"INVALID ", MCS_INVALID}, 593 {"INVALID ", MCS_INVALID}, 594 {"INVALID ", MCS_INVALID}, 595 {"INVALID ", MCS_INVALID}, 596 {"INVALID ", MCS_INVALID}, 597 {"INVALID ", MCS_INVALID}, 598 {"INVALID ", MCS_INVALID}, 599 {"INVALID ", MCS_INVALID}, 600 {"INVALID ", MCS_INVALID}, 601 {"INVALID ", MCS_INVALID}, 602 }, 603 { 604 {"HT MCS 0 (BPSK 1/2) ", MCS_VALID}, 605 {"HT MCS 1 (QPSK 1/2) ", MCS_VALID}, 606 {"HT MCS 2 (QPSK 3/4) ", MCS_VALID}, 607 {"HT MCS 3 (16-QAM 1/2)", MCS_VALID}, 608 {"HT MCS 4 (16-QAM 3/4)", MCS_VALID}, 609 {"HT MCS 5 (64-QAM 2/3)", MCS_VALID}, 610 {"HT MCS 6 (64-QAM 3/4)", MCS_VALID}, 611 {"HT MCS 7 (64-QAM 5/6)", MCS_VALID}, 612 {"INVALID ", MCS_INVALID}, 613 {"INVALID ", MCS_INVALID}, 614 {"INVALID ", MCS_INVALID}, 615 {"INVALID ", MCS_INVALID}, 616 {"INVALID ", MCS_INVALID}, 617 {"INVALID ", MCS_INVALID}, 618 {"INVALID ", MCS_INVALID}, 619 {"INVALID ", MCS_INVALID}, 620 {"INVALID ", MCS_INVALID}, 621 }, 622 { 623 {"VHT MCS 0 (BPSK 1/2) ", MCS_VALID}, 624 {"VHT MCS 1 (QPSK 1/2) ", MCS_VALID}, 625 {"VHT MCS 2 (QPSK 3/4) ", MCS_VALID}, 626 {"VHT MCS 3 (16-QAM 1/2) ", MCS_VALID}, 627 {"VHT MCS 4 (16-QAM 3/4) ", MCS_VALID}, 628 {"VHT MCS 5 (64-QAM 2/3) ", MCS_VALID}, 629 {"VHT MCS 6 (64-QAM 3/4) ", MCS_VALID}, 630 {"VHT MCS 7 (64-QAM 5/6) ", MCS_VALID}, 631 {"VHT MCS 8 (256-QAM 3/4) ", MCS_VALID}, 632 {"VHT MCS 9 (256-QAM 5/6) ", MCS_VALID}, 633 {"VHT MCS 10 (1024-QAM 3/4)", MCS_VALID}, 634 {"VHT MCS 11 (1024-QAM 5/6)", MCS_VALID}, 635 {"INVALID ", MCS_INVALID}, 636 {"INVALID ", MCS_INVALID}, 637 {"INVALID ", MCS_INVALID}, 638 {"INVALID ", MCS_INVALID}, 639 }, 640 { 641 {"HE MCS 0 (BPSK 1/2) ", MCS_VALID}, 642 {"HE MCS 1 (QPSK 1/2) ", MCS_VALID}, 643 {"HE MCS 2 (QPSK 3/4) ", MCS_VALID}, 644 {"HE MCS 3 (16-QAM 1/2) ", MCS_VALID}, 645 {"HE MCS 4 (16-QAM 3/4) ", MCS_VALID}, 646 {"HE MCS 5 (64-QAM 2/3) ", MCS_VALID}, 647 {"HE MCS 6 (64-QAM 3/4) ", MCS_VALID}, 648 {"HE MCS 7 (64-QAM 5/6) ", MCS_VALID}, 649 {"HE MCS 8 (256-QAM 3/4) ", MCS_VALID}, 650 {"HE MCS 9 (256-QAM 5/6) ", MCS_VALID}, 651 {"HE MCS 10 (1024-QAM 3/4)", MCS_VALID}, 652 {"HE MCS 11 (1024-QAM 5/6)", MCS_VALID}, 653 {"HE MCS 12 (4096-QAM 3/4)", MCS_VALID}, 654 {"HE MCS 13 (4096-QAM 5/6)", MCS_VALID}, 655 {"INVALID ", MCS_INVALID}, 656 {"INVALID ", MCS_INVALID}, 657 {"INVALID ", MCS_INVALID}, 658 }, 659 { 660 {"EHT MCS 0 (BPSK 1/2) ", MCS_VALID}, 661 {"EHT MCS 1 (QPSK 1/2) ", MCS_VALID}, 662 {"EHT MCS 2 (QPSK 3/4) ", MCS_VALID}, 663 {"EHT MCS 3 (16-QAM 1/2) ", MCS_VALID}, 664 {"EHT MCS 4 (16-QAM 3/4) ", MCS_VALID}, 665 {"EHT MCS 5 (64-QAM 2/3) ", MCS_VALID}, 666 {"EHT MCS 6 (64-QAM 3/4) ", MCS_VALID}, 667 {"EHT MCS 7 (64-QAM 5/6) ", MCS_VALID}, 668 {"EHT MCS 8 (256-QAM 3/4) ", MCS_VALID}, 669 {"EHT MCS 9 (256-QAM 5/6) ", MCS_VALID}, 670 {"EHT MCS 10 (1024-QAM 3/4)", MCS_VALID}, 671 {"EHT MCS 11 (1024-QAM 5/6)", MCS_VALID}, 672 {"EHT MCS 12 (4096-QAM 3/4)", MCS_VALID}, 673 {"EHT MCS 13 (4096-QAM 5/6)", MCS_VALID}, 674 {"EHT MCS 14 (BPSK-DCM 1/2)", MCS_VALID}, 675 {"EHT MCS 15 (BPSK-DCM 1/2)", MCS_VALID}, 676 {"INVALID ", MCS_INVALID}, 677 } 678 }; 679 #else 680 static const struct cdp_rate_debug cdp_rate_string[DOT11_MAX][MAX_MCS] = { 681 { 682 {"OFDM 48 Mbps", MCS_VALID}, 683 {"OFDM 24 Mbps", MCS_VALID}, 684 {"OFDM 12 Mbps", MCS_VALID}, 685 {"OFDM 6 Mbps ", MCS_VALID}, 686 {"OFDM 54 Mbps", MCS_VALID}, 687 {"OFDM 36 Mbps", MCS_VALID}, 688 {"OFDM 18 Mbps", MCS_VALID}, 689 {"OFDM 9 Mbps ", MCS_VALID}, 690 {"INVALID ", MCS_INVALID}, 691 {"INVALID ", MCS_INVALID}, 692 {"INVALID ", MCS_INVALID}, 693 {"INVALID ", MCS_INVALID}, 694 {"INVALID ", MCS_INVALID}, 695 }, 696 { 697 {"CCK 11 Mbps Long ", MCS_VALID}, 698 {"CCK 5.5 Mbps Long ", MCS_VALID}, 699 {"CCK 2 Mbps Long ", MCS_VALID}, 700 {"CCK 1 Mbps Long ", MCS_VALID}, 701 {"CCK 11 Mbps Short ", MCS_VALID}, 702 {"CCK 5.5 Mbps Short", MCS_VALID}, 703 {"CCK 2 Mbps Short ", MCS_VALID}, 704 {"INVALID ", MCS_INVALID}, 705 {"INVALID ", MCS_INVALID}, 706 {"INVALID ", MCS_INVALID}, 707 {"INVALID ", MCS_INVALID}, 708 {"INVALID ", MCS_INVALID}, 709 {"INVALID ", MCS_INVALID}, 710 }, 711 { 712 {"HT MCS 0 (BPSK 1/2) ", MCS_VALID}, 713 {"HT MCS 1 (QPSK 1/2) ", MCS_VALID}, 714 {"HT MCS 2 (QPSK 3/4) ", MCS_VALID}, 715 {"HT MCS 3 (16-QAM 1/2)", MCS_VALID}, 716 {"HT MCS 4 (16-QAM 3/4)", MCS_VALID}, 717 {"HT MCS 5 (64-QAM 2/3)", MCS_VALID}, 718 {"HT MCS 6 (64-QAM 3/4)", MCS_VALID}, 719 {"HT MCS 7 (64-QAM 5/6)", MCS_VALID}, 720 {"INVALID ", MCS_INVALID}, 721 {"INVALID ", MCS_INVALID}, 722 {"INVALID ", MCS_INVALID}, 723 {"INVALID ", MCS_INVALID}, 724 {"INVALID ", MCS_INVALID}, 725 }, 726 { 727 {"VHT MCS 0 (BPSK 1/2) ", MCS_VALID}, 728 {"VHT MCS 1 (QPSK 1/2) ", MCS_VALID}, 729 {"VHT MCS 2 (QPSK 3/4) ", MCS_VALID}, 730 {"VHT MCS 3 (16-QAM 1/2) ", MCS_VALID}, 731 {"VHT MCS 4 (16-QAM 3/4) ", MCS_VALID}, 732 {"VHT MCS 5 (64-QAM 2/3) ", MCS_VALID}, 733 {"VHT MCS 6 (64-QAM 3/4) ", MCS_VALID}, 734 {"VHT MCS 7 (64-QAM 5/6) ", MCS_VALID}, 735 {"VHT MCS 8 (256-QAM 3/4) ", MCS_VALID}, 736 {"VHT MCS 9 (256-QAM 5/6) ", MCS_VALID}, 737 {"VHT MCS 10 (1024-QAM 3/4)", MCS_VALID}, 738 {"VHT MCS 11 (1024-QAM 5/6)", MCS_VALID}, 739 {"INVALID ", MCS_INVALID}, 740 }, 741 { 742 {"HE MCS 0 (BPSK 1/2) ", MCS_VALID}, 743 {"HE MCS 1 (QPSK 1/2) ", MCS_VALID}, 744 {"HE MCS 2 (QPSK 3/4) ", MCS_VALID}, 745 {"HE MCS 3 (16-QAM 1/2) ", MCS_VALID}, 746 {"HE MCS 4 (16-QAM 3/4) ", MCS_VALID}, 747 {"HE MCS 5 (64-QAM 2/3) ", MCS_VALID}, 748 {"HE MCS 6 (64-QAM 3/4) ", MCS_VALID}, 749 {"HE MCS 7 (64-QAM 5/6) ", MCS_VALID}, 750 {"HE MCS 8 (256-QAM 3/4) ", MCS_VALID}, 751 {"HE MCS 9 (256-QAM 5/6) ", MCS_VALID}, 752 {"HE MCS 10 (1024-QAM 3/4)", MCS_VALID}, 753 {"HE MCS 11 (1024-QAM 5/6)", MCS_VALID}, 754 {"HE MCS 12 (4096-QAM 3/4)", MCS_VALID}, 755 {"HE MCS 13 (4096-QAM 5/6)", MCS_VALID}, 756 {"INVALID ", MCS_INVALID}, 757 } 758 }; 759 #endif 760 761 /** 762 * enum cdp_mu_packet_type - MU type index 763 * @TXRX_TYPE_MU_MIMO: MU MIMO type index 764 * @TXRX_TYPE_MU_OFDMA: MU OFDMA type index 765 * @TXRX_TYPE_MU_MAX: MU MAX type index 766 */ 767 enum cdp_mu_packet_type { 768 TXRX_TYPE_MU_MIMO = 0, 769 TXRX_TYPE_MU_OFDMA = 1, 770 TXRX_TYPE_MU_MAX = 2, 771 }; 772 773 /** 774 * enum peer_stats_type peer stats type 775 * @PEER_TX_STATS: stats type for tx 776 * @PEER_RX_STATS: stats type for rx 777 */ 778 enum peer_stats_type { 779 PEER_TX_STATS, 780 PEER_RX_STATS, 781 }; 782 783 enum WDI_EVENT { 784 WDI_EVENT_TX_STATUS = WDI_EVENT_BASE, 785 WDI_EVENT_OFFLOAD_ALL, 786 WDI_EVENT_RX_DESC_REMOTE, 787 WDI_EVENT_RX_PEER_INVALID, 788 WDI_EVENT_DBG_PRINT, /* NEED to integrate pktlog changes*/ 789 WDI_EVENT_RX_CBF_REMOTE, 790 WDI_EVENT_RATE_FIND, 791 WDI_EVENT_RATE_UPDATE, 792 WDI_EVENT_SW_EVENT, 793 WDI_EVENT_RX_DESC, 794 WDI_EVENT_LITE_T2H, 795 WDI_EVENT_LITE_RX, 796 WDI_EVENT_RX_PPDU_DESC, 797 WDI_EVENT_TX_PPDU_DESC, 798 WDI_EVENT_TX_MSDU_DESC, 799 WDI_EVENT_TX_DATA, 800 WDI_EVENT_RX_DATA, 801 WDI_EVENT_TX_MGMT_CTRL, 802 WDI_EVENT_TX_PKT_CAPTURE, 803 WDI_EVENT_HTT_STATS, 804 WDI_EVENT_TX_BEACON, 805 WDI_EVENT_PEER_STATS, 806 WDI_EVENT_TX_SOJOURN_STAT, 807 WDI_EVENT_UPDATE_DP_STATS, 808 WDI_EVENT_RX_MGMT_CTRL, 809 WDI_EVENT_PEER_CREATE, 810 WDI_EVENT_PEER_DESTROY, 811 WDI_EVENT_PEER_FLUSH_RATE_STATS, 812 WDI_EVENT_FLUSH_RATE_STATS_REQ, 813 WDI_EVENT_RX_MPDU, 814 WDI_EVENT_HMWDS_AST_ADD_STATUS, 815 WDI_EVENT_PEER_QOS_STATS, 816 WDI_EVENT_PKT_CAPTURE_TX_DATA, 817 WDI_EVENT_PKT_CAPTURE_RX_DATA, 818 WDI_EVENT_PKT_CAPTURE_RX_DATA_NO_PEER, 819 WDI_EVENT_PKT_CAPTURE_OFFLOAD_TX_DATA, 820 WDI_EVENT_RX_CBF, 821 WDI_EVENT_PKT_CAPTURE_PPDU_STATS, 822 WDI_EVENT_HOST_SW_EVENT, 823 WDI_EVENT_HYBRID_TX, 824 #ifdef WLAN_FEATURE_11BE_MLO 825 WDI_EVENT_MLO_TSTMP, 826 #endif 827 #ifdef QCA_UNDECODED_METADATA_SUPPORT 828 WDI_EVENT_RX_PPDU_DESC_UNDECODED_METADATA, 829 #endif 830 WDI_EVENT_LITE_MON_RX, 831 WDI_EVENT_LITE_MON_TX, 832 WDI_EVENT_TXRX_PEER_CREATE, 833 WDI_EVENT_PEER_UNMAP, 834 WDI_EVENT_PEER_DELETE, 835 WDI_EVENT_PEER_PRIMARY_UMAC_UPDATE, 836 WDI_EVENT_MCAST_PRIMARY_UPDATE, 837 WDI_EVENT_STA_PRIMARY_UMAC_UPDATE, 838 /* End of new event items */ 839 WDI_EVENT_LAST 840 }; 841 842 #define WDI_NUM_EVENTS WDI_EVENT_LAST - WDI_EVENT_BASE 843 844 struct cdp_stats_extd { 845 }; 846 847 /* TID level Tx/Rx stats 848 * 849 */ 850 enum cdp_txrx_tidq_stats { 851 /* Tx Counters */ 852 TX_MSDU_TOTAL_LINUX_SUBSYSTEM, 853 TX_MSDU_TOTAL_FROM_OSIF, 854 TX_MSDU_TX_COMP_PKT_CNT, 855 /* Rx Counters */ 856 RX_MSDU_TOTAL_FROM_FW, 857 RX_MSDU_MCAST_FROM_FW, 858 RX_TID_MISMATCH_FROM_FW, 859 RX_MSDU_MISC_PKTS, 860 RX_MSDU_IS_ARP, 861 RX_MSDU_IS_EAP, 862 RX_MSDU_IS_DHCP, 863 RX_AGGREGATE_10, 864 RX_AGGREGATE_20, 865 RX_AGGREGATE_30, 866 RX_AGGREGATE_40, 867 RX_AGGREGATE_50, 868 RX_AGGREGATE_60, 869 RX_AGGREGATE_MORE, 870 RX_AMSDU_1, 871 RX_AMSDU_2, 872 RX_AMSDU_3, 873 RX_AMSDU_4, 874 RX_AMSDU_MORE, 875 RX_MSDU_CHAINED_FROM_FW, 876 RX_MSDU_REORDER_FAILED_FROM_FW, 877 RX_MSDU_REORDER_FLUSHED_FROM_FW, 878 RX_MSDU_DISCARD_FROM_FW, 879 RX_MSDU_DUPLICATE_FROM_FW, 880 RX_MSDU_DELIVERED_TO_STACK, 881 TIDQ_STATS_MAX, 882 }; 883 884 struct cdp_tidq_stats { 885 uint32_t stats[TIDQ_STATS_MAX]; 886 }; 887 888 #if defined(WLAN_CFR_ENABLE) && defined(WLAN_ENH_CFR_ENABLE) 889 /** 890 * struct cdp_rx_ppdu_cfr_info - struct for storing ppdu info extracted from HW 891 * TLVs, this will be used for CFR correlation 892 * 893 * @bb_captured_channel : Set by RXPCU when MACRX_FREEZE_CAPTURE_CHANNEL TLV is 894 * sent to PHY, SW checks it to correlate current PPDU TLVs with uploaded 895 * channel information. 896 * 897 * @bb_captured_timeout : Set by RxPCU to indicate channel capture condition is 898 * met, but MACRX_FREEZE_CAPTURE_CHANNEL is not sent to PHY due to AST delay, 899 * which means the rx_frame_falling edge to FREEZE TLV ready time exceeds 900 * the threshold time defined by RXPCU register FREEZE_TLV_DELAY_CNT_THRESH. 901 * Bb_captured_reason is still valid in this case. 902 * 903 * @bb_captured_reason : Copy capture_reason of MACRX_FREEZE_CAPTURE_CHANNEL 904 * TLV to here for FW usage. Valid when bb_captured_channel or 905 * bb_captured_timeout is set. 906 * <enum 0 freeze_reason_TM> 907 * <enum 1 freeze_reason_FTM> 908 * <enum 2 freeze_reason_ACK_resp_to_TM_FTM> 909 * <enum 3 freeze_reason_TA_RA_TYPE_FILTER> 910 * <enum 4 freeze_reason_NDPA_NDP> 911 * <enum 5 freeze_reason_ALL_PACKET> 912 * <legal 0-5> 913 * 914 * @rx_location_info_valid: Indicates whether CFR DMA address in the PPDU TLV 915 * is valid 916 * <enum 0 rx_location_info_is_not_valid> 917 * <enum 1 rx_location_info_is_valid> 918 * <legal all> 919 * 920 * @chan_capture_status : capture status reported by ucode 921 * a. CAPTURE_IDLE: FW has disabled "REPETITIVE_CHE_CAPTURE_CTRL" 922 * b. CAPTURE_BUSY: previous PPDU’s channel capture upload DMA ongoing. (Note 923 * that this upload is triggered after receiving freeze_channel_capture TLV 924 * after last PPDU is rx) 925 * c. CAPTURE_ACTIVE: channel capture is enabled and no previous channel 926 * capture ongoing 927 * d. CAPTURE_NO_BUFFER: next buffer in IPC ring not available 928 * 929 * @rtt_che_buffer_pointer_high8 : The high 8 bits of the 40 bits pointer to 930 * external RTT channel information buffer 931 * 932 * @rtt_che_buffer_pointer_low32 : The low 32 bits of the 40 bits pointer to 933 * external RTT channel information buffer 934 * 935 * @rtt_cfo_measurement : raw cfo data extracted from hardware, which is 14 bit 936 * signed number. The first bit used for sign representation and 13 bits for 937 * fractional part. 938 * 939 * @agc_gain_info0: Chain 0 & chain 1 agc gain information reported by PHY 940 * 941 * @agc_gain_info1: Chain 2 & chain 3 agc gain information reported by PHY 942 * 943 * @agc_gain_info2: Chain 4 & chain 5 agc gain information reported by PHY 944 * 945 * @agc_gain_info3: Chain 6 & chain 7 agc gain information reported by PHY 946 * 947 * @rx_start_ts: Rx packet timestamp, the time the first L-STF ADC sample 948 * arrived at Rx antenna. 949 * 950 * @mcs_rate: Indicates the mcs/rate in which packet is received. 951 * If HT, 952 * 0-7: MCS0-MCS7 953 * If VHT, 954 * 0-9: MCS0 to MCS9 955 * If HE, 956 * 0-11: MCS0 to MCS11, 957 * 12-13: 4096QAM, 958 * 14-15: reserved 959 * If Legacy, 960 * 0: 48 Mbps 961 * 1: 24 Mbps 962 * 2: 12 Mbps 963 * 3: 6 Mbps 964 * 4: 54 Mbps 965 * 5: 36 Mbps 966 * 6: 18 Mbps 967 * 7: 9 Mbps 968 * 969 * @gi_type: Indicates the guard interval. 970 * 0: 0.8 us 971 * 1: 0.4 us 972 * 2: 1.6 us 973 * 3: 3.2 us 974 */ 975 struct cdp_rx_ppdu_cfr_info { 976 bool bb_captured_channel; 977 bool bb_captured_timeout; 978 uint8_t bb_captured_reason; 979 bool rx_location_info_valid; 980 uint8_t chan_capture_status; 981 uint8_t rtt_che_buffer_pointer_high8; 982 uint32_t rtt_che_buffer_pointer_low32; 983 int16_t rtt_cfo_measurement; 984 uint32_t agc_gain_info0; 985 uint32_t agc_gain_info1; 986 uint32_t agc_gain_info2; 987 uint32_t agc_gain_info3; 988 uint32_t rx_start_ts; 989 uint32_t mcs_rate; 990 uint32_t gi_type; 991 }; 992 #endif 993 994 /** 995 * struct cdp_rx_su_evm_info - Rx evm info 996 * @number_of_symbols: number of symbols 997 * @nss_count: number of spatial streams 998 * @pilot_count: number of pilot count 999 * @pilot_evm: 1000 */ 1001 struct cdp_rx_su_evm_info { 1002 uint16_t number_of_symbols; 1003 uint8_t nss_count; 1004 uint8_t pilot_count; 1005 uint32_t pilot_evm[DP_RX_MAX_SU_EVM_COUNT]; 1006 }; 1007 1008 /** 1009 * enum cdp_delay_stats_mode - Different types of delay statistics 1010 * 1011 * @CDP_DELAY_STATS_SW_ENQ: Stack to hw enqueue delay 1012 * @CDP_DELAY_STATS_TX_INTERFRAME: Interframe delay at radio entry point 1013 * @CDP_DELAY_STATS_FW_HW_TRANSMIT: Hw enqueue to tx completion delay 1014 * @CDP_DELAY_STATS_REAP_STACK: Delay in ring reap to indicating network stack 1015 * @CDP_DELAY_STATS_RX_INTERFRAME: Rx inteframe delay 1016 * @CDP_DELAY_STATS_MODE_MAX: Maximum delay mode 1017 */ 1018 enum cdp_delay_stats_mode { 1019 CDP_DELAY_STATS_SW_ENQ, 1020 CDP_DELAY_STATS_TX_INTERFRAME, 1021 CDP_DELAY_STATS_FW_HW_TRANSMIT, 1022 CDP_DELAY_STATS_REAP_STACK, 1023 CDP_DELAY_STATS_RX_INTERFRAME, 1024 CDP_DELAY_STATS_MODE_MAX, 1025 }; 1026 1027 /* 1028 * cdp_delay_bucket_index 1029 * Index to be used for all delay stats 1030 */ 1031 enum cdp_delay_bucket_index { 1032 CDP_DELAY_BUCKET_0, 1033 CDP_DELAY_BUCKET_1, 1034 CDP_DELAY_BUCKET_2, 1035 CDP_DELAY_BUCKET_3, 1036 CDP_DELAY_BUCKET_4, 1037 CDP_DELAY_BUCKET_5, 1038 CDP_DELAY_BUCKET_6, 1039 CDP_DELAY_BUCKET_7, 1040 CDP_DELAY_BUCKET_8, 1041 CDP_DELAY_BUCKET_9, 1042 CDP_DELAY_BUCKET_10, 1043 CDP_DELAY_BUCKET_11, 1044 CDP_DELAY_BUCKET_12, 1045 CDP_DELAY_BUCKET_MAX, 1046 }; 1047 1048 /** 1049 * enum cdp_tx_sw_drop - packet drop due to following reasons. 1050 * @TX_DESC_ERR: 1051 * @TX_HAL_RING_ACCESS_ERR: 1052 * @TX_DMA_MAP_ERR: 1053 * @TX_HW_ENQUEUE: 1054 * @TX_SW_ENQUEUE: 1055 * @TX_MAX_DROP: 1056 */ 1057 enum cdp_tx_sw_drop { 1058 TX_DESC_ERR, 1059 TX_HAL_RING_ACCESS_ERR, 1060 TX_DMA_MAP_ERR, 1061 TX_HW_ENQUEUE, 1062 TX_SW_ENQUEUE, 1063 TX_MAX_DROP, 1064 }; 1065 1066 /** 1067 * enum cdp_rx_sw_drop - packet drop due to following reasons. 1068 * @INTRABSS_DROP: 1069 * @MSDU_DONE_FAILURE: 1070 * @INVALID_PEER_VDEV: 1071 * @POLICY_CHECK_DROP: 1072 * @MEC_DROP: 1073 * @NAWDS_MCAST_DROP: 1074 * @MESH_FILTER_DROP: 1075 * @ENQUEUE_DROP: 1076 * @RX_MAX_DROP: 1077 */ 1078 enum cdp_rx_sw_drop { 1079 INTRABSS_DROP, 1080 MSDU_DONE_FAILURE, 1081 INVALID_PEER_VDEV, 1082 POLICY_CHECK_DROP, 1083 MEC_DROP, 1084 NAWDS_MCAST_DROP, 1085 MESH_FILTER_DROP, 1086 ENQUEUE_DROP, 1087 RX_MAX_DROP, 1088 }; 1089 1090 /** 1091 * struct cdp_delay_stats - delay statistics 1092 * @delay_bucket: division of buckets as per latency 1093 * @min_delay: minimum delay 1094 * @max_delay: maximum delay 1095 * @avg_delay: average delay 1096 */ 1097 struct cdp_delay_stats { 1098 uint64_t delay_bucket[CDP_DELAY_BUCKET_MAX]; 1099 uint32_t min_delay; 1100 uint32_t max_delay; 1101 uint32_t avg_delay; 1102 }; 1103 1104 /** 1105 * struct cdp_tid_tx_stats - per-TID statistics 1106 * @swq_delay: delay between wifi driver entry point and enqueue to HW in tx 1107 * @hwtx_delay: delay between wifi driver exit (enqueue to HW) and tx completion 1108 * @intfrm_delay: interframe delay 1109 * @success_cnt: total successful transmit count 1110 * @comp_fail_cnt: firmware drop found in tx completion path 1111 * @swdrop_cnt: software drop in tx path 1112 * @tqm_status_cnt: TQM completion status count 1113 * @htt_status_cnt: HTT completion status count 1114 */ 1115 struct cdp_tid_tx_stats { 1116 struct cdp_delay_stats swq_delay; 1117 struct cdp_delay_stats hwtx_delay; 1118 struct cdp_delay_stats intfrm_delay; 1119 uint64_t success_cnt; 1120 uint64_t comp_fail_cnt; 1121 uint64_t swdrop_cnt[TX_MAX_DROP]; 1122 uint64_t tqm_status_cnt[CDP_MAX_TX_TQM_STATUS]; 1123 uint64_t htt_status_cnt[CDP_MAX_TX_HTT_STATUS]; 1124 }; 1125 1126 /** 1127 * struct cdp_reo_error_stats - REO error statistics 1128 * @err_src_reo_code_inv: Wireless Buffer Manager source receive reorder ring 1129 * reason unknown 1130 * @err_reo_codes: Receive reorder error codes 1131 */ 1132 struct cdp_reo_error_stats { 1133 uint64_t err_src_reo_code_inv; 1134 uint64_t err_reo_codes[CDP_REO_CODE_MAX]; 1135 }; 1136 1137 /** 1138 * struct cdp_rxdma_error_stats - RxDMA error statistics 1139 * @err_src_rxdma_code_inv: DMA reason unknown count 1140 * @err_dma_codes: DMA error codes count 1141 */ 1142 struct cdp_rxdma_error_stats { 1143 uint64_t err_src_rxdma_code_inv; 1144 uint64_t err_dma_codes[CDP_DMA_CODE_MAX]; 1145 }; 1146 1147 /** 1148 * struct cdp_tid_rx_stats - per-TID Rx statistics 1149 * @to_stack_delay: Time taken between ring reap to indication to network stack 1150 * @intfrm_delay: Interframe rx delay 1151 * @delivered_to_stack: Total packets indicated to stack 1152 * @intrabss_cnt: Rx total intraBSS frames 1153 * @msdu_cnt: number of msdu received from HW 1154 * @mcast_msdu_cnt: Num Mcast Msdus received from HW in Rx 1155 * @bcast_msdu_cnt: Num Bcast Msdus received from HW in Rx 1156 * @fail_cnt: Rx deliver drop counters 1157 * @reo_err: V3 reo error statistics 1158 * @rxdma_err: V3 rxdma error statistics 1159 */ 1160 struct cdp_tid_rx_stats { 1161 struct cdp_delay_stats to_stack_delay; 1162 struct cdp_delay_stats intfrm_delay; 1163 uint64_t delivered_to_stack; 1164 uint64_t intrabss_cnt; 1165 uint64_t msdu_cnt; 1166 uint64_t mcast_msdu_cnt; 1167 uint64_t bcast_msdu_cnt; 1168 uint64_t fail_cnt[RX_MAX_DROP]; 1169 struct cdp_reo_error_stats reo_err; 1170 struct cdp_rxdma_error_stats rxdma_err; 1171 }; 1172 1173 /** 1174 * struct cdp_tid_stats - composite TID statistics 1175 * @ingress_stack: Total packets received from linux stack 1176 * @osif_drop: drops in osif layer 1177 * @tid_tx_stats: transmit counters per tid 1178 * @tid_rx_stats: receive counters per tid 1179 * @tid_rx_wbm_stats: WBM receive counters per tid 1180 */ 1181 struct cdp_tid_stats { 1182 uint64_t ingress_stack; 1183 uint64_t osif_drop; 1184 struct cdp_tid_tx_stats tid_tx_stats[CDP_MAX_TX_COMP_RINGS] 1185 [CDP_MAX_DATA_TIDS]; 1186 struct cdp_tid_rx_stats tid_rx_stats[CDP_MAX_RX_RINGS] 1187 [CDP_MAX_DATA_TIDS]; 1188 struct cdp_tid_rx_stats tid_rx_wbm_stats[CDP_MAX_RX_WBM_RINGS] 1189 [CDP_MAX_DATA_TIDS]; 1190 }; 1191 1192 /** 1193 * struct cdp_tid_stats_intf - network interface TID statistics 1194 * @ingress_stack: Total packets received from linux stack 1195 * @osif_drop: drops in osif layer 1196 * @tx_total: total of per ring transmit counters per tid 1197 * @rx_total: total of per ring receive counters per tid 1198 */ 1199 struct cdp_tid_stats_intf { 1200 uint64_t ingress_stack; 1201 uint64_t osif_drop; 1202 struct cdp_tid_tx_stats tx_total[CDP_MAX_DATA_TIDS]; 1203 struct cdp_tid_rx_stats rx_total[CDP_MAX_DATA_TIDS]; 1204 }; 1205 1206 /** 1207 * struct cdp_delay_tx_stats - Tx delay stats 1208 * @tx_swq_delay: software enqueue delay 1209 * @hwtx_delay: HW enqueue to completion delay 1210 * @nwdelay_avg: Network delay average 1211 * @swdelay_avg: Wifi SW Delay Average 1212 * @hwdelay_avg: Wifi HW delay Average 1213 * @nw_delay_win_avg: average NW delay for each window 1214 * @sw_delay_win_avg: average Wifi SW delay for each window 1215 * @hw_delay_win_avg: average Wifi HW delay for each window 1216 * @cur_win_num_pkts: number of packets processed in current window 1217 * @curr_win_idx: current windows index 1218 */ 1219 struct cdp_delay_tx_stats { 1220 struct cdp_hist_stats tx_swq_delay; 1221 struct cdp_hist_stats hwtx_delay; 1222 1223 #ifdef CONFIG_SAWF 1224 uint32_t nwdelay_avg; 1225 uint32_t swdelay_avg; 1226 uint32_t hwdelay_avg; 1227 1228 uint64_t nw_delay_win_avg[CDP_MAX_WIN_MOV_AVG]; 1229 uint64_t sw_delay_win_avg[CDP_MAX_WIN_MOV_AVG]; 1230 uint64_t hw_delay_win_avg[CDP_MAX_WIN_MOV_AVG]; 1231 1232 uint32_t cur_win_num_pkts; 1233 uint32_t curr_win_idx; 1234 #endif 1235 }; 1236 1237 /** 1238 * struct cdp_delay_rx_stats - Rx delay stats 1239 * @to_stack_delay: To stack delay 1240 */ 1241 struct cdp_delay_rx_stats { 1242 struct cdp_hist_stats to_stack_delay; 1243 }; 1244 1245 /** 1246 * struct cdp_delay_tid_stats - Delay tid stats 1247 * @tx_delay: Tx delay related stats 1248 * @rx_delay: Rx delay related stats 1249 */ 1250 struct cdp_delay_tid_stats { 1251 struct cdp_delay_tx_stats tx_delay; 1252 struct cdp_delay_rx_stats rx_delay; 1253 }; 1254 1255 /** 1256 * struct cdp_pkt_info - packet info 1257 * @num: no of packets 1258 * @bytes: total no of bytes 1259 */ 1260 struct cdp_pkt_info { 1261 uint64_t num; 1262 uint64_t bytes; 1263 }; 1264 1265 /** 1266 * struct cdp_pkt_type - packet type 1267 * @mcs_count: Counter array for each MCS index 1268 */ 1269 struct cdp_pkt_type { 1270 uint32_t mcs_count[MAX_MCS]; 1271 }; 1272 1273 /** 1274 * struct cdp_rx_mu - Rx MU Stats 1275 * @ppdu_nss: Packet Count in spatial streams 1276 * @mpdu_cnt_fcs_ok: Rx success mpdu count 1277 * @mpdu_cnt_fcs_err: Rx fail mpdu count 1278 * @ppdu: counter array for each MCS index 1279 */ 1280 struct cdp_rx_mu { 1281 uint32_t ppdu_nss[SS_COUNT]; 1282 uint32_t mpdu_cnt_fcs_ok; 1283 uint32_t mpdu_cnt_fcs_err; 1284 struct cdp_pkt_type ppdu; 1285 }; 1286 1287 /** 1288 * struct cdp_tx_pkt_info - tx packet info 1289 * @num_msdu: successful msdu 1290 * @num_mpdu: successful mpdu from compltn common 1291 * @mpdu_tried: mpdu tried 1292 * 1293 * tx packet info counter field for mpdu success/tried and msdu 1294 */ 1295 struct cdp_tx_pkt_info { 1296 uint32_t num_msdu; 1297 uint32_t num_mpdu; 1298 uint32_t mpdu_tried; 1299 }; 1300 1301 #ifdef FEATURE_TSO_STATS 1302 /** 1303 * struct cdp_tso_seg_histogram - Segment histogram for TCP Packets 1304 * @segs_1: packets with single segments 1305 * @segs_2_5: packets with 2-5 segments 1306 * @segs_6_10: packets with 6-10 segments 1307 * @segs_11_15: packets with 11-15 segments 1308 * @segs_16_20: packets with 16-20 segments 1309 * @segs_20_plus: packets with 20 plus segments 1310 */ 1311 struct cdp_tso_seg_histogram { 1312 uint64_t segs_1; 1313 uint64_t segs_2_5; 1314 uint64_t segs_6_10; 1315 uint64_t segs_11_15; 1316 uint64_t segs_16_20; 1317 uint64_t segs_20_plus; 1318 }; 1319 1320 /** 1321 * struct cdp_tso_packet_info - Stats for TSO segments within a TSO packet 1322 * @tso_seg: TSO Segment information 1323 * @num_seg: Number of segments 1324 * @tso_packet_len: Size of the tso packet 1325 * @tso_seg_idx: segment number 1326 */ 1327 struct cdp_tso_packet_info { 1328 struct qdf_tso_seg_t tso_seg[CDP_MAX_TSO_SEGMENTS]; 1329 uint8_t num_seg; 1330 size_t tso_packet_len; 1331 uint32_t tso_seg_idx; 1332 }; 1333 1334 /** 1335 * struct cdp_tso_info - stats for tso packets 1336 * @tso_packet_info: TSO packet information 1337 */ 1338 struct cdp_tso_info { 1339 struct cdp_tso_packet_info tso_packet_info[CDP_MAX_TSO_PACKETS]; 1340 }; 1341 #endif /* FEATURE_TSO_STATS */ 1342 1343 /** 1344 * struct cdp_tso_stats - TSO stats information 1345 * @num_tso_pkts: Total number of TSO Packets 1346 * @tso_comp: Total tso packet completions 1347 * @dropped_host: TSO packets dropped by host 1348 * @tso_no_mem_dropped: TSO packets dropped by host due to descriptor 1349 * unavailablity 1350 * @dropped_target: TSO packets_dropped by target 1351 * @tso_info: Per TSO packet counters 1352 * @seg_histogram: TSO histogram stats 1353 */ 1354 struct cdp_tso_stats { 1355 struct cdp_pkt_info num_tso_pkts; 1356 uint32_t tso_comp; 1357 struct cdp_pkt_info dropped_host; 1358 struct cdp_pkt_info tso_no_mem_dropped; 1359 uint32_t dropped_target; 1360 #ifdef FEATURE_TSO_STATS 1361 struct cdp_tso_info tso_info; 1362 struct cdp_tso_seg_histogram seg_histogram; 1363 #endif /* FEATURE_TSO_STATS */ 1364 }; 1365 1366 #define CDP_PEER_STATS_START 0 1367 1368 enum cdp_peer_stats_type { 1369 cdp_peer_stats_min = CDP_PEER_STATS_START, 1370 /* Peer per pkt stats */ 1371 cdp_peer_per_pkt_stats_min = cdp_peer_stats_min, 1372 cdp_peer_tx_ucast = cdp_peer_per_pkt_stats_min, 1373 cdp_peer_tx_mcast, 1374 cdp_peer_tx_inactive_time, 1375 cdp_peer_rx_ucast, 1376 /* Add enum for peer per pkt stats before this */ 1377 cdp_peer_per_pkt_stats_max, 1378 1379 /* Peer extd stats */ 1380 cdp_peer_extd_stats_min, 1381 cdp_peer_tx_rate = cdp_peer_extd_stats_min, 1382 cdp_peer_tx_last_tx_rate, 1383 cdp_peer_tx_ratecode, 1384 cdp_peer_tx_flags, 1385 cdp_peer_tx_power, 1386 cdp_peer_rx_rate, 1387 cdp_peer_rx_last_rx_rate, 1388 cdp_peer_rx_ratecode, 1389 cdp_peer_rx_flags, 1390 cdp_peer_rx_avg_snr, 1391 cdp_peer_rx_snr, 1392 cdp_peer_rx_avg_rate, 1393 cdp_peer_tx_avg_rate, 1394 /* Add enum for peer extd stats before this */ 1395 cdp_peer_extd_stats_max, 1396 cdp_peer_stats_max = cdp_peer_extd_stats_max, 1397 }; 1398 1399 /* 1400 * The max size of cdp_peer_stats_param_t is limited to 16 bytes. 1401 * If the buffer size is exceeding this size limit, 1402 * dp_txrx_get_peer_stats is to be used instead. 1403 */ 1404 typedef union cdp_peer_stats_buf { 1405 /* Tx types */ 1406 struct cdp_pkt_info tx_ucast; 1407 struct cdp_pkt_info tx_mcast; 1408 uint32_t tx_rate; 1409 uint32_t tx_rate_avg; 1410 uint32_t last_tx_rate; 1411 uint32_t tx_inactive_time; 1412 uint32_t tx_flags; 1413 uint32_t tx_power; 1414 uint16_t tx_ratecode; 1415 1416 /* Rx types */ 1417 struct cdp_pkt_info rx_ucast; 1418 uint32_t rx_rate; 1419 uint32_t rx_rate_avg; 1420 uint32_t last_rx_rate; 1421 uint32_t rx_ratecode; 1422 uint32_t rx_flags; 1423 uint32_t rx_avg_snr; 1424 uint32_t rx_snr; 1425 } cdp_peer_stats_param_t; /* Max union size 16 bytes */ 1426 1427 /** 1428 * enum cdp_protocol_trace - Protocols supported by per-peer protocol trace 1429 * @CDP_TRACE_ICMP: ICMP packets 1430 * @CDP_TRACE_EAP: EAPOL packets 1431 * @CDP_TRACE_ARP: ARP packets 1432 * @CDP_TRACE_MAX: MAX enumeration 1433 * 1434 * Enumeration of all protocols supported by per-peer protocol trace feature 1435 */ 1436 enum cdp_protocol_trace { 1437 CDP_TRACE_ICMP, 1438 CDP_TRACE_EAP, 1439 CDP_TRACE_ARP, 1440 CDP_TRACE_MAX 1441 }; 1442 1443 /** 1444 * struct protocol_trace_count - type of count on per-peer protocol trace 1445 * @egress_cnt: how many packets go out of host driver 1446 * @ingress_cnt: how many packets come into the host driver 1447 * 1448 * Type of count on per-peer protocol trace 1449 */ 1450 struct protocol_trace_count { 1451 uint16_t egress_cnt; 1452 uint16_t ingress_cnt; 1453 }; 1454 1455 /** 1456 * struct cdp_tx_stats - tx stats 1457 * @comp_pkt: Pkt Info for which completions were received 1458 * @ucast: Unicast Packet Count 1459 * @mcast: Multicast Packet Count 1460 * @bcast: Broadcast Packet Count 1461 * @nawds_mcast: NAWDS Multicast Packet Count 1462 * @tx_success: Successful Tx Packets 1463 * @nawds_mcast_drop: NAWDS Multicast Drop Count 1464 * @protocol_trace_cnt: per-peer protocol counter 1465 * @tx_failed: Total Tx failure 1466 * @ofdma: Total Packets as ofdma 1467 * @stbc: Packets in STBC 1468 * @ldpc: Packets in LDPC 1469 * @retries: Packet retries 1470 * @retries_mpdu: mpdu number of successfully transmitted after retries 1471 * @non_amsdu_cnt: Number of MSDUs with no MSDU level aggregation 1472 * @amsdu_cnt: Number of MSDUs part of AMSDU 1473 * @tx_rate: Tx Rate 1474 * @last_tx_rate: Last tx rate for unicast packets 1475 * @last_tx_rate_mcs: Tx rate mcs for unicast packets 1476 * @mcast_last_tx_rate: Last tx rate for multicast packets 1477 * @mcast_last_tx_rate_mcs: Last tx rate mcs for multicast 1478 * @last_per: Tx Per 1479 * @rnd_avg_tx_rate: Rounded average tx rate 1480 * @avg_tx_rate: Average TX rate 1481 * @last_ack_rssi: RSSI of last acked packet 1482 * @tx_bytes_success_last: last Tx success bytes 1483 * @tx_data_success_last: last Tx success data 1484 * @tx_byte_rate: Bytes Trasmitted in last one sec 1485 * @tx_data_rate: Data Transmitted in last one sec 1486 * @tx_data_ucast_last: 1487 * @tx_data_ucast_rate: 1488 * @pkt_type: 1489 * @sgi_count: SGI count 1490 * @pream_punct_cnt: Preamble Punctured count 1491 * @nss: Packet count for different num_spatial_stream values 1492 * @bw: Packet Count for different bandwidths 1493 * @wme_ac_type: Wireless Multimedia type Count 1494 * @excess_retries_per_ac: Wireless Multimedia type Count 1495 * @dot11_tx_pkts: dot11 tx packets 1496 * @dropped: dropped packet counters 1497 * @dropped.fw_rem: Discarded by firmware 1498 * @dropped.fw_rem_notx: firmware_discard_untransmitted 1499 * @dropped.fw_rem_tx: firmware_discard_transmitted 1500 * @dropped.age_out: aged out in mpdu/msdu queues 1501 * @dropped.fw_reason1: discarded by firmware reason 1 1502 * @dropped.fw_reason2: discarded by firmware reason 2 1503 * @dropped.fw_reason3: discarded by firmware reason 3 1504 * @dropped.fw_rem_queue_disable: dropped due to queue disable 1505 * @dropped.fw_rem_no_match: dropped due to fw no match command 1506 * @dropped.drop_threshold: dropped due to HW threshold 1507 * @dropped.drop_link_desc_na: dropped due resource not available in HW 1508 * @dropped.invalid_drop: Invalid msdu drop 1509 * @dropped.mcast_vdev_drop: MCAST drop configured for VDEV in HW 1510 * @dropped.invalid_rr: Invalid TQM release reason 1511 * @fw_tx_cnt: 1512 * @fw_tx_bytes: 1513 * @fw_txcount: 1514 * @fw_max4msframelen: 1515 * @fw_ratecount: 1516 * @ac_nobufs: 1517 * @rssi_chain: rssi chain 1518 * @inactive_time: inactive time in secs 1519 * @tx_flags: tx flags 1520 * @tx_power: Tx power latest 1521 * @is_tx_no_ack: no ack received 1522 * @tx_ratecode: Tx rate code of last frame 1523 * @ampdu_cnt: completion of aggregation 1524 * @non_ampdu_cnt: tx completion not aggregated 1525 * @failed_retry_count: packets failed due to retry above 802.11 retry limit 1526 * @retry_count: packets successfully send after one or more retry 1527 * @multiple_retry_count: packets successfully sent after more than one retry 1528 * @last_tx_rate_used: 1529 * @tx_ppdus: ppdus in tx 1530 * @tx_mpdus_success: mpdus successful in tx 1531 * @tx_mpdus_tried: mpdus tried in tx 1532 * @transmit_type: pkt info for tx transmit type 1533 * @mu_group_id: mumimo mu group id 1534 * @ru_start: RU start index 1535 * @ru_tones: RU tones size 1536 * @ru_loc: pkt info for RU location 26/ 52/ 106/ 242/ 484 counter 1537 * @num_ppdu_cookie_valid : Number of comp received with valid ppdu cookie 1538 * @no_ack_count: 1539 * @tx_success_twt: Successful Tx Packets in TWT session 1540 * @nss_info: NSS 1,2, ...8 1541 * @mcs_info: MCS index 1542 * @bw_info: Bandwidth 1543 * <enum 0 bw_20_MHz> 1544 * <enum 1 bw_40_MHz> 1545 * <enum 2 bw_80_MHz> 1546 * <enum 3 bw_160_MHz> 1547 * @gi_info: <enum 0 0_8_us_sgi > Legacy normal GI 1548 * <enum 1 0_4_us_sgi > Legacy short GI 1549 * <enum 2 1_6_us_sgi > HE related GI 1550 * <enum 3 3_2_us_sgi > HE 1551 * @preamble_info: preamble 1552 * @mpdu_success_with_retries: mpdu retry count in case of successful 1553 * transmission 1554 * @last_tx_ts: last timestamp in jiffies when tx comp occurred 1555 * @su_be_ppdu_cnt: SU Tx packet count 1556 * @mu_be_ppdu_cnt: MU Tx packet count 1557 * @punc_bw: MSDU count for punctured BW 1558 * @release_src_not_tqm: Counter to keep track of release source is not TQM 1559 * in TX completion status processing 1560 * @per: Packet error ratio 1561 * @rts_success: RTS success count 1562 * @rts_failure: RTS failure count 1563 * @bar_cnt: Block ACK Request frame count 1564 * @ndpa_cnt: NDP announcement frame count 1565 * @inval_link_id_pkt_cnt: Counter to capture Invalid Link Id 1566 * @wme_ac_type_bytes: Wireless Multimedia Type Bytes Count 1567 * @tx_ucast_total: Total tx unicast count 1568 * @tx_ucast_success: Total tx unicast success count 1569 * @fragment_count: Fragment packet count 1570 */ 1571 struct cdp_tx_stats { 1572 struct cdp_pkt_info comp_pkt; 1573 struct cdp_pkt_info ucast; 1574 struct cdp_pkt_info mcast; 1575 struct cdp_pkt_info bcast; 1576 struct cdp_pkt_info nawds_mcast; 1577 #ifdef VDEV_PEER_PROTOCOL_COUNT 1578 struct protocol_trace_count protocol_trace_cnt[CDP_TRACE_MAX]; 1579 #endif 1580 struct cdp_pkt_info tx_success; 1581 uint32_t nawds_mcast_drop; 1582 uint32_t tx_failed; 1583 uint32_t ofdma; 1584 uint32_t stbc; 1585 uint32_t ldpc; 1586 uint32_t retries; 1587 uint32_t retries_mpdu; 1588 uint32_t non_amsdu_cnt; 1589 uint32_t amsdu_cnt; 1590 uint32_t tx_rate; 1591 uint32_t last_tx_rate; 1592 uint32_t last_tx_rate_mcs; 1593 uint32_t mcast_last_tx_rate; 1594 uint32_t mcast_last_tx_rate_mcs; 1595 uint32_t last_per; 1596 uint64_t rnd_avg_tx_rate; 1597 uint64_t avg_tx_rate; 1598 uint32_t last_ack_rssi; 1599 uint32_t tx_bytes_success_last; 1600 uint32_t tx_data_success_last; 1601 uint32_t tx_byte_rate; 1602 uint32_t tx_data_rate; 1603 uint32_t tx_data_ucast_last; 1604 uint32_t tx_data_ucast_rate; 1605 struct cdp_pkt_type pkt_type[DOT11_MAX]; 1606 uint32_t sgi_count[MAX_GI]; 1607 uint32_t pream_punct_cnt; 1608 1609 uint32_t nss[SS_COUNT]; 1610 1611 uint32_t bw[MAX_BW]; 1612 1613 uint32_t wme_ac_type[WME_AC_MAX]; 1614 1615 uint32_t excess_retries_per_ac[WME_AC_MAX]; 1616 struct cdp_pkt_info dot11_tx_pkts; 1617 1618 struct { 1619 struct cdp_pkt_info fw_rem; 1620 uint32_t fw_rem_notx; 1621 uint32_t fw_rem_tx; 1622 uint32_t age_out; 1623 uint32_t fw_reason1; 1624 uint32_t fw_reason2; 1625 uint32_t fw_reason3; 1626 uint32_t fw_rem_queue_disable; 1627 uint32_t fw_rem_no_match; 1628 uint32_t drop_threshold; 1629 uint32_t drop_link_desc_na; 1630 uint32_t invalid_drop; 1631 uint32_t mcast_vdev_drop; 1632 uint32_t invalid_rr; 1633 } dropped; 1634 1635 uint32_t fw_tx_cnt; 1636 uint32_t fw_tx_bytes; 1637 uint32_t fw_txcount; 1638 uint32_t fw_max4msframelen; 1639 uint32_t fw_ratecount; 1640 1641 uint32_t ac_nobufs[WME_AC_MAX]; 1642 int32_t rssi_chain[CDP_RSSI_CHAIN_LEN]; 1643 uint32_t inactive_time; 1644 1645 uint32_t tx_flags; 1646 uint32_t tx_power; 1647 1648 /* MSDUs which the target sent but couldn't get an ack for */ 1649 struct cdp_pkt_info is_tx_no_ack; 1650 uint16_t tx_ratecode; 1651 1652 /*add for peer and updated from ppdu*/ 1653 uint32_t ampdu_cnt; 1654 uint32_t non_ampdu_cnt; 1655 uint32_t failed_retry_count; 1656 uint32_t retry_count; 1657 uint32_t multiple_retry_count; 1658 uint32_t last_tx_rate_used; 1659 uint32_t tx_ppdus; 1660 uint32_t tx_mpdus_success; 1661 uint32_t tx_mpdus_tried; 1662 1663 struct cdp_tx_pkt_info transmit_type[MAX_TRANSMIT_TYPES]; 1664 uint32_t mu_group_id[MAX_MU_GROUP_ID]; 1665 uint32_t ru_start; 1666 uint32_t ru_tones; 1667 struct cdp_tx_pkt_info ru_loc[MAX_RU_LOCATIONS]; 1668 1669 uint32_t num_ppdu_cookie_valid; 1670 uint32_t no_ack_count[QDF_PROTO_SUBTYPE_MAX]; 1671 struct cdp_pkt_info tx_success_twt; 1672 1673 uint32_t nss_info:4, 1674 mcs_info:4, 1675 bw_info:4, 1676 gi_info:4, 1677 preamble_info:4; 1678 uint32_t mpdu_success_with_retries; 1679 unsigned long last_tx_ts; 1680 #ifdef WLAN_FEATURE_11BE 1681 struct cdp_pkt_type su_be_ppdu_cnt; 1682 struct cdp_pkt_type mu_be_ppdu_cnt[TXRX_TYPE_MU_MAX]; 1683 uint32_t punc_bw[MAX_PUNCTURED_MODE]; 1684 #endif 1685 uint32_t release_src_not_tqm; 1686 uint32_t per; 1687 uint32_t rts_success; 1688 uint32_t rts_failure; 1689 uint32_t bar_cnt; 1690 uint32_t ndpa_cnt; 1691 uint32_t inval_link_id_pkt_cnt; 1692 uint64_t wme_ac_type_bytes[WME_AC_MAX]; 1693 struct cdp_pkt_info tx_ucast_total; 1694 struct cdp_pkt_info tx_ucast_success; 1695 uint32_t fragment_count; 1696 }; 1697 1698 /** 1699 * struct cdp_rx_stats - rx Level Stats 1700 * @to_stack: Total packets sent up the stack 1701 * @rcvd_reo: Packets received on the reo ring 1702 * @rcvd: Total packets received 1703 * @rx_lmac: Packets received on which lmac 1704 * @unicast: Total unicast packets 1705 * @multicast: Total multicast packets 1706 * @bcast: Broadcast Packet Count 1707 * @raw: Raw Pakets received 1708 * @nawds_mcast_drop: Total multicast packets 1709 * @mec_drop: Total MEC packets dropped 1710 * @ppeds_drop: Total DS packets dropped 1711 * @rx_success: Total rx success count 1712 * @last_rx_ts: last timestamp in jiffies when RX happened 1713 * @intra_bss: Intra-bss statistics 1714 * @intra_bss.pkts: Intra BSS packets received 1715 * @intra_bss.fail: Intra BSS packets failed 1716 * @intra_bss.mdns_no_fwd: Intra BSS MDNS packets not forwarded 1717 * @protocol_trace_cnt: per-peer protocol counters 1718 * @err: error countersa 1719 * @err.mic_err: Rx MIC errors CCMP 1720 * @err.decrypt_err: Rx Decryption Errors CRC 1721 * @err.fcserr: rx MIC check failed (CCMP) 1722 * @err.pn_err: pn check failed 1723 * @err.oor_err: Rx OOR errors 1724 * @err.jump_2k_err: 2k jump errors 1725 * @err.rxdma_wifi_parse_err: rxdma wifi parse errors 1726 * @wme_ac_type: Wireless Multimedia type Count 1727 * @reception_type: Reception type os packets 1728 * @pkt_type: 1729 * @mcs_count: mcs count 1730 * @sgi_count: sgi count 1731 * @nss: packet count in spatial Streams 1732 * @ppdu_nss: PPDU packet count in spatial streams 1733 * @mpdu_cnt_fcs_ok: SU Rx success mpdu count 1734 * @mpdu_cnt_fcs_err: SU Rx fail mpdu count 1735 * @su_ax_ppdu_cnt: SU Rx packet count 1736 * @ppdu_cnt: PPDU packet count in reception type 1737 * @rx_mu: Rx MU stats 1738 * @bw: Packet Count in different bandwidths 1739 * @non_ampdu_cnt: Number of MSDUs with no MPDU level aggregation 1740 * @ampdu_cnt: Number of MSDUs part of AMSPU 1741 * @non_amsdu_cnt: Number of MSDUs with no MSDU level aggregation 1742 * @amsdu_cnt: Number of MSDUs part of AMSDU 1743 * @bar_recv_cnt: Number of bar received 1744 * @avg_snr: Average snr 1745 * @rx_rate: Rx rate 1746 * @last_rx_rate: Previous rx rate 1747 * @rnd_avg_rx_rate: Rounded average rx rate 1748 * @avg_rx_rate: Average Rx rate 1749 * @dot11_rx_pkts: dot11 rx packets 1750 * @rx_bytes_success_last: last Rx success bytes 1751 * @rx_data_success_last: last rx success data 1752 * @rx_byte_rate: bytes received in last one sec 1753 * @rx_data_rate: data received in last one sec 1754 * @rx_retries: retries of packet in rx 1755 * @rx_mpdus: mpdu in rx 1756 * @rx_ppdus: ppdu in rx 1757 * @rx_aggr: aggregation on rx 1758 * @rx_discard: packets discard in rx 1759 * @rx_ratecode: Rx rate code of last frame 1760 * @rx_flags: rx flags 1761 * @rx_snr_measured_time: Time at which snr is measured 1762 * @snr: SNR of received signal 1763 * @last_snr: Previous snr 1764 * @multipass_rx_pkt_drop: Dropped multipass rx pkt 1765 * @peer_unauth_rx_pkt_drop: Unauth rx packet drops 1766 * @policy_check_drop: policy check drops 1767 * @rx_mpdu_cnt: rx mpdu count per MCS rate 1768 * @nss_info: NSS 1,2, ...8 1769 * @mcs_info: MCS index 1770 * @bw_info: Bandwidth 1771 * <enum 0 bw_20_MHz> 1772 * <enum 1 bw_40_MHz> 1773 * <enum 2 bw_80_MHz> 1774 * <enum 3 bw_160_MHz> 1775 * @gi_info: <enum 0 0_8_us_sgi > Legacy normal GI 1776 * <enum 1 0_4_us_sgi > Legacy short GI 1777 * <enum 2 1_6_us_sgi > HE related GI 1778 * <enum 3 3_2_us_sgi > HE 1779 * @preamble_info: preamble 1780 * @to_stack_twt: Total packets sent up the stack in TWT session 1781 * @mpdu_retry_cnt: retries of mpdu in rx 1782 * @su_be_ppdu_cnt: SU Rx packet count for BE 1783 * @mu_be_ppdu_cnt: MU rx packet count for BE 1784 * @punc_bw: MSDU count for punctured BW 1785 * @mcast_3addr_drop: 1786 * @bar_cnt: Block ACK Request frame count 1787 * @ndpa_cnt: NDP announcement frame count 1788 * @inval_link_id_pkt_cnt: Counter to capture Invalid Link Id 1789 * @wme_ac_type_bytes: Wireless Multimedia type Byte Count 1790 * @rx_total: Total rx count 1791 * @duplicate_count: Duplicate packets count 1792 * @fragment_count: Fragment packet count 1793 */ 1794 struct cdp_rx_stats { 1795 struct cdp_pkt_info to_stack; 1796 struct cdp_pkt_info rcvd_reo[CDP_MAX_RX_RINGS]; 1797 struct cdp_pkt_info rcvd; 1798 struct cdp_pkt_info rx_lmac[CDP_MAX_LMACS]; 1799 struct cdp_pkt_info unicast; 1800 struct cdp_pkt_info multicast; 1801 struct cdp_pkt_info bcast; 1802 struct cdp_pkt_info raw; 1803 uint32_t nawds_mcast_drop; 1804 struct cdp_pkt_info mec_drop; 1805 struct cdp_pkt_info ppeds_drop; 1806 struct cdp_pkt_info rx_success; 1807 unsigned long last_rx_ts; 1808 struct { 1809 struct cdp_pkt_info pkts; 1810 struct cdp_pkt_info fail; 1811 uint32_t mdns_no_fwd; 1812 } intra_bss; 1813 #ifdef VDEV_PEER_PROTOCOL_COUNT 1814 struct protocol_trace_count protocol_trace_cnt[CDP_TRACE_MAX]; 1815 #endif 1816 1817 struct { 1818 uint32_t mic_err; 1819 uint32_t decrypt_err; 1820 uint32_t fcserr; 1821 uint32_t pn_err; 1822 uint32_t oor_err; 1823 uint32_t jump_2k_err; 1824 uint32_t rxdma_wifi_parse_err; 1825 } err; 1826 1827 uint32_t wme_ac_type[WME_AC_MAX]; 1828 uint32_t reception_type[MAX_RECEPTION_TYPES]; 1829 struct cdp_pkt_type pkt_type[DOT11_MAX]; 1830 uint32_t sgi_count[MAX_GI]; 1831 uint32_t nss[SS_COUNT]; 1832 uint32_t ppdu_nss[SS_COUNT]; 1833 uint32_t mpdu_cnt_fcs_ok; 1834 uint32_t mpdu_cnt_fcs_err; 1835 struct cdp_pkt_type su_ax_ppdu_cnt; 1836 uint32_t ppdu_cnt[MAX_RECEPTION_TYPES]; 1837 struct cdp_rx_mu rx_mu[TXRX_TYPE_MU_MAX]; 1838 uint32_t bw[MAX_BW]; 1839 uint32_t non_ampdu_cnt; 1840 uint32_t ampdu_cnt; 1841 uint32_t non_amsdu_cnt; 1842 uint32_t amsdu_cnt; 1843 uint32_t bar_recv_cnt; 1844 uint32_t avg_snr; 1845 uint32_t rx_rate; 1846 uint32_t last_rx_rate; 1847 uint32_t rnd_avg_rx_rate; 1848 uint32_t avg_rx_rate; 1849 struct cdp_pkt_info dot11_rx_pkts; 1850 1851 uint32_t rx_bytes_success_last; 1852 uint32_t rx_data_success_last; 1853 uint32_t rx_byte_rate; 1854 uint32_t rx_data_rate; 1855 1856 uint32_t rx_retries; 1857 uint32_t rx_mpdus; 1858 uint32_t rx_ppdus; 1859 1860 /*add for peer updated for ppdu*/ 1861 uint32_t rx_aggr; 1862 uint32_t rx_discard; 1863 uint32_t rx_ratecode; 1864 uint32_t rx_flags; 1865 unsigned long rx_snr_measured_time; 1866 uint8_t snr; 1867 uint8_t last_snr; 1868 uint32_t multipass_rx_pkt_drop; 1869 uint32_t peer_unauth_rx_pkt_drop; 1870 uint32_t policy_check_drop; 1871 uint32_t rx_mpdu_cnt[MAX_MCS]; 1872 uint32_t nss_info:4, 1873 mcs_info:4, 1874 bw_info:4, 1875 gi_info:4, 1876 preamble_info:4; 1877 struct cdp_pkt_info to_stack_twt; 1878 uint32_t mpdu_retry_cnt; 1879 #ifdef WLAN_FEATURE_11BE 1880 struct cdp_pkt_type su_be_ppdu_cnt; 1881 struct cdp_pkt_type mu_be_ppdu_cnt[TXRX_TYPE_MU_MAX]; 1882 uint32_t punc_bw[MAX_PUNCTURED_MODE]; 1883 #endif 1884 uint32_t mcast_3addr_drop; 1885 uint32_t bar_cnt; 1886 uint32_t ndpa_cnt; 1887 uint32_t inval_link_id_pkt_cnt; 1888 uint64_t wme_ac_type_bytes[WME_AC_MAX]; 1889 #ifdef IPA_OFFLOAD 1890 struct cdp_pkt_info rx_total; 1891 #endif 1892 uint32_t duplicate_count; 1893 uint32_t fragment_count; 1894 }; 1895 1896 /** 1897 * struct cdp_tx_ingress_stats - Tx ingress Stats 1898 * @rcvd: Total packets received for transmission 1899 * @rcvd_in_fast_xmit_flow: 1900 * @rcvd_per_core: 1901 * @processed: Tx packets processed 1902 * @reinject_pkts: Total packets reinjected 1903 * @inspect_pkts: Total packets passed to inspect handler 1904 * @nawds_mcast: NAWDS Multicast Packet Count 1905 * @bcast: Number of broadcast packets 1906 * @raw: Raw packet info 1907 * @raw.raw_pkt: Total Raw packets 1908 * @raw.dma_map_error: DMA map error 1909 * @raq.invalid_raw_pkt_datatype: 1910 * @raw.num_frags_overflow_err: msdu's nbuf count exceeds num of segments 1911 * @sg: Scatter Gather packet info 1912 * @sg.sg_pkt: Total scatter gather packets 1913 * @sg.non_sg_pkts: non SG packets 1914 * @sg.dropped_host: SG packets dropped by host 1915 * @sg.dropped_target: SG packets dropped by target 1916 * @sg.dma_map_error: Dma map error 1917 * @mcast_en: Multicast Enhancement packets info 1918 * @mcast_en.mcast_pkt: total no of multicast conversion packets 1919 * @mcast_en.dropped_map_error: packets dropped due to map error 1920 * @mcast_en.dropped_self_mac: packets dropped due to self Mac address 1921 * @mcast_en.dropped_send_fail: Packets dropped due to send fail 1922 * @mcast_en.ucast: total unicast packets transmitted 1923 * @mcast_en.fail_seg_alloc: Segment allocation failure 1924 * @mcast_en.clone_fail: NBUF clone failure 1925 * @igmp_mcast_en: IGMP Multicast Enhancement packets info 1926 * @igmp_mcast_en.igmp_rcvd: igmp pkts received for conversion to ucast pkts 1927 * @igmp_mcast_en.igmp_ucast_converted: unicast pkts sent as part of VoW IGMP 1928 * improvements 1929 * @dropped: Packets dropped on the Tx side 1930 * @dropped.dropped_pkt: Total scatter gather packets 1931 * @dropped.desc_na: Desc Not Available 1932 * @dropped.desc_na_exc_alloc_fail: 1933 * @dropped.desc_na_outstand: 1934 * @dropped.exc_desc_na: Exception desc Not Available 1935 * @dropped.ring_full: ring full 1936 * @dropped.enqueue_fail: hw enqueue fail 1937 * @dropped.dma_error: dma fail 1938 * @dropped.res_full: Resource Full: Congestion Control 1939 * @dropped.headroom_insufficient: headroom insufficient 1940 * @dropped.fail_per_pkt_vdev_id_check: Per pkt vdev id check 1941 * @dropped.drop_ingress: Packets dropped during Umac reset 1942 * @dropped.invalid_peer_id_in_exc_path: 1943 * @dropped.tx_mcast_drop: 1944 * @mesh: mesh packet information 1945 * @mesh.exception_fw: packets sent to fw 1946 * @mesh.completion_fw: packets completions received from fw 1947 * @cce_classified:Number of packets classified by CCE 1948 * @cce_classified_raw:Number of raw packets classified by CCE 1949 * @sniffer_rcvd: Number of packets received with ppdu cookie 1950 * @tso_stats: 1951 * @mlo_mcast: mlo mcast packet counters 1952 * @mlo_mcast.send_pkt_count: MLO mcast send packet counter 1953 * @mlo_mcast.fail_pkt_count: MLO mcast failed packet counter 1954 */ 1955 struct cdp_tx_ingress_stats { 1956 struct cdp_pkt_info rcvd; 1957 uint64_t rcvd_in_fast_xmit_flow; 1958 uint32_t rcvd_per_core[CDP_MAX_TX_DATA_RINGS]; 1959 struct cdp_pkt_info processed; 1960 struct cdp_pkt_info reinject_pkts; 1961 struct cdp_pkt_info inspect_pkts; 1962 struct cdp_pkt_info nawds_mcast; 1963 struct cdp_pkt_info bcast; 1964 1965 struct { 1966 struct cdp_pkt_info raw_pkt; 1967 uint32_t dma_map_error; 1968 uint32_t invalid_raw_pkt_datatype; 1969 uint32_t num_frags_overflow_err; 1970 } raw; 1971 1972 struct { 1973 struct cdp_pkt_info sg_pkt; 1974 struct cdp_pkt_info non_sg_pkts; 1975 struct cdp_pkt_info dropped_host; 1976 uint32_t dropped_target; 1977 uint32_t dma_map_error; 1978 } sg; 1979 1980 struct { 1981 struct cdp_pkt_info mcast_pkt; 1982 uint32_t dropped_map_error; 1983 uint32_t dropped_self_mac; 1984 uint32_t dropped_send_fail; 1985 uint32_t ucast; 1986 uint32_t fail_seg_alloc; 1987 uint32_t clone_fail; 1988 } mcast_en; 1989 1990 struct { 1991 uint32_t igmp_rcvd; 1992 uint32_t igmp_ucast_converted; 1993 } igmp_mcast_en; 1994 1995 struct { 1996 struct cdp_pkt_info dropped_pkt; 1997 struct cdp_pkt_info desc_na; 1998 struct cdp_pkt_info desc_na_exc_alloc_fail; 1999 struct cdp_pkt_info desc_na_exc_outstand; 2000 struct cdp_pkt_info exc_desc_na; 2001 uint32_t ring_full; 2002 uint32_t enqueue_fail; 2003 uint32_t dma_error; 2004 uint32_t res_full; 2005 uint32_t headroom_insufficient; 2006 uint32_t fail_per_pkt_vdev_id_check; 2007 uint32_t drop_ingress; 2008 uint32_t invalid_peer_id_in_exc_path; 2009 uint32_t tx_mcast_drop; 2010 uint32_t fw2wbm_tx_drop; 2011 } dropped; 2012 2013 struct { 2014 uint32_t exception_fw; 2015 uint32_t completion_fw; 2016 } mesh; 2017 2018 uint32_t cce_classified; 2019 uint32_t cce_classified_raw; 2020 struct cdp_pkt_info sniffer_rcvd; 2021 struct cdp_tso_stats tso_stats; 2022 #if defined(WLAN_FEATURE_11BE_MLO) && defined(WLAN_MCAST_MLO) 2023 struct { 2024 uint32_t send_pkt_count; 2025 uint32_t fail_pkt_count; 2026 } mlo_mcast; 2027 #endif 2028 }; 2029 2030 /** 2031 * struct cdp_rx_ingress_stats - rx ingress stats 2032 * @reo_rcvd_pkt: packets received at REO block 2033 * @null_q_desc_pkt: null queue desc pkt count 2034 * @routed_eapol_pkt: routed eapol pkt count 2035 */ 2036 struct cdp_rx_ingress_stats { 2037 struct cdp_pkt_info reo_rcvd_pkt; 2038 struct cdp_pkt_info null_q_desc_pkt; 2039 struct cdp_pkt_info routed_eapol_pkt; 2040 }; 2041 2042 /** 2043 * struct cdp_vdev_stats - vdev stats structure 2044 * @tx_i: ingress tx stats 2045 * @rx_i: ingress rx stats 2046 * @tx: cdp tx stats 2047 * @rx: cdp rx stats 2048 * @tso_stats: tso stats 2049 * @tid_tx_stats: tid tx stats 2050 */ 2051 struct cdp_vdev_stats { 2052 struct cdp_tx_ingress_stats tx_i; 2053 struct cdp_rx_ingress_stats rx_i; 2054 struct cdp_tx_stats tx; 2055 struct cdp_rx_stats rx; 2056 struct cdp_tso_stats tso_stats; 2057 #ifdef HW_TX_DELAY_STATS_ENABLE 2058 struct cdp_tid_tx_stats tid_tx_stats[CDP_MAX_TX_COMP_RINGS] 2059 [CDP_MAX_DATA_TIDS]; 2060 #endif 2061 }; 2062 2063 /** 2064 * struct cdp_calibr_stats - Calibrated stats 2065 * @tx: Tx statistics 2066 * @last_per: Tx last packet error rate 2067 * @tx_bytes_success_last: last Tx success bytes 2068 * @tx_data_success_last: last Tx success data 2069 * @tx_byte_rate: Bytes Trasmitted in last one sec 2070 * @tx_data_rate: Data Transmitted in last one sec 2071 * @tx_data_ucast_last: last unicast Tx bytes 2072 * @tx_data_ucast_rate: last unicast Tx data 2073 * @inactive_time: inactive time in secs 2074 * @rx: Rx statistics 2075 * @rx_bytes_success_last: last Rx success bytes 2076 * @rx_data_success_last: last Rx success data 2077 * @rx_byte_rate: Bytes received in last one sec 2078 * @rx_data_rate: Data received in last one sec 2079 */ 2080 struct cdp_calibr_stats { 2081 struct { 2082 uint32_t last_per; 2083 uint32_t tx_bytes_success_last; 2084 uint32_t tx_data_success_last; 2085 uint32_t tx_byte_rate; 2086 uint32_t tx_data_rate; 2087 uint32_t tx_data_ucast_last; 2088 uint32_t tx_data_ucast_rate; 2089 uint32_t inactive_time; 2090 } tx; 2091 2092 struct { 2093 uint32_t rx_bytes_success_last; 2094 uint32_t rx_data_success_last; 2095 uint32_t rx_byte_rate; 2096 uint32_t rx_data_rate; 2097 } rx; 2098 }; 2099 2100 /** 2101 * struct cdp_calibr_stats_intf: Calibrated stats interface 2102 * @to_stack: Total packets sent up the stack 2103 * @tx_success: Successful Tx Packets 2104 * @tx_ucast: Tx Unicast Packet Count 2105 */ 2106 struct cdp_calibr_stats_intf { 2107 struct cdp_pkt_info to_stack; 2108 struct cdp_pkt_info tx_success; 2109 struct cdp_pkt_info tx_ucast; 2110 }; 2111 2112 /** 2113 * struct cdp_peer_stats - peer stats structure 2114 * @mac_addr: MAC address 2115 * @tx: cdp tx stats 2116 * @rx: cdp rx stats 2117 */ 2118 struct cdp_peer_stats { 2119 struct qdf_mac_addr mac_addr; 2120 struct cdp_tx_stats tx; 2121 struct cdp_rx_stats rx; 2122 }; 2123 2124 /** 2125 * struct cdp_peer_tid_stats - Per peer and per TID stats 2126 * @tx_prev_delay: tx previous delay 2127 * @tx_avg_jitter: tx average jitter 2128 * @tx_avg_delay: tx average delay 2129 * @tx_avg_err: tx average error 2130 * @tx_total_success: tx total success 2131 * @tx_drop: tx drop 2132 */ 2133 struct cdp_peer_tid_stats { 2134 #ifdef WLAN_PEER_JITTER 2135 uint32_t tx_prev_delay; 2136 uint32_t tx_avg_jitter; 2137 uint32_t tx_avg_delay; 2138 uint64_t tx_avg_err; 2139 uint64_t tx_total_success; 2140 uint64_t tx_drop; 2141 #endif 2142 }; 2143 2144 /** 2145 * struct cdp_interface_peer_stats - interface structure for txrx peer stats 2146 * @peer_mac: peer mac address 2147 * @vdev_id : vdev_id for the peer 2148 * @rssi_changed: denotes rssi is changed 2149 * @last_peer_tx_rate: peer tx rate for last transmission 2150 * @peer_tx_rate: tx rate for current transmission 2151 * @peer_rssi: current rssi value of peer 2152 * @tx_packet_count: tx packet count 2153 * @rx_packet_count: rx packet count 2154 * @tx_byte_count: tx byte count 2155 * @rx_byte_count: rx byte count 2156 * @per: per error rate 2157 * @ack_rssi: RSSI of the last ack received 2158 * @free_buff: free tx descriptor count 2159 * @rx_avg_snr: Avg Rx SNR 2160 */ 2161 struct cdp_interface_peer_stats { 2162 uint8_t peer_mac[QDF_MAC_ADDR_SIZE]; 2163 uint8_t vdev_id; 2164 uint8_t rssi_changed; 2165 uint32_t last_peer_tx_rate; 2166 uint32_t peer_tx_rate; 2167 uint32_t peer_rssi; 2168 uint32_t tx_packet_count; 2169 uint32_t rx_packet_count; 2170 uint32_t tx_byte_count; 2171 uint32_t rx_byte_count; 2172 uint32_t per; 2173 uint32_t ack_rssi; 2174 uint32_t free_buff; 2175 uint32_t rx_avg_snr; 2176 }; 2177 2178 /** 2179 * struct cdp_interface_peer_qos_stats - interface structure for peer qos stats 2180 * @peer_mac: peer mac address 2181 * @frame_control: frame control field 2182 * @qos_control: qos control field 2183 * @frame_control_info_valid: frame_control valid 2184 * @qos_control_info_valid: qos_control valid 2185 * @vdev_id : vdev_id for the peer 2186 */ 2187 struct cdp_interface_peer_qos_stats { 2188 uint8_t peer_mac[QDF_MAC_ADDR_SIZE]; 2189 uint16_t frame_control; 2190 uint16_t qos_control; 2191 uint8_t frame_control_info_valid; 2192 uint8_t qos_control_info_valid; 2193 uint8_t vdev_id; 2194 }; 2195 2196 /* Tx completions per interrupt */ 2197 struct cdp_hist_tx_comp { 2198 uint32_t pkts_1; 2199 uint32_t pkts_2_20; 2200 uint32_t pkts_21_40; 2201 uint32_t pkts_41_60; 2202 uint32_t pkts_61_80; 2203 uint32_t pkts_81_100; 2204 uint32_t pkts_101_200; 2205 uint32_t pkts_201_plus; 2206 }; 2207 2208 /* Rx ring descriptors reaped per interrupt */ 2209 struct cdp_hist_rx_ind { 2210 uint32_t pkts_1; 2211 uint32_t pkts_2_20; 2212 uint32_t pkts_21_40; 2213 uint32_t pkts_41_60; 2214 uint32_t pkts_61_80; 2215 uint32_t pkts_81_100; 2216 uint32_t pkts_101_200; 2217 uint32_t pkts_201_plus; 2218 }; 2219 2220 struct cdp_htt_tlv_hdr { 2221 /* BIT [11 : 0] :- tag 2222 * BIT [23 : 12] :- length 2223 * BIT [31 : 24] :- reserved 2224 */ 2225 uint32_t tag__length; 2226 }; 2227 2228 #define HTT_STATS_SUBTYPE_MAX 16 2229 2230 struct cdp_htt_rx_pdev_fw_stats_tlv { 2231 struct cdp_htt_tlv_hdr tlv_hdr; 2232 2233 /* BIT [ 7 : 0] :- mac_id 2234 * BIT [31 : 8] :- reserved 2235 */ 2236 uint32_t mac_id__word; 2237 /* Num PPDU status processed from HW */ 2238 uint32_t ppdu_recvd; 2239 /* Num MPDU across PPDUs with FCS ok */ 2240 uint32_t mpdu_cnt_fcs_ok; 2241 /* Num MPDU across PPDUs with FCS err */ 2242 uint32_t mpdu_cnt_fcs_err; 2243 /* Num MSDU across PPDUs */ 2244 uint32_t tcp_msdu_cnt; 2245 /* Num MSDU across PPDUs */ 2246 uint32_t tcp_ack_msdu_cnt; 2247 /* Num MSDU across PPDUs */ 2248 uint32_t udp_msdu_cnt; 2249 /* Num MSDU across PPDUs */ 2250 uint32_t other_msdu_cnt; 2251 /* Num MPDU on FW ring indicated */ 2252 uint32_t fw_ring_mpdu_ind; 2253 /* Num MGMT MPDU given to protocol */ 2254 uint32_t fw_ring_mgmt_subtype[HTT_STATS_SUBTYPE_MAX]; 2255 /* Num ctrl MPDU given to protocol */ 2256 uint32_t fw_ring_ctrl_subtype[HTT_STATS_SUBTYPE_MAX]; 2257 /* Num mcast data packet received */ 2258 uint32_t fw_ring_mcast_data_msdu; 2259 /* Num broadcast data packet received */ 2260 uint32_t fw_ring_bcast_data_msdu; 2261 /* Num unicat data packet received */ 2262 uint32_t fw_ring_ucast_data_msdu; 2263 /* Num null data packet received */ 2264 uint32_t fw_ring_null_data_msdu; 2265 /* Num MPDU on FW ring dropped */ 2266 uint32_t fw_ring_mpdu_drop; 2267 2268 /* Num buf indication to offload */ 2269 uint32_t ofld_local_data_ind_cnt; 2270 /* Num buf recycle from offload */ 2271 uint32_t ofld_local_data_buf_recycle_cnt; 2272 /* Num buf indication to data_rx */ 2273 uint32_t drx_local_data_ind_cnt; 2274 /* Num buf recycle from data_rx */ 2275 uint32_t drx_local_data_buf_recycle_cnt; 2276 /* Num buf indication to protocol */ 2277 uint32_t local_nondata_ind_cnt; 2278 /* Num buf recycle from protocol */ 2279 uint32_t local_nondata_buf_recycle_cnt; 2280 2281 /* Num buf fed */ 2282 uint32_t fw_status_buf_ring_refill_cnt; 2283 /* Num ring empty encountered */ 2284 uint32_t fw_status_buf_ring_empty_cnt; 2285 /* Num buf fed */ 2286 uint32_t fw_pkt_buf_ring_refill_cnt; 2287 /* Num ring empty encountered */ 2288 uint32_t fw_pkt_buf_ring_empty_cnt; 2289 /* Num buf fed */ 2290 uint32_t fw_link_buf_ring_refill_cnt; 2291 /* Num ring empty encountered */ 2292 uint32_t fw_link_buf_ring_empty_cnt; 2293 2294 /* Num buf fed */ 2295 uint32_t host_pkt_buf_ring_refill_cnt; 2296 /* Num ring empty encountered */ 2297 uint32_t host_pkt_buf_ring_empty_cnt; 2298 /* Num buf fed */ 2299 uint32_t mon_pkt_buf_ring_refill_cnt; 2300 /* Num ring empty encountered */ 2301 uint32_t mon_pkt_buf_ring_empty_cnt; 2302 /* Num buf fed */ 2303 uint32_t mon_status_buf_ring_refill_cnt; 2304 /* Num ring empty encountered */ 2305 uint32_t mon_status_buf_ring_empty_cnt; 2306 /* Num buf fed */ 2307 uint32_t mon_desc_buf_ring_refill_cnt; 2308 /* Num ring empty encountered */ 2309 uint32_t mon_desc_buf_ring_empty_cnt; 2310 /* Num buf fed */ 2311 uint32_t mon_dest_ring_update_cnt; 2312 /* Num ring full encountered */ 2313 uint32_t mon_dest_ring_full_cnt; 2314 2315 /* Num rx suspend is attempted */ 2316 uint32_t rx_suspend_cnt; 2317 /* Num rx suspend failed */ 2318 uint32_t rx_suspend_fail_cnt; 2319 /* Num rx resume attempted */ 2320 uint32_t rx_resume_cnt; 2321 /* Num rx resume failed */ 2322 uint32_t rx_resume_fail_cnt; 2323 /* Num rx ring switch */ 2324 uint32_t rx_ring_switch_cnt; 2325 /* Num rx ring restore */ 2326 uint32_t rx_ring_restore_cnt; 2327 /* Num rx flush issued */ 2328 uint32_t rx_flush_cnt; 2329 }; 2330 2331 /* == TX PDEV STATS == */ 2332 struct cdp_htt_tx_pdev_stats_cmn_tlv { 2333 struct cdp_htt_tlv_hdr tlv_hdr; 2334 2335 /* BIT [ 7 : 0] :- mac_id 2336 * BIT [31 : 8] :- reserved 2337 */ 2338 uint32_t mac_id__word; 2339 /* Num queued to HW */ 2340 uint32_t hw_queued; 2341 /* Num PPDU reaped from HW */ 2342 uint32_t hw_reaped; 2343 /* Num underruns */ 2344 uint32_t underrun; 2345 /* Num HW Paused counter. */ 2346 uint32_t hw_paused; 2347 /* Num HW flush counter. */ 2348 uint32_t hw_flush; 2349 /* Num HW filtered counter. */ 2350 uint32_t hw_filt; 2351 /* Num PPDUs cleaned up in TX abort */ 2352 uint32_t tx_abort; 2353 /* Num MPDUs requed by SW */ 2354 uint32_t mpdu_requed; 2355 /* excessive retries */ 2356 uint32_t tx_xretry; 2357 /* Last used data hw rate code */ 2358 uint32_t data_rc; 2359 /* frames dropped due to excessive sw retries */ 2360 uint32_t mpdu_dropped_xretry; 2361 /* illegal rate phy errors */ 2362 uint32_t illgl_rate_phy_err; 2363 /* wal pdev continuous xretry */ 2364 uint32_t cont_xretry; 2365 /* wal pdev continuous xretry */ 2366 uint32_t tx_timeout; 2367 /* wal pdev resets */ 2368 uint32_t pdev_resets; 2369 /* PhY/BB underrun */ 2370 uint32_t phy_underrun; 2371 /* MPDU is more than txop limit */ 2372 uint32_t txop_ovf; 2373 /* Number of Sequences posted */ 2374 uint32_t seq_posted; 2375 /* Number of Sequences failed queueing */ 2376 uint32_t seq_failed_queueing; 2377 /* Number of Sequences completed */ 2378 uint32_t seq_completed; 2379 /* Number of Sequences restarted */ 2380 uint32_t seq_restarted; 2381 /* Number of MU Sequences posted */ 2382 uint32_t mu_seq_posted; 2383 /* Number of time HW ring is paused between seq switch within ISR */ 2384 uint32_t seq_switch_hw_paused; 2385 /* Number of times seq continuation in DSR */ 2386 uint32_t next_seq_posted_dsr; 2387 /* Number of times seq continuation in ISR */ 2388 uint32_t seq_posted_isr; 2389 /* Number of seq_ctrl cached. */ 2390 uint32_t seq_ctrl_cached; 2391 /* Number of MPDUs successfully transmitted */ 2392 uint32_t mpdu_count_tqm; 2393 /* Number of MSDUs successfully transmitted */ 2394 uint32_t msdu_count_tqm; 2395 /* Number of MPDUs dropped */ 2396 uint32_t mpdu_removed_tqm; 2397 /* Number of MSDUs dropped */ 2398 uint32_t msdu_removed_tqm; 2399 /* Num MPDUs flushed by SW, HWPAUSED, SW TXABORT (Reset,channel change) */ 2400 uint32_t mpdus_sw_flush; 2401 /* Num MPDUs filtered by HW, all filter condition (TTL expired) */ 2402 uint32_t mpdus_hw_filter; 2403 /* Num MPDUs truncated by PDG (TXOP, TBTT, PPDU_duration based on rate, dyn_bw) */ 2404 uint32_t mpdus_truncated; 2405 /* Num MPDUs that was tried but didn't receive ACK or BA */ 2406 uint32_t mpdus_ack_failed; 2407 /* Num MPDUs that was dropped due to expiry (MSDU TTL). */ 2408 uint32_t mpdus_expired; 2409 /* Num MPDUs that was retried within seq_ctrl (MGMT/LEGACY) */ 2410 uint32_t mpdus_seq_hw_retry; 2411 /* Num of TQM acked cmds processed */ 2412 uint32_t ack_tlv_proc; 2413 /* coex_abort_mpdu_cnt valid. */ 2414 uint32_t coex_abort_mpdu_cnt_valid; 2415 /* coex_abort_mpdu_cnt from TX FES stats. */ 2416 uint32_t coex_abort_mpdu_cnt; 2417 /* Number of total PPDUs(DATA, MGMT, excludes selfgen) tried over the air (OTA) */ 2418 uint32_t num_total_ppdus_tried_ota; 2419 /* Number of data PPDUs tried over the air (OTA) */ 2420 uint32_t num_data_ppdus_tried_ota; 2421 /* Num Local control/mgmt frames (MSDUs) queued */ 2422 uint32_t local_ctrl_mgmt_enqued; 2423 /* local_ctrl_mgmt_freed: 2424 * Num Local control/mgmt frames (MSDUs) done 2425 * It includes all local ctrl/mgmt completions 2426 * (acked, no ack, flush, TTL, etc) 2427 */ 2428 uint32_t local_ctrl_mgmt_freed; 2429 /* Num Local data frames (MSDUs) queued */ 2430 uint32_t local_data_enqued; 2431 /* local_data_freed: 2432 * Num Local data frames (MSDUs) done 2433 * It includes all local data completions 2434 * (acked, no ack, flush, TTL, etc) 2435 */ 2436 uint32_t local_data_freed; 2437 2438 /* Num MPDUs tried by SW */ 2439 uint32_t mpdu_tried; 2440 /* Num of waiting seq posted in isr completion handler */ 2441 uint32_t isr_wait_seq_posted; 2442 uint32_t tx_active_dur_us_low; 2443 uint32_t tx_active_dur_us_high; 2444 }; 2445 2446 #define DP_NUM_AC_WMM 4 2447 2448 struct cdp_pdev_obss_pd_stats_tlv { 2449 struct cdp_htt_tlv_hdr tlv_hdr; 2450 2451 uint32_t num_obss_tx_ppdu_success; 2452 uint32_t num_obss_tx_ppdu_failure; 2453 /** num_sr_tx_transmissions: 2454 * Counter of TX done by aborting other BSS RX with spatial reuse 2455 * (for cases where rx RSSI from other BSS is below the packet-detection 2456 * threshold for doing spatial reuse) 2457 */ 2458 uint32_t num_sr_tx_transmissions; 2459 /** 2460 * Count the number of times the RSSI from an other-BSS signal 2461 * is below the spatial reuse power threshold, thus providing an 2462 * opportunity for spatial reuse since OBSS interference will be 2463 * inconsequential. 2464 */ 2465 uint32_t num_spatial_reuse_opportunities; 2466 /** 2467 * Count of number of times OBSS frames were aborted and non-SRG 2468 * opportunities were created. Non-SRG opportunities are created when 2469 * incoming OBSS RSSI is lesser than the global configured non-SRG RSSI 2470 * threshold and non-SRG OBSS color / non-SRG OBSS BSSID registers 2471 * allow non-SRG TX. 2472 */ 2473 uint32_t num_non_srg_opportunities; 2474 /** 2475 * Count of number of times TX PPDU were transmitted using non-SRG 2476 * opportunities created. Incoming OBSS frame RSSI is compared with per 2477 * PPDU non-SRG RSSI threshold configured in each PPDU. If incoming OBSS 2478 * RSSI < non-SRG RSSI threshold configured in each PPDU, then non-SRG 2479 * transmission happens. 2480 */ 2481 uint32_t num_non_srg_ppdu_tried; 2482 /** 2483 * Count of number of times non-SRG based TX transmissions were 2484 * successful 2485 */ 2486 uint32_t num_non_srg_ppdu_success; 2487 /** 2488 * Count of number of times OBSS frames were aborted and SRG 2489 * opportunities were created. Srg opportunities are created when 2490 * incoming OBSS RSSI is less than the global configured SRG RSSI 2491 * threshold and SRC OBSS color / SRG OBSS BSSID / SRG partial bssid / 2492 * SRG BSS color bitmap registers allow SRG TX. 2493 */ 2494 uint32_t num_srg_opportunities; 2495 /** 2496 * Count of number of times TX PPDU were transmitted using SRG 2497 * opportunities created. 2498 * Incoming OBSS frame RSSI is compared with per PPDU SRG RSSI 2499 * threshold configured in each PPDU. 2500 * If incoming OBSS RSSI < SRG RSSI threshold configured in each PPDU, 2501 * then SRG transmission happens. 2502 */ 2503 uint32_t num_srg_ppdu_tried; 2504 /** 2505 * Count of number of times SRG based TX transmissions were successful 2506 */ 2507 uint32_t num_srg_ppdu_success; 2508 /** 2509 * Count of number of times PSR opportunities were created by aborting 2510 * OBSS UL OFDMA HE-TB PPDU frame. HE-TB ppdu frames are aborted if the 2511 * spatial reuse info in the OBSS trigger common field is set to allow 2512 * PSR based spatial reuse. 2513 */ 2514 uint32_t num_psr_opportunities; 2515 /** 2516 * Count of number of times TX PPDU were transmitted using PSR 2517 * opportunities created. 2518 */ 2519 uint32_t num_psr_ppdu_tried; 2520 /** 2521 * Count of number of times PSR based TX transmissions were successful. 2522 */ 2523 uint32_t num_psr_ppdu_success; 2524 /** 2525 * Count of number of times TX PPDU per access category were transmitted 2526 * using non-SRG opportunities created. 2527 */ 2528 uint32_t num_non_srg_ppdu_tried_per_ac[DP_NUM_AC_WMM]; 2529 /** 2530 * Count of number of times non-SRG based TX transmissions per access 2531 * category were successful 2532 */ 2533 uint32_t num_non_srg_ppdu_success_per_ac[DP_NUM_AC_WMM]; 2534 /** 2535 * Count of number of times TX PPDU per access category were transmitted 2536 * using SRG opportunities created. 2537 */ 2538 uint32_t num_srg_ppdu_tried_per_ac[DP_NUM_AC_WMM]; 2539 /** 2540 * Count of number of times SRG based TX transmissions per access 2541 * category were successful 2542 */ 2543 uint32_t num_srg_ppdu_success_per_ac[DP_NUM_AC_WMM]; 2544 /** 2545 * Count of number of times ppdu was flushed due to ongoing OBSS 2546 * frame duration value lesser than minimum required frame duration. 2547 */ 2548 uint32_t num_obss_min_duration_check_flush_cnt; 2549 /** 2550 * Count of number of times ppdu was flushed due to ppdu duration 2551 * exceeding aborted OBSS frame duration 2552 */ 2553 uint32_t num_sr_ppdu_abort_flush_cnt; 2554 }; 2555 2556 struct cdp_htt_tx_pdev_stats_urrn_tlv_v { 2557 struct cdp_htt_tlv_hdr tlv_hdr; 2558 QDF_FLEX_ARRAY(uint32_t, urrn_stats); /* HTT_TX_PDEV_MAX_URRN_STATS */ 2559 }; 2560 2561 /* NOTE: Variable length TLV, use length spec to infer array size */ 2562 struct cdp_htt_tx_pdev_stats_flush_tlv_v { 2563 struct cdp_htt_tlv_hdr tlv_hdr; 2564 QDF_FLEX_ARRAY(uint32_t, flush_errs); /* HTT_TX_PDEV_MAX_FLUSH_REASON_STATS */ 2565 }; 2566 2567 /* NOTE: Variable length TLV, use length spec to infer array size */ 2568 struct cdp_htt_tx_pdev_stats_sifs_tlv_v { 2569 struct cdp_htt_tlv_hdr tlv_hdr; 2570 QDF_FLEX_ARRAY(uint32_t, sifs_status); /* HTT_TX_PDEV_MAX_SIFS_BURST_STATS */ 2571 }; 2572 2573 /* NOTE: Variable length TLV, use length spec to infer array size */ 2574 struct cdp_htt_tx_pdev_stats_phy_err_tlv_v { 2575 struct cdp_htt_tlv_hdr tlv_hdr; 2576 QDF_FLEX_ARRAY(uint32_t, phy_errs); /* HTT_TX_PDEV_MAX_PHY_ERR_STATS */ 2577 }; 2578 2579 /* == RX PDEV/SOC STATS == */ 2580 /* HTT_STATS_RX_SOC_FW_STATS_TAG */ 2581 struct cdp_htt_rx_soc_fw_stats_tlv { 2582 struct cdp_htt_tlv_hdr tlv_hdr; 2583 /* Num Packets received on REO FW ring */ 2584 uint32_t fw_reo_ring_data_msdu; 2585 /* Num bc/mc packets indicated from fw to host */ 2586 uint32_t fw_to_host_data_msdu_bcmc; 2587 /* Num unicast packets indicated from fw to host */ 2588 uint32_t fw_to_host_data_msdu_uc; 2589 /* Num remote buf recycle from offload */ 2590 uint32_t ofld_remote_data_buf_recycle_cnt; 2591 /* Num remote free buf given to offload */ 2592 uint32_t ofld_remote_free_buf_indication_cnt; 2593 }; 2594 2595 struct cdp_htt_rx_soc_fw_refill_ring_num_refill_tlv_v { 2596 struct cdp_htt_tlv_hdr tlv_hdr; 2597 /* Num total buf refilled from refill ring */ 2598 QDF_FLEX_ARRAY(uint32_t, refill_ring_num_refill); /* HTT_RX_STATS_REFILL_MAX_RING */ 2599 }; 2600 2601 struct cdp_htt_rx_pdev_fw_ring_mpdu_err_tlv_v { 2602 struct cdp_htt_tlv_hdr tlv_hdr; 2603 /* Num error MPDU for each RxDMA error type */ 2604 QDF_FLEX_ARRAY(uint32_t, fw_ring_mpdu_err); /* HTT_RX_STATS_RXDMA_MAX_ERR */ 2605 }; 2606 2607 struct cdp_htt_rx_pdev_fw_mpdu_drop_tlv_v { 2608 struct cdp_htt_tlv_hdr tlv_hdr; 2609 /* Num MPDU dropped */ 2610 QDF_FLEX_ARRAY(uint32_t, fw_mpdu_drop); /* HTT_RX_STATS_FW_DROP_REASON_MAX */ 2611 }; 2612 2613 #define HTT_STATS_PHY_ERR_MAX 43 2614 2615 struct cdp_htt_rx_pdev_fw_stats_phy_err_tlv { 2616 struct cdp_htt_tlv_hdr tlv_hdr; 2617 2618 /* BIT [ 7 : 0] :- mac_id 2619 * BIT [31 : 8] :- reserved 2620 */ 2621 uint32_t mac_id__word; 2622 /* Num of phy err */ 2623 uint32_t total_phy_err_cnt; 2624 /* Counts of different types of phy errs 2625 * The mapping of PHY error types to phy_err array elements is HW dependent. 2626 * The only currently-supported mapping is shown below: 2627 * 2628 * 0 phyrx_err_phy_off Reception aborted due to receiving a PHY_OFF TLV 2629 * 1 phyrx_err_synth_off 2630 * 2 phyrx_err_ofdma_timing 2631 * 3 phyrx_err_ofdma_signal_parity 2632 * 4 phyrx_err_ofdma_rate_illegal 2633 * 5 phyrx_err_ofdma_length_illegal 2634 * 6 phyrx_err_ofdma_restart 2635 * 7 phyrx_err_ofdma_service 2636 * 8 phyrx_err_ppdu_ofdma_power_drop 2637 * 9 phyrx_err_cck_blokker 2638 * 10 phyrx_err_cck_timing 2639 * 11 phyrx_err_cck_header_crc 2640 * 12 phyrx_err_cck_rate_illegal 2641 * 13 phyrx_err_cck_length_illegal 2642 * 14 phyrx_err_cck_restart 2643 * 15 phyrx_err_cck_service 2644 * 16 phyrx_err_cck_power_drop 2645 * 17 phyrx_err_ht_crc_err 2646 * 18 phyrx_err_ht_length_illegal 2647 * 19 phyrx_err_ht_rate_illegal 2648 * 20 phyrx_err_ht_zlf 2649 * 21 phyrx_err_false_radar_ext 2650 * 22 phyrx_err_green_field 2651 * 23 phyrx_err_bw_gt_dyn_bw 2652 * 24 phyrx_err_leg_ht_mismatch 2653 * 25 phyrx_err_vht_crc_error 2654 * 26 phyrx_err_vht_siga_unsupported 2655 * 27 phyrx_err_vht_lsig_len_invalid 2656 * 28 phyrx_err_vht_ndp_or_zlf 2657 * 29 phyrx_err_vht_nsym_lt_zero 2658 * 30 phyrx_err_vht_rx_extra_symbol_mismatch 2659 * 31 phyrx_err_vht_rx_skip_group_id0 2660 * 32 phyrx_err_vht_rx_skip_group_id1to62 2661 * 33 phyrx_err_vht_rx_skip_group_id63 2662 * 34 phyrx_err_ofdm_ldpc_decoder_disabled 2663 * 35 phyrx_err_defer_nap 2664 * 36 phyrx_err_fdomain_timeout 2665 * 37 phyrx_err_lsig_rel_check 2666 * 38 phyrx_err_bt_collision 2667 * 39 phyrx_err_unsupported_mu_feedback 2668 * 40 phyrx_err_ppdu_tx_interrupt_rx 2669 * 41 phyrx_err_unsupported_cbf 2670 * 42 phyrx_err_other 2671 */ 2672 uint32_t phy_err[HTT_STATS_PHY_ERR_MAX]; 2673 }; 2674 2675 struct cdp_htt_rx_soc_fw_refill_ring_empty_tlv_v { 2676 struct cdp_htt_tlv_hdr tlv_hdr; 2677 /* Num ring empty encountered */ 2678 QDF_FLEX_ARRAY(uint32_t, refill_ring_empty_cnt); /* HTT_RX_STATS_REFILL_MAX_RING */ 2679 }; 2680 2681 struct cdp_htt_tx_pdev_stats { 2682 struct cdp_htt_tx_pdev_stats_cmn_tlv cmn_tlv; 2683 struct cdp_htt_tx_pdev_stats_urrn_tlv_v underrun_tlv; 2684 struct cdp_htt_tx_pdev_stats_sifs_tlv_v sifs_tlv; 2685 struct cdp_htt_tx_pdev_stats_flush_tlv_v flush_tlv; 2686 struct cdp_htt_tx_pdev_stats_phy_err_tlv_v phy_err_tlv; 2687 struct cdp_pdev_obss_pd_stats_tlv obss_pd_stats_tlv; 2688 }; 2689 2690 struct cdp_htt_rx_soc_stats_t { 2691 struct cdp_htt_rx_soc_fw_stats_tlv fw_tlv; 2692 struct cdp_htt_rx_soc_fw_refill_ring_empty_tlv_v fw_refill_ring_empty_tlv; 2693 struct cdp_htt_rx_soc_fw_refill_ring_num_refill_tlv_v fw_refill_ring_num_refill_tlv; 2694 }; 2695 2696 struct cdp_htt_rx_pdev_stats { 2697 struct cdp_htt_rx_soc_stats_t soc_stats; 2698 struct cdp_htt_rx_pdev_fw_stats_tlv fw_stats_tlv; 2699 struct cdp_htt_rx_pdev_fw_ring_mpdu_err_tlv_v fw_ring_mpdu_err_tlv; 2700 struct cdp_htt_rx_pdev_fw_mpdu_drop_tlv_v fw_ring_mpdu_drop; 2701 struct cdp_htt_rx_pdev_fw_stats_phy_err_tlv fw_stats_phy_err_tlv; 2702 }; 2703 2704 #ifdef WLAN_SUPPORT_RX_PROTOCOL_TYPE_TAG 2705 /* Since protocol type enumeration value is passed as CCE metadata 2706 * to firmware, add a constant offset before passing it to firmware 2707 */ 2708 #define RX_PROTOCOL_TAG_START_OFFSET 128 2709 /* This should align with packet type enumerations in ieee80211_ioctl.h 2710 * and wmi_unified_param.h files 2711 */ 2712 #define RX_PROTOCOL_TAG_MAX 24 2713 /* Macro that should be used to dump the statistics counter for all 2714 * protocol types 2715 */ 2716 #define RX_PROTOCOL_TAG_ALL 0xff 2717 #endif /* WLAN_SUPPORT_RX_PROTOCOL_TYPE_TAG */ 2718 2719 #ifdef WLAN_FEATURE_11BE 2720 #define OFDMA_NUM_RU_SIZE 16 2721 #else 2722 #define OFDMA_NUM_RU_SIZE 7 2723 #endif 2724 2725 #define OFDMA_NUM_USERS 37 2726 2727 #if defined(WLAN_CFR_ENABLE) && defined(WLAN_ENH_CFR_ENABLE) 2728 /** 2729 * enum mac_freeze_capture_reason - capture reason counters 2730 * @FREEZE_REASON_TM: When m_directed_ftm is enabled, this CFR data is 2731 * captured for a Timing Measurement (TM) frame. 2732 * @FREEZE_REASON_FTM: When m_directed_ftm is enabled, this CFR data is 2733 * captured for a Fine Timing Measurement (FTM) frame. 2734 * @FREEZE_REASON_ACK_RESP_TO_TM_FTM: When m_all_ftm_ack is enabled, this CFR 2735 * data is captured for an ACK received for the FTM/TM frame sent to a station. 2736 * @FREEZE_REASON_TA_RA_TYPE_FILTER: When m_ta_ra_filter is enabled, this CFR 2737 * data is captured for a PPDU received,since the CFR TA_RA filter is met. 2738 * @FREEZE_REASON_NDPA_NDP: When m_ndpa_ndp_directed(or)m_ndpa_ndp_all is 2739 * enabled, this CFR data is captured for an NDP frame received. 2740 * @FREEZE_REASON_ALL_PACKET: When m_all_packet is enabled, this CFR data is 2741 * captured for an incoming PPDU. 2742 * @FREEZE_REASON_MAX: Maximum value 2743 */ 2744 enum mac_freeze_capture_reason { 2745 FREEZE_REASON_TM = 0, 2746 FREEZE_REASON_FTM, 2747 FREEZE_REASON_ACK_RESP_TO_TM_FTM, 2748 FREEZE_REASON_TA_RA_TYPE_FILTER, 2749 FREEZE_REASON_NDPA_NDP, 2750 FREEZE_REASON_ALL_PACKET, 2751 FREEZE_REASON_MAX, 2752 }; 2753 2754 /** 2755 * enum chan_capture_status - capture status counters 2756 * @CAPTURE_IDLE: CFR data is not captured, since VCSR setting for CFR/RCC is 2757 * not enabled. 2758 * @CAPTURE_BUSY: CFR data is not available, since previous channel 2759 * upload is in progress 2760 * @CAPTURE_ACTIVE: CFR data is captured in HW registers 2761 * @CAPTURE_NO_BUFFER: CFR data is not captured, since no buffer is available 2762 * in IPC ring to DMA CFR data 2763 * @CAPTURE_MAX: Maximum value 2764 */ 2765 enum chan_capture_status { 2766 CAPTURE_IDLE = 0, 2767 CAPTURE_BUSY, 2768 CAPTURE_ACTIVE, 2769 CAPTURE_NO_BUFFER, 2770 CAPTURE_MAX, 2771 }; 2772 2773 /** 2774 * struct cdp_cfr_rcc_stats - CFR RCC debug statistics 2775 * @bb_captured_channel_cnt: No. of PPDUs for which MAC sent Freeze TLV to PHY 2776 * @bb_captured_timeout_cnt: No. of PPDUs for which CFR filter criteria matched 2777 * but MAC did not send Freeze TLV to PHY as time exceeded freeze tlv delay 2778 * count threshold 2779 * @rx_loc_info_valid_cnt: No. of PPDUs for which PHY could find a valid buffer 2780 * in ucode IPC ring 2781 * @chan_capture_status: capture status counters 2782 * [0] - No. of PPDUs with capture status CAPTURE_IDLE 2783 * [1] - No. of PPDUs with capture status CAPTURE_BUSY 2784 * [2] - No. of PPDUs with capture status CAPTURE_ACTIVE 2785 * [3] - No. of PPDUs with capture status CAPTURE_NO_BUFFER 2786 * @reason_cnt: capture reason counters 2787 * [0] - No. PPDUs filtered due to freeze_reason_TM 2788 * [1] - No. PPDUs filtered due to freeze_reason_FTM 2789 * [2] - No. PPDUs filtered due to freeze_reason_ACK_resp_to_TM_FTM 2790 * [3] - No. PPDUs filtered due to freeze_reason_TA_RA_TYPE_FILTER 2791 * [4] - No. PPDUs filtered due to freeze_reason_NDPA_NDP 2792 * [5] - No. PPDUs filtered due to freeze_reason_ALL_PACKET 2793 */ 2794 struct cdp_cfr_rcc_stats { 2795 uint64_t bb_captured_channel_cnt; 2796 uint64_t bb_captured_timeout_cnt; 2797 uint64_t rx_loc_info_valid_cnt; 2798 uint64_t chan_capture_status[CAPTURE_MAX]; 2799 uint64_t reason_cnt[FREEZE_REASON_MAX]; 2800 }; 2801 #else 2802 struct cdp_cfr_rcc_stats { 2803 }; 2804 #endif 2805 2806 /** 2807 * struct cdp_per_cpu_packets - Per cpu packets 2808 * @num_cpus: Number of cpus 2809 * @pkts: packet count per core 2810 */ 2811 struct cdp_per_cpu_packets { 2812 uint8_t num_cpus; 2813 uint64_t pkts[CDP_NR_CPUS][CDP_MAX_RX_DEST_RINGS]; 2814 }; 2815 2816 /** 2817 * struct cdp_soc_stats - soc stats 2818 * @tx: 2819 * @tx.egress: Total packets transmitted 2820 * @tx.tx_invalid_peer: packets dropped on tx because of no peer 2821 * @tx.tx_hw_enq: Enqueues per tx hw ring 2822 * @tx.tx_hw_ring_full: descriptors in each tx hw ring 2823 * @tx.desc_in_use: Descriptors in use at soc 2824 * @tx.dropped_fw_removed: HW_release_reason == FW removed 2825 * @tx.invalid_release_source: tx completion release_src != HW or FW 2826 * @tx.invalid_tx_comp_desc: TX Desc from completion ring Desc is not valid 2827 * @tx.wifi_internal_error: tx completion wifi_internal_error 2828 * @tx.non_wifi_internal_err: tx completion non_wifi_internal_error 2829 * @tx.tx_comp_loop_pkt_limit_hit: TX Comp loop packet limit hit 2830 * @tx.hp_oos2: Head pointer Out of sync at the end of dp_tx_comp_handler 2831 * @tx.tx_comp_exception: tx desc freed as part of vdev detach 2832 * @rx: 2833 * @rx.ingress: Total rx packets count 2834 * @rx.err_ring_pkts: Total Packets in Rx Error ring 2835 * @rx.rx_frags: No of Fragments 2836 * @rx.rx_hw_reinject: No of reinjected packets 2837 * @rx.bar_frame: Number of bar frames received 2838 * @rx.rx_frag_err_len_error: Fragments dropped due to len errors in skb 2839 * @rx.rx_frag_err_no_peer: Fragments dropped due to no peer found 2840 * @rx.rx_frag_wait: No of incomplete fragments in waitlist 2841 * @rx.rx_frag_err: Fragments dropped due to errors 2842 * @rx.rx_frag_oor: Fragments received OOR causing sequence num mismatch 2843 * @rx.reap_loop_pkt_limit_hit: Reap loop packet limit hit 2844 * @rx.hp_oos2: Head pointer Out of sync at the end of dp_rx_process 2845 * @rx.near_full: Rx ring near full 2846 * @rx.msdu_scatter_wait_break: Break ring reaping as not all scattered msdu 2847 * received 2848 * @rx.rx_sw_route_drop: Number of frames routed from rx sw ring 2849 * @rx.rx_hw_route_drop: Number of frames routed from rx hw ring 2850 * @rx.rx_packets: packet count per core 2851 * @rx.err.rx_rejected: RX msdu rejected count on delivery to vdev stack_fn 2852 * @rx.err.raw_frm_drop: RX raw frame dropped count 2853 * @rx.err.phy_ring_access_fail: phy ring access Fail error count 2854 * @rx.err.phy_ring_access_full_fail: phy ring access full Fail error count 2855 * @rx.err.phy_rx_error: phy rx order ERR Count 2856 * @rx.err.phy_rx_dest_dup: phy rx order DEST Duplicate count 2857 * @rx.err.phy_wifi_rel_dup: phy wifi RELEASE Duplicate count 2858 * @rx.err.phy_rx_sw_err_dup: phy rx sw error Duplicate count 2859 * @rx.err.invalid_rbm: Invalid RBM error count 2860 * @rx.err.invalid_vdev: Invalid VDEV Error count 2861 * @rx.err.invalid_pdev: Invalid PDEV error count 2862 * @rx.err.pkt_delivered_no_peer: Pkts delivered to stack that no related peer 2863 * @rx.err.defrag_peer_uninit: Defrag peer uninit error count 2864 * @rx.err.invalid_sa_da_idx: Invalid sa_idx or da_idx 2865 * @rx.err.msdu_done_fail: MSDU DONE failures 2866 * @ex.err.rx_invalid_peer: Invalid PEER Error count 2867 * @rx.err.rx_invalid_peer_id: Invalid PEER ID count 2868 * @rx.err.rx_invalid_pkt_len: Invalid packet length count 2869 * @rx.err.rx_sw_error: RX sw error count 2870 * @rx.err.rx_desc_invalid_magic: RX DEST Desc Invalid Magic count 2871 * @rx.err.rx_hw_error: rx hw Error count 2872 * @rx.err.rx_hw_cmd_send_fail: Rx hw cmd send fail/requeue count 2873 * @rx.err.rx_hw_cmd_send_drain: Rx hw cmd send drain count 2874 * @rx.err.scatter_msdu: RX msdu drop count due to scatter 2875 * @rx.err.invalid_cookie: RX msdu drop count due to invalid cookie 2876 * @rx.err.stale_cookie: Count of stale cookie read in RX path 2877 * @rx.err.rx_2k_jump_delba_sent: Delba sent count due to RX 2k jump 2878 * @rx.err.rx_2k_jump_to_stack: RX 2k jump msdu indicated to stack count 2879 * @rx.err.rx_2k_jump_drop: RX 2k jump msdu dropped count 2880 * @rx.err.rx_hw_err_oor_drop: Rx HW OOR msdu drop count 2881 * @rx.err.rx_hw_err_oor_to_stack: Rx HW OOR msdu indicated to stack count 2882 * @rx.err.rx_hw_err_oor_sg_count: Rx HW OOR scattered msdu count 2883 * @rx.err.msdu_count_mismatch: Incorrect msdu count in MPDU desc info 2884 * @rx.err.invalid_link_cookie: Stale link desc cookie count 2885 * @rx.err.nbuf_sanity_fail: Nbuf sanity failure 2886 * @rx.err.dup_refill_link_desc: Duplicate link desc refilled 2887 * @rx.err.msdu_continuation_err: Incorrect msdu continuation bit in MSDU desc 2888 * @rx.err.ssn_update_count: Count of start sequence (ssn) updates 2889 * @rx.err.bar_handle_fail_count: Count of bar handling fail 2890 * @rx.err.intrabss_eapol_drop: EAPOL drop count in intrabss scenario 2891 * @rx.err.pn_in_dest_check_fail: PN check failed for 2K-jump or OOR error 2892 * @rx.err.msdu_len_err: MSDU len err count 2893 * @rx.err.rx_flush_count: Rx flush count 2894 * @ast: 2895 * @ast.added: ast entry added count 2896 * @ast.deleted: ast entry deleted count 2897 * @ast.aged_out: ast entry aged out count 2898 * @ast.map_err: ast entry mapping error count 2899 * @ast.ast_mismatch: ast entry mismatch count 2900 * @mec: 2901 * @mec.added: Mec added count 2902 * @mec.deleted: Mec deleted count 2903 */ 2904 struct cdp_soc_stats { 2905 struct { 2906 struct cdp_pkt_info egress; 2907 struct cdp_pkt_info tx_invalid_peer; 2908 uint32_t tx_hw_enq[CDP_MAX_TX_DATA_RINGS]; 2909 uint32_t tx_hw_ring_full[CDP_MAX_TX_DATA_RINGS]; 2910 uint32_t desc_in_use; 2911 uint32_t dropped_fw_removed; 2912 uint32_t invalid_release_source; 2913 uint32_t invalid_tx_comp_desc; 2914 uint32_t wifi_internal_error[CDP_MAX_WIFI_INT_ERROR_REASONS]; 2915 uint32_t non_wifi_internal_err; 2916 uint32_t tx_comp_loop_pkt_limit_hit; 2917 uint32_t hp_oos2; 2918 uint32_t tx_comp_exception; 2919 } tx; 2920 2921 struct { 2922 struct cdp_pkt_info ingress; 2923 uint32_t err_ring_pkts; 2924 uint32_t rx_frags; 2925 uint32_t rx_hw_reinject; 2926 uint32_t bar_frame; 2927 uint32_t rx_frag_err_len_error; 2928 uint32_t rx_frag_err_no_peer; 2929 uint32_t rx_frag_wait; 2930 uint32_t rx_frag_err; 2931 uint32_t rx_frag_oor; 2932 uint32_t reap_loop_pkt_limit_hit; 2933 uint32_t hp_oos2; 2934 uint32_t near_full; 2935 uint32_t msdu_scatter_wait_break; 2936 uint32_t rx_sw_route_drop; 2937 uint32_t rx_hw_route_drop; 2938 struct cdp_per_cpu_packets rx_packets; 2939 2940 struct { 2941 uint32_t rx_rejected; 2942 uint32_t rx_raw_frm_drop; 2943 uint32_t phy_ring_access_fail; 2944 uint32_t phy_ring_access_full_fail; 2945 uint32_t phy_rx_hw_error[CDP_MAX_RX_DEST_RINGS]; 2946 uint32_t phy_rx_hw_dest_dup; 2947 uint32_t phy_wifi_rel_dup; 2948 uint32_t phy_rx_sw_err_dup; 2949 uint32_t invalid_rbm; 2950 uint32_t invalid_vdev; 2951 uint32_t invalid_pdev; 2952 uint32_t pkt_delivered_no_peer; 2953 uint32_t defrag_peer_uninit; 2954 uint32_t invalid_sa_da_idx; 2955 uint32_t msdu_done_fail; 2956 struct cdp_pkt_info rx_invalid_peer; 2957 struct cdp_pkt_info rx_invalid_peer_id; 2958 struct cdp_pkt_info rx_invalid_pkt_len; 2959 uint32_t rx_sw_error[CDP_WIFI_ERR_MAX]; 2960 uint32_t rx_desc_invalid_magic; 2961 uint32_t rx_hw_error[CDP_RX_ERR_MAX]; 2962 uint32_t rx_hw_cmd_send_fail; 2963 uint32_t rx_hw_cmd_send_drain; 2964 uint32_t scatter_msdu; 2965 uint32_t invalid_cookie; 2966 uint32_t stale_cookie; 2967 uint32_t rx_2k_jump_delba_sent; 2968 uint32_t rx_2k_jump_to_stack; 2969 uint32_t rx_2k_jump_drop; 2970 uint32_t rx_hw_err_msdu_buf_rcved; 2971 uint32_t rx_hw_err_msdu_buf_invalid_cookie; 2972 uint32_t rx_hw_err_oor_drop; 2973 uint32_t rx_hw_err_raw_mpdu_drop; 2974 uint32_t rx_hw_err_oor_to_stack; 2975 uint32_t rx_hw_err_oor_sg_count; 2976 uint32_t msdu_count_mismatch; 2977 uint32_t invalid_link_cookie; 2978 uint32_t nbuf_sanity_fail; 2979 uint32_t dup_refill_link_desc; 2980 uint32_t msdu_continuation_err; 2981 uint32_t ssn_update_count; 2982 uint32_t bar_handle_fail_count; 2983 uint32_t intrabss_eapol_drop; 2984 uint32_t pn_in_dest_check_fail; 2985 uint32_t msdu_len_err; 2986 uint32_t rx_flush_count; 2987 } err; 2988 } rx; 2989 2990 struct { 2991 uint32_t added; 2992 uint32_t deleted; 2993 uint32_t aged_out; 2994 uint32_t map_err; 2995 uint32_t ast_mismatch; 2996 } ast; 2997 2998 struct { 2999 uint32_t added; 3000 uint32_t deleted; 3001 } mec; 3002 }; 3003 3004 #ifdef WLAN_CONFIG_TELEMETRY_AGENT 3005 /** 3006 * struct cdp_pdev_telemetry_stats- Structure to hold pdev telemetry stats 3007 * @tx_mpdu_failed: Tx mpdu failed 3008 * @tx_mpdu_total: Total tx mpdus 3009 * @link_airtime: pdev airtime usage per ac per sec 3010 */ 3011 struct cdp_pdev_telemetry_stats { 3012 uint32_t tx_mpdu_failed[WME_AC_MAX]; 3013 uint32_t tx_mpdu_total[WME_AC_MAX]; 3014 uint32_t link_airtime[WME_AC_MAX]; 3015 }; 3016 3017 /** 3018 * struct cdp_peer_telemetry_stats- Structure to hold peer telemetry stats 3019 * @tx_mpdu_retried: Tx mpdus retried 3020 * @tx_mpdu_total: Total tx mpdus 3021 * @rx_mpdu_retried: Rx mpdus retried 3022 * @rx_mpdu_total: Total rx mpdus 3023 * @tx_airtime_consumption: tx airtime consumption of that peer 3024 * @rx_airtime_consumption: rx airtime consumption of that peer 3025 * @snr: peer average snr 3026 */ 3027 struct cdp_peer_telemetry_stats { 3028 uint32_t tx_mpdu_retried; 3029 uint32_t tx_mpdu_total; 3030 uint32_t rx_mpdu_retried; 3031 uint32_t rx_mpdu_total; 3032 uint16_t tx_airtime_consumption[WME_AC_MAX]; 3033 uint16_t rx_airtime_consumption[WME_AC_MAX]; 3034 uint8_t snr; 3035 }; 3036 3037 /** 3038 * struct cdp_peer_tx_dl_deter- Structure to hold peer DL deterministic stats 3039 * @avg_rate: Average TX rate 3040 * @mode_cnt: TX mode count 3041 */ 3042 struct cdp_peer_tx_dl_deter { 3043 uint64_t avg_rate; 3044 uint32_t mode_cnt; 3045 }; 3046 3047 /** 3048 * struct cdp_peer_tx_ul_deter- Structure to hold peer UL deterministic stats 3049 * @avg_rate: Average TX rate 3050 * @mode_cnt: TX mode count 3051 * @trigger_success: Trigger frame received success 3052 * @trigger_fail: Trigger frame received fail 3053 */ 3054 struct cdp_peer_tx_ul_deter { 3055 uint64_t avg_rate; 3056 uint32_t mode_cnt; 3057 uint32_t trigger_success; 3058 uint32_t trigger_fail; 3059 }; 3060 3061 /** 3062 * struct cdp_peer_rx_deter- Structure to hold peer rx deterministic stats 3063 * @avg_rate: Average RX rate 3064 * @mode_cnt: RX mode count 3065 */ 3066 struct cdp_peer_rx_deter { 3067 uint64_t avg_rate; 3068 uint32_t mode_cnt; 3069 }; 3070 3071 /** 3072 * struct cdp_peer_deter_stats- Structure to hold peer deterministic stats 3073 * @dl_det: TX DL deterministic stats 3074 * @ul_det: TX UL deterministic stats 3075 * @rx_det: RX deterministic stats 3076 */ 3077 struct cdp_peer_deter_stats { 3078 struct cdp_peer_tx_dl_deter dl_det[MSDUQ_INDEX_MAX][TX_MODE_DL_MAX]; 3079 struct cdp_peer_tx_ul_deter ul_det[TX_MODE_UL_MAX]; 3080 struct cdp_peer_rx_deter rx_det; 3081 }; 3082 3083 /** 3084 * struct cdp_pdev_chan_util_stats- Structure to hold channel utilization stats 3085 * @ap_chan_util: Channel utilization 3086 * @ap_tx_util: TX utilization 3087 * @ap_rx_util: RX utilization 3088 */ 3089 struct cdp_pdev_chan_util_stats { 3090 uint8_t ap_chan_util; 3091 uint8_t ap_tx_util; 3092 uint8_t ap_rx_util; 3093 }; 3094 3095 /** 3096 * struct cdp_pdev_ul_trigger_status - Structure to hold UL trigger status 3097 * @trigger_success: Trigger success 3098 * @trigger_fail: Trigger fail 3099 */ 3100 struct cdp_pdev_ul_trigger_status { 3101 uint64_t trigger_success; 3102 uint64_t trigger_fail; 3103 }; 3104 3105 /** 3106 * struct cdp_pdev_deter_stats - Structure to hold pdev deterministic stats 3107 * @dl_ofdma_usr: num_user counter for dl ofdma 3108 * @ul_ofdma_usr: num_user counter for ul ofdma 3109 * @dl_mimo_usr: num_user counter for dl mimo 3110 * @ul_mimo_usr: num_user counter for ul mimo 3111 * @dl_mode_cnt: DL tx mode counter 3112 * @ul_mode_cnt: UL tx mode counter 3113 * @rx_su_cnt: RX su counter 3114 * @ch_access_delay: 3115 * @ch_util: channel congestion stats 3116 * @ts: trigger status for ul 3117 */ 3118 struct cdp_pdev_deter_stats { 3119 uint64_t dl_ofdma_usr[CDP_MU_MAX_USERS]; 3120 uint64_t ul_ofdma_usr[CDP_MU_MAX_USERS]; 3121 uint64_t dl_mimo_usr[CDP_MU_MAX_MIMO_USERS]; 3122 uint64_t ul_mimo_usr[CDP_MU_MAX_MIMO_USERS]; 3123 uint64_t dl_mode_cnt[TX_MODE_DL_MAX]; 3124 uint64_t ul_mode_cnt[TX_MODE_UL_MAX]; 3125 uint64_t rx_su_cnt; 3126 uint32_t ch_access_delay[WME_AC_MAX]; 3127 struct cdp_pdev_chan_util_stats ch_util; 3128 struct cdp_pdev_ul_trigger_status ts[TX_MODE_UL_MAX]; 3129 }; 3130 #endif 3131 3132 /** 3133 * struct cdp_pdev_stats - pdev stats 3134 * @dropped: dropped packet counters 3135 * @dropped.msdu_not_done: packets dropped because msdu done bit not set 3136 * @dropped.mec: Multicast Echo check 3137 * @dropped.mesh_filter: Mesh Filtered packets 3138 * @dropped.wifi_parse: rxdma errors due to wifi parse error 3139 * @dropped.mon_rx_drop: packets dropped on monitor vap 3140 * @dropped.mon_radiotap_update_err: not enough space to update radiotap 3141 * @replenish: replenish counters 3142 * @replenish.pkts: total packets replenished 3143 * @replenish.rxdma_err: rxdma errors for replenished 3144 * @replenish.nbuf_alloc_fail: nbuf alloc failed 3145 * @replenish.frag_alloc_fail: frag alloc failed 3146 * @replenish.map_err: Mapping failure 3147 * @replenish.x86_fail: x86 failures 3148 * @replenish.low_thresh_intrs: low threshold interrupts 3149 * @replenish.free_list: RX descriptors moving back to free list 3150 * @rx_raw_pkts: Rx Raw Packets 3151 * @mesh_mem_alloc: Mesh Rx Stats Alloc fail 3152 * @tso_desc_cnt: TSO descriptors 3153 * @sg_desc_cnt: SG Descriptors 3154 * @vlan_tag_stp_cnt: Vlan tagged Stp packets in wifi parse error 3155 * @err: Rx errors 3156 * @err.desc_alloc_fail: desc alloc failed errors 3157 * @err.desc_lt_alloc_fail: 3158 * @err.ip_csum_err: ip checksum errors 3159 * @err.tcp_udp_csum_err: tcp/udp checksum errors 3160 * @err.rxdma_error: 3161 * @err.fw_reported_rxdma_error: 3162 * @err.reo_error: 3163 * @buf_freelist: buffers added back in freelist 3164 * @tx_i: Tx Ingress stats 3165 * @rx_i: Rx Ingress stats 3166 * @tx:CDP Tx Stats 3167 * @rx: CDP Rx Stats 3168 * @tx_comp_histogram: Number of Tx completions per interrupt 3169 * @rx_ind_histogram: Number of Rx ring descriptors reaped per interrupt 3170 * @ppdu_stats_counter: ppdu stats counter 3171 * @cdp_delayed_ba_not_recev: counter for delayed ba not received 3172 * @htt_tx_pdev_stats: htt pdev stats for tx 3173 * @htt_rx_pdev_stats: htt pdev stats for rx 3174 * @wdi_event: 3175 * @tid_stats: 3176 * @ul_ofdma: UL OFDMA stats 3177 * @ul_ofdma.data_rx_ru_size: UL ofdma data ru size counter array 3178 * @ul_ofdma.nondata_rx_ru_size: UL ofdma non data ru size counter array 3179 * @ul_ofdma.data_rx_ppdu: data rx ppdu counter 3180 * @ul_ofdma.data_users: data user counter array 3181 * @eap_drop_stats: EAPOL packet drop stats information 3182 * @eap_drop_stats.tx_desc_error: Total number EAPOL packets dropped due to TX 3183 * descriptor error 3184 * @eap_drop_stats.tx_hal_ring_access_err: Total EAPOL packets dropped due to 3185 * HAL ring access failure 3186 * @eap_drop_stats.tx_dma_map_err: EAPOL packets dropped due to error in DMA map 3187 * @eap_drop_stats.tx_hw_enqueue: EAPOL packets dropped by the host due to 3188 * failure in HW enqueue 3189 * @eap_drop_stats.tx_sw_enqueue: EAPOL packets dropped by the host due to 3190 * failure in SW enqueue 3191 * @tso_stats: 3192 * @rcc: 3193 * @tx_ppdu_proc: stats counter for tx ppdu processed 3194 * @ack_ba_comes_twice: stats counter for ack_ba_comes twice 3195 * @ppdu_drop: stats counter for ppdu_desc drop once threshold reached 3196 * @ppdu_wrap_drop: stats counter for ppdu desc drop on wrap around 3197 * @rx_buffer_pool: 3198 * @rx_buffer_pool.num_bufs_consumed: 3199 * @rx_buffer_pool.num_pool_bufs_replenish: 3200 * @rx_buffer_pool.num_bufs_alloc_success: 3201 * @rx_refill_buff_pool: 3202 * @rx_refill_buff_pool.num_bufs_refilled: 3203 * @rx_refill_buff_pool.num_bufs_allocated: 3204 * @peer_unauth_rx_pkt_drop: stats counter for drops due to unauthorized peer 3205 * @telemetry_stats: pdev telemetry stats 3206 * @deter_stats: 3207 * @invalid_msdu_cnt: Invalid MSDU count received counter 3208 */ 3209 struct cdp_pdev_stats { 3210 struct { 3211 uint32_t msdu_not_done; 3212 uint32_t mec; 3213 uint32_t mesh_filter; 3214 uint32_t wifi_parse; 3215 /* Monitor mode related */ 3216 uint32_t mon_rx_drop; 3217 uint32_t mon_radiotap_update_err; 3218 uint32_t mon_ver_err; 3219 } dropped; 3220 3221 struct { 3222 struct cdp_pkt_info pkts; 3223 uint32_t rxdma_err; 3224 uint32_t nbuf_alloc_fail; 3225 uint32_t frag_alloc_fail; 3226 uint32_t map_err; 3227 uint32_t x86_fail; 3228 uint32_t low_thresh_intrs; 3229 int32_t free_list; 3230 } replenish; 3231 3232 uint32_t rx_raw_pkts; 3233 uint32_t mesh_mem_alloc; 3234 uint32_t tso_desc_cnt; 3235 uint32_t sg_desc_cnt; 3236 uint32_t vlan_tag_stp_cnt; 3237 3238 /* Rx errors */ 3239 struct { 3240 uint32_t desc_alloc_fail; 3241 uint32_t desc_lt_alloc_fail; 3242 uint32_t ip_csum_err; 3243 uint32_t tcp_udp_csum_err; 3244 uint32_t rxdma_error; 3245 uint32_t fw_reported_rxdma_error; 3246 uint32_t reo_error; 3247 } err; 3248 3249 uint32_t buf_freelist; 3250 struct cdp_tx_ingress_stats tx_i; 3251 struct cdp_rx_ingress_stats rx_i; 3252 struct cdp_tx_stats tx; 3253 struct cdp_rx_stats rx; 3254 struct cdp_hist_tx_comp tx_comp_histogram; 3255 struct cdp_hist_rx_ind rx_ind_histogram; 3256 uint64_t ppdu_stats_counter[CDP_PPDU_STATS_MAX_TAG]; 3257 uint32_t cdp_delayed_ba_not_recev; 3258 3259 struct cdp_htt_tx_pdev_stats htt_tx_pdev_stats; 3260 struct cdp_htt_rx_pdev_stats htt_rx_pdev_stats; 3261 3262 /* Received wdi messages from fw */ 3263 uint32_t wdi_event[CDP_WDI_NUM_EVENTS]; 3264 struct cdp_tid_stats tid_stats; 3265 3266 /* numbers of data/nondata per RU sizes */ 3267 struct { 3268 uint32_t data_rx_ru_size[OFDMA_NUM_RU_SIZE]; 3269 uint32_t nondata_rx_ru_size[OFDMA_NUM_RU_SIZE]; 3270 uint32_t data_rx_ppdu; 3271 uint32_t data_users[OFDMA_NUM_USERS]; 3272 } ul_ofdma; 3273 3274 struct { 3275 uint8_t tx_desc_err; 3276 uint8_t tx_hal_ring_access_err; 3277 uint8_t tx_dma_map_err; 3278 uint8_t tx_hw_enqueue; 3279 uint8_t tx_sw_enqueue; 3280 } eap_drop_stats; 3281 3282 struct cdp_tso_stats tso_stats; 3283 struct cdp_cfr_rcc_stats rcc; 3284 3285 uint64_t tx_ppdu_proc; 3286 uint64_t ack_ba_comes_twice; 3287 uint64_t ppdu_drop; 3288 uint64_t ppdu_wrap_drop; 3289 3290 struct { 3291 uint64_t num_bufs_consumed; 3292 uint64_t num_pool_bufs_replenish; 3293 uint64_t num_bufs_alloc_success; 3294 } rx_buffer_pool; 3295 3296 struct { 3297 uint64_t num_bufs_refilled; 3298 uint64_t num_bufs_allocated; 3299 } rx_refill_buff_pool; 3300 3301 uint32_t peer_unauth_rx_pkt_drop; 3302 #ifdef WLAN_CONFIG_TELEMETRY_AGENT 3303 struct cdp_pdev_telemetry_stats telemetry_stats; 3304 struct cdp_pdev_deter_stats deter_stats; 3305 #endif 3306 uint32_t invalid_msdu_cnt; 3307 }; 3308 3309 /** 3310 * struct cdp_peer_hmwds_ast_add_status - hmwds peer ast add status 3311 * @vdev_id: vdev id 3312 * @status: ast add status 3313 * @peer_mac: peer mac address 3314 * @ast_mac: ast node mac address 3315 */ 3316 struct cdp_peer_hmwds_ast_add_status { 3317 uint32_t vdev_id; 3318 uint32_t status; 3319 uint8_t peer_mac[QDF_MAC_ADDR_SIZE]; 3320 uint8_t ast_mac[QDF_MAC_ADDR_SIZE]; 3321 }; 3322 3323 /** 3324 * enum cdp_soc_param_t - Enumeration of cdp soc parameters 3325 * @DP_SOC_PARAM_MSDU_EXCEPTION_DESC: 3326 * @DP_SOC_PARAM_CMEM_FSE_SUPPORT: 3327 * @DP_SOC_PARAM_MAX_AST_AGEOUT: 3328 * @DP_SOC_PARAM_EAPOL_OVER_CONTROL_PORT: For sending EAPOL's over control port 3329 * @DP_SOC_PARAM_MULTI_PEER_GRP_CMD_SUPPORT: For sending bulk AST delete 3330 * @DP_SOC_PARAM_RSSI_DBM_CONV_SUPPORT: To set the rssi dbm support bit 3331 * @DP_SOC_PARAM_UMAC_HW_RESET_SUPPORT: Whether target supports UMAC HW reset 3332 * @DP_SOC_PARAM_MULTI_RX_REORDER_SETUP_SUPPORT: Whether setting up a group of 3333 * TIDs at a time is supported 3334 * @DP_SOC_PARAM_MAX: 3335 */ 3336 enum cdp_soc_param_t { 3337 DP_SOC_PARAM_MSDU_EXCEPTION_DESC, 3338 DP_SOC_PARAM_CMEM_FSE_SUPPORT, 3339 DP_SOC_PARAM_MAX_AST_AGEOUT, 3340 DP_SOC_PARAM_EAPOL_OVER_CONTROL_PORT, 3341 DP_SOC_PARAM_MULTI_PEER_GRP_CMD_SUPPORT, 3342 DP_SOC_PARAM_RSSI_DBM_CONV_SUPPORT, 3343 DP_SOC_PARAM_UMAC_HW_RESET_SUPPORT, 3344 DP_SOC_PARAM_MULTI_RX_REORDER_SETUP_SUPPORT, 3345 DP_SOC_PARAM_MAX, 3346 }; 3347 3348 #ifdef QCA_ENH_V3_STATS_SUPPORT 3349 /* 3350 * Enumeration of PDEV Configuration parameter 3351 */ 3352 enum _dp_param_t { 3353 DP_PARAM_MSDU_TTL, 3354 DP_PARAM_TOTAL_Q_SIZE_RANGE0, 3355 DP_PARAM_TOTAL_Q_SIZE_RANGE1, 3356 DP_PARAM_TOTAL_Q_SIZE_RANGE2, 3357 DP_PARAM_TOTAL_Q_SIZE_RANGE3, 3358 DP_PARAM_VIDEO_DELAY_STATS_FC, 3359 DP_PARAM_QFLUSHINTERVAL, 3360 DP_PARAM_TOTAL_Q_SIZE, 3361 DP_PARAM_MIN_THRESHOLD, 3362 DP_PARAM_MAX_Q_LIMIT, 3363 DP_PARAM_MIN_Q_LIMIT, 3364 DP_PARAM_CONG_CTRL_TIMER_INTV, 3365 DP_PARAM_STATS_TIMER_INTV, 3366 DP_PARAM_ROTTING_TIMER_INTV, 3367 DP_PARAM_LATENCY_PROFILE, 3368 DP_PARAM_HOSTQ_DUMP, 3369 DP_PARAM_TIDQ_MAP, 3370 DP_PARAM_VIDEO_STATS_FC, 3371 DP_PARAM_STATS_FC, 3372 3373 DP_PARAM_MAX, 3374 }; 3375 #endif 3376 /* Bitmasks for stats that can block */ 3377 #define EXT_TXRX_FW_STATS 0x0001 3378 3379 #define CDP_TX_CAP_HTT_MAX_FTYPE 19 3380 #define CDP_FC0_TYPE_SHIFT 2 3381 #define CDP_FC0_SUBTYPE_SHIFT 4 3382 #define CDP_FC0_TYPE_DATA 0x08 3383 #define CDP_FC0_SUBTYPE_MASK 0xf0 3384 3385 #define CDP_TXCAP_MAX_TYPE \ 3386 ((CDP_FC0_TYPE_DATA >> CDP_FC0_TYPE_SHIFT) + 1) 3387 #define CDP_TXCAP_MAX_SUBTYPE \ 3388 ((CDP_FC0_SUBTYPE_MASK >> CDP_FC0_SUBTYPE_SHIFT) + 1) 3389 3390 enum CDP_PEER_MSDU_DESC { 3391 PEER_MSDU_SUCC, 3392 PEER_MSDU_ENQ, 3393 PEER_MSDU_DEQ, 3394 PEER_MSDU_FLUSH, 3395 PEER_MSDU_DROP, 3396 PEER_MSDU_XRETRY, 3397 PEER_MSDU_DESC_MAX, 3398 }; 3399 3400 enum CDP_PEER_MPDU_DESC { 3401 PEER_MPDU_TRI, 3402 PEER_MPDU_SUCC, 3403 PEER_MPDU_RESTITCH, 3404 PEER_MPDU_ARR, 3405 PEER_MPDU_CLONE, 3406 PEER_MPDU_TO_STACK, 3407 PEER_MPDU_DESC_MAX, 3408 }; 3409 3410 /** 3411 * struct cdp_tid_q_len - Structure to hold consolidated queue length 3412 * @defer_msdu_len: Deferred MSDU queue length 3413 * @tasklet_msdu_len: MSDU complete queue length 3414 * @pending_q_len: MSDU pending queue length 3415 */ 3416 struct cdp_tid_q_len { 3417 uint64_t defer_msdu_len; 3418 uint64_t tasklet_msdu_len; 3419 uint64_t pending_q_len; 3420 }; 3421 3422 /** 3423 * struct cdp_peer_tx_capture_stats - Structure to hold peer tx capture stats 3424 * @len_stats: Per TID deferred, pending and completed msdu queue length 3425 * @mpdu: Mpdu success and restich count 3426 * @msdu: Msdu success and restich count 3427 */ 3428 struct cdp_peer_tx_capture_stats { 3429 struct cdp_tid_q_len len_stats[CDP_MAX_TIDS]; 3430 #ifdef WLAN_TX_PKT_CAPTURE_ENH_DEBUG 3431 uint32_t mpdu[PEER_MPDU_DESC_MAX]; 3432 uint32_t msdu[PEER_MSDU_DESC_MAX]; 3433 #endif 3434 }; 3435 3436 /** 3437 * struct cdp_pdev_tx_capture_stats - Structure to hold pdev tx capture stats 3438 * @peer_mismatch: Peer mismatched 3439 * @last_rcv_ppdu: Last received PPDU stats in ms 3440 * @ppdu_stats_queue_depth: PPDU stats queue depth 3441 * @ppdu_stats_defer_queue_depth: PPDU stats deferred queue depth 3442 * @ppdu_dropped: PPDU dropped count 3443 * @pend_ppdu_dropped: Pending PPDU dropped count 3444 * @ppdu_flush_count: PPDU flush count 3445 * @msdu_threshold_drop: MSDU threshold drop count 3446 * @ctl_mgmt_q_len: Control management queue length 3447 * @retries_ctl_mgmt_q_len: Control management retries queue length 3448 * @htt_frame_type: HTT frame type 3449 * @len_stats: Consolidated msdu, ppdu and pending queue length 3450 */ 3451 struct cdp_pdev_tx_capture_stats { 3452 uint64_t peer_mismatch; 3453 uint32_t last_rcv_ppdu; 3454 uint32_t ppdu_stats_queue_depth; 3455 uint32_t ppdu_stats_defer_queue_depth; 3456 uint32_t ppdu_dropped; 3457 uint32_t pend_ppdu_dropped; 3458 uint32_t ppdu_flush_count; 3459 uint32_t msdu_threshold_drop; 3460 unsigned int ctl_mgmt_q_len[CDP_TXCAP_MAX_TYPE][CDP_TXCAP_MAX_SUBTYPE]; 3461 unsigned int retries_ctl_mgmt_q_len[CDP_TXCAP_MAX_TYPE] 3462 [CDP_TXCAP_MAX_SUBTYPE]; 3463 uint32_t htt_frame_type[CDP_TX_CAP_HTT_MAX_FTYPE]; 3464 struct cdp_tid_q_len len_stats; 3465 }; 3466 #endif 3467