1 /* SPDX-License-Identifier: GPL-2.0-only */ 2 /* 3 * SCMI Message Protocol driver header 4 * 5 * Copyright (C) 2018-2021 ARM Ltd. 6 */ 7 8 #ifndef _LINUX_SCMI_PROTOCOL_H 9 #define _LINUX_SCMI_PROTOCOL_H 10 11 #include <linux/bitfield.h> 12 #include <linux/device.h> 13 #include <linux/notifier.h> 14 #include <linux/types.h> 15 16 #define SCMI_MAX_STR_SIZE 64 17 #define SCMI_SHORT_NAME_MAX_SIZE 16 18 #define SCMI_MAX_NUM_RATES 16 19 20 /** 21 * struct scmi_revision_info - version information structure 22 * 23 * @major_ver: Major ABI version. Change here implies risk of backward 24 * compatibility break. 25 * @minor_ver: Minor ABI version. Change here implies new feature addition, 26 * or compatible change in ABI. 27 * @num_protocols: Number of protocols that are implemented, excluding the 28 * base protocol. 29 * @num_agents: Number of agents in the system. 30 * @impl_ver: A vendor-specific implementation version. 31 * @vendor_id: A vendor identifier(Null terminated ASCII string) 32 * @sub_vendor_id: A sub-vendor identifier(Null terminated ASCII string) 33 */ 34 struct scmi_revision_info { 35 u16 major_ver; 36 u16 minor_ver; 37 u8 num_protocols; 38 u8 num_agents; 39 u32 impl_ver; 40 char vendor_id[SCMI_SHORT_NAME_MAX_SIZE]; 41 char sub_vendor_id[SCMI_SHORT_NAME_MAX_SIZE]; 42 }; 43 44 struct scmi_clock_info { 45 char name[SCMI_MAX_STR_SIZE]; 46 unsigned int enable_latency; 47 bool rate_discrete; 48 bool rate_changed_notifications; 49 bool rate_change_requested_notifications; 50 bool state_ctrl_forbidden; 51 bool rate_ctrl_forbidden; 52 bool parent_ctrl_forbidden; 53 bool extended_config; 54 union { 55 struct { 56 int num_rates; 57 u64 rates[SCMI_MAX_NUM_RATES]; 58 } list; 59 struct { 60 u64 min_rate; 61 u64 max_rate; 62 u64 step_size; 63 } range; 64 }; 65 int num_parents; 66 u32 *parents; 67 }; 68 69 enum scmi_power_scale { 70 SCMI_POWER_BOGOWATTS, 71 SCMI_POWER_MILLIWATTS, 72 SCMI_POWER_MICROWATTS 73 }; 74 75 struct scmi_handle; 76 struct scmi_device; 77 struct scmi_protocol_handle; 78 79 enum scmi_clock_oem_config { 80 SCMI_CLOCK_CFG_DUTY_CYCLE = 0x1, 81 SCMI_CLOCK_CFG_PHASE, 82 SCMI_CLOCK_CFG_OEM_START = 0x80, 83 SCMI_CLOCK_CFG_OEM_END = 0xFF, 84 }; 85 86 /** 87 * struct scmi_clk_proto_ops - represents the various operations provided 88 * by SCMI Clock Protocol 89 * 90 * @count_get: get the count of clocks provided by SCMI 91 * @info_get: get the information of the specified clock 92 * @rate_get: request the current clock rate of a clock 93 * @rate_set: set the clock rate of a clock 94 * @enable: enables the specified clock 95 * @disable: disables the specified clock 96 * @state_get: get the status of the specified clock 97 * @config_oem_get: get the value of an OEM specific clock config 98 * @config_oem_set: set the value of an OEM specific clock config 99 * @parent_get: get the parent id of a clk 100 * @parent_set: set the parent of a clock 101 */ 102 struct scmi_clk_proto_ops { 103 int (*count_get)(const struct scmi_protocol_handle *ph); 104 105 const struct scmi_clock_info __must_check *(*info_get) 106 (const struct scmi_protocol_handle *ph, u32 clk_id); 107 int (*rate_get)(const struct scmi_protocol_handle *ph, u32 clk_id, 108 u64 *rate); 109 int (*rate_set)(const struct scmi_protocol_handle *ph, u32 clk_id, 110 u64 rate); 111 int (*enable)(const struct scmi_protocol_handle *ph, u32 clk_id, 112 bool atomic); 113 int (*disable)(const struct scmi_protocol_handle *ph, u32 clk_id, 114 bool atomic); 115 int (*state_get)(const struct scmi_protocol_handle *ph, u32 clk_id, 116 bool *enabled, bool atomic); 117 int (*config_oem_get)(const struct scmi_protocol_handle *ph, u32 clk_id, 118 enum scmi_clock_oem_config oem_type, 119 u32 *oem_val, u32 *attributes, bool atomic); 120 int (*config_oem_set)(const struct scmi_protocol_handle *ph, u32 clk_id, 121 enum scmi_clock_oem_config oem_type, 122 u32 oem_val, bool atomic); 123 int (*parent_get)(const struct scmi_protocol_handle *ph, u32 clk_id, u32 *parent_id); 124 int (*parent_set)(const struct scmi_protocol_handle *ph, u32 clk_id, u32 parent_id); 125 }; 126 127 struct scmi_perf_domain_info { 128 char name[SCMI_MAX_STR_SIZE]; 129 bool set_perf; 130 }; 131 132 /** 133 * struct scmi_perf_proto_ops - represents the various operations provided 134 * by SCMI Performance Protocol 135 * 136 * @num_domains_get: gets the number of supported performance domains 137 * @info_get: get the information of a performance domain 138 * @limits_set: sets limits on the performance level of a domain 139 * @limits_get: gets limits on the performance level of a domain 140 * @level_set: sets the performance level of a domain 141 * @level_get: gets the performance level of a domain 142 * @transition_latency_get: gets the DVFS transition latency for a given device 143 * @rate_limit_get: gets the minimum time (us) required between successive 144 * requests 145 * @device_opps_add: adds all the OPPs for a given device 146 * @freq_set: sets the frequency for a given device using sustained frequency 147 * to sustained performance level mapping 148 * @freq_get: gets the frequency for a given device using sustained frequency 149 * to sustained performance level mapping 150 * @est_power_get: gets the estimated power cost for a given performance domain 151 * at a given frequency 152 * @fast_switch_possible: indicates if fast DVFS switching is possible or not 153 * for a given device 154 * @fast_switch_rate_limit: gets the minimum time (us) required between 155 * successive fast_switching requests 156 * @power_scale_mw_get: indicates if the power values provided are in milliWatts 157 * or in some other (abstract) scale 158 */ 159 struct scmi_perf_proto_ops { 160 int (*num_domains_get)(const struct scmi_protocol_handle *ph); 161 const struct scmi_perf_domain_info __must_check *(*info_get) 162 (const struct scmi_protocol_handle *ph, u32 domain); 163 int (*limits_set)(const struct scmi_protocol_handle *ph, u32 domain, 164 u32 max_perf, u32 min_perf); 165 int (*limits_get)(const struct scmi_protocol_handle *ph, u32 domain, 166 u32 *max_perf, u32 *min_perf); 167 int (*level_set)(const struct scmi_protocol_handle *ph, u32 domain, 168 u32 level, bool poll); 169 int (*level_get)(const struct scmi_protocol_handle *ph, u32 domain, 170 u32 *level, bool poll); 171 int (*transition_latency_get)(const struct scmi_protocol_handle *ph, 172 u32 domain); 173 int (*rate_limit_get)(const struct scmi_protocol_handle *ph, 174 u32 domain, u32 *rate_limit); 175 int (*device_opps_add)(const struct scmi_protocol_handle *ph, 176 struct device *dev, u32 domain); 177 int (*freq_set)(const struct scmi_protocol_handle *ph, u32 domain, 178 unsigned long rate, bool poll); 179 int (*freq_get)(const struct scmi_protocol_handle *ph, u32 domain, 180 unsigned long *rate, bool poll); 181 int (*est_power_get)(const struct scmi_protocol_handle *ph, u32 domain, 182 unsigned long *rate, unsigned long *power); 183 bool (*fast_switch_possible)(const struct scmi_protocol_handle *ph, 184 u32 domain); 185 int (*fast_switch_rate_limit)(const struct scmi_protocol_handle *ph, 186 u32 domain, u32 *rate_limit); 187 enum scmi_power_scale (*power_scale_get)(const struct scmi_protocol_handle *ph); 188 }; 189 190 /** 191 * struct scmi_power_proto_ops - represents the various operations provided 192 * by SCMI Power Protocol 193 * 194 * @num_domains_get: get the count of power domains provided by SCMI 195 * @name_get: gets the name of a power domain 196 * @state_set: sets the power state of a power domain 197 * @state_get: gets the power state of a power domain 198 */ 199 struct scmi_power_proto_ops { 200 int (*num_domains_get)(const struct scmi_protocol_handle *ph); 201 const char *(*name_get)(const struct scmi_protocol_handle *ph, 202 u32 domain); 203 #define SCMI_POWER_STATE_TYPE_SHIFT 30 204 #define SCMI_POWER_STATE_ID_MASK (BIT(28) - 1) 205 #define SCMI_POWER_STATE_PARAM(type, id) \ 206 ((((type) & BIT(0)) << SCMI_POWER_STATE_TYPE_SHIFT) | \ 207 ((id) & SCMI_POWER_STATE_ID_MASK)) 208 #define SCMI_POWER_STATE_GENERIC_ON SCMI_POWER_STATE_PARAM(0, 0) 209 #define SCMI_POWER_STATE_GENERIC_OFF SCMI_POWER_STATE_PARAM(1, 0) 210 int (*state_set)(const struct scmi_protocol_handle *ph, u32 domain, 211 u32 state); 212 int (*state_get)(const struct scmi_protocol_handle *ph, u32 domain, 213 u32 *state); 214 }; 215 216 /** 217 * struct scmi_sensor_reading - represent a timestamped read 218 * 219 * Used by @reading_get_timestamped method. 220 * 221 * @value: The signed value sensor read. 222 * @timestamp: An unsigned timestamp for the sensor read, as provided by 223 * SCMI platform. Set to zero when not available. 224 */ 225 struct scmi_sensor_reading { 226 long long value; 227 unsigned long long timestamp; 228 }; 229 230 /** 231 * struct scmi_range_attrs - specifies a sensor or axis values' range 232 * @min_range: The minimum value which can be represented by the sensor/axis. 233 * @max_range: The maximum value which can be represented by the sensor/axis. 234 */ 235 struct scmi_range_attrs { 236 long long min_range; 237 long long max_range; 238 }; 239 240 /** 241 * struct scmi_sensor_axis_info - describes one sensor axes 242 * @id: The axes ID. 243 * @type: Axes type. Chosen amongst one of @enum scmi_sensor_class. 244 * @scale: Power-of-10 multiplier applied to the axis unit. 245 * @name: NULL-terminated string representing axes name as advertised by 246 * SCMI platform. 247 * @extended_attrs: Flag to indicate the presence of additional extended 248 * attributes for this axes. 249 * @resolution: Extended attribute representing the resolution of the axes. 250 * Set to 0 if not reported by this axes. 251 * @exponent: Extended attribute representing the power-of-10 multiplier that 252 * is applied to the resolution field. Set to 0 if not reported by 253 * this axes. 254 * @attrs: Extended attributes representing minimum and maximum values 255 * measurable by this axes. Set to 0 if not reported by this sensor. 256 */ 257 struct scmi_sensor_axis_info { 258 unsigned int id; 259 unsigned int type; 260 int scale; 261 char name[SCMI_MAX_STR_SIZE]; 262 bool extended_attrs; 263 unsigned int resolution; 264 int exponent; 265 struct scmi_range_attrs attrs; 266 }; 267 268 /** 269 * struct scmi_sensor_intervals_info - describes number and type of available 270 * update intervals 271 * @segmented: Flag for segmented intervals' representation. When True there 272 * will be exactly 3 intervals in @desc, with each entry 273 * representing a member of a segment in this order: 274 * {lowest update interval, highest update interval, step size} 275 * @count: Number of intervals described in @desc. 276 * @desc: Array of @count interval descriptor bitmask represented as detailed in 277 * the SCMI specification: it can be accessed using the accompanying 278 * macros. 279 * @prealloc_pool: A minimal preallocated pool of desc entries used to avoid 280 * lesser-than-64-bytes dynamic allocation for small @count 281 * values. 282 */ 283 struct scmi_sensor_intervals_info { 284 bool segmented; 285 unsigned int count; 286 #define SCMI_SENS_INTVL_SEGMENT_LOW 0 287 #define SCMI_SENS_INTVL_SEGMENT_HIGH 1 288 #define SCMI_SENS_INTVL_SEGMENT_STEP 2 289 unsigned int *desc; 290 #define SCMI_SENS_INTVL_GET_SECS(x) FIELD_GET(GENMASK(20, 5), (x)) 291 #define SCMI_SENS_INTVL_GET_EXP(x) \ 292 ({ \ 293 int __signed_exp = FIELD_GET(GENMASK(4, 0), (x)); \ 294 \ 295 if (__signed_exp & BIT(4)) \ 296 __signed_exp |= GENMASK(31, 5); \ 297 __signed_exp; \ 298 }) 299 #define SCMI_MAX_PREALLOC_POOL 16 300 unsigned int prealloc_pool[SCMI_MAX_PREALLOC_POOL]; 301 }; 302 303 /** 304 * struct scmi_sensor_info - represents information related to one of the 305 * available sensors. 306 * @id: Sensor ID. 307 * @type: Sensor type. Chosen amongst one of @enum scmi_sensor_class. 308 * @scale: Power-of-10 multiplier applied to the sensor unit. 309 * @num_trip_points: Number of maximum configurable trip points. 310 * @async: Flag for asynchronous read support. 311 * @update: Flag for continuouos update notification support. 312 * @timestamped: Flag for timestamped read support. 313 * @tstamp_scale: Power-of-10 multiplier applied to the sensor timestamps to 314 * represent it in seconds. 315 * @num_axis: Number of supported axis if any. Reported as 0 for scalar sensors. 316 * @axis: Pointer to an array of @num_axis descriptors. 317 * @intervals: Descriptor of available update intervals. 318 * @sensor_config: A bitmask reporting the current sensor configuration as 319 * detailed in the SCMI specification: it can accessed and 320 * modified through the accompanying macros. 321 * @name: NULL-terminated string representing sensor name as advertised by 322 * SCMI platform. 323 * @extended_scalar_attrs: Flag to indicate the presence of additional extended 324 * attributes for this sensor. 325 * @sensor_power: Extended attribute representing the average power 326 * consumed by the sensor in microwatts (uW) when it is active. 327 * Reported here only for scalar sensors. 328 * Set to 0 if not reported by this sensor. 329 * @resolution: Extended attribute representing the resolution of the sensor. 330 * Reported here only for scalar sensors. 331 * Set to 0 if not reported by this sensor. 332 * @exponent: Extended attribute representing the power-of-10 multiplier that is 333 * applied to the resolution field. 334 * Reported here only for scalar sensors. 335 * Set to 0 if not reported by this sensor. 336 * @scalar_attrs: Extended attributes representing minimum and maximum 337 * measurable values by this sensor. 338 * Reported here only for scalar sensors. 339 * Set to 0 if not reported by this sensor. 340 */ 341 struct scmi_sensor_info { 342 unsigned int id; 343 unsigned int type; 344 int scale; 345 unsigned int num_trip_points; 346 bool async; 347 bool update; 348 bool timestamped; 349 int tstamp_scale; 350 unsigned int num_axis; 351 struct scmi_sensor_axis_info *axis; 352 struct scmi_sensor_intervals_info intervals; 353 unsigned int sensor_config; 354 #define SCMI_SENS_CFG_UPDATE_SECS_MASK GENMASK(31, 16) 355 #define SCMI_SENS_CFG_GET_UPDATE_SECS(x) \ 356 FIELD_GET(SCMI_SENS_CFG_UPDATE_SECS_MASK, (x)) 357 358 #define SCMI_SENS_CFG_UPDATE_EXP_MASK GENMASK(15, 11) 359 #define SCMI_SENS_CFG_GET_UPDATE_EXP(x) \ 360 ({ \ 361 int __signed_exp = \ 362 FIELD_GET(SCMI_SENS_CFG_UPDATE_EXP_MASK, (x)); \ 363 \ 364 if (__signed_exp & BIT(4)) \ 365 __signed_exp |= GENMASK(31, 5); \ 366 __signed_exp; \ 367 }) 368 369 #define SCMI_SENS_CFG_ROUND_MASK GENMASK(10, 9) 370 #define SCMI_SENS_CFG_ROUND_AUTO 2 371 #define SCMI_SENS_CFG_ROUND_UP 1 372 #define SCMI_SENS_CFG_ROUND_DOWN 0 373 374 #define SCMI_SENS_CFG_TSTAMP_ENABLED_MASK BIT(1) 375 #define SCMI_SENS_CFG_TSTAMP_ENABLE 1 376 #define SCMI_SENS_CFG_TSTAMP_DISABLE 0 377 #define SCMI_SENS_CFG_IS_TSTAMP_ENABLED(x) \ 378 FIELD_GET(SCMI_SENS_CFG_TSTAMP_ENABLED_MASK, (x)) 379 380 #define SCMI_SENS_CFG_SENSOR_ENABLED_MASK BIT(0) 381 #define SCMI_SENS_CFG_SENSOR_ENABLE 1 382 #define SCMI_SENS_CFG_SENSOR_DISABLE 0 383 char name[SCMI_MAX_STR_SIZE]; 384 #define SCMI_SENS_CFG_IS_ENABLED(x) FIELD_GET(BIT(0), (x)) 385 bool extended_scalar_attrs; 386 unsigned int sensor_power; 387 unsigned int resolution; 388 int exponent; 389 struct scmi_range_attrs scalar_attrs; 390 }; 391 392 /* 393 * Partial list from Distributed Management Task Force (DMTF) specification: 394 * DSP0249 (Platform Level Data Model specification) 395 */ 396 enum scmi_sensor_class { 397 NONE = 0x0, 398 UNSPEC = 0x1, 399 TEMPERATURE_C = 0x2, 400 TEMPERATURE_F = 0x3, 401 TEMPERATURE_K = 0x4, 402 VOLTAGE = 0x5, 403 CURRENT = 0x6, 404 POWER = 0x7, 405 ENERGY = 0x8, 406 CHARGE = 0x9, 407 VOLTAMPERE = 0xA, 408 NITS = 0xB, 409 LUMENS = 0xC, 410 LUX = 0xD, 411 CANDELAS = 0xE, 412 KPA = 0xF, 413 PSI = 0x10, 414 NEWTON = 0x11, 415 CFM = 0x12, 416 RPM = 0x13, 417 HERTZ = 0x14, 418 SECS = 0x15, 419 MINS = 0x16, 420 HOURS = 0x17, 421 DAYS = 0x18, 422 WEEKS = 0x19, 423 MILS = 0x1A, 424 INCHES = 0x1B, 425 FEET = 0x1C, 426 CUBIC_INCHES = 0x1D, 427 CUBIC_FEET = 0x1E, 428 METERS = 0x1F, 429 CUBIC_CM = 0x20, 430 CUBIC_METERS = 0x21, 431 LITERS = 0x22, 432 FLUID_OUNCES = 0x23, 433 RADIANS = 0x24, 434 STERADIANS = 0x25, 435 REVOLUTIONS = 0x26, 436 CYCLES = 0x27, 437 GRAVITIES = 0x28, 438 OUNCES = 0x29, 439 POUNDS = 0x2A, 440 FOOT_POUNDS = 0x2B, 441 OUNCE_INCHES = 0x2C, 442 GAUSS = 0x2D, 443 GILBERTS = 0x2E, 444 HENRIES = 0x2F, 445 FARADS = 0x30, 446 OHMS = 0x31, 447 SIEMENS = 0x32, 448 MOLES = 0x33, 449 BECQUERELS = 0x34, 450 PPM = 0x35, 451 DECIBELS = 0x36, 452 DBA = 0x37, 453 DBC = 0x38, 454 GRAYS = 0x39, 455 SIEVERTS = 0x3A, 456 COLOR_TEMP_K = 0x3B, 457 BITS = 0x3C, 458 BYTES = 0x3D, 459 WORDS = 0x3E, 460 DWORDS = 0x3F, 461 QWORDS = 0x40, 462 PERCENTAGE = 0x41, 463 PASCALS = 0x42, 464 COUNTS = 0x43, 465 GRAMS = 0x44, 466 NEWTON_METERS = 0x45, 467 HITS = 0x46, 468 MISSES = 0x47, 469 RETRIES = 0x48, 470 OVERRUNS = 0x49, 471 UNDERRUNS = 0x4A, 472 COLLISIONS = 0x4B, 473 PACKETS = 0x4C, 474 MESSAGES = 0x4D, 475 CHARS = 0x4E, 476 ERRORS = 0x4F, 477 CORRECTED_ERRS = 0x50, 478 UNCORRECTABLE_ERRS = 0x51, 479 SQ_MILS = 0x52, 480 SQ_INCHES = 0x53, 481 SQ_FEET = 0x54, 482 SQ_CM = 0x55, 483 SQ_METERS = 0x56, 484 RADIANS_SEC = 0x57, 485 BPM = 0x58, 486 METERS_SEC_SQUARED = 0x59, 487 METERS_SEC = 0x5A, 488 CUBIC_METERS_SEC = 0x5B, 489 MM_MERCURY = 0x5C, 490 RADIANS_SEC_SQUARED = 0x5D, 491 OEM_UNIT = 0xFF 492 }; 493 494 /** 495 * struct scmi_sensor_proto_ops - represents the various operations provided 496 * by SCMI Sensor Protocol 497 * 498 * @count_get: get the count of sensors provided by SCMI 499 * @info_get: get the information of the specified sensor 500 * @trip_point_config: selects and configures a trip-point of interest 501 * @reading_get: gets the current value of the sensor 502 * @reading_get_timestamped: gets the current value and timestamp, when 503 * available, of the sensor. (as of v3.0 spec) 504 * Supports multi-axis sensors for sensors which 505 * supports it and if the @reading array size of 506 * @count entry equals the sensor num_axis 507 * @config_get: Get sensor current configuration 508 * @config_set: Set sensor current configuration 509 */ 510 struct scmi_sensor_proto_ops { 511 int (*count_get)(const struct scmi_protocol_handle *ph); 512 const struct scmi_sensor_info __must_check *(*info_get) 513 (const struct scmi_protocol_handle *ph, u32 sensor_id); 514 int (*trip_point_config)(const struct scmi_protocol_handle *ph, 515 u32 sensor_id, u8 trip_id, u64 trip_value); 516 int (*reading_get)(const struct scmi_protocol_handle *ph, u32 sensor_id, 517 u64 *value); 518 int (*reading_get_timestamped)(const struct scmi_protocol_handle *ph, 519 u32 sensor_id, u8 count, 520 struct scmi_sensor_reading *readings); 521 int (*config_get)(const struct scmi_protocol_handle *ph, 522 u32 sensor_id, u32 *sensor_config); 523 int (*config_set)(const struct scmi_protocol_handle *ph, 524 u32 sensor_id, u32 sensor_config); 525 }; 526 527 /** 528 * struct scmi_reset_proto_ops - represents the various operations provided 529 * by SCMI Reset Protocol 530 * 531 * @num_domains_get: get the count of reset domains provided by SCMI 532 * @name_get: gets the name of a reset domain 533 * @latency_get: gets the reset latency for the specified reset domain 534 * @reset: resets the specified reset domain 535 * @assert: explicitly assert reset signal of the specified reset domain 536 * @deassert: explicitly deassert reset signal of the specified reset domain 537 */ 538 struct scmi_reset_proto_ops { 539 int (*num_domains_get)(const struct scmi_protocol_handle *ph); 540 const char *(*name_get)(const struct scmi_protocol_handle *ph, 541 u32 domain); 542 int (*latency_get)(const struct scmi_protocol_handle *ph, u32 domain); 543 int (*reset)(const struct scmi_protocol_handle *ph, u32 domain); 544 int (*assert)(const struct scmi_protocol_handle *ph, u32 domain); 545 int (*deassert)(const struct scmi_protocol_handle *ph, u32 domain); 546 }; 547 548 enum scmi_voltage_level_mode { 549 SCMI_VOLTAGE_LEVEL_SET_AUTO, 550 SCMI_VOLTAGE_LEVEL_SET_SYNC, 551 }; 552 553 /** 554 * struct scmi_voltage_info - describe one available SCMI Voltage Domain 555 * 556 * @id: the domain ID as advertised by the platform 557 * @segmented: defines the layout of the entries of array @levels_uv. 558 * - when True the entries are to be interpreted as triplets, 559 * each defining a segment representing a range of equally 560 * space voltages: <lowest_volts>, <highest_volt>, <step_uV> 561 * - when False the entries simply represent a single discrete 562 * supported voltage level 563 * @negative_volts_allowed: True if any of the entries of @levels_uv represent 564 * a negative voltage. 565 * @async_level_set: True when the voltage domain supports asynchronous level 566 * set commands. 567 * @name: name assigned to the Voltage Domain by platform 568 * @num_levels: number of total entries in @levels_uv. 569 * @levels_uv: array of entries describing the available voltage levels for 570 * this domain. 571 */ 572 struct scmi_voltage_info { 573 unsigned int id; 574 bool segmented; 575 bool negative_volts_allowed; 576 bool async_level_set; 577 char name[SCMI_MAX_STR_SIZE]; 578 unsigned int num_levels; 579 #define SCMI_VOLTAGE_SEGMENT_LOW 0 580 #define SCMI_VOLTAGE_SEGMENT_HIGH 1 581 #define SCMI_VOLTAGE_SEGMENT_STEP 2 582 int *levels_uv; 583 }; 584 585 /** 586 * struct scmi_voltage_proto_ops - represents the various operations provided 587 * by SCMI Voltage Protocol 588 * 589 * @num_domains_get: get the count of voltage domains provided by SCMI 590 * @info_get: get the information of the specified domain 591 * @config_set: set the config for the specified domain 592 * @config_get: get the config of the specified domain 593 * @level_set: set the voltage level for the specified domain 594 * @level_get: get the voltage level of the specified domain 595 */ 596 struct scmi_voltage_proto_ops { 597 int (*num_domains_get)(const struct scmi_protocol_handle *ph); 598 const struct scmi_voltage_info __must_check *(*info_get) 599 (const struct scmi_protocol_handle *ph, u32 domain_id); 600 int (*config_set)(const struct scmi_protocol_handle *ph, u32 domain_id, 601 u32 config); 602 #define SCMI_VOLTAGE_ARCH_STATE_OFF 0x0 603 #define SCMI_VOLTAGE_ARCH_STATE_ON 0x7 604 int (*config_get)(const struct scmi_protocol_handle *ph, u32 domain_id, 605 u32 *config); 606 int (*level_set)(const struct scmi_protocol_handle *ph, u32 domain_id, 607 enum scmi_voltage_level_mode mode, s32 volt_uV); 608 int (*level_get)(const struct scmi_protocol_handle *ph, u32 domain_id, 609 s32 *volt_uV); 610 }; 611 612 /** 613 * struct scmi_powercap_info - Describe one available Powercap domain 614 * 615 * @id: Domain ID as advertised by the platform. 616 * @notify_powercap_cap_change: CAP change notification support. 617 * @notify_powercap_measurement_change: MEASUREMENTS change notifications 618 * support. 619 * @async_powercap_cap_set: Asynchronous CAP set support. 620 * @powercap_cap_config: CAP configuration support. 621 * @powercap_monitoring: Monitoring (measurements) support. 622 * @powercap_pai_config: PAI configuration support. 623 * @powercap_scale_mw: Domain reports power data in milliwatt units. 624 * @powercap_scale_uw: Domain reports power data in microwatt units. 625 * Note that, when both @powercap_scale_mw and 626 * @powercap_scale_uw are set to false, the domain 627 * reports power data on an abstract linear scale. 628 * @name: name assigned to the Powercap Domain by platform. 629 * @min_pai: Minimum configurable PAI. 630 * @max_pai: Maximum configurable PAI. 631 * @pai_step: Step size between two consecutive PAI values. 632 * @min_power_cap: Minimum configurable CAP. 633 * @max_power_cap: Maximum configurable CAP. 634 * @power_cap_step: Step size between two consecutive CAP values. 635 * @sustainable_power: Maximum sustainable power consumption for this domain 636 * under normal conditions. 637 * @accuracy: The accuracy with which the power is measured and reported in 638 * integral multiples of 0.001 percent. 639 * @parent_id: Identifier of the containing parent power capping domain, or the 640 * value 0xFFFFFFFF if this powercap domain is a root domain not 641 * contained in any other domain. 642 */ 643 struct scmi_powercap_info { 644 unsigned int id; 645 bool notify_powercap_cap_change; 646 bool notify_powercap_measurement_change; 647 bool async_powercap_cap_set; 648 bool powercap_cap_config; 649 bool powercap_monitoring; 650 bool powercap_pai_config; 651 bool powercap_scale_mw; 652 bool powercap_scale_uw; 653 bool fastchannels; 654 char name[SCMI_MAX_STR_SIZE]; 655 unsigned int min_pai; 656 unsigned int max_pai; 657 unsigned int pai_step; 658 unsigned int min_power_cap; 659 unsigned int max_power_cap; 660 unsigned int power_cap_step; 661 unsigned int sustainable_power; 662 unsigned int accuracy; 663 #define SCMI_POWERCAP_ROOT_ZONE_ID 0xFFFFFFFFUL 664 unsigned int parent_id; 665 struct scmi_fc_info *fc_info; 666 }; 667 668 /** 669 * struct scmi_powercap_proto_ops - represents the various operations provided 670 * by SCMI Powercap Protocol 671 * 672 * @num_domains_get: get the count of powercap domains provided by SCMI. 673 * @info_get: get the information for the specified domain. 674 * @cap_get: get the current CAP value for the specified domain. 675 * On SCMI platforms supporting powercap zone disabling, this could 676 * report a zero value for a zone where powercapping is disabled. 677 * @cap_set: set the CAP value for the specified domain to the provided value; 678 * if the domain supports setting the CAP with an asynchronous command 679 * this request will finally trigger an asynchronous transfer, but, if 680 * @ignore_dresp here is set to true, this call will anyway return 681 * immediately without waiting for the related delayed response. 682 * Note that the powercap requested value must NOT be zero, even if 683 * the platform supports disabling a powercap by setting its cap to 684 * zero (since SCMI v3.2): there are dedicated operations that should 685 * be used for that. (@cap_enable_set/get) 686 * @cap_enable_set: enable or disable the powercapping on the specified domain, 687 * if supported by the SCMI platform implementation. 688 * Note that, by the SCMI specification, the platform can 689 * silently ignore our disable request and decide to enforce 690 * anyway some other powercap value requested by another agent 691 * on the system: for this reason @cap_get and @cap_enable_get 692 * will always report the final platform view of the powercaps. 693 * @cap_enable_get: get the current CAP enable status for the specified domain. 694 * @pai_get: get the current PAI value for the specified domain. 695 * @pai_set: set the PAI value for the specified domain to the provided value. 696 * @measurements_get: retrieve the current average power measurements for the 697 * specified domain and the related PAI upon which is 698 * calculated. 699 * @measurements_threshold_set: set the desired low and high power thresholds 700 * to be used when registering for notification 701 * of type POWERCAP_MEASUREMENTS_NOTIFY with this 702 * powercap domain. 703 * Note that this must be called at least once 704 * before registering any callback with the usual 705 * @scmi_notify_ops; moreover, in case this method 706 * is called with measurement notifications already 707 * enabled it will also trigger, transparently, a 708 * proper update of the power thresholds configured 709 * in the SCMI backend server. 710 * @measurements_threshold_get: get the currently configured low and high power 711 * thresholds used when registering callbacks for 712 * notification POWERCAP_MEASUREMENTS_NOTIFY. 713 */ 714 struct scmi_powercap_proto_ops { 715 int (*num_domains_get)(const struct scmi_protocol_handle *ph); 716 const struct scmi_powercap_info __must_check *(*info_get) 717 (const struct scmi_protocol_handle *ph, u32 domain_id); 718 int (*cap_get)(const struct scmi_protocol_handle *ph, u32 domain_id, 719 u32 *power_cap); 720 int (*cap_set)(const struct scmi_protocol_handle *ph, u32 domain_id, 721 u32 power_cap, bool ignore_dresp); 722 int (*cap_enable_set)(const struct scmi_protocol_handle *ph, 723 u32 domain_id, bool enable); 724 int (*cap_enable_get)(const struct scmi_protocol_handle *ph, 725 u32 domain_id, bool *enable); 726 int (*pai_get)(const struct scmi_protocol_handle *ph, u32 domain_id, 727 u32 *pai); 728 int (*pai_set)(const struct scmi_protocol_handle *ph, u32 domain_id, 729 u32 pai); 730 int (*measurements_get)(const struct scmi_protocol_handle *ph, 731 u32 domain_id, u32 *average_power, u32 *pai); 732 int (*measurements_threshold_set)(const struct scmi_protocol_handle *ph, 733 u32 domain_id, u32 power_thresh_low, 734 u32 power_thresh_high); 735 int (*measurements_threshold_get)(const struct scmi_protocol_handle *ph, 736 u32 domain_id, u32 *power_thresh_low, 737 u32 *power_thresh_high); 738 }; 739 740 enum scmi_pinctrl_selector_type { 741 PIN_TYPE = 0, 742 GROUP_TYPE, 743 FUNCTION_TYPE, 744 }; 745 746 enum scmi_pinctrl_conf_type { 747 SCMI_PIN_DEFAULT = 0, 748 SCMI_PIN_BIAS_BUS_HOLD = 1, 749 SCMI_PIN_BIAS_DISABLE = 2, 750 SCMI_PIN_BIAS_HIGH_IMPEDANCE = 3, 751 SCMI_PIN_BIAS_PULL_UP = 4, 752 SCMI_PIN_BIAS_PULL_DEFAULT = 5, 753 SCMI_PIN_BIAS_PULL_DOWN = 6, 754 SCMI_PIN_DRIVE_OPEN_DRAIN = 7, 755 SCMI_PIN_DRIVE_OPEN_SOURCE = 8, 756 SCMI_PIN_DRIVE_PUSH_PULL = 9, 757 SCMI_PIN_DRIVE_STRENGTH = 10, 758 SCMI_PIN_INPUT_DEBOUNCE = 11, 759 SCMI_PIN_INPUT_MODE = 12, 760 SCMI_PIN_PULL_MODE = 13, 761 SCMI_PIN_INPUT_VALUE = 14, 762 SCMI_PIN_INPUT_SCHMITT = 15, 763 SCMI_PIN_LOW_POWER_MODE = 16, 764 SCMI_PIN_OUTPUT_MODE = 17, 765 SCMI_PIN_OUTPUT_VALUE = 18, 766 SCMI_PIN_POWER_SOURCE = 19, 767 SCMI_PIN_SLEW_RATE = 20, 768 SCMI_PIN_OEM_START = 192, 769 SCMI_PIN_OEM_END = 255, 770 }; 771 772 /** 773 * struct scmi_pinctrl_proto_ops - represents the various operations provided 774 * by SCMI Pinctrl Protocol 775 * 776 * @count_get: returns count of the registered elements in given type 777 * @name_get: returns name by index of given type 778 * @group_pins_get: returns the set of pins, assigned to the specified group 779 * @function_groups_get: returns the set of groups, assigned to the specified 780 * function 781 * @mux_set: set muxing function for groups of pins 782 * @settings_get_one: returns one configuration parameter for pin or group 783 * specified by config_type 784 * @settings_get_all: returns all configuration parameters for pin or group 785 * @settings_conf: sets the configuration parameter for pin or group 786 * @pin_request: aquire pin before selecting mux setting 787 * @pin_free: frees pin, acquired by request_pin call 788 */ 789 struct scmi_pinctrl_proto_ops { 790 int (*count_get)(const struct scmi_protocol_handle *ph, 791 enum scmi_pinctrl_selector_type type); 792 int (*name_get)(const struct scmi_protocol_handle *ph, u32 selector, 793 enum scmi_pinctrl_selector_type type, 794 const char **name); 795 int (*group_pins_get)(const struct scmi_protocol_handle *ph, 796 u32 selector, const unsigned int **pins, 797 unsigned int *nr_pins); 798 int (*function_groups_get)(const struct scmi_protocol_handle *ph, 799 u32 selector, unsigned int *nr_groups, 800 const unsigned int **groups); 801 int (*mux_set)(const struct scmi_protocol_handle *ph, u32 selector, 802 u32 group); 803 int (*settings_get_one)(const struct scmi_protocol_handle *ph, 804 u32 selector, 805 enum scmi_pinctrl_selector_type type, 806 enum scmi_pinctrl_conf_type config_type, 807 u32 *config_value); 808 int (*settings_get_all)(const struct scmi_protocol_handle *ph, 809 u32 selector, 810 enum scmi_pinctrl_selector_type type, 811 unsigned int *nr_configs, 812 enum scmi_pinctrl_conf_type *config_types, 813 u32 *config_values); 814 int (*settings_conf)(const struct scmi_protocol_handle *ph, 815 u32 selector, enum scmi_pinctrl_selector_type type, 816 unsigned int nr_configs, 817 enum scmi_pinctrl_conf_type *config_type, 818 u32 *config_value); 819 int (*pin_request)(const struct scmi_protocol_handle *ph, u32 pin); 820 int (*pin_free)(const struct scmi_protocol_handle *ph, u32 pin); 821 }; 822 823 /** 824 * struct scmi_notify_ops - represents notifications' operations provided by 825 * SCMI core 826 * @devm_event_notifier_register: Managed registration of a notifier_block for 827 * the requested event 828 * @devm_event_notifier_unregister: Managed unregistration of a notifier_block 829 * for the requested event 830 * @event_notifier_register: Register a notifier_block for the requested event 831 * @event_notifier_unregister: Unregister a notifier_block for the requested 832 * event 833 * 834 * A user can register/unregister its own notifier_block against the wanted 835 * platform instance regarding the desired event identified by the 836 * tuple: (proto_id, evt_id, src_id) using the provided register/unregister 837 * interface where: 838 * 839 * @sdev: The scmi_device to use when calling the devres managed ops devm_ 840 * @handle: The handle identifying the platform instance to use, when not 841 * calling the managed ops devm_ 842 * @proto_id: The protocol ID as in SCMI Specification 843 * @evt_id: The message ID of the desired event as in SCMI Specification 844 * @src_id: A pointer to the desired source ID if different sources are 845 * possible for the protocol (like domain_id, sensor_id...etc) 846 * 847 * @src_id can be provided as NULL if it simply does NOT make sense for 848 * the protocol at hand, OR if the user is explicitly interested in 849 * receiving notifications from ANY existent source associated to the 850 * specified proto_id / evt_id. 851 * 852 * Received notifications are finally delivered to the registered users, 853 * invoking the callback provided with the notifier_block *nb as follows: 854 * 855 * int user_cb(nb, evt_id, report) 856 * 857 * with: 858 * 859 * @nb: The notifier block provided by the user 860 * @evt_id: The message ID of the delivered event 861 * @report: A custom struct describing the specific event delivered 862 */ 863 struct scmi_notify_ops { 864 int (*devm_event_notifier_register)(struct scmi_device *sdev, 865 u8 proto_id, u8 evt_id, 866 const u32 *src_id, 867 struct notifier_block *nb); 868 int (*devm_event_notifier_unregister)(struct scmi_device *sdev, 869 struct notifier_block *nb); 870 int (*event_notifier_register)(const struct scmi_handle *handle, 871 u8 proto_id, u8 evt_id, 872 const u32 *src_id, 873 struct notifier_block *nb); 874 int (*event_notifier_unregister)(const struct scmi_handle *handle, 875 u8 proto_id, u8 evt_id, 876 const u32 *src_id, 877 struct notifier_block *nb); 878 }; 879 880 /** 881 * struct scmi_handle - Handle returned to ARM SCMI clients for usage. 882 * 883 * @dev: pointer to the SCMI device 884 * @version: pointer to the structure containing SCMI version information 885 * @devm_protocol_acquire: devres managed method to get hold of a protocol, 886 * causing its initialization and related resource 887 * accounting 888 * @devm_protocol_get: devres managed method to acquire a protocol and get specific 889 * operations and a dedicated protocol handler 890 * @devm_protocol_put: devres managed method to release a protocol 891 * @is_transport_atomic: method to check if the underlying transport for this 892 * instance handle is configured to support atomic 893 * transactions for commands. 894 * Some users of the SCMI stack in the upper layers could 895 * be interested to know if they can assume SCMI 896 * command transactions associated to this handle will 897 * never sleep and act accordingly. 898 * An optional atomic threshold value could be returned 899 * where configured. 900 * @notify_ops: pointer to set of notifications related operations 901 */ 902 struct scmi_handle { 903 struct device *dev; 904 struct scmi_revision_info *version; 905 906 int __must_check (*devm_protocol_acquire)(struct scmi_device *sdev, 907 u8 proto); 908 const void __must_check * 909 (*devm_protocol_get)(struct scmi_device *sdev, u8 proto, 910 struct scmi_protocol_handle **ph); 911 void (*devm_protocol_put)(struct scmi_device *sdev, u8 proto); 912 bool (*is_transport_atomic)(const struct scmi_handle *handle, 913 unsigned int *atomic_threshold); 914 915 const struct scmi_notify_ops *notify_ops; 916 }; 917 918 enum scmi_std_protocol { 919 SCMI_PROTOCOL_BASE = 0x10, 920 SCMI_PROTOCOL_POWER = 0x11, 921 SCMI_PROTOCOL_SYSTEM = 0x12, 922 SCMI_PROTOCOL_PERF = 0x13, 923 SCMI_PROTOCOL_CLOCK = 0x14, 924 SCMI_PROTOCOL_SENSOR = 0x15, 925 SCMI_PROTOCOL_RESET = 0x16, 926 SCMI_PROTOCOL_VOLTAGE = 0x17, 927 SCMI_PROTOCOL_POWERCAP = 0x18, 928 SCMI_PROTOCOL_PINCTRL = 0x19, 929 }; 930 931 enum scmi_system_events { 932 SCMI_SYSTEM_SHUTDOWN, 933 SCMI_SYSTEM_COLDRESET, 934 SCMI_SYSTEM_WARMRESET, 935 SCMI_SYSTEM_POWERUP, 936 SCMI_SYSTEM_SUSPEND, 937 SCMI_SYSTEM_MAX 938 }; 939 940 struct scmi_device { 941 u32 id; 942 u8 protocol_id; 943 const char *name; 944 struct device dev; 945 struct scmi_handle *handle; 946 }; 947 948 #define to_scmi_dev(d) container_of_const(d, struct scmi_device, dev) 949 950 struct scmi_device_id { 951 u8 protocol_id; 952 const char *name; 953 }; 954 955 struct scmi_driver { 956 const char *name; 957 int (*probe)(struct scmi_device *sdev); 958 void (*remove)(struct scmi_device *sdev); 959 const struct scmi_device_id *id_table; 960 961 struct device_driver driver; 962 }; 963 964 #define to_scmi_driver(d) container_of(d, struct scmi_driver, driver) 965 966 #if IS_REACHABLE(CONFIG_ARM_SCMI_PROTOCOL) 967 int scmi_driver_register(struct scmi_driver *driver, 968 struct module *owner, const char *mod_name); 969 void scmi_driver_unregister(struct scmi_driver *driver); 970 #else 971 static inline int 972 scmi_driver_register(struct scmi_driver *driver, struct module *owner, 973 const char *mod_name) 974 { 975 return -EINVAL; 976 } 977 978 static inline void scmi_driver_unregister(struct scmi_driver *driver) {} 979 #endif /* CONFIG_ARM_SCMI_PROTOCOL */ 980 981 #define scmi_register(driver) \ 982 scmi_driver_register(driver, THIS_MODULE, KBUILD_MODNAME) 983 #define scmi_unregister(driver) \ 984 scmi_driver_unregister(driver) 985 986 /** 987 * module_scmi_driver() - Helper macro for registering a scmi driver 988 * @__scmi_driver: scmi_driver structure 989 * 990 * Helper macro for scmi drivers to set up proper module init / exit 991 * functions. Replaces module_init() and module_exit() and keeps people from 992 * printing pointless things to the kernel log when their driver is loaded. 993 */ 994 #define module_scmi_driver(__scmi_driver) \ 995 module_driver(__scmi_driver, scmi_register, scmi_unregister) 996 997 /** 998 * module_scmi_protocol() - Helper macro for registering a scmi protocol 999 * @__scmi_protocol: scmi_protocol structure 1000 * 1001 * Helper macro for scmi drivers to set up proper module init / exit 1002 * functions. Replaces module_init() and module_exit() and keeps people from 1003 * printing pointless things to the kernel log when their driver is loaded. 1004 */ 1005 #define module_scmi_protocol(__scmi_protocol) \ 1006 module_driver(__scmi_protocol, \ 1007 scmi_protocol_register, scmi_protocol_unregister) 1008 1009 struct scmi_protocol; 1010 int scmi_protocol_register(const struct scmi_protocol *proto); 1011 void scmi_protocol_unregister(const struct scmi_protocol *proto); 1012 1013 /* SCMI Notification API - Custom Event Reports */ 1014 enum scmi_notification_events { 1015 SCMI_EVENT_POWER_STATE_CHANGED = 0x0, 1016 SCMI_EVENT_CLOCK_RATE_CHANGED = 0x0, 1017 SCMI_EVENT_CLOCK_RATE_CHANGE_REQUESTED = 0x1, 1018 SCMI_EVENT_PERFORMANCE_LIMITS_CHANGED = 0x0, 1019 SCMI_EVENT_PERFORMANCE_LEVEL_CHANGED = 0x1, 1020 SCMI_EVENT_SENSOR_TRIP_POINT_EVENT = 0x0, 1021 SCMI_EVENT_SENSOR_UPDATE = 0x1, 1022 SCMI_EVENT_RESET_ISSUED = 0x0, 1023 SCMI_EVENT_BASE_ERROR_EVENT = 0x0, 1024 SCMI_EVENT_SYSTEM_POWER_STATE_NOTIFIER = 0x0, 1025 SCMI_EVENT_POWERCAP_CAP_CHANGED = 0x0, 1026 SCMI_EVENT_POWERCAP_MEASUREMENTS_CHANGED = 0x1, 1027 }; 1028 1029 struct scmi_power_state_changed_report { 1030 ktime_t timestamp; 1031 unsigned int agent_id; 1032 unsigned int domain_id; 1033 unsigned int power_state; 1034 }; 1035 1036 struct scmi_clock_rate_notif_report { 1037 ktime_t timestamp; 1038 unsigned int agent_id; 1039 unsigned int clock_id; 1040 unsigned long long rate; 1041 }; 1042 1043 struct scmi_system_power_state_notifier_report { 1044 ktime_t timestamp; 1045 unsigned int agent_id; 1046 #define SCMI_SYSPOWER_IS_REQUEST_GRACEFUL(flags) ((flags) & BIT(0)) 1047 unsigned int flags; 1048 unsigned int system_state; 1049 unsigned int timeout; 1050 }; 1051 1052 struct scmi_perf_limits_report { 1053 ktime_t timestamp; 1054 unsigned int agent_id; 1055 unsigned int domain_id; 1056 unsigned int range_max; 1057 unsigned int range_min; 1058 unsigned long range_max_freq; 1059 unsigned long range_min_freq; 1060 }; 1061 1062 struct scmi_perf_level_report { 1063 ktime_t timestamp; 1064 unsigned int agent_id; 1065 unsigned int domain_id; 1066 unsigned int performance_level; 1067 unsigned long performance_level_freq; 1068 }; 1069 1070 struct scmi_sensor_trip_point_report { 1071 ktime_t timestamp; 1072 unsigned int agent_id; 1073 unsigned int sensor_id; 1074 unsigned int trip_point_desc; 1075 }; 1076 1077 struct scmi_sensor_update_report { 1078 ktime_t timestamp; 1079 unsigned int agent_id; 1080 unsigned int sensor_id; 1081 unsigned int readings_count; 1082 struct scmi_sensor_reading readings[]; 1083 }; 1084 1085 struct scmi_reset_issued_report { 1086 ktime_t timestamp; 1087 unsigned int agent_id; 1088 unsigned int domain_id; 1089 unsigned int reset_state; 1090 }; 1091 1092 struct scmi_base_error_report { 1093 ktime_t timestamp; 1094 unsigned int agent_id; 1095 bool fatal; 1096 unsigned int cmd_count; 1097 unsigned long long reports[]; 1098 }; 1099 1100 struct scmi_powercap_cap_changed_report { 1101 ktime_t timestamp; 1102 unsigned int agent_id; 1103 unsigned int domain_id; 1104 unsigned int power_cap; 1105 unsigned int pai; 1106 }; 1107 1108 struct scmi_powercap_meas_changed_report { 1109 ktime_t timestamp; 1110 unsigned int agent_id; 1111 unsigned int domain_id; 1112 unsigned int power; 1113 }; 1114 #endif /* _LINUX_SCMI_PROTOCOL_H */ 1115