1 // SPDX-License-Identifier: GPL-2.0-only OR Linux-OpenIB 2 /* 3 * Mellanox BlueField Performance Monitoring Counters driver 4 * 5 * This driver provides a sysfs interface for monitoring 6 * performance statistics in BlueField SoC. 7 * 8 * Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved. 9 */ 10 11 #include <linux/acpi.h> 12 #include <linux/arm-smccc.h> 13 #include <linux/bitfield.h> 14 #include <linux/errno.h> 15 #include <linux/hwmon.h> 16 #include <linux/platform_device.h> 17 #include <linux/string.h> 18 #include <uapi/linux/psci.h> 19 20 #define MLXBF_PMC_WRITE_REG_32 0x82000009 21 #define MLXBF_PMC_READ_REG_32 0x8200000A 22 #define MLXBF_PMC_WRITE_REG_64 0x8200000B 23 #define MLXBF_PMC_READ_REG_64 0x8200000C 24 #define MLXBF_PMC_SIP_SVC_UID 0x8200ff01 25 #define MLXBF_PMC_SIP_SVC_VERSION 0x8200ff03 26 #define MLXBF_PMC_SVC_REQ_MAJOR 0 27 #define MLXBF_PMC_SVC_MIN_MINOR 3 28 29 #define MLXBF_PMC_SMCCC_ACCESS_VIOLATION -4 30 31 #define MLXBF_PMC_EVENT_SET_BF1 0 32 #define MLXBF_PMC_EVENT_SET_BF2 1 33 #define MLXBF_PMC_EVENT_INFO_LEN 100 34 35 #define MLXBF_PMC_MAX_BLOCKS 30 36 #define MLXBF_PMC_MAX_ATTRS 30 37 #define MLXBF_PMC_INFO_SZ 4 38 #define MLXBF_PMC_REG_SIZE 8 39 #define MLXBF_PMC_L3C_REG_SIZE 4 40 41 #define MLXBF_PMC_TYPE_COUNTER 1 42 #define MLXBF_PMC_TYPE_REGISTER 0 43 44 #define MLXBF_PMC_PERFCTL 0 45 #define MLXBF_PMC_PERFEVT 1 46 #define MLXBF_PMC_PERFACC0 4 47 48 #define MLXBF_PMC_PERFMON_CONFIG_WR_R_B BIT(0) 49 #define MLXBF_PMC_PERFMON_CONFIG_STROBE BIT(1) 50 #define MLXBF_PMC_PERFMON_CONFIG_ADDR GENMASK_ULL(4, 2) 51 #define MLXBF_PMC_PERFMON_CONFIG_WDATA GENMASK_ULL(60, 5) 52 53 #define MLXBF_PMC_PERFCTL_FM0 GENMASK_ULL(18, 16) 54 #define MLXBF_PMC_PERFCTL_MS0 GENMASK_ULL(21, 20) 55 #define MLXBF_PMC_PERFCTL_ACCM0 GENMASK_ULL(26, 24) 56 #define MLXBF_PMC_PERFCTL_AD0 BIT(27) 57 #define MLXBF_PMC_PERFCTL_ETRIG0 GENMASK_ULL(29, 28) 58 #define MLXBF_PMC_PERFCTL_EB0 BIT(30) 59 #define MLXBF_PMC_PERFCTL_EN0 BIT(31) 60 61 #define MLXBF_PMC_PERFEVT_EVTSEL GENMASK_ULL(31, 24) 62 63 #define MLXBF_PMC_L3C_PERF_CNT_CFG 0x0 64 #define MLXBF_PMC_L3C_PERF_CNT_SEL 0x10 65 #define MLXBF_PMC_L3C_PERF_CNT_SEL_1 0x14 66 #define MLXBF_PMC_L3C_PERF_CNT_LOW 0x40 67 #define MLXBF_PMC_L3C_PERF_CNT_HIGH 0x60 68 69 #define MLXBF_PMC_L3C_PERF_CNT_CFG_EN BIT(0) 70 #define MLXBF_PMC_L3C_PERF_CNT_CFG_RST BIT(1) 71 #define MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_0 GENMASK(5, 0) 72 #define MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_1 GENMASK(13, 8) 73 #define MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_2 GENMASK(21, 16) 74 #define MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_3 GENMASK(29, 24) 75 76 #define MLXBF_PMC_L3C_PERF_CNT_SEL_1_CNT_4 GENMASK(5, 0) 77 78 #define MLXBF_PMC_L3C_PERF_CNT_LOW_VAL GENMASK(31, 0) 79 #define MLXBF_PMC_L3C_PERF_CNT_HIGH_VAL GENMASK(24, 0) 80 81 /** 82 * struct mlxbf_pmc_attribute - Structure to hold attribute and block info 83 * for each sysfs entry 84 * @dev_attr: Device attribute struct 85 * @index: index to identify counter number within a block 86 * @nr: block number to which the sysfs belongs 87 */ 88 struct mlxbf_pmc_attribute { 89 struct device_attribute dev_attr; 90 int index; 91 int nr; 92 }; 93 94 /** 95 * struct mlxbf_pmc_block_info - Structure to hold info for each HW block 96 * 97 * @mmio_base: The VA at which the PMC block is mapped 98 * @blk_size: Size of each mapped region 99 * @counters: Number of counters in the block 100 * @type: Type of counters in the block 101 * @attr_counter: Attributes for "counter" sysfs files 102 * @attr_event: Attributes for "event" sysfs files 103 * @attr_event_list: Attributes for "event_list" sysfs files 104 * @attr_enable: Attributes for "enable" sysfs files 105 * @block_attr: All attributes needed for the block 106 * @block_attr_grp: Attribute group for the block 107 */ 108 struct mlxbf_pmc_block_info { 109 void __iomem *mmio_base; 110 size_t blk_size; 111 size_t counters; 112 int type; 113 struct mlxbf_pmc_attribute *attr_counter; 114 struct mlxbf_pmc_attribute *attr_event; 115 struct mlxbf_pmc_attribute attr_event_list; 116 struct mlxbf_pmc_attribute attr_enable; 117 struct attribute *block_attr[MLXBF_PMC_MAX_ATTRS]; 118 struct attribute_group block_attr_grp; 119 }; 120 121 /** 122 * struct mlxbf_pmc_context - Structure to hold PMC context info 123 * 124 * @pdev: The kernel structure representing the device 125 * @total_blocks: Total number of blocks 126 * @tile_count: Number of tiles in the system 127 * @hwmon_dev: Hwmon device for bfperf 128 * @block_name: Block name 129 * @block: Block info 130 * @groups: Attribute groups from each block 131 * @svc_sreg_support: Whether SMCs are used to access performance registers 132 * @sreg_tbl_perf: Secure register access table number 133 * @event_set: Event set to use 134 */ 135 struct mlxbf_pmc_context { 136 struct platform_device *pdev; 137 uint32_t total_blocks; 138 uint32_t tile_count; 139 struct device *hwmon_dev; 140 const char *block_name[MLXBF_PMC_MAX_BLOCKS]; 141 struct mlxbf_pmc_block_info block[MLXBF_PMC_MAX_BLOCKS]; 142 const struct attribute_group *groups[MLXBF_PMC_MAX_BLOCKS]; 143 bool svc_sreg_support; 144 uint32_t sreg_tbl_perf; 145 unsigned int event_set; 146 }; 147 148 /** 149 * struct mlxbf_pmc_events - Structure to hold supported events for each block 150 * @evt_num: Event number used to program counters 151 * @evt_name: Name of the event 152 */ 153 struct mlxbf_pmc_events { 154 int evt_num; 155 char *evt_name; 156 }; 157 158 static const struct mlxbf_pmc_events mlxbf_pmc_pcie_events[] = { 159 { 0x0, "IN_P_PKT_CNT" }, 160 { 0x10, "IN_NP_PKT_CNT" }, 161 { 0x18, "IN_C_PKT_CNT" }, 162 { 0x20, "OUT_P_PKT_CNT" }, 163 { 0x28, "OUT_NP_PKT_CNT" }, 164 { 0x30, "OUT_C_PKT_CNT" }, 165 { 0x38, "IN_P_BYTE_CNT" }, 166 { 0x40, "IN_NP_BYTE_CNT" }, 167 { 0x48, "IN_C_BYTE_CNT" }, 168 { 0x50, "OUT_P_BYTE_CNT" }, 169 { 0x58, "OUT_NP_BYTE_CNT" }, 170 { 0x60, "OUT_C_BYTE_CNT" }, 171 }; 172 173 static const struct mlxbf_pmc_events mlxbf_pmc_smgen_events[] = { 174 { 0x0, "AW_REQ" }, 175 { 0x1, "AW_BEATS" }, 176 { 0x2, "AW_TRANS" }, 177 { 0x3, "AW_RESP" }, 178 { 0x4, "AW_STL" }, 179 { 0x5, "AW_LAT" }, 180 { 0x6, "AW_REQ_TBU" }, 181 { 0x8, "AR_REQ" }, 182 { 0x9, "AR_BEATS" }, 183 { 0xa, "AR_TRANS" }, 184 { 0xb, "AR_STL" }, 185 { 0xc, "AR_LAT" }, 186 { 0xd, "AR_REQ_TBU" }, 187 { 0xe, "TBU_MISS" }, 188 { 0xf, "TX_DAT_AF" }, 189 { 0x10, "RX_DAT_AF" }, 190 { 0x11, "RETRYQ_CRED" }, 191 }; 192 193 static const struct mlxbf_pmc_events mlxbf_pmc_trio_events_1[] = { 194 { 0xa0, "TPIO_DATA_BEAT" }, 195 { 0xa1, "TDMA_DATA_BEAT" }, 196 { 0xa2, "MAP_DATA_BEAT" }, 197 { 0xa3, "TXMSG_DATA_BEAT" }, 198 { 0xa4, "TPIO_DATA_PACKET" }, 199 { 0xa5, "TDMA_DATA_PACKET" }, 200 { 0xa6, "MAP_DATA_PACKET" }, 201 { 0xa7, "TXMSG_DATA_PACKET" }, 202 { 0xa8, "TDMA_RT_AF" }, 203 { 0xa9, "TDMA_PBUF_MAC_AF" }, 204 { 0xaa, "TRIO_MAP_WRQ_BUF_EMPTY" }, 205 { 0xab, "TRIO_MAP_CPL_BUF_EMPTY" }, 206 { 0xac, "TRIO_MAP_RDQ0_BUF_EMPTY" }, 207 { 0xad, "TRIO_MAP_RDQ1_BUF_EMPTY" }, 208 { 0xae, "TRIO_MAP_RDQ2_BUF_EMPTY" }, 209 { 0xaf, "TRIO_MAP_RDQ3_BUF_EMPTY" }, 210 { 0xb0, "TRIO_MAP_RDQ4_BUF_EMPTY" }, 211 { 0xb1, "TRIO_MAP_RDQ5_BUF_EMPTY" }, 212 { 0xb2, "TRIO_MAP_RDQ6_BUF_EMPTY" }, 213 { 0xb3, "TRIO_MAP_RDQ7_BUF_EMPTY" }, 214 }; 215 216 static const struct mlxbf_pmc_events mlxbf_pmc_trio_events_2[] = { 217 { 0xa0, "TPIO_DATA_BEAT" }, 218 { 0xa1, "TDMA_DATA_BEAT" }, 219 { 0xa2, "MAP_DATA_BEAT" }, 220 { 0xa3, "TXMSG_DATA_BEAT" }, 221 { 0xa4, "TPIO_DATA_PACKET" }, 222 { 0xa5, "TDMA_DATA_PACKET" }, 223 { 0xa6, "MAP_DATA_PACKET" }, 224 { 0xa7, "TXMSG_DATA_PACKET" }, 225 { 0xa8, "TDMA_RT_AF" }, 226 { 0xa9, "TDMA_PBUF_MAC_AF" }, 227 { 0xaa, "TRIO_MAP_WRQ_BUF_EMPTY" }, 228 { 0xab, "TRIO_MAP_CPL_BUF_EMPTY" }, 229 { 0xac, "TRIO_MAP_RDQ0_BUF_EMPTY" }, 230 { 0xad, "TRIO_MAP_RDQ1_BUF_EMPTY" }, 231 { 0xae, "TRIO_MAP_RDQ2_BUF_EMPTY" }, 232 { 0xaf, "TRIO_MAP_RDQ3_BUF_EMPTY" }, 233 { 0xb0, "TRIO_MAP_RDQ4_BUF_EMPTY" }, 234 { 0xb1, "TRIO_MAP_RDQ5_BUF_EMPTY" }, 235 { 0xb2, "TRIO_MAP_RDQ6_BUF_EMPTY" }, 236 { 0xb3, "TRIO_MAP_RDQ7_BUF_EMPTY" }, 237 { 0xb4, "TRIO_RING_TX_FLIT_CH0" }, 238 { 0xb5, "TRIO_RING_TX_FLIT_CH1" }, 239 { 0xb6, "TRIO_RING_TX_FLIT_CH2" }, 240 { 0xb7, "TRIO_RING_TX_FLIT_CH3" }, 241 { 0xb8, "TRIO_RING_TX_FLIT_CH4" }, 242 { 0xb9, "TRIO_RING_RX_FLIT_CH0" }, 243 { 0xba, "TRIO_RING_RX_FLIT_CH1" }, 244 { 0xbb, "TRIO_RING_RX_FLIT_CH2" }, 245 { 0xbc, "TRIO_RING_RX_FLIT_CH3" }, 246 }; 247 248 static const struct mlxbf_pmc_events mlxbf_pmc_ecc_events[] = { 249 { 0x100, "ECC_SINGLE_ERROR_CNT" }, 250 { 0x104, "ECC_DOUBLE_ERROR_CNT" }, 251 { 0x114, "SERR_INJ" }, 252 { 0x118, "DERR_INJ" }, 253 { 0x124, "ECC_SINGLE_ERROR_0" }, 254 { 0x164, "ECC_DOUBLE_ERROR_0" }, 255 { 0x340, "DRAM_ECC_COUNT" }, 256 { 0x344, "DRAM_ECC_INJECT" }, 257 { 0x348, "DRAM_ECC_ERROR" }, 258 }; 259 260 static const struct mlxbf_pmc_events mlxbf_pmc_mss_events[] = { 261 { 0xc0, "RXREQ_MSS" }, 262 { 0xc1, "RXDAT_MSS" }, 263 { 0xc2, "TXRSP_MSS" }, 264 { 0xc3, "TXDAT_MSS" }, 265 }; 266 267 static const struct mlxbf_pmc_events mlxbf_pmc_hnf_events[] = { 268 { 0x45, "HNF_REQUESTS" }, 269 { 0x46, "HNF_REJECTS" }, 270 { 0x47, "ALL_BUSY" }, 271 { 0x48, "MAF_BUSY" }, 272 { 0x49, "MAF_REQUESTS" }, 273 { 0x4a, "RNF_REQUESTS" }, 274 { 0x4b, "REQUEST_TYPE" }, 275 { 0x4c, "MEMORY_READS" }, 276 { 0x4d, "MEMORY_WRITES" }, 277 { 0x4e, "VICTIM_WRITE" }, 278 { 0x4f, "POC_FULL" }, 279 { 0x50, "POC_FAIL" }, 280 { 0x51, "POC_SUCCESS" }, 281 { 0x52, "POC_WRITES" }, 282 { 0x53, "POC_READS" }, 283 { 0x54, "FORWARD" }, 284 { 0x55, "RXREQ_HNF" }, 285 { 0x56, "RXRSP_HNF" }, 286 { 0x57, "RXDAT_HNF" }, 287 { 0x58, "TXREQ_HNF" }, 288 { 0x59, "TXRSP_HNF" }, 289 { 0x5a, "TXDAT_HNF" }, 290 { 0x5b, "TXSNP_HNF" }, 291 { 0x5c, "INDEX_MATCH" }, 292 { 0x5d, "A72_ACCESS" }, 293 { 0x5e, "IO_ACCESS" }, 294 { 0x5f, "TSO_WRITE" }, 295 { 0x60, "TSO_CONFLICT" }, 296 { 0x61, "DIR_HIT" }, 297 { 0x62, "HNF_ACCEPTS" }, 298 { 0x63, "REQ_BUF_EMPTY" }, 299 { 0x64, "REQ_BUF_IDLE_MAF" }, 300 { 0x65, "TSO_NOARB" }, 301 { 0x66, "TSO_NOARB_CYCLES" }, 302 { 0x67, "MSS_NO_CREDIT" }, 303 { 0x68, "TXDAT_NO_LCRD" }, 304 { 0x69, "TXSNP_NO_LCRD" }, 305 { 0x6a, "TXRSP_NO_LCRD" }, 306 { 0x6b, "TXREQ_NO_LCRD" }, 307 { 0x6c, "TSO_CL_MATCH" }, 308 { 0x6d, "MEMORY_READS_BYPASS" }, 309 { 0x6e, "TSO_NOARB_TIMEOUT" }, 310 { 0x6f, "ALLOCATE" }, 311 { 0x70, "VICTIM" }, 312 { 0x71, "A72_WRITE" }, 313 { 0x72, "A72_READ" }, 314 { 0x73, "IO_WRITE" }, 315 { 0x74, "IO_READ" }, 316 { 0x75, "TSO_REJECT" }, 317 { 0x80, "TXREQ_RN" }, 318 { 0x81, "TXRSP_RN" }, 319 { 0x82, "TXDAT_RN" }, 320 { 0x83, "RXSNP_RN" }, 321 { 0x84, "RXRSP_RN" }, 322 { 0x85, "RXDAT_RN" }, 323 }; 324 325 static const struct mlxbf_pmc_events mlxbf_pmc_hnfnet_events[] = { 326 { 0x12, "CDN_REQ" }, 327 { 0x13, "DDN_REQ" }, 328 { 0x14, "NDN_REQ" }, 329 { 0x15, "CDN_DIAG_N_OUT_OF_CRED" }, 330 { 0x16, "CDN_DIAG_S_OUT_OF_CRED" }, 331 { 0x17, "CDN_DIAG_E_OUT_OF_CRED" }, 332 { 0x18, "CDN_DIAG_W_OUT_OF_CRED" }, 333 { 0x19, "CDN_DIAG_C_OUT_OF_CRED" }, 334 { 0x1a, "CDN_DIAG_N_EGRESS" }, 335 { 0x1b, "CDN_DIAG_S_EGRESS" }, 336 { 0x1c, "CDN_DIAG_E_EGRESS" }, 337 { 0x1d, "CDN_DIAG_W_EGRESS" }, 338 { 0x1e, "CDN_DIAG_C_EGRESS" }, 339 { 0x1f, "CDN_DIAG_N_INGRESS" }, 340 { 0x20, "CDN_DIAG_S_INGRESS" }, 341 { 0x21, "CDN_DIAG_E_INGRESS" }, 342 { 0x22, "CDN_DIAG_W_INGRESS" }, 343 { 0x23, "CDN_DIAG_C_INGRESS" }, 344 { 0x24, "CDN_DIAG_CORE_SENT" }, 345 { 0x25, "DDN_DIAG_N_OUT_OF_CRED" }, 346 { 0x26, "DDN_DIAG_S_OUT_OF_CRED" }, 347 { 0x27, "DDN_DIAG_E_OUT_OF_CRED" }, 348 { 0x28, "DDN_DIAG_W_OUT_OF_CRED" }, 349 { 0x29, "DDN_DIAG_C_OUT_OF_CRED" }, 350 { 0x2a, "DDN_DIAG_N_EGRESS" }, 351 { 0x2b, "DDN_DIAG_S_EGRESS" }, 352 { 0x2c, "DDN_DIAG_E_EGRESS" }, 353 { 0x2d, "DDN_DIAG_W_EGRESS" }, 354 { 0x2e, "DDN_DIAG_C_EGRESS" }, 355 { 0x2f, "DDN_DIAG_N_INGRESS" }, 356 { 0x30, "DDN_DIAG_S_INGRESS" }, 357 { 0x31, "DDN_DIAG_E_INGRESS" }, 358 { 0x32, "DDN_DIAG_W_INGRESS" }, 359 { 0x33, "DDN_DIAG_C_INGRESS" }, 360 { 0x34, "DDN_DIAG_CORE_SENT" }, 361 { 0x35, "NDN_DIAG_N_OUT_OF_CRED" }, 362 { 0x36, "NDN_DIAG_S_OUT_OF_CRED" }, 363 { 0x37, "NDN_DIAG_E_OUT_OF_CRED" }, 364 { 0x38, "NDN_DIAG_W_OUT_OF_CRED" }, 365 { 0x39, "NDN_DIAG_C_OUT_OF_CRED" }, 366 { 0x3a, "NDN_DIAG_N_EGRESS" }, 367 { 0x3b, "NDN_DIAG_S_EGRESS" }, 368 { 0x3c, "NDN_DIAG_E_EGRESS" }, 369 { 0x3d, "NDN_DIAG_W_EGRESS" }, 370 { 0x3e, "NDN_DIAG_C_EGRESS" }, 371 { 0x3f, "NDN_DIAG_N_INGRESS" }, 372 { 0x40, "NDN_DIAG_S_INGRESS" }, 373 { 0x41, "NDN_DIAG_E_INGRESS" }, 374 { 0x42, "NDN_DIAG_W_INGRESS" }, 375 { 0x43, "NDN_DIAG_C_INGRESS" }, 376 { 0x44, "NDN_DIAG_CORE_SENT" }, 377 }; 378 379 static const struct mlxbf_pmc_events mlxbf_pmc_l3c_events[] = { 380 { 0x00, "DISABLE" }, 381 { 0x01, "CYCLES" }, 382 { 0x02, "TOTAL_RD_REQ_IN" }, 383 { 0x03, "TOTAL_WR_REQ_IN" }, 384 { 0x04, "TOTAL_WR_DBID_ACK" }, 385 { 0x05, "TOTAL_WR_DATA_IN" }, 386 { 0x06, "TOTAL_WR_COMP" }, 387 { 0x07, "TOTAL_RD_DATA_OUT" }, 388 { 0x08, "TOTAL_CDN_REQ_IN_BANK0" }, 389 { 0x09, "TOTAL_CDN_REQ_IN_BANK1" }, 390 { 0x0a, "TOTAL_DDN_REQ_IN_BANK0" }, 391 { 0x0b, "TOTAL_DDN_REQ_IN_BANK1" }, 392 { 0x0c, "TOTAL_EMEM_RD_RES_IN_BANK0" }, 393 { 0x0d, "TOTAL_EMEM_RD_RES_IN_BANK1" }, 394 { 0x0e, "TOTAL_CACHE_RD_RES_IN_BANK0" }, 395 { 0x0f, "TOTAL_CACHE_RD_RES_IN_BANK1" }, 396 { 0x10, "TOTAL_EMEM_RD_REQ_BANK0" }, 397 { 0x11, "TOTAL_EMEM_RD_REQ_BANK1" }, 398 { 0x12, "TOTAL_EMEM_WR_REQ_BANK0" }, 399 { 0x13, "TOTAL_EMEM_WR_REQ_BANK1" }, 400 { 0x14, "TOTAL_RD_REQ_OUT" }, 401 { 0x15, "TOTAL_WR_REQ_OUT" }, 402 { 0x16, "TOTAL_RD_RES_IN" }, 403 { 0x17, "HITS_BANK0" }, 404 { 0x18, "HITS_BANK1" }, 405 { 0x19, "MISSES_BANK0" }, 406 { 0x1a, "MISSES_BANK1" }, 407 { 0x1b, "ALLOCATIONS_BANK0" }, 408 { 0x1c, "ALLOCATIONS_BANK1" }, 409 { 0x1d, "EVICTIONS_BANK0" }, 410 { 0x1e, "EVICTIONS_BANK1" }, 411 { 0x1f, "DBID_REJECT" }, 412 { 0x20, "WRDB_REJECT_BANK0" }, 413 { 0x21, "WRDB_REJECT_BANK1" }, 414 { 0x22, "CMDQ_REJECT_BANK0" }, 415 { 0x23, "CMDQ_REJECT_BANK1" }, 416 { 0x24, "COB_REJECT_BANK0" }, 417 { 0x25, "COB_REJECT_BANK1" }, 418 { 0x26, "TRB_REJECT_BANK0" }, 419 { 0x27, "TRB_REJECT_BANK1" }, 420 { 0x28, "TAG_REJECT_BANK0" }, 421 { 0x29, "TAG_REJECT_BANK1" }, 422 { 0x2a, "ANY_REJECT_BANK0" }, 423 { 0x2b, "ANY_REJECT_BANK1" }, 424 }; 425 426 static struct mlxbf_pmc_context *pmc; 427 428 /* UUID used to probe ATF service. */ 429 static const char *mlxbf_pmc_svc_uuid_str = "89c036b4-e7d7-11e6-8797-001aca00bfc4"; 430 431 /* Calls an SMC to access a performance register */ 432 static int mlxbf_pmc_secure_read(void __iomem *addr, uint32_t command, 433 uint64_t *result) 434 { 435 struct arm_smccc_res res; 436 int status, err = 0; 437 438 arm_smccc_smc(command, pmc->sreg_tbl_perf, (uintptr_t)addr, 0, 0, 0, 0, 439 0, &res); 440 441 status = res.a0; 442 443 switch (status) { 444 case PSCI_RET_NOT_SUPPORTED: 445 err = -EINVAL; 446 break; 447 case MLXBF_PMC_SMCCC_ACCESS_VIOLATION: 448 err = -EACCES; 449 break; 450 default: 451 *result = res.a1; 452 break; 453 } 454 455 return err; 456 } 457 458 /* Read from a performance counter */ 459 static int mlxbf_pmc_read(void __iomem *addr, uint32_t command, 460 uint64_t *result) 461 { 462 if (pmc->svc_sreg_support) 463 return mlxbf_pmc_secure_read(addr, command, result); 464 465 if (command == MLXBF_PMC_READ_REG_32) 466 *result = readl(addr); 467 else 468 *result = readq(addr); 469 470 return 0; 471 } 472 473 /* Convenience function for 32-bit reads */ 474 static int mlxbf_pmc_readl(void __iomem *addr, uint32_t *result) 475 { 476 uint64_t read_out; 477 int status; 478 479 status = mlxbf_pmc_read(addr, MLXBF_PMC_READ_REG_32, &read_out); 480 if (status) 481 return status; 482 *result = (uint32_t)read_out; 483 484 return 0; 485 } 486 487 /* Calls an SMC to access a performance register */ 488 static int mlxbf_pmc_secure_write(void __iomem *addr, uint32_t command, 489 uint64_t value) 490 { 491 struct arm_smccc_res res; 492 int status, err = 0; 493 494 arm_smccc_smc(command, pmc->sreg_tbl_perf, value, (uintptr_t)addr, 0, 0, 495 0, 0, &res); 496 497 status = res.a0; 498 499 switch (status) { 500 case PSCI_RET_NOT_SUPPORTED: 501 err = -EINVAL; 502 break; 503 case MLXBF_PMC_SMCCC_ACCESS_VIOLATION: 504 err = -EACCES; 505 break; 506 } 507 508 return err; 509 } 510 511 /* Write to a performance counter */ 512 static int mlxbf_pmc_write(void __iomem *addr, int command, uint64_t value) 513 { 514 if (pmc->svc_sreg_support) 515 return mlxbf_pmc_secure_write(addr, command, value); 516 517 if (command == MLXBF_PMC_WRITE_REG_32) 518 writel(value, addr); 519 else 520 writeq(value, addr); 521 522 return 0; 523 } 524 525 /* Check if the register offset is within the mapped region for the block */ 526 static bool mlxbf_pmc_valid_range(int blk_num, uint32_t offset) 527 { 528 if ((offset >= 0) && !(offset % MLXBF_PMC_REG_SIZE) && 529 (offset + MLXBF_PMC_REG_SIZE <= pmc->block[blk_num].blk_size)) 530 return true; /* inside the mapped PMC space */ 531 532 return false; 533 } 534 535 /* Get the event list corresponding to a certain block */ 536 static const struct mlxbf_pmc_events *mlxbf_pmc_event_list(const char *blk, 537 int *size) 538 { 539 const struct mlxbf_pmc_events *events; 540 541 if (strstr(blk, "tilenet")) { 542 events = mlxbf_pmc_hnfnet_events; 543 *size = ARRAY_SIZE(mlxbf_pmc_hnfnet_events); 544 } else if (strstr(blk, "tile")) { 545 events = mlxbf_pmc_hnf_events; 546 *size = ARRAY_SIZE(mlxbf_pmc_hnf_events); 547 } else if (strstr(blk, "triogen")) { 548 events = mlxbf_pmc_smgen_events; 549 *size = ARRAY_SIZE(mlxbf_pmc_smgen_events); 550 } else if (strstr(blk, "trio")) { 551 switch (pmc->event_set) { 552 case MLXBF_PMC_EVENT_SET_BF1: 553 events = mlxbf_pmc_trio_events_1; 554 *size = ARRAY_SIZE(mlxbf_pmc_trio_events_1); 555 break; 556 case MLXBF_PMC_EVENT_SET_BF2: 557 events = mlxbf_pmc_trio_events_2; 558 *size = ARRAY_SIZE(mlxbf_pmc_trio_events_2); 559 break; 560 default: 561 events = NULL; 562 *size = 0; 563 break; 564 } 565 } else if (strstr(blk, "mss")) { 566 events = mlxbf_pmc_mss_events; 567 *size = ARRAY_SIZE(mlxbf_pmc_mss_events); 568 } else if (strstr(blk, "ecc")) { 569 events = mlxbf_pmc_ecc_events; 570 *size = ARRAY_SIZE(mlxbf_pmc_ecc_events); 571 } else if (strstr(blk, "pcie")) { 572 events = mlxbf_pmc_pcie_events; 573 *size = ARRAY_SIZE(mlxbf_pmc_pcie_events); 574 } else if (strstr(blk, "l3cache")) { 575 events = mlxbf_pmc_l3c_events; 576 *size = ARRAY_SIZE(mlxbf_pmc_l3c_events); 577 } else if (strstr(blk, "gic")) { 578 events = mlxbf_pmc_smgen_events; 579 *size = ARRAY_SIZE(mlxbf_pmc_smgen_events); 580 } else if (strstr(blk, "smmu")) { 581 events = mlxbf_pmc_smgen_events; 582 *size = ARRAY_SIZE(mlxbf_pmc_smgen_events); 583 } else { 584 events = NULL; 585 *size = 0; 586 } 587 588 return events; 589 } 590 591 /* Get the event number given the name */ 592 static int mlxbf_pmc_get_event_num(const char *blk, const char *evt) 593 { 594 const struct mlxbf_pmc_events *events; 595 int i, size; 596 597 events = mlxbf_pmc_event_list(blk, &size); 598 if (!events) 599 return -EINVAL; 600 601 for (i = 0; i < size; ++i) { 602 if (!strcmp(evt, events[i].evt_name)) 603 return events[i].evt_num; 604 } 605 606 return -ENODEV; 607 } 608 609 /* Get the event number given the name */ 610 static char *mlxbf_pmc_get_event_name(const char *blk, int evt) 611 { 612 const struct mlxbf_pmc_events *events; 613 int i, size; 614 615 events = mlxbf_pmc_event_list(blk, &size); 616 if (!events) 617 return NULL; 618 619 for (i = 0; i < size; ++i) { 620 if (evt == events[i].evt_num) 621 return events[i].evt_name; 622 } 623 624 return NULL; 625 } 626 627 /* Method to enable/disable/reset l3cache counters */ 628 static int mlxbf_pmc_config_l3_counters(int blk_num, bool enable, bool reset) 629 { 630 uint32_t perfcnt_cfg = 0; 631 632 if (enable) 633 perfcnt_cfg |= MLXBF_PMC_L3C_PERF_CNT_CFG_EN; 634 if (reset) 635 perfcnt_cfg |= MLXBF_PMC_L3C_PERF_CNT_CFG_RST; 636 637 return mlxbf_pmc_write(pmc->block[blk_num].mmio_base + 638 MLXBF_PMC_L3C_PERF_CNT_CFG, 639 MLXBF_PMC_WRITE_REG_32, perfcnt_cfg); 640 } 641 642 /* Method to handle l3cache counter programming */ 643 static int mlxbf_pmc_program_l3_counter(int blk_num, uint32_t cnt_num, 644 uint32_t evt) 645 { 646 uint32_t perfcnt_sel_1 = 0; 647 uint32_t perfcnt_sel = 0; 648 uint32_t *wordaddr; 649 void __iomem *pmcaddr; 650 int ret; 651 652 /* Disable all counters before programming them */ 653 if (mlxbf_pmc_config_l3_counters(blk_num, false, false)) 654 return -EINVAL; 655 656 /* Select appropriate register information */ 657 switch (cnt_num) { 658 case 0 ... 3: 659 pmcaddr = pmc->block[blk_num].mmio_base + 660 MLXBF_PMC_L3C_PERF_CNT_SEL; 661 wordaddr = &perfcnt_sel; 662 break; 663 case 4: 664 pmcaddr = pmc->block[blk_num].mmio_base + 665 MLXBF_PMC_L3C_PERF_CNT_SEL_1; 666 wordaddr = &perfcnt_sel_1; 667 break; 668 default: 669 return -EINVAL; 670 } 671 672 ret = mlxbf_pmc_readl(pmcaddr, wordaddr); 673 if (ret) 674 return ret; 675 676 switch (cnt_num) { 677 case 0: 678 perfcnt_sel &= ~MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_0; 679 perfcnt_sel |= FIELD_PREP(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_0, 680 evt); 681 break; 682 case 1: 683 perfcnt_sel &= ~MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_1; 684 perfcnt_sel |= FIELD_PREP(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_1, 685 evt); 686 break; 687 case 2: 688 perfcnt_sel &= ~MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_2; 689 perfcnt_sel |= FIELD_PREP(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_2, 690 evt); 691 break; 692 case 3: 693 perfcnt_sel &= ~MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_3; 694 perfcnt_sel |= FIELD_PREP(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_3, 695 evt); 696 break; 697 case 4: 698 perfcnt_sel_1 &= ~MLXBF_PMC_L3C_PERF_CNT_SEL_1_CNT_4; 699 perfcnt_sel_1 |= FIELD_PREP(MLXBF_PMC_L3C_PERF_CNT_SEL_1_CNT_4, 700 evt); 701 break; 702 default: 703 return -EINVAL; 704 } 705 706 return mlxbf_pmc_write(pmcaddr, MLXBF_PMC_WRITE_REG_32, *wordaddr); 707 } 708 709 /* Method to program a counter to monitor an event */ 710 static int mlxbf_pmc_program_counter(int blk_num, uint32_t cnt_num, 711 uint32_t evt, bool is_l3) 712 { 713 uint64_t perfctl, perfevt, perfmon_cfg; 714 715 if (cnt_num >= pmc->block[blk_num].counters) 716 return -ENODEV; 717 718 if (is_l3) 719 return mlxbf_pmc_program_l3_counter(blk_num, cnt_num, evt); 720 721 /* Configure the counter */ 722 perfctl = FIELD_PREP(MLXBF_PMC_PERFCTL_EN0, 1); 723 perfctl |= FIELD_PREP(MLXBF_PMC_PERFCTL_EB0, 0); 724 perfctl |= FIELD_PREP(MLXBF_PMC_PERFCTL_ETRIG0, 1); 725 perfctl |= FIELD_PREP(MLXBF_PMC_PERFCTL_AD0, 0); 726 perfctl |= FIELD_PREP(MLXBF_PMC_PERFCTL_ACCM0, 0); 727 perfctl |= FIELD_PREP(MLXBF_PMC_PERFCTL_MS0, 0); 728 perfctl |= FIELD_PREP(MLXBF_PMC_PERFCTL_FM0, 0); 729 730 perfmon_cfg = FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WDATA, perfctl); 731 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_ADDR, 732 MLXBF_PMC_PERFCTL); 733 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_STROBE, 1); 734 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WR_R_B, 1); 735 736 if (mlxbf_pmc_write(pmc->block[blk_num].mmio_base + 737 cnt_num * MLXBF_PMC_REG_SIZE, 738 MLXBF_PMC_WRITE_REG_64, perfmon_cfg)) 739 return -EFAULT; 740 741 /* Select the event */ 742 perfevt = FIELD_PREP(MLXBF_PMC_PERFEVT_EVTSEL, evt); 743 744 perfmon_cfg = FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WDATA, perfevt); 745 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_ADDR, 746 MLXBF_PMC_PERFEVT); 747 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_STROBE, 1); 748 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WR_R_B, 1); 749 750 if (mlxbf_pmc_write(pmc->block[blk_num].mmio_base + 751 cnt_num * MLXBF_PMC_REG_SIZE, 752 MLXBF_PMC_WRITE_REG_64, perfmon_cfg)) 753 return -EFAULT; 754 755 /* Clear the accumulator */ 756 perfmon_cfg = FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_ADDR, 757 MLXBF_PMC_PERFACC0); 758 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_STROBE, 1); 759 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WR_R_B, 1); 760 761 if (mlxbf_pmc_write(pmc->block[blk_num].mmio_base + 762 cnt_num * MLXBF_PMC_REG_SIZE, 763 MLXBF_PMC_WRITE_REG_64, perfmon_cfg)) 764 return -EFAULT; 765 766 return 0; 767 } 768 769 /* Method to handle l3 counter reads */ 770 static int mlxbf_pmc_read_l3_counter(int blk_num, uint32_t cnt_num, 771 uint64_t *result) 772 { 773 uint32_t perfcnt_low = 0, perfcnt_high = 0; 774 uint64_t value; 775 int status = 0; 776 777 status = mlxbf_pmc_readl(pmc->block[blk_num].mmio_base + 778 MLXBF_PMC_L3C_PERF_CNT_LOW + 779 cnt_num * MLXBF_PMC_L3C_REG_SIZE, 780 &perfcnt_low); 781 782 if (status) 783 return status; 784 785 status = mlxbf_pmc_readl(pmc->block[blk_num].mmio_base + 786 MLXBF_PMC_L3C_PERF_CNT_HIGH + 787 cnt_num * MLXBF_PMC_L3C_REG_SIZE, 788 &perfcnt_high); 789 790 if (status) 791 return status; 792 793 value = perfcnt_high; 794 value = value << 32; 795 value |= perfcnt_low; 796 *result = value; 797 798 return 0; 799 } 800 801 /* Method to read the counter value */ 802 static int mlxbf_pmc_read_counter(int blk_num, uint32_t cnt_num, bool is_l3, 803 uint64_t *result) 804 { 805 uint32_t perfcfg_offset, perfval_offset; 806 uint64_t perfmon_cfg; 807 int status; 808 809 if (cnt_num >= pmc->block[blk_num].counters) 810 return -EINVAL; 811 812 if (is_l3) 813 return mlxbf_pmc_read_l3_counter(blk_num, cnt_num, result); 814 815 perfcfg_offset = cnt_num * MLXBF_PMC_REG_SIZE; 816 perfval_offset = perfcfg_offset + 817 pmc->block[blk_num].counters * MLXBF_PMC_REG_SIZE; 818 819 /* Set counter in "read" mode */ 820 perfmon_cfg = FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_ADDR, 821 MLXBF_PMC_PERFACC0); 822 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_STROBE, 1); 823 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WR_R_B, 0); 824 825 status = mlxbf_pmc_write(pmc->block[blk_num].mmio_base + perfcfg_offset, 826 MLXBF_PMC_WRITE_REG_64, perfmon_cfg); 827 828 if (status) 829 return status; 830 831 /* Get the counter value */ 832 return mlxbf_pmc_read(pmc->block[blk_num].mmio_base + perfval_offset, 833 MLXBF_PMC_READ_REG_64, result); 834 } 835 836 /* Method to read L3 block event */ 837 static int mlxbf_pmc_read_l3_event(int blk_num, uint32_t cnt_num, 838 uint64_t *result) 839 { 840 uint32_t perfcnt_sel = 0, perfcnt_sel_1 = 0; 841 uint32_t *wordaddr; 842 void __iomem *pmcaddr; 843 uint64_t evt; 844 845 /* Select appropriate register information */ 846 switch (cnt_num) { 847 case 0 ... 3: 848 pmcaddr = pmc->block[blk_num].mmio_base + 849 MLXBF_PMC_L3C_PERF_CNT_SEL; 850 wordaddr = &perfcnt_sel; 851 break; 852 case 4: 853 pmcaddr = pmc->block[blk_num].mmio_base + 854 MLXBF_PMC_L3C_PERF_CNT_SEL_1; 855 wordaddr = &perfcnt_sel_1; 856 break; 857 default: 858 return -EINVAL; 859 } 860 861 if (mlxbf_pmc_readl(pmcaddr, wordaddr)) 862 return -EINVAL; 863 864 /* Read from appropriate register field for the counter */ 865 switch (cnt_num) { 866 case 0: 867 evt = FIELD_GET(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_0, perfcnt_sel); 868 break; 869 case 1: 870 evt = FIELD_GET(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_1, perfcnt_sel); 871 break; 872 case 2: 873 evt = FIELD_GET(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_2, perfcnt_sel); 874 break; 875 case 3: 876 evt = FIELD_GET(MLXBF_PMC_L3C_PERF_CNT_SEL_CNT_3, perfcnt_sel); 877 break; 878 case 4: 879 evt = FIELD_GET(MLXBF_PMC_L3C_PERF_CNT_SEL_1_CNT_4, 880 perfcnt_sel_1); 881 break; 882 default: 883 return -EINVAL; 884 } 885 *result = evt; 886 887 return 0; 888 } 889 890 /* Method to find the event currently being monitored by a counter */ 891 static int mlxbf_pmc_read_event(int blk_num, uint32_t cnt_num, bool is_l3, 892 uint64_t *result) 893 { 894 uint32_t perfcfg_offset, perfval_offset; 895 uint64_t perfmon_cfg, perfevt, perfctl; 896 897 if (cnt_num >= pmc->block[blk_num].counters) 898 return -EINVAL; 899 900 if (is_l3) 901 return mlxbf_pmc_read_l3_event(blk_num, cnt_num, result); 902 903 perfcfg_offset = cnt_num * MLXBF_PMC_REG_SIZE; 904 perfval_offset = perfcfg_offset + 905 pmc->block[blk_num].counters * MLXBF_PMC_REG_SIZE; 906 907 /* Set counter in "read" mode */ 908 perfmon_cfg = FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_ADDR, 909 MLXBF_PMC_PERFCTL); 910 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_STROBE, 1); 911 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WR_R_B, 0); 912 913 if (mlxbf_pmc_write(pmc->block[blk_num].mmio_base + perfcfg_offset, 914 MLXBF_PMC_WRITE_REG_64, perfmon_cfg)) 915 return -EFAULT; 916 917 /* Check if the counter is enabled */ 918 919 if (mlxbf_pmc_read(pmc->block[blk_num].mmio_base + perfval_offset, 920 MLXBF_PMC_READ_REG_64, &perfctl)) 921 return -EFAULT; 922 923 if (!FIELD_GET(MLXBF_PMC_PERFCTL_EN0, perfctl)) 924 return -EINVAL; 925 926 /* Set counter in "read" mode */ 927 perfmon_cfg = FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_ADDR, 928 MLXBF_PMC_PERFEVT); 929 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_STROBE, 1); 930 perfmon_cfg |= FIELD_PREP(MLXBF_PMC_PERFMON_CONFIG_WR_R_B, 0); 931 932 if (mlxbf_pmc_write(pmc->block[blk_num].mmio_base + perfcfg_offset, 933 MLXBF_PMC_WRITE_REG_64, perfmon_cfg)) 934 return -EFAULT; 935 936 /* Get the event number */ 937 if (mlxbf_pmc_read(pmc->block[blk_num].mmio_base + perfval_offset, 938 MLXBF_PMC_READ_REG_64, &perfevt)) 939 return -EFAULT; 940 941 *result = FIELD_GET(MLXBF_PMC_PERFEVT_EVTSEL, perfevt); 942 943 return 0; 944 } 945 946 /* Method to read a register */ 947 static int mlxbf_pmc_read_reg(int blk_num, uint32_t offset, uint64_t *result) 948 { 949 uint32_t ecc_out; 950 951 if (strstr(pmc->block_name[blk_num], "ecc")) { 952 if (mlxbf_pmc_readl(pmc->block[blk_num].mmio_base + offset, 953 &ecc_out)) 954 return -EFAULT; 955 956 *result = ecc_out; 957 return 0; 958 } 959 960 if (mlxbf_pmc_valid_range(blk_num, offset)) 961 return mlxbf_pmc_read(pmc->block[blk_num].mmio_base + offset, 962 MLXBF_PMC_READ_REG_64, result); 963 964 return -EINVAL; 965 } 966 967 /* Method to write to a register */ 968 static int mlxbf_pmc_write_reg(int blk_num, uint32_t offset, uint64_t data) 969 { 970 if (strstr(pmc->block_name[blk_num], "ecc")) { 971 return mlxbf_pmc_write(pmc->block[blk_num].mmio_base + offset, 972 MLXBF_PMC_WRITE_REG_32, data); 973 } 974 975 if (mlxbf_pmc_valid_range(blk_num, offset)) 976 return mlxbf_pmc_write(pmc->block[blk_num].mmio_base + offset, 977 MLXBF_PMC_WRITE_REG_64, data); 978 979 return -EINVAL; 980 } 981 982 /* Show function for "counter" sysfs files */ 983 static ssize_t mlxbf_pmc_counter_show(struct device *dev, 984 struct device_attribute *attr, char *buf) 985 { 986 struct mlxbf_pmc_attribute *attr_counter = container_of( 987 attr, struct mlxbf_pmc_attribute, dev_attr); 988 int blk_num, cnt_num, offset; 989 bool is_l3 = false; 990 uint64_t value; 991 992 blk_num = attr_counter->nr; 993 cnt_num = attr_counter->index; 994 995 if (strstr(pmc->block_name[blk_num], "l3cache")) 996 is_l3 = true; 997 998 if (pmc->block[blk_num].type == MLXBF_PMC_TYPE_COUNTER) { 999 if (mlxbf_pmc_read_counter(blk_num, cnt_num, is_l3, &value)) 1000 return -EINVAL; 1001 } else if (pmc->block[blk_num].type == MLXBF_PMC_TYPE_REGISTER) { 1002 offset = mlxbf_pmc_get_event_num(pmc->block_name[blk_num], 1003 attr->attr.name); 1004 if (offset < 0) 1005 return -EINVAL; 1006 if (mlxbf_pmc_read_reg(blk_num, offset, &value)) 1007 return -EINVAL; 1008 } else 1009 return -EINVAL; 1010 1011 return sprintf(buf, "0x%llx\n", value); 1012 } 1013 1014 /* Store function for "counter" sysfs files */ 1015 static ssize_t mlxbf_pmc_counter_store(struct device *dev, 1016 struct device_attribute *attr, 1017 const char *buf, size_t count) 1018 { 1019 struct mlxbf_pmc_attribute *attr_counter = container_of( 1020 attr, struct mlxbf_pmc_attribute, dev_attr); 1021 int blk_num, cnt_num, offset, err, data; 1022 bool is_l3 = false; 1023 uint64_t evt_num; 1024 1025 blk_num = attr_counter->nr; 1026 cnt_num = attr_counter->index; 1027 1028 err = kstrtoint(buf, 0, &data); 1029 if (err < 0) 1030 return err; 1031 1032 /* Allow non-zero writes only to the ecc regs */ 1033 if (!(strstr(pmc->block_name[blk_num], "ecc")) && data) 1034 return -EINVAL; 1035 1036 /* Do not allow writes to the L3C regs */ 1037 if (strstr(pmc->block_name[blk_num], "l3cache")) 1038 return -EINVAL; 1039 1040 if (pmc->block[blk_num].type == MLXBF_PMC_TYPE_COUNTER) { 1041 err = mlxbf_pmc_read_event(blk_num, cnt_num, is_l3, &evt_num); 1042 if (err) 1043 return err; 1044 err = mlxbf_pmc_program_counter(blk_num, cnt_num, evt_num, 1045 is_l3); 1046 if (err) 1047 return err; 1048 } else if (pmc->block[blk_num].type == MLXBF_PMC_TYPE_REGISTER) { 1049 offset = mlxbf_pmc_get_event_num(pmc->block_name[blk_num], 1050 attr->attr.name); 1051 if (offset < 0) 1052 return -EINVAL; 1053 err = mlxbf_pmc_write_reg(blk_num, offset, data); 1054 if (err) 1055 return err; 1056 } else 1057 return -EINVAL; 1058 1059 return count; 1060 } 1061 1062 /* Show function for "event" sysfs files */ 1063 static ssize_t mlxbf_pmc_event_show(struct device *dev, 1064 struct device_attribute *attr, char *buf) 1065 { 1066 struct mlxbf_pmc_attribute *attr_event = container_of( 1067 attr, struct mlxbf_pmc_attribute, dev_attr); 1068 int blk_num, cnt_num, err; 1069 bool is_l3 = false; 1070 uint64_t evt_num; 1071 char *evt_name; 1072 1073 blk_num = attr_event->nr; 1074 cnt_num = attr_event->index; 1075 1076 if (strstr(pmc->block_name[blk_num], "l3cache")) 1077 is_l3 = true; 1078 1079 err = mlxbf_pmc_read_event(blk_num, cnt_num, is_l3, &evt_num); 1080 if (err) 1081 return sprintf(buf, "No event being monitored\n"); 1082 1083 evt_name = mlxbf_pmc_get_event_name(pmc->block_name[blk_num], evt_num); 1084 if (!evt_name) 1085 return -EINVAL; 1086 1087 return sprintf(buf, "0x%llx: %s\n", evt_num, evt_name); 1088 } 1089 1090 /* Store function for "event" sysfs files */ 1091 static ssize_t mlxbf_pmc_event_store(struct device *dev, 1092 struct device_attribute *attr, 1093 const char *buf, size_t count) 1094 { 1095 struct mlxbf_pmc_attribute *attr_event = container_of( 1096 attr, struct mlxbf_pmc_attribute, dev_attr); 1097 int blk_num, cnt_num, evt_num, err; 1098 bool is_l3 = false; 1099 1100 blk_num = attr_event->nr; 1101 cnt_num = attr_event->index; 1102 1103 if (isalpha(buf[0])) { 1104 evt_num = mlxbf_pmc_get_event_num(pmc->block_name[blk_num], 1105 buf); 1106 if (evt_num < 0) 1107 return -EINVAL; 1108 } else { 1109 err = kstrtoint(buf, 0, &evt_num); 1110 if (err < 0) 1111 return err; 1112 } 1113 1114 if (strstr(pmc->block_name[blk_num], "l3cache")) 1115 is_l3 = true; 1116 1117 err = mlxbf_pmc_program_counter(blk_num, cnt_num, evt_num, is_l3); 1118 if (err) 1119 return err; 1120 1121 return count; 1122 } 1123 1124 /* Show function for "event_list" sysfs files */ 1125 static ssize_t mlxbf_pmc_event_list_show(struct device *dev, 1126 struct device_attribute *attr, 1127 char *buf) 1128 { 1129 struct mlxbf_pmc_attribute *attr_event_list = container_of( 1130 attr, struct mlxbf_pmc_attribute, dev_attr); 1131 int blk_num, i, size, len = 0, ret = 0; 1132 const struct mlxbf_pmc_events *events; 1133 char e_info[MLXBF_PMC_EVENT_INFO_LEN]; 1134 1135 blk_num = attr_event_list->nr; 1136 1137 events = mlxbf_pmc_event_list(pmc->block_name[blk_num], &size); 1138 if (!events) 1139 return -EINVAL; 1140 1141 for (i = 0, buf[0] = '\0'; i < size; ++i) { 1142 len += sprintf(e_info, "0x%x: %s\n", events[i].evt_num, 1143 events[i].evt_name); 1144 if (len > PAGE_SIZE) 1145 break; 1146 strcat(buf, e_info); 1147 ret = len; 1148 } 1149 1150 return ret; 1151 } 1152 1153 /* Show function for "enable" sysfs files - only for l3cache */ 1154 static ssize_t mlxbf_pmc_enable_show(struct device *dev, 1155 struct device_attribute *attr, char *buf) 1156 { 1157 struct mlxbf_pmc_attribute *attr_enable = container_of( 1158 attr, struct mlxbf_pmc_attribute, dev_attr); 1159 uint32_t perfcnt_cfg; 1160 int blk_num, value; 1161 1162 blk_num = attr_enable->nr; 1163 1164 if (mlxbf_pmc_readl(pmc->block[blk_num].mmio_base + 1165 MLXBF_PMC_L3C_PERF_CNT_CFG, 1166 &perfcnt_cfg)) 1167 return -EINVAL; 1168 1169 value = FIELD_GET(MLXBF_PMC_L3C_PERF_CNT_CFG_EN, perfcnt_cfg); 1170 1171 return sprintf(buf, "%d\n", value); 1172 } 1173 1174 /* Store function for "enable" sysfs files - only for l3cache */ 1175 static ssize_t mlxbf_pmc_enable_store(struct device *dev, 1176 struct device_attribute *attr, 1177 const char *buf, size_t count) 1178 { 1179 struct mlxbf_pmc_attribute *attr_enable = container_of( 1180 attr, struct mlxbf_pmc_attribute, dev_attr); 1181 int err, en, blk_num; 1182 1183 blk_num = attr_enable->nr; 1184 1185 err = kstrtoint(buf, 0, &en); 1186 if (err < 0) 1187 return err; 1188 1189 if (!en) { 1190 err = mlxbf_pmc_config_l3_counters(blk_num, false, false); 1191 if (err) 1192 return err; 1193 } else if (en == 1) { 1194 err = mlxbf_pmc_config_l3_counters(blk_num, false, true); 1195 if (err) 1196 return err; 1197 err = mlxbf_pmc_config_l3_counters(blk_num, true, false); 1198 if (err) 1199 return err; 1200 } else 1201 return -EINVAL; 1202 1203 return count; 1204 } 1205 1206 /* Populate attributes for blocks with counters to monitor performance */ 1207 static int mlxbf_pmc_init_perftype_counter(struct device *dev, int blk_num) 1208 { 1209 struct mlxbf_pmc_attribute *attr; 1210 int i = 0, j = 0; 1211 1212 /* "event_list" sysfs to list events supported by the block */ 1213 attr = &pmc->block[blk_num].attr_event_list; 1214 attr->dev_attr.attr.mode = 0444; 1215 attr->dev_attr.show = mlxbf_pmc_event_list_show; 1216 attr->nr = blk_num; 1217 attr->dev_attr.attr.name = devm_kasprintf(dev, GFP_KERNEL, "event_list"); 1218 pmc->block[blk_num].block_attr[i] = &attr->dev_attr.attr; 1219 attr = NULL; 1220 1221 /* "enable" sysfs to start/stop the counters. Only in L3C blocks */ 1222 if (strstr(pmc->block_name[blk_num], "l3cache")) { 1223 attr = &pmc->block[blk_num].attr_enable; 1224 attr->dev_attr.attr.mode = 0644; 1225 attr->dev_attr.show = mlxbf_pmc_enable_show; 1226 attr->dev_attr.store = mlxbf_pmc_enable_store; 1227 attr->nr = blk_num; 1228 attr->dev_attr.attr.name = devm_kasprintf(dev, GFP_KERNEL, 1229 "enable"); 1230 pmc->block[blk_num].block_attr[++i] = &attr->dev_attr.attr; 1231 attr = NULL; 1232 } 1233 1234 pmc->block[blk_num].attr_counter = devm_kcalloc( 1235 dev, pmc->block[blk_num].counters, 1236 sizeof(struct mlxbf_pmc_attribute), GFP_KERNEL); 1237 if (!pmc->block[blk_num].attr_counter) 1238 return -ENOMEM; 1239 1240 pmc->block[blk_num].attr_event = devm_kcalloc( 1241 dev, pmc->block[blk_num].counters, 1242 sizeof(struct mlxbf_pmc_attribute), GFP_KERNEL); 1243 if (!pmc->block[blk_num].attr_event) 1244 return -ENOMEM; 1245 1246 /* "eventX" and "counterX" sysfs to program and read counter values */ 1247 for (j = 0; j < pmc->block[blk_num].counters; ++j) { 1248 attr = &pmc->block[blk_num].attr_counter[j]; 1249 attr->dev_attr.attr.mode = 0644; 1250 attr->dev_attr.show = mlxbf_pmc_counter_show; 1251 attr->dev_attr.store = mlxbf_pmc_counter_store; 1252 attr->index = j; 1253 attr->nr = blk_num; 1254 attr->dev_attr.attr.name = devm_kasprintf(dev, GFP_KERNEL, 1255 "counter%d", j); 1256 pmc->block[blk_num].block_attr[++i] = &attr->dev_attr.attr; 1257 attr = NULL; 1258 1259 attr = &pmc->block[blk_num].attr_event[j]; 1260 attr->dev_attr.attr.mode = 0644; 1261 attr->dev_attr.show = mlxbf_pmc_event_show; 1262 attr->dev_attr.store = mlxbf_pmc_event_store; 1263 attr->index = j; 1264 attr->nr = blk_num; 1265 attr->dev_attr.attr.name = devm_kasprintf(dev, GFP_KERNEL, 1266 "event%d", j); 1267 pmc->block[blk_num].block_attr[++i] = &attr->dev_attr.attr; 1268 attr = NULL; 1269 } 1270 1271 return 0; 1272 } 1273 1274 /* Populate attributes for blocks with registers to monitor performance */ 1275 static int mlxbf_pmc_init_perftype_reg(struct device *dev, int blk_num) 1276 { 1277 struct mlxbf_pmc_attribute *attr; 1278 const struct mlxbf_pmc_events *events; 1279 int i = 0, j = 0; 1280 1281 events = mlxbf_pmc_event_list(pmc->block_name[blk_num], &j); 1282 if (!events) 1283 return -EINVAL; 1284 1285 pmc->block[blk_num].attr_event = devm_kcalloc( 1286 dev, j, sizeof(struct mlxbf_pmc_attribute), GFP_KERNEL); 1287 if (!pmc->block[blk_num].attr_event) 1288 return -ENOMEM; 1289 1290 while (j > 0) { 1291 --j; 1292 attr = &pmc->block[blk_num].attr_event[j]; 1293 attr->dev_attr.attr.mode = 0644; 1294 attr->dev_attr.show = mlxbf_pmc_counter_show; 1295 attr->dev_attr.store = mlxbf_pmc_counter_store; 1296 attr->nr = blk_num; 1297 attr->dev_attr.attr.name = devm_kasprintf(dev, GFP_KERNEL, 1298 events[j].evt_name); 1299 pmc->block[blk_num].block_attr[i] = &attr->dev_attr.attr; 1300 attr = NULL; 1301 i++; 1302 } 1303 1304 return 0; 1305 } 1306 1307 /* Helper to create the bfperf sysfs sub-directories and files */ 1308 static int mlxbf_pmc_create_groups(struct device *dev, int blk_num) 1309 { 1310 int err; 1311 1312 /* Populate attributes based on counter type */ 1313 if (pmc->block[blk_num].type == MLXBF_PMC_TYPE_COUNTER) 1314 err = mlxbf_pmc_init_perftype_counter(dev, blk_num); 1315 else if (pmc->block[blk_num].type == MLXBF_PMC_TYPE_REGISTER) 1316 err = mlxbf_pmc_init_perftype_reg(dev, blk_num); 1317 else 1318 err = -EINVAL; 1319 1320 if (err) 1321 return err; 1322 1323 /* Add a new attribute_group for the block */ 1324 pmc->block[blk_num].block_attr_grp.attrs = pmc->block[blk_num].block_attr; 1325 pmc->block[blk_num].block_attr_grp.name = devm_kasprintf( 1326 dev, GFP_KERNEL, pmc->block_name[blk_num]); 1327 pmc->groups[blk_num] = &pmc->block[blk_num].block_attr_grp; 1328 1329 return 0; 1330 } 1331 1332 static bool mlxbf_pmc_guid_match(const guid_t *guid, 1333 const struct arm_smccc_res *res) 1334 { 1335 guid_t id = GUID_INIT(res->a0, res->a1, res->a1 >> 16, res->a2, 1336 res->a2 >> 8, res->a2 >> 16, res->a2 >> 24, 1337 res->a3, res->a3 >> 8, res->a3 >> 16, 1338 res->a3 >> 24); 1339 1340 return guid_equal(guid, &id); 1341 } 1342 1343 /* Helper to map the Performance Counters from the varios blocks */ 1344 static int mlxbf_pmc_map_counters(struct device *dev) 1345 { 1346 uint64_t info[MLXBF_PMC_INFO_SZ]; 1347 int i, tile_num, ret; 1348 1349 for (i = 0; i < pmc->total_blocks; ++i) { 1350 if (strstr(pmc->block_name[i], "tile")) { 1351 if (sscanf(pmc->block_name[i], "tile%d", &tile_num) != 1) 1352 return -EINVAL; 1353 1354 if (tile_num >= pmc->tile_count) 1355 continue; 1356 } 1357 ret = device_property_read_u64_array(dev, pmc->block_name[i], 1358 info, MLXBF_PMC_INFO_SZ); 1359 if (ret) 1360 return ret; 1361 1362 /* 1363 * Do not remap if the proper SMC calls are supported, 1364 * since the SMC calls expect physical addresses. 1365 */ 1366 if (pmc->svc_sreg_support) 1367 pmc->block[i].mmio_base = (void __iomem *)info[0]; 1368 else 1369 pmc->block[i].mmio_base = 1370 devm_ioremap(dev, info[0], info[1]); 1371 1372 pmc->block[i].blk_size = info[1]; 1373 pmc->block[i].counters = info[2]; 1374 pmc->block[i].type = info[3]; 1375 1376 if (!pmc->block[i].mmio_base) 1377 return -ENOMEM; 1378 1379 ret = mlxbf_pmc_create_groups(dev, i); 1380 if (ret) 1381 return ret; 1382 } 1383 1384 return 0; 1385 } 1386 1387 static int mlxbf_pmc_probe(struct platform_device *pdev) 1388 { 1389 struct acpi_device *acpi_dev = ACPI_COMPANION(&pdev->dev); 1390 const char *hid = acpi_device_hid(acpi_dev); 1391 struct device *dev = &pdev->dev; 1392 struct arm_smccc_res res; 1393 guid_t guid; 1394 int ret; 1395 1396 /* Ensure we have the UUID we expect for this service. */ 1397 arm_smccc_smc(MLXBF_PMC_SIP_SVC_UID, 0, 0, 0, 0, 0, 0, 0, &res); 1398 guid_parse(mlxbf_pmc_svc_uuid_str, &guid); 1399 if (!mlxbf_pmc_guid_match(&guid, &res)) 1400 return -ENODEV; 1401 1402 pmc = devm_kzalloc(dev, sizeof(struct mlxbf_pmc_context), GFP_KERNEL); 1403 if (!pmc) 1404 return -ENOMEM; 1405 1406 /* 1407 * ACPI indicates whether we use SMCs to access registers or not. 1408 * If sreg_tbl_perf is not present, just assume we're not using SMCs. 1409 */ 1410 ret = device_property_read_u32(dev, "sec_reg_block", 1411 &pmc->sreg_tbl_perf); 1412 if (ret) { 1413 pmc->svc_sreg_support = false; 1414 } else { 1415 /* 1416 * Check service version to see if we actually do support the 1417 * needed SMCs. If we have the calls we need, mark support for 1418 * them in the pmc struct. 1419 */ 1420 arm_smccc_smc(MLXBF_PMC_SIP_SVC_VERSION, 0, 0, 0, 0, 0, 0, 0, 1421 &res); 1422 if (res.a0 == MLXBF_PMC_SVC_REQ_MAJOR && 1423 res.a1 >= MLXBF_PMC_SVC_MIN_MINOR) 1424 pmc->svc_sreg_support = true; 1425 else 1426 return -EINVAL; 1427 } 1428 1429 if (!strcmp(hid, "MLNXBFD0")) 1430 pmc->event_set = MLXBF_PMC_EVENT_SET_BF1; 1431 else if (!strcmp(hid, "MLNXBFD1")) 1432 pmc->event_set = MLXBF_PMC_EVENT_SET_BF2; 1433 else 1434 return -ENODEV; 1435 1436 ret = device_property_read_u32(dev, "block_num", &pmc->total_blocks); 1437 if (ret) 1438 return ret; 1439 1440 ret = device_property_read_string_array(dev, "block_name", 1441 pmc->block_name, 1442 pmc->total_blocks); 1443 if (ret != pmc->total_blocks) 1444 return -EFAULT; 1445 1446 ret = device_property_read_u32(dev, "tile_num", &pmc->tile_count); 1447 if (ret) 1448 return ret; 1449 1450 pmc->pdev = pdev; 1451 1452 ret = mlxbf_pmc_map_counters(dev); 1453 if (ret) 1454 return ret; 1455 1456 pmc->hwmon_dev = devm_hwmon_device_register_with_groups( 1457 dev, "bfperf", pmc, pmc->groups); 1458 platform_set_drvdata(pdev, pmc); 1459 1460 return 0; 1461 } 1462 1463 static const struct acpi_device_id mlxbf_pmc_acpi_ids[] = { { "MLNXBFD0", 0 }, 1464 { "MLNXBFD1", 0 }, 1465 {}, }; 1466 1467 MODULE_DEVICE_TABLE(acpi, mlxbf_pmc_acpi_ids); 1468 static struct platform_driver pmc_driver = { 1469 .driver = { .name = "mlxbf-pmc", 1470 .acpi_match_table = ACPI_PTR(mlxbf_pmc_acpi_ids), }, 1471 .probe = mlxbf_pmc_probe, 1472 }; 1473 1474 module_platform_driver(pmc_driver); 1475 1476 MODULE_AUTHOR("Shravan Kumar Ramani <sramani@mellanox.com>"); 1477 MODULE_DESCRIPTION("Mellanox PMC driver"); 1478 MODULE_LICENSE("Dual BSD/GPL"); 1479