1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License, Version 1.0 only 6 * (the "License"). You may not use this file except in compliance 7 * with the License. 8 * 9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 10 * or http://www.opensolaris.org/os/licensing. 11 * See the License for the specific language governing permissions 12 * and limitations under the License. 13 * 14 * When distributing Covered Code, include this CDDL HEADER in each 15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 16 * If applicable, add the following below this CDDL HEADER, with the 17 * fields enclosed by brackets "[]" replaced with your own identifying 18 * information: Portions Copyright [yyyy] [name of copyright owner] 19 * 20 * CDDL HEADER END 21 */ 22 /* 23 * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 27 #ifndef _LGRP_H 28 #define _LGRP_H 29 30 #pragma ident "%Z%%M% %I% %E% SMI" 31 32 /* 33 * locality group definitions for kernel 34 */ 35 36 #include <sys/types.h> 37 38 #ifdef __cplusplus 39 extern "C" { 40 #endif 41 42 #define LGRP_NONE (-1) /* non-existent lgroup ID */ 43 44 45 typedef id_t lgrp_id_t; /* lgroup ID */ 46 47 #if (!defined(_KERNEL) && !defined(_KMEMUSER)) 48 typedef struct lgrp_mem_policy_info { int opaque[2]; } lgrp_mem_policy_info_t; 49 #endif /* !_KERNEL && !_KMEMUSER */ 50 51 #if (defined(_KERNEL) || defined(_KMEMUSER)) 52 #include <sys/cpuvar.h> 53 #include <sys/bitmap.h> 54 #include <sys/vnode.h> 55 #include <vm/anon.h> 56 #include <vm/seg.h> 57 #include <sys/lgrp_user.h> 58 #include <sys/param.h> 59 60 typedef uint32_t lgrp_load_t; /* lgrp_loadavg type */ 61 typedef uintptr_t lgrp_handle_t; /* lgrp handle */ 62 63 #define LGRP_NONE_SUCH LGRP_NONE /* non-existent lgroup ID */ 64 /* null platform handle */ 65 #define LGRP_NULL_HANDLE ((lgrp_handle_t)0xbadbad) 66 #define LGRP_DEFAULT_HANDLE ((lgrp_handle_t)0xbabecafe) /* uma handle */ 67 #define LGRP_ROOTID (0) /* root lgroup ID */ 68 69 /* 70 * Maximum number of lgrps a platform may define. 71 */ 72 73 #define NLGRPS_MAX 64 74 #define NLGRP_LEAVES_MAX 24 75 #define LGRP_LOADAVG_MAX UINT32_MAX 76 #define LPL_RSET_MAX NLGRP_LEAVES_MAX 77 #define LPL_RSET_ARRYSZ (LPL_RSET_MAX + 1) 78 79 /* 80 * The load-average we expect for one cpu-bound thread's worth of load 81 */ 82 #define LGRP_LOADAVG_THREAD_MAX 65516 83 84 /* 85 * The input to the load-average generating function for one cpu-bound thread's 86 * worth of load 87 */ 88 89 #define LGRP_LOADAVG_IN_THREAD_MAX 128 90 91 /* 92 * LPL actions 93 */ 94 95 typedef enum { 96 LPL_INCREMENT, 97 LPL_DECREMENT 98 } lpl_act_t; 99 100 /* 101 * lgroup statistics. Most of these are counters that are updated 102 * dynamically so they are hashed to CPU buckets to reduce cache 103 * interference. The remaining statistics are snapshots of kernel 104 * data, so they aren't stored in the array of counter stats. 105 * 106 * For the hashed stats to make sense, you have to sum all the buckets for 107 * that stat, hence macros are provided to read the stats. 108 */ 109 110 #define LGRP_NUM_CPU_BUCKETS 8 /* must be power of 2 */ 111 #define LGRP_CPU_BUCKET_MASK (LGRP_NUM_CPU_BUCKETS - 1) 112 113 /* 114 * Flags for what to do with lgroup memory policy 115 * Used for heap and stack where policy is extended to new segments added to 116 * the end 117 */ 118 #define LGRP_MP_FLAG_EXTEND_UP 0x1 /* policy should extend up */ 119 #define LGRP_MP_FLAG_EXTEND_DOWN 0x2 /* policy should extend down */ 120 121 #define LGRP_STAT(stats, bucket, whichstat) \ 122 ((stats)->ls_data[bucket][whichstat]) 123 124 /* Return a pointer suitable for an atomic 64-bit op on the bucket */ 125 #define LGRP_STAT_WRITE_PTR(stats, whichstat) \ 126 (&LGRP_STAT(stats, (CPU->cpu_id) & LGRP_CPU_BUCKET_MASK, \ 127 whichstat)) 128 129 /* Sum up all the buckets and return the value in 'val' */ 130 #define LGRP_STAT_READ(stats, whichstat, val) { \ 131 int bkt; \ 132 for (val = 0, bkt = 0; bkt < LGRP_NUM_CPU_BUCKETS; bkt++) \ 133 val += LGRP_STAT(stats, bkt, whichstat); \ 134 } 135 136 /* Reset all buckets for the stat to 0 */ 137 #define LGRP_STAT_RESET(stats, stat) { \ 138 int i; \ 139 for (i = 0; i < LGRP_NUM_CPU_BUCKETS; i++) \ 140 LGRP_STAT(stats, i, stat) = 0; \ 141 } 142 143 /* 144 * Define all of the statistics that are kept for lgrp kstats, 145 * and their corresponding text names. 146 */ 147 148 typedef enum lgrp_stat_types { 149 LGRP_NUM_MIGR, /* # migrations away from this lgrp */ 150 LGRP_NUM_ALLOC_FAIL, /* # times alloc fails for chosen lgrp */ 151 LGRP_PM_SRC_PGS, /* # pages migrated from this lgrp */ 152 LGRP_PM_DEST_PGS, /* # pages migrated to this lgrp */ 153 LGRP_PM_FAIL_ALLOC_PGS, /* # pages failed to migrate to this lgrp */ 154 LGRP_PM_FAIL_LOCK_PGS, /* # pages failed to migrate from this lgrp */ 155 LGRP_PMM_PGS, /* # pages marked to migrate from this lgrp */ 156 LGRP_PMM_FAIL_PGS, /* # pages marked to migrate from this lgrp */ 157 LGRP_NUM_DEFAULT, /* # of times default policy applied */ 158 LGRP_NUM_NEXT, /* # of times next touch policy applied */ 159 LGRP_NUM_RANDOM, /* # of times random policy applied */ 160 LGRP_NUM_RANDOM_PROC, /* # of times random proc policy applied */ 161 LGRP_NUM_RANDOM_PSET, /* # of times random pset policy applied */ 162 LGRP_NUM_ROUNDROBIN, /* # of times round robin policy applied */ 163 LGRP_NUM_COUNTER_STATS, /* always last */ 164 LGRP_CTR_STATS_ALLOC = 16 /* cache-align pad - multiple of 8 */ 165 /* always keep >= LGRP_NUM_COUNTER_STATS */ 166 } lgrp_stat_t; 167 168 typedef enum lgrp_snap_stat_types { 169 LGRP_NUM_CPUS, /* number of CPUs */ 170 LGRP_NUM_PG_FREE, /* # of free pages */ 171 LGRP_NUM_PG_AVAIL, /* # of allocatable physical pages */ 172 LGRP_NUM_PG_INSTALL, /* # of installed physical pages */ 173 LGRP_LOADAVG, /* "load average" of this lgrp */ 174 LGRP_NUM_SNAPSHOT_STATS /* always last */ 175 } lgrp_snap_stat_t; 176 177 #define LGRP_KSTAT_NAMES \ 178 static char *lgrp_kstat_names[] = { \ 179 \ 180 /* Counter stats */ \ 181 "lwp migrations", \ 182 "alloc fail", \ 183 "pages migrated from", \ 184 "pages migrated to", \ 185 "pages failed to migrate to", \ 186 "pages failed to migrate from", \ 187 "pages marked for migration", \ 188 "pages failed to mark", \ 189 "default policy", \ 190 "next-touch policy", \ 191 "random policy", \ 192 "span process policy", \ 193 "span psrset policy", \ 194 "round robin policy", \ 195 \ 196 /* Snapshot stats */ \ 197 "cpus", \ 198 "pages free", \ 199 "pages avail", \ 200 "pages installed", \ 201 "load average" \ 202 } 203 204 #define LGRP_NUM_STATS ((int)LGRP_NUM_COUNTER_STATS + \ 205 (int)LGRP_NUM_SNAPSHOT_STATS) 206 207 /* 208 * The contents of this structure are opaque and should only be 209 * accessed through the LGRP_STAT macro. 210 */ 211 struct lgrp_stats { 212 int64_t ls_data[LGRP_NUM_CPU_BUCKETS][LGRP_CTR_STATS_ALLOC]; 213 }; 214 215 /* The kernel's version of a bitmap of lgroups */ 216 typedef uint64_t klgrpset_t; 217 218 /* 219 * This really belongs in memnode.h, but it must be defined here to avoid 220 * recursive inclusion problems. Note that memnode.h includes this header. 221 */ 222 typedef uint64_t mnodeset_t; 223 224 /* 225 * lgroup structure 226 * 227 * Visible to generic code and contains the lgroup ID, CPUs in this lgroup, 228 * and a platform handle used to identify this lgroup to the lgroup platform 229 * support code 230 */ 231 typedef struct lgrp { 232 233 lgrp_id_t lgrp_id; /* which lgroup */ 234 int lgrp_latency; 235 lgrp_handle_t lgrp_plathand; /* handle for platform calls */ 236 struct lgrp *lgrp_parent; /* parent lgroup */ 237 uint_t lgrp_reserved1; /* filler */ 238 uint_t lgrp_childcnt; /* number of children lgroups */ 239 klgrpset_t lgrp_children; /* children lgroups */ 240 klgrpset_t lgrp_leaves; /* (direct decendant) leaf lgroups */ 241 242 /* 243 * set of lgroups containing a given type of resource 244 * at this level of locality 245 */ 246 klgrpset_t lgrp_set[LGRP_RSRC_COUNT]; 247 248 mnodeset_t lgrp_mnodes; /* set of memory nodes in this lgroup */ 249 uint_t lgrp_nmnodes; /* number of memnodes */ 250 uint_t lgrp_reserved2; /* filler */ 251 252 struct cpu *lgrp_cpu; /* pointer to a cpu may be null */ 253 uint_t lgrp_cpucnt; /* number of cpus in this lgrp */ 254 uint_t lgrp_chipcnt; 255 struct chip *lgrp_chips; /* pointer to chips in this lgrp */ 256 kstat_t *lgrp_kstat; /* per-lgrp kstats */ 257 } lgrp_t; 258 259 /* 260 * lgroup load average structure 261 */ 262 263 typedef struct lgrp_ld { 264 lgrp_load_t lpl_loadavg; /* load average */ 265 uint_t lpl_ncpu; /* how many cpus */ 266 lgrp_id_t lpl_lgrpid; /* which group this lpl part of */ 267 lgrp_t *lpl_lgrp; /* ptr to lpl's lgrp */ 268 struct lgrp_ld *lpl_parent; /* lpl of parent lgrp */ 269 struct cpu *lpl_cpus; /* list of cpus in lpl */ 270 /* NULL for non-leaf lgrps */ 271 uint_t lpl_nrset; /* no. of leaf lpls for lgrp */ 272 int lpl_hint; /* where to start looking in parent */ 273 hrtime_t lpl_homed_time; /* time of last homing to this lpl */ 274 struct lgrp_ld *lpl_rset[LPL_RSET_ARRYSZ]; /* leaf lpls for lgrp */ 275 /* contains ptr to self for leaf lgrp */ 276 } lpl_t; 277 278 /* 279 * 1 << LGRP_MAX_EFFECT_SHFT == lgrp_loadavg_max_effect 280 */ 281 #define LGRP_MAX_EFFECT_SHFT 16 282 283 /* 284 * Operations handled by lgrp_config() 285 */ 286 typedef enum lgrp_config_flag { 287 LGRP_CONFIG_NOP, 288 LGRP_CONFIG_CPU_ADD, 289 LGRP_CONFIG_CPU_DEL, 290 LGRP_CONFIG_CPU_ONLINE, 291 LGRP_CONFIG_CPU_OFFLINE, 292 LGRP_CONFIG_CPUPART_ADD, 293 LGRP_CONFIG_CPUPART_DEL, 294 LGRP_CONFIG_MEM_ADD, 295 LGRP_CONFIG_MEM_DEL, 296 LGRP_CONFIG_MEM_RENAME, 297 LGRP_CONFIG_GEN_UPDATE, 298 LGRP_CONFIG_FLATTEN, 299 LGRP_CONFIG_LATENCY_CHANGE 300 } lgrp_config_flag_t; 301 302 /* 303 * Memory allocation policies 304 */ 305 typedef enum lgrp_mem_policy { 306 LGRP_MEM_POLICY_DEFAULT, 307 LGRP_MEM_POLICY_NEXT, /* near LWP to next touch */ 308 LGRP_MEM_POLICY_RANDOM_PROC, /* randomly across process */ 309 LGRP_MEM_POLICY_RANDOM_PSET, /* randomly across processor set */ 310 LGRP_MEM_POLICY_RANDOM, /* randomly across all lgroups */ 311 LGRP_MEM_POLICY_ROUNDROBIN, /* round robin across all lgroups */ 312 LGRP_MEM_POLICY_NEXT_CPU, /* Near next CPU to touch memory */ 313 LGRP_NUM_MEM_POLICIES 314 } lgrp_mem_policy_t; 315 316 /* 317 * Search scopes for finding resouces 318 */ 319 typedef enum lgrp_res_ss { 320 LGRP_SRCH_LOCAL, /* Search local lgroup only */ 321 LGRP_SRCH_HIER /* Search entire hierarchy */ 322 } lgrp_res_ss_t; 323 324 /* 325 * Cookie used for lgrp mnode selection 326 */ 327 typedef struct lgrp_mnode_cookie { 328 lgrp_t *lmc_lgrp; /* lgrp under consideration */ 329 mnodeset_t lmc_nodes; /* nodes not yet tried in lgrp */ 330 int lmc_cnt; /* how many nodes in untried set */ 331 mnodeset_t lmc_tried; /* nodes already tried */ 332 int lmc_ntried; /* how many nodes in tried set */ 333 lgrp_res_ss_t lmc_scope; /* consider non-local nodes? */ 334 ushort_t lmc_rand; /* a "random" number */ 335 } lgrp_mnode_cookie_t; 336 337 /* 338 * Information needed to implement memory allocation policy 339 */ 340 typedef struct lgrp_mem_policy_info { 341 int mem_policy; /* memory allocation policy */ 342 int mem_reserved; /* reserved */ 343 } lgrp_mem_policy_info_t; 344 345 /* 346 * Shared memory policy segment 347 */ 348 typedef struct lgrp_shm_policy_seg { 349 u_offset_t shm_off; /* offset into shared object */ 350 size_t shm_size; /* size of segment */ 351 lgrp_mem_policy_info_t shm_policy; /* memory allocation policy */ 352 avl_node_t shm_tree; /* AVL tree */ 353 } lgrp_shm_policy_seg_t; 354 355 /* 356 * Shared memory locality info 357 */ 358 typedef struct lgrp_shm_locality { 359 size_t loc_count; /* reference count */ 360 avl_tree_t *loc_tree; /* policy segment tree */ 361 krwlock_t loc_lock; /* protects tree */ 362 } lgrp_shm_locality_t; 363 364 /* 365 * Queries that may be made to determine lgroup memory size 366 */ 367 typedef enum { 368 LGRP_MEM_SIZE_FREE, /* number of free pages */ 369 LGRP_MEM_SIZE_AVAIL, /* number of pages in phys_avail */ 370 LGRP_MEM_SIZE_INSTALL /* number of pages in phys_install */ 371 } lgrp_mem_query_t; 372 373 /* 374 * Argument for the memory copy-rename operation, contains the source and the 375 * destination platform handles. 376 */ 377 typedef struct lgrp_config_mem_rename { 378 lgrp_handle_t lmem_rename_from; 379 lgrp_handle_t lmem_rename_to; 380 } lgrp_config_mem_rename_t; 381 382 /* Macro to clear an lgroup bitmap */ 383 #define klgrpset_clear(klgrpset) \ 384 (klgrpset) = (klgrpset_t)0 385 386 /* Macro to fill an lgroup bitmap */ 387 #define klgrpset_fill(klgrpset) \ 388 (klgrpset) = (klgrpset_t)(-1) 389 390 /* Macro to add an lgroup to an lgroup bitmap */ 391 #define klgrpset_add(klgrpset, lgrpid) \ 392 (klgrpset) |= ((klgrpset_t)1 << (lgrpid)) 393 394 /* Macro to delete an lgroup from an lgroup bitmap */ 395 #define klgrpset_del(klgrpset, lgrpid) \ 396 (klgrpset) &= ~((klgrpset_t)1 << (lgrpid)) 397 398 /* Macro to copy a klgrpset into another klgrpset */ 399 #define klgrpset_copy(klgrpset_to, klgrpset_from) \ 400 (klgrpset_to) = (klgrpset_from) 401 402 /* Macro to perform an 'and' operation on a pair of lgroup bitmaps */ 403 #define klgrpset_and(klgrpset_rslt, klgrpset_arg) \ 404 (klgrpset_rslt) &= (klgrpset_arg) 405 406 /* Macro to perform an 'or' operation on a pair of lgroup bitmaps */ 407 #define klgrpset_or(klgrpset_rslt, klgrpset_arg) \ 408 (klgrpset_rslt) |= (klgrpset_arg) 409 410 /* Macro to perform a 'diff' operation on a pair of lgroup bitmaps */ 411 #define klgrpset_diff(klgrpset_rslt, klgrpset_arg) \ 412 (klgrpset_rslt) &= ~(klgrpset_arg) 413 414 /* Macro to check if an lgroup is a member of an lgrpset */ 415 #define klgrpset_ismember(klgrpset, lgrpid) \ 416 ((klgrpset) & ((klgrpset_t)1 << (lgrpid))) 417 418 /* Macro to check if an lgroup bitmap is empty */ 419 #define klgrpset_isempty(klgrpset) \ 420 ((klgrpset) == (klgrpset_t)0) 421 422 /* Macro to check if two lgrpsets intersect */ 423 #define klgrpset_intersects(klgrpset1, klgrpset2) \ 424 ((klgrpset1) & (klgrpset2)) 425 426 /* Macro to count the number of members in an lgrpset */ 427 #define klgrpset_nlgrps(klgrpset, count) \ 428 { \ 429 lgrp_id_t lgrpid; \ 430 for (lgrpid = 0, count = 0; lgrpid <= lgrp_alloc_max; lgrpid++) {\ 431 if (klgrpset_ismember(klgrpset, lgrpid)) \ 432 count++; \ 433 } \ 434 } 435 436 /* Macro to get total memory size (in bytes) of a given set of lgroups */ 437 #define klgrpset_totalsize(klgrpset, size) \ 438 { \ 439 lgrp_handle_t hand; \ 440 lgrp_id_t lgrpid; \ 441 \ 442 for (lgrpid = 0, size = 0; lgrpid <= lgrp_alloc_max; lgrpid++) {\ 443 if (klgrpset_ismember(klgrpset, lgrpid) && \ 444 lgrp_table[lgrpid]) { \ 445 hand = lgrp_table[lgrpid]->lgrp_plathand; \ 446 size += lgrp_plat_mem_size(hand, \ 447 LGRP_MEM_SIZE_AVAIL) * PAGESIZE; \ 448 } \ 449 } \ 450 } 451 452 /* 453 * Does this lgroup exist? 454 */ 455 #define LGRP_EXISTS(lgrp) \ 456 (lgrp != NULL && lgrp->lgrp_id != LGRP_NONE) 457 458 /* 459 * Initialize an lgrp_mnode_cookie 460 */ 461 #define LGRP_MNODE_COOKIE_INIT(c, lgrp, scope) \ 462 { \ 463 bzero(&(c), sizeof (lgrp_mnode_cookie_t)); \ 464 (&(c))->lmc_lgrp = lgrp; \ 465 (&(c))->lmc_nodes = lgrp->lgrp_mnodes; \ 466 (&(c))->lmc_cnt = lgrp->lgrp_nmnodes; \ 467 (&(c))->lmc_scope = scope; \ 468 (&(c))->lmc_rand = (ushort_t)gethrtime_unscaled() >> 4; \ 469 } 470 471 /* 472 * Upgrade cookie scope from LGRP_SRCH_LOCAL to LGRP_SRCH_HIER. 473 */ 474 #define LGRP_MNODE_COOKIE_UPGRADE(c) \ 475 { \ 476 ASSERT((&(c))->lmc_scope == LGRP_SRCH_LOCAL); \ 477 (&(c))->lmc_scope = LGRP_SRCH_HIER; \ 478 } 479 480 /* 481 * Macro to see whether memory allocation policy can be reapplied 482 */ 483 #define LGRP_MEM_POLICY_REAPPLICABLE(p) \ 484 (p == LGRP_MEM_POLICY_NEXT) 485 486 /* 487 * Return true if lgrp has CPU resources in the cpupart 488 */ 489 #define LGRP_CPUS_IN_PART(lgrpid, cpupart) \ 490 (cpupart->cp_lgrploads[lgrpid].lpl_ncpu > 0) 491 492 extern int lgrp_alloc_max; 493 extern lgrp_t *lgrp_table[NLGRPS_MAX]; /* indexed by lgrp_id */ 494 extern int nlgrps; /* number of lgroups in machine */ 495 extern int nlgrpsmax; /* max number of lgroups on platform */ 496 extern lgrp_gen_t lgrp_gen; /* generation of lgroup hierarchy */ 497 extern int lgrp_initialized; /* single-CPU initialization done */ 498 extern int lgrp_topo_initialized; /* lgrp topology constructed */ 499 extern lgrp_t *lgrp_root; /* root lgroup */ 500 extern unsigned int lgrp_topo_levels; 501 extern lpl_t *lpl_bootstrap; /* bootstrap lpl for non-active CPUs */ 502 503 504 /* generic interfaces */ 505 506 /* 507 * lgroup management 508 */ 509 int lgrp_optimizations(void); 510 void lgrp_init(void); 511 void lgrp_setup(void); 512 lgrp_t *lgrp_create(void); 513 void lgrp_destroy(lgrp_t *); 514 void lgrp_config(lgrp_config_flag_t, uintptr_t, uintptr_t); 515 lgrp_t *lgrp_hand_to_lgrp(lgrp_handle_t); 516 517 /* 518 * lgroup stats 519 */ 520 void lgrp_kstat_create(struct cpu *); 521 void lgrp_kstat_destroy(struct cpu *); 522 void lgrp_stat_add(lgrp_id_t, lgrp_stat_t, int64_t); 523 int64_t lgrp_stat_read(lgrp_id_t, lgrp_stat_t); 524 525 /* 526 * lgroup memory 527 */ 528 lgrp_mem_policy_t lgrp_madv_to_policy(uchar_t, size_t, int); 529 pgcnt_t lgrp_mem_size(lgrp_id_t, lgrp_mem_query_t); 530 lgrp_t *lgrp_mem_choose(struct seg *, caddr_t, size_t); 531 int lgrp_memnode_choose(lgrp_mnode_cookie_t *); 532 lgrp_mem_policy_t lgrp_mem_policy_default(size_t, int); 533 int lgrp_mnode_update(klgrpset_t, klgrpset_t *); 534 lgrp_t *lgrp_pfn_to_lgrp(pfn_t); 535 lgrp_t *lgrp_phys_to_lgrp(u_longlong_t); /* used by numat driver */ 536 int lgrp_privm_policy_set(lgrp_mem_policy_t, lgrp_mem_policy_info_t *, 537 size_t); 538 void lgrp_shm_policy_init(struct anon_map *, vnode_t *); 539 void lgrp_shm_policy_fini(struct anon_map *, vnode_t *); 540 lgrp_mem_policy_info_t *lgrp_shm_policy_get(struct anon_map *, ulong_t, 541 vnode_t *, u_offset_t); 542 int lgrp_shm_policy_set(lgrp_mem_policy_t, struct anon_map *, ulong_t, 543 vnode_t *, u_offset_t, size_t); 544 545 /* 546 * Used by numat driver 547 */ 548 int lgrp_query_cpu(processorid_t, lgrp_id_t *); 549 int lgrp_query_load(processorid_t, lgrp_load_t *); 550 551 /* 552 * lgroup thread placement 553 */ 554 lpl_t *lgrp_affinity_best(kthread_t *, struct cpupart *, lgrp_id_t); 555 void lgrp_affinity_init(lgrp_affinity_t **); 556 void lgrp_affinity_free(lgrp_affinity_t **); 557 lpl_t *lgrp_choose(kthread_t *t, struct cpupart *); 558 lgrp_t *lgrp_home_lgrp(void); 559 lgrp_id_t lgrp_home_id(kthread_t *); 560 void lgrp_loadavg(lpl_t *, uint_t, int); 561 void lgrp_move_thread(kthread_t *, lpl_t *, int); 562 563 /* 564 * lgroup topology 565 */ 566 int lgrp_leaf_add(lgrp_t *, lgrp_t **, int, klgrpset_t *); 567 int lgrp_leaf_delete(lgrp_t *, lgrp_t **, int, klgrpset_t *); 568 int lgrp_rsets_empty(klgrpset_t *); 569 int lgrp_rsets_member(klgrpset_t *, lgrp_id_t); 570 int lgrp_topo_flatten(int, lgrp_t **, int, klgrpset_t *); 571 int lgrp_topo_ht_limit(void); 572 int lgrp_topo_ht_limit_default(void); 573 int lgrp_topo_ht_limit_set(int); 574 int lgrp_topo_update(lgrp_t **, int, klgrpset_t *); 575 576 /* 577 * lpl topology 578 */ 579 void lpl_topo_bootstrap(lpl_t *, int); 580 int lpl_topo_flatten(int); 581 int lpl_topo_verify(struct cpupart *); 582 583 584 /* platform interfaces */ 585 void lgrp_plat_init(void); 586 void lgrp_plat_main_init(void); 587 lgrp_t *lgrp_plat_alloc(lgrp_id_t lgrpid); 588 void lgrp_plat_config(lgrp_config_flag_t, uintptr_t); 589 lgrp_handle_t lgrp_plat_cpu_to_hand(processorid_t); 590 lgrp_handle_t lgrp_plat_pfn_to_hand(pfn_t); 591 int lgrp_plat_max_lgrps(void); 592 pgcnt_t lgrp_plat_mem_size(lgrp_handle_t, lgrp_mem_query_t); 593 int lgrp_plat_latency(lgrp_handle_t, lgrp_handle_t); 594 lgrp_handle_t lgrp_plat_root_hand(void); 595 void lgrp_plat_probe(void); 596 void lgrp_plat_build_topo(void); 597 598 #endif /* _KERNEL && _KMEMUSER */ 599 600 #ifdef __cplusplus 601 } 602 #endif 603 604 #endif /* _LGRP_H */ 605