tjh.dev / kernel
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kernel / drivers / resctrl / mpam_internal.h
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1/* SPDX-License-Identifier: GPL-2.0 */ 2// Copyright (C) 2025 Arm Ltd. 3 4#ifndef MPAM_INTERNAL_H 5#define MPAM_INTERNAL_H 6 7#include <linux/arm_mpam.h> 8#include <linux/atomic.h> 9#include <linux/bitmap.h> 10#include <linux/cpumask.h> 11#include <linux/io.h> 12#include <linux/jump_label.h> 13#include <linux/llist.h> 14#include <linux/mutex.h> 15#include <linux/srcu.h> 16#include <linux/spinlock.h> 17#include <linux/srcu.h> 18#include <linux/types.h> 19 20#define MPAM_MSC_MAX_NUM_RIS 16 21 22struct platform_device; 23 24DECLARE_STATIC_KEY_FALSE(mpam_enabled); 25 26#ifdef CONFIG_MPAM_KUNIT_TEST 27#define PACKED_FOR_KUNIT __packed 28#else 29#define PACKED_FOR_KUNIT 30#endif 31 32static inline bool mpam_is_enabled(void) 33{ 34 return static_branch_likely(&mpam_enabled); 35} 36 37/* 38 * Structures protected by SRCU may not be freed for a surprising amount of 39 * time (especially if perf is running). To ensure the MPAM error interrupt can 40 * tear down all the structures, build a list of objects that can be garbage 41 * collected once synchronize_srcu() has returned. 42 * If pdev is non-NULL, use devm_kfree(). 43 */ 44struct mpam_garbage { 45 /* member of mpam_garbage */ 46 struct llist_node llist; 47 48 void *to_free; 49 struct platform_device *pdev; 50}; 51 52struct mpam_msc { 53 /* member of mpam_all_msc */ 54 struct list_head all_msc_list; 55 56 int id; 57 struct platform_device *pdev; 58 59 /* Not modified after mpam_is_enabled() becomes true */ 60 enum mpam_msc_iface iface; 61 u32 nrdy_usec; 62 cpumask_t accessibility; 63 bool has_extd_esr; 64 65 int reenable_error_ppi; 66 struct mpam_msc * __percpu *error_dev_id; 67 68 atomic_t online_refs; 69 70 /* 71 * probe_lock is only taken during discovery. After discovery these 72 * properties become read-only and the lists are protected by SRCU. 73 */ 74 struct mutex probe_lock; 75 bool probed; 76 u16 partid_max; 77 u8 pmg_max; 78 unsigned long ris_idxs; 79 u32 ris_max; 80 81 /* 82 * error_irq_lock is taken when registering/unregistering the error 83 * interrupt and maniupulating the below flags. 84 */ 85 struct mutex error_irq_lock; 86 bool error_irq_req; 87 bool error_irq_hw_enabled; 88 89 /* mpam_msc_ris of this component */ 90 struct list_head ris; 91 92 /* 93 * part_sel_lock protects access to the MSC hardware registers that are 94 * affected by MPAMCFG_PART_SEL. (including the ID registers that vary 95 * by RIS). 96 * If needed, take msc->probe_lock first. 97 */ 98 struct mutex part_sel_lock; 99 100 /* 101 * cfg_lock protects the msc configuration and guards against mbwu_state 102 * save and restore racing. 103 */ 104 struct mutex cfg_lock; 105 106 /* 107 * mon_sel_lock protects access to the MSC hardware registers that are 108 * affected by MPAMCFG_MON_SEL, and the mbwu_state. 109 * Access to mon_sel is needed from both process and interrupt contexts, 110 * but is complicated by firmware-backed platforms that can't make any 111 * access unless they can sleep. 112 * Always use the mpam_mon_sel_lock() helpers. 113 * Accesses to mon_sel need to be able to fail if they occur in the wrong 114 * context. 115 * If needed, take msc->probe_lock first. 116 */ 117 raw_spinlock_t _mon_sel_lock; 118 unsigned long _mon_sel_flags; 119 120 void __iomem *mapped_hwpage; 121 size_t mapped_hwpage_sz; 122 123 struct mpam_garbage garbage; 124}; 125 126/* Returning false here means accesses to mon_sel must fail and report an error. */ 127static inline bool __must_check mpam_mon_sel_lock(struct mpam_msc *msc) 128{ 129 /* Locking will require updating to support a firmware backed interface */ 130 if (WARN_ON_ONCE(msc->iface != MPAM_IFACE_MMIO)) 131 return false; 132 133 raw_spin_lock_irqsave(&msc->_mon_sel_lock, msc->_mon_sel_flags); 134 return true; 135} 136 137static inline void mpam_mon_sel_unlock(struct mpam_msc *msc) 138{ 139 raw_spin_unlock_irqrestore(&msc->_mon_sel_lock, msc->_mon_sel_flags); 140} 141 142static inline void mpam_mon_sel_lock_held(struct mpam_msc *msc) 143{ 144 lockdep_assert_held_once(&msc->_mon_sel_lock); 145} 146 147static inline void mpam_mon_sel_lock_init(struct mpam_msc *msc) 148{ 149 raw_spin_lock_init(&msc->_mon_sel_lock); 150} 151 152/* Bits for mpam features bitmaps */ 153enum mpam_device_features { 154 mpam_feat_cpor_part, 155 mpam_feat_cmax_softlim, 156 mpam_feat_cmax_cmax, 157 mpam_feat_cmax_cmin, 158 mpam_feat_cmax_cassoc, 159 mpam_feat_mbw_part, 160 mpam_feat_mbw_min, 161 mpam_feat_mbw_max, 162 mpam_feat_mbw_prop, 163 mpam_feat_intpri_part, 164 mpam_feat_intpri_part_0_low, 165 mpam_feat_dspri_part, 166 mpam_feat_dspri_part_0_low, 167 mpam_feat_msmon, 168 mpam_feat_msmon_csu, 169 mpam_feat_msmon_csu_capture, 170 mpam_feat_msmon_csu_xcl, 171 mpam_feat_msmon_csu_hw_nrdy, 172 mpam_feat_msmon_mbwu, 173 mpam_feat_msmon_mbwu_31counter, 174 mpam_feat_msmon_mbwu_44counter, 175 mpam_feat_msmon_mbwu_63counter, 176 mpam_feat_msmon_mbwu_capture, 177 mpam_feat_msmon_mbwu_rwbw, 178 mpam_feat_msmon_mbwu_hw_nrdy, 179 mpam_feat_partid_nrw, 180 MPAM_FEATURE_LAST 181}; 182 183struct mpam_props { 184 DECLARE_BITMAP(features, MPAM_FEATURE_LAST); 185 186 u16 cpbm_wd; 187 u16 mbw_pbm_bits; 188 u16 bwa_wd; 189 u16 cmax_wd; 190 u16 cassoc_wd; 191 u16 intpri_wd; 192 u16 dspri_wd; 193 u16 num_csu_mon; 194 u16 num_mbwu_mon; 195 196/* 197 * Kunit tests use memset() to set up feature combinations that should be 198 * removed, and will false-positive if the compiler introduces padding that 199 * isn't cleared during sanitisation. 200 */ 201} PACKED_FOR_KUNIT; 202 203#define mpam_has_feature(_feat, x) test_bit(_feat, (x)->features) 204#define mpam_set_feature(_feat, x) set_bit(_feat, (x)->features) 205#define mpam_clear_feature(_feat, x) clear_bit(_feat, (x)->features) 206 207/* The values for MSMON_CFG_MBWU_FLT.RWBW */ 208enum mon_filter_options { 209 COUNT_BOTH = 0, 210 COUNT_WRITE = 1, 211 COUNT_READ = 2, 212}; 213 214struct mon_cfg { 215 u16 mon; 216 u8 pmg; 217 bool match_pmg; 218 bool csu_exclude_clean; 219 u32 partid; 220 enum mon_filter_options opts; 221}; 222 223/* Changes to msmon_mbwu_state are protected by the msc's mon_sel_lock. */ 224struct msmon_mbwu_state { 225 bool enabled; 226 bool reset_on_next_read; 227 struct mon_cfg cfg; 228 229 /* 230 * The value to add to the new reading to account for power management, 231 * and overflow. 232 */ 233 u64 correction; 234 235 struct mpam_garbage garbage; 236}; 237 238struct mpam_class { 239 /* mpam_components in this class */ 240 struct list_head components; 241 242 cpumask_t affinity; 243 244 struct mpam_props props; 245 u32 nrdy_usec; 246 u8 level; 247 enum mpam_class_types type; 248 249 /* member of mpam_classes */ 250 struct list_head classes_list; 251 252 struct ida ida_csu_mon; 253 struct ida ida_mbwu_mon; 254 255 struct mpam_garbage garbage; 256}; 257 258struct mpam_config { 259 /* Which configuration values are valid. */ 260 DECLARE_BITMAP(features, MPAM_FEATURE_LAST); 261 262 u32 cpbm; 263 u32 mbw_pbm; 264 u16 mbw_max; 265 266 bool reset_cpbm; 267 bool reset_mbw_pbm; 268 bool reset_mbw_max; 269 270 struct mpam_garbage garbage; 271}; 272 273struct mpam_component { 274 u32 comp_id; 275 276 /* mpam_vmsc in this component */ 277 struct list_head vmsc; 278 279 cpumask_t affinity; 280 281 /* 282 * Array of configuration values, indexed by partid. 283 * Read from cpuhp callbacks, hold the cpuhp lock when writing. 284 */ 285 struct mpam_config *cfg; 286 287 /* member of mpam_class:components */ 288 struct list_head class_list; 289 290 /* parent: */ 291 struct mpam_class *class; 292 293 struct mpam_garbage garbage; 294}; 295 296struct mpam_vmsc { 297 /* member of mpam_component:vmsc_list */ 298 struct list_head comp_list; 299 300 /* mpam_msc_ris in this vmsc */ 301 struct list_head ris; 302 303 struct mpam_props props; 304 305 /* All RIS in this vMSC are members of this MSC */ 306 struct mpam_msc *msc; 307 308 /* parent: */ 309 struct mpam_component *comp; 310 311 struct mpam_garbage garbage; 312}; 313 314struct mpam_msc_ris { 315 u8 ris_idx; 316 u64 idr; 317 struct mpam_props props; 318 bool in_reset_state; 319 320 cpumask_t affinity; 321 322 /* member of mpam_vmsc:ris */ 323 struct list_head vmsc_list; 324 325 /* member of mpam_msc:ris */ 326 struct list_head msc_list; 327 328 /* parent: */ 329 struct mpam_vmsc *vmsc; 330 331 /* msmon mbwu configuration is preserved over reset */ 332 struct msmon_mbwu_state *mbwu_state; 333 334 struct mpam_garbage garbage; 335}; 336 337static inline int mpam_alloc_csu_mon(struct mpam_class *class) 338{ 339 struct mpam_props *cprops = &class->props; 340 341 if (!mpam_has_feature(mpam_feat_msmon_csu, cprops)) 342 return -EOPNOTSUPP; 343 344 return ida_alloc_max(&class->ida_csu_mon, cprops->num_csu_mon - 1, 345 GFP_KERNEL); 346} 347 348static inline void mpam_free_csu_mon(struct mpam_class *class, int csu_mon) 349{ 350 ida_free(&class->ida_csu_mon, csu_mon); 351} 352 353static inline int mpam_alloc_mbwu_mon(struct mpam_class *class) 354{ 355 struct mpam_props *cprops = &class->props; 356 357 if (!mpam_has_feature(mpam_feat_msmon_mbwu, cprops)) 358 return -EOPNOTSUPP; 359 360 return ida_alloc_max(&class->ida_mbwu_mon, cprops->num_mbwu_mon - 1, 361 GFP_KERNEL); 362} 363 364static inline void mpam_free_mbwu_mon(struct mpam_class *class, int mbwu_mon) 365{ 366 ida_free(&class->ida_mbwu_mon, mbwu_mon); 367} 368 369/* List of all classes - protected by srcu*/ 370extern struct srcu_struct mpam_srcu; 371extern struct list_head mpam_classes; 372 373/* System wide partid/pmg values */ 374extern u16 mpam_partid_max; 375extern u8 mpam_pmg_max; 376 377/* Scheduled work callback to enable mpam once all MSC have been probed */ 378void mpam_enable(struct work_struct *work); 379void mpam_disable(struct work_struct *work); 380 381int mpam_apply_config(struct mpam_component *comp, u16 partid, 382 struct mpam_config *cfg); 383 384int mpam_msmon_read(struct mpam_component *comp, struct mon_cfg *ctx, 385 enum mpam_device_features, u64 *val); 386void mpam_msmon_reset_mbwu(struct mpam_component *comp, struct mon_cfg *ctx); 387 388int mpam_get_cpumask_from_cache_id(unsigned long cache_id, u32 cache_level, 389 cpumask_t *affinity); 390 391/* 392 * MPAM MSCs have the following register layout. See: 393 * Arm Memory System Resource Partitioning and Monitoring (MPAM) System 394 * Component Specification. 395 * https://developer.arm.com/documentation/ihi0099/aa/ 396 */ 397#define MPAM_ARCHITECTURE_V1 0x10 398 399/* Memory mapped control pages */ 400/* ID Register offsets in the memory mapped page */ 401#define MPAMF_IDR 0x0000 /* features id register */ 402#define MPAMF_IIDR 0x0018 /* implementer id register */ 403#define MPAMF_AIDR 0x0020 /* architectural id register */ 404#define MPAMF_IMPL_IDR 0x0028 /* imp-def partitioning */ 405#define MPAMF_CPOR_IDR 0x0030 /* cache-portion partitioning */ 406#define MPAMF_CCAP_IDR 0x0038 /* cache-capacity partitioning */ 407#define MPAMF_MBW_IDR 0x0040 /* mem-bw partitioning */ 408#define MPAMF_PRI_IDR 0x0048 /* priority partitioning */ 409#define MPAMF_MSMON_IDR 0x0080 /* performance monitoring features */ 410#define MPAMF_CSUMON_IDR 0x0088 /* cache-usage monitor */ 411#define MPAMF_MBWUMON_IDR 0x0090 /* mem-bw usage monitor */ 412#define MPAMF_PARTID_NRW_IDR 0x0050 /* partid-narrowing */ 413 414/* Configuration and Status Register offsets in the memory mapped page */ 415#define MPAMCFG_PART_SEL 0x0100 /* partid to configure */ 416#define MPAMCFG_CPBM 0x1000 /* cache-portion config */ 417#define MPAMCFG_CMAX 0x0108 /* cache-capacity config */ 418#define MPAMCFG_CMIN 0x0110 /* cache-capacity config */ 419#define MPAMCFG_CASSOC 0x0118 /* cache-associativity config */ 420#define MPAMCFG_MBW_MIN 0x0200 /* min mem-bw config */ 421#define MPAMCFG_MBW_MAX 0x0208 /* max mem-bw config */ 422#define MPAMCFG_MBW_WINWD 0x0220 /* mem-bw accounting window config */ 423#define MPAMCFG_MBW_PBM 0x2000 /* mem-bw portion bitmap config */ 424#define MPAMCFG_PRI 0x0400 /* priority partitioning config */ 425#define MPAMCFG_MBW_PROP 0x0500 /* mem-bw stride config */ 426#define MPAMCFG_INTPARTID 0x0600 /* partid-narrowing config */ 427 428#define MSMON_CFG_MON_SEL 0x0800 /* monitor selector */ 429#define MSMON_CFG_CSU_FLT 0x0810 /* cache-usage monitor filter */ 430#define MSMON_CFG_CSU_CTL 0x0818 /* cache-usage monitor config */ 431#define MSMON_CFG_MBWU_FLT 0x0820 /* mem-bw monitor filter */ 432#define MSMON_CFG_MBWU_CTL 0x0828 /* mem-bw monitor config */ 433#define MSMON_CSU 0x0840 /* current cache-usage */ 434#define MSMON_CSU_CAPTURE 0x0848 /* last cache-usage value captured */ 435#define MSMON_MBWU 0x0860 /* current mem-bw usage value */ 436#define MSMON_MBWU_CAPTURE 0x0868 /* last mem-bw value captured */ 437#define MSMON_MBWU_L 0x0880 /* current long mem-bw usage value */ 438#define MSMON_MBWU_L_CAPTURE 0x0890 /* last long mem-bw value captured */ 439#define MSMON_CAPT_EVNT 0x0808 /* signal a capture event */ 440#define MPAMF_ESR 0x00F8 /* error status register */ 441#define MPAMF_ECR 0x00F0 /* error control register */ 442 443/* MPAMF_IDR - MPAM features ID register */ 444#define MPAMF_IDR_PARTID_MAX GENMASK(15, 0) 445#define MPAMF_IDR_PMG_MAX GENMASK(23, 16) 446#define MPAMF_IDR_HAS_CCAP_PART BIT(24) 447#define MPAMF_IDR_HAS_CPOR_PART BIT(25) 448#define MPAMF_IDR_HAS_MBW_PART BIT(26) 449#define MPAMF_IDR_HAS_PRI_PART BIT(27) 450#define MPAMF_IDR_EXT BIT(28) 451#define MPAMF_IDR_HAS_IMPL_IDR BIT(29) 452#define MPAMF_IDR_HAS_MSMON BIT(30) 453#define MPAMF_IDR_HAS_PARTID_NRW BIT(31) 454#define MPAMF_IDR_HAS_RIS BIT(32) 455#define MPAMF_IDR_HAS_EXTD_ESR BIT(38) 456#define MPAMF_IDR_HAS_ESR BIT(39) 457#define MPAMF_IDR_RIS_MAX GENMASK(59, 56) 458 459/* MPAMF_MSMON_IDR - MPAM performance monitoring ID register */ 460#define MPAMF_MSMON_IDR_MSMON_CSU BIT(16) 461#define MPAMF_MSMON_IDR_MSMON_MBWU BIT(17) 462#define MPAMF_MSMON_IDR_HAS_LOCAL_CAPT_EVNT BIT(31) 463 464/* MPAMF_CPOR_IDR - MPAM features cache portion partitioning ID register */ 465#define MPAMF_CPOR_IDR_CPBM_WD GENMASK(15, 0) 466 467/* MPAMF_CCAP_IDR - MPAM features cache capacity partitioning ID register */ 468#define MPAMF_CCAP_IDR_CMAX_WD GENMASK(5, 0) 469#define MPAMF_CCAP_IDR_CASSOC_WD GENMASK(12, 8) 470#define MPAMF_CCAP_IDR_HAS_CASSOC BIT(28) 471#define MPAMF_CCAP_IDR_HAS_CMIN BIT(29) 472#define MPAMF_CCAP_IDR_NO_CMAX BIT(30) 473#define MPAMF_CCAP_IDR_HAS_CMAX_SOFTLIM BIT(31) 474 475/* MPAMF_MBW_IDR - MPAM features memory bandwidth partitioning ID register */ 476#define MPAMF_MBW_IDR_BWA_WD GENMASK(5, 0) 477#define MPAMF_MBW_IDR_HAS_MIN BIT(10) 478#define MPAMF_MBW_IDR_HAS_MAX BIT(11) 479#define MPAMF_MBW_IDR_HAS_PBM BIT(12) 480#define MPAMF_MBW_IDR_HAS_PROP BIT(13) 481#define MPAMF_MBW_IDR_WINDWR BIT(14) 482#define MPAMF_MBW_IDR_BWPBM_WD GENMASK(28, 16) 483 484/* MPAMF_PRI_IDR - MPAM features priority partitioning ID register */ 485#define MPAMF_PRI_IDR_HAS_INTPRI BIT(0) 486#define MPAMF_PRI_IDR_INTPRI_0_IS_LOW BIT(1) 487#define MPAMF_PRI_IDR_INTPRI_WD GENMASK(9, 4) 488#define MPAMF_PRI_IDR_HAS_DSPRI BIT(16) 489#define MPAMF_PRI_IDR_DSPRI_0_IS_LOW BIT(17) 490#define MPAMF_PRI_IDR_DSPRI_WD GENMASK(25, 20) 491 492/* MPAMF_CSUMON_IDR - MPAM cache storage usage monitor ID register */ 493#define MPAMF_CSUMON_IDR_NUM_MON GENMASK(15, 0) 494#define MPAMF_CSUMON_IDR_HAS_OFLOW_CAPT BIT(24) 495#define MPAMF_CSUMON_IDR_HAS_CEVNT_OFLW BIT(25) 496#define MPAMF_CSUMON_IDR_HAS_OFSR BIT(26) 497#define MPAMF_CSUMON_IDR_HAS_OFLOW_LNKG BIT(27) 498#define MPAMF_CSUMON_IDR_HAS_XCL BIT(29) 499#define MPAMF_CSUMON_IDR_CSU_RO BIT(30) 500#define MPAMF_CSUMON_IDR_HAS_CAPTURE BIT(31) 501 502/* MPAMF_MBWUMON_IDR - MPAM memory bandwidth usage monitor ID register */ 503#define MPAMF_MBWUMON_IDR_NUM_MON GENMASK(15, 0) 504#define MPAMF_MBWUMON_IDR_HAS_RWBW BIT(28) 505#define MPAMF_MBWUMON_IDR_LWD BIT(29) 506#define MPAMF_MBWUMON_IDR_HAS_LONG BIT(30) 507#define MPAMF_MBWUMON_IDR_HAS_CAPTURE BIT(31) 508 509/* MPAMF_PARTID_NRW_IDR - MPAM PARTID narrowing ID register */ 510#define MPAMF_PARTID_NRW_IDR_INTPARTID_MAX GENMASK(15, 0) 511 512/* MPAMF_IIDR - MPAM implementation ID register */ 513#define MPAMF_IIDR_IMPLEMENTER GENMASK(11, 0) 514#define MPAMF_IIDR_REVISION GENMASK(15, 12) 515#define MPAMF_IIDR_VARIANT GENMASK(19, 16) 516#define MPAMF_IIDR_PRODUCTID GENMASK(31, 20) 517 518/* MPAMF_AIDR - MPAM architecture ID register */ 519#define MPAMF_AIDR_ARCH_MINOR_REV GENMASK(3, 0) 520#define MPAMF_AIDR_ARCH_MAJOR_REV GENMASK(7, 4) 521 522/* MPAMCFG_PART_SEL - MPAM partition configuration selection register */ 523#define MPAMCFG_PART_SEL_PARTID_SEL GENMASK(15, 0) 524#define MPAMCFG_PART_SEL_INTERNAL BIT(16) 525#define MPAMCFG_PART_SEL_RIS GENMASK(27, 24) 526 527/* MPAMCFG_CASSOC - MPAM cache maximum associativity partition configuration register */ 528#define MPAMCFG_CASSOC_CASSOC GENMASK(15, 0) 529 530/* MPAMCFG_CMAX - MPAM cache capacity configuration register */ 531#define MPAMCFG_CMAX_SOFTLIM BIT(31) 532#define MPAMCFG_CMAX_CMAX GENMASK(15, 0) 533 534/* MPAMCFG_CMIN - MPAM cache capacity configuration register */ 535#define MPAMCFG_CMIN_CMIN GENMASK(15, 0) 536 537/* 538 * MPAMCFG_MBW_MIN - MPAM memory minimum bandwidth partitioning configuration 539 * register 540 */ 541#define MPAMCFG_MBW_MIN_MIN GENMASK(15, 0) 542 543/* 544 * MPAMCFG_MBW_MAX - MPAM memory maximum bandwidth partitioning configuration 545 * register 546 */ 547#define MPAMCFG_MBW_MAX_MAX GENMASK(15, 0) 548#define MPAMCFG_MBW_MAX_HARDLIM BIT(31) 549 550/* 551 * MPAMCFG_MBW_WINWD - MPAM memory bandwidth partitioning window width 552 * register 553 */ 554#define MPAMCFG_MBW_WINWD_US_FRAC GENMASK(7, 0) 555#define MPAMCFG_MBW_WINWD_US_INT GENMASK(23, 8) 556 557/* MPAMCFG_PRI - MPAM priority partitioning configuration register */ 558#define MPAMCFG_PRI_INTPRI GENMASK(15, 0) 559#define MPAMCFG_PRI_DSPRI GENMASK(31, 16) 560 561/* 562 * MPAMCFG_MBW_PROP - Memory bandwidth proportional stride partitioning 563 * configuration register 564 */ 565#define MPAMCFG_MBW_PROP_STRIDEM1 GENMASK(15, 0) 566#define MPAMCFG_MBW_PROP_EN BIT(31) 567 568/* 569 * MPAMCFG_INTPARTID - MPAM internal partition narrowing configuration register 570 */ 571#define MPAMCFG_INTPARTID_INTPARTID GENMASK(15, 0) 572#define MPAMCFG_INTPARTID_INTERNAL BIT(16) 573 574/* MSMON_CFG_MON_SEL - Memory system performance monitor selection register */ 575#define MSMON_CFG_MON_SEL_MON_SEL GENMASK(15, 0) 576#define MSMON_CFG_MON_SEL_RIS GENMASK(27, 24) 577 578/* MPAMF_ESR - MPAM Error Status Register */ 579#define MPAMF_ESR_PARTID_MON GENMASK(15, 0) 580#define MPAMF_ESR_PMG GENMASK(23, 16) 581#define MPAMF_ESR_ERRCODE GENMASK(27, 24) 582#define MPAMF_ESR_OVRWR BIT(31) 583#define MPAMF_ESR_RIS GENMASK(35, 32) 584 585/* MPAMF_ECR - MPAM Error Control Register */ 586#define MPAMF_ECR_INTEN BIT(0) 587 588/* Error conditions in accessing memory mapped registers */ 589#define MPAM_ERRCODE_NONE 0 590#define MPAM_ERRCODE_PARTID_SEL_RANGE 1 591#define MPAM_ERRCODE_REQ_PARTID_RANGE 2 592#define MPAM_ERRCODE_MSMONCFG_ID_RANGE 3 593#define MPAM_ERRCODE_REQ_PMG_RANGE 4 594#define MPAM_ERRCODE_MONITOR_RANGE 5 595#define MPAM_ERRCODE_INTPARTID_RANGE 6 596#define MPAM_ERRCODE_UNEXPECTED_INTERNAL 7 597#define MPAM_ERRCODE_UNDEFINED_RIS_PART_SEL 8 598#define MPAM_ERRCODE_RIS_NO_CONTROL 9 599#define MPAM_ERRCODE_UNDEFINED_RIS_MON_SEL 10 600#define MPAM_ERRCODE_RIS_NO_MONITOR 11 601 602/* 603 * MSMON_CFG_CSU_CTL - Memory system performance monitor configure cache storage 604 * usage monitor control register 605 * MSMON_CFG_MBWU_CTL - Memory system performance monitor configure memory 606 * bandwidth usage monitor control register 607 */ 608#define MSMON_CFG_x_CTL_TYPE GENMASK(7, 0) 609#define MSMON_CFG_MBWU_CTL_OFLOW_STATUS_L BIT(15) 610#define MSMON_CFG_x_CTL_MATCH_PARTID BIT(16) 611#define MSMON_CFG_x_CTL_MATCH_PMG BIT(17) 612#define MSMON_CFG_MBWU_CTL_SCLEN BIT(19) 613#define MSMON_CFG_x_CTL_SUBTYPE GENMASK(22, 20) 614#define MSMON_CFG_x_CTL_OFLOW_FRZ BIT(24) 615#define MSMON_CFG_x_CTL_OFLOW_INTR BIT(25) 616#define MSMON_CFG_x_CTL_OFLOW_STATUS BIT(26) 617#define MSMON_CFG_x_CTL_CAPT_RESET BIT(27) 618#define MSMON_CFG_x_CTL_CAPT_EVNT GENMASK(30, 28) 619#define MSMON_CFG_x_CTL_EN BIT(31) 620 621#define MSMON_CFG_MBWU_CTL_TYPE_MBWU 0x42 622#define MSMON_CFG_CSU_CTL_TYPE_CSU 0x43 623 624/* 625 * MSMON_CFG_CSU_FLT - Memory system performance monitor configure cache storage 626 * usage monitor filter register 627 * MSMON_CFG_MBWU_FLT - Memory system performance monitor configure memory 628 * bandwidth usage monitor filter register 629 */ 630#define MSMON_CFG_x_FLT_PARTID GENMASK(15, 0) 631#define MSMON_CFG_x_FLT_PMG GENMASK(23, 16) 632 633#define MSMON_CFG_MBWU_FLT_RWBW GENMASK(31, 30) 634#define MSMON_CFG_CSU_FLT_XCL BIT(31) 635 636/* 637 * MSMON_CSU - Memory system performance monitor cache storage usage monitor 638 * register 639 * MSMON_CSU_CAPTURE - Memory system performance monitor cache storage usage 640 * capture register 641 * MSMON_MBWU - Memory system performance monitor memory bandwidth usage 642 * monitor register 643 * MSMON_MBWU_CAPTURE - Memory system performance monitor memory bandwidth usage 644 * capture register 645 */ 646#define MSMON___VALUE GENMASK(30, 0) 647#define MSMON___NRDY BIT(31) 648#define MSMON___L_NRDY BIT(63) 649#define MSMON___L_VALUE GENMASK(43, 0) 650#define MSMON___LWD_VALUE GENMASK(62, 0) 651 652/* 653 * MSMON_CAPT_EVNT - Memory system performance monitoring capture event 654 * generation register 655 */ 656#define MSMON_CAPT_EVNT_NOW BIT(0) 657 658#endif /* MPAM_INTERNAL_H */