1/* 2 * Copyright (c) 2000-2009 Apple Inc. All rights reserved. 3 * 4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ 5 * 6 * This file contains Original Code and/or Modifications of Original Code 7 * as defined in and that are subject to the Apple Public Source License 8 * Version 2.0 (the 'License'). You may not use this file except in 9 * compliance with the License. The rights granted to you under the License 10 * may not be used to create, or enable the creation or redistribution of, 11 * unlawful or unlicensed copies of an Apple operating system, or to 12 * circumvent, violate, or enable the circumvention or violation of, any 13 * terms of an Apple operating system software license agreement. 14 * 15 * Please obtain a copy of the License at 16 * http://www.opensource.apple.com/apsl/ and read it before using this file. 17 * 18 * The Original Code and all software distributed under the License are 19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER 20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, 21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, 22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. 23 * Please see the License for the specific language governing rights and 24 * limitations under the License. 25 * 26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ 27 */ 28/* 29 * @OSF_COPYRIGHT@ 30 */ 31/* 32 * Mach Operating System 33 * Copyright (c) 1991,1990,1989,1988,1987 Carnegie Mellon University 34 * All Rights Reserved. 35 * 36 * Permission to use, copy, modify and distribute this software and its 37 * documentation is hereby granted, provided that both the copyright 38 * notice and this permission notice appear in all copies of the 39 * software, derivative works or modified versions, and any portions 40 * thereof, and that both notices appear in supporting documentation. 41 * 42 * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 43 * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR 44 * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 45 * 46 * Carnegie Mellon requests users of this software to return to 47 * 48 * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU 49 * School of Computer Science 50 * Carnegie Mellon University 51 * Pittsburgh PA 15213-3890 52 * 53 * any improvements or extensions that they make and grant Carnegie Mellon 54 * the rights to redistribute these changes. 55 */ 56/* 57 */ 58/* 59 * File: mach/vm_statistics.h 60 * Author: Avadis Tevanian, Jr., Michael Wayne Young, David Golub 61 * 62 * Virtual memory statistics structure. 63 * 64 */ 65 66#ifndef _MACH_VM_STATISTICS_H_ 67#define _MACH_VM_STATISTICS_H_ 68 69#include <mach/machine/vm_types.h> 70 71 72/* 73 * vm_statistics 74 * 75 * History: 76 * rev0 - original structure. 77 * rev1 - added purgable info (purgable_count and purges). 78 * rev2 - added speculative_count. 79 * 80 * Note: you cannot add any new fields to this structure. Add them below in 81 * vm_statistics64. 82 */ 83 84struct vm_statistics { 85 natural_t free_count; /* # of pages free */ 86 natural_t active_count; /* # of pages active */ 87 natural_t inactive_count; /* # of pages inactive */ 88 natural_t wire_count; /* # of pages wired down */ 89 natural_t zero_fill_count; /* # of zero fill pages */ 90 natural_t reactivations; /* # of pages reactivated */ 91 natural_t pageins; /* # of pageins */ 92 natural_t pageouts; /* # of pageouts */ 93 natural_t faults; /* # of faults */ 94 natural_t cow_faults; /* # of copy-on-writes */ 95 natural_t lookups; /* object cache lookups */ 96 natural_t hits; /* object cache hits */ 97 98 /* added for rev1 */ 99 natural_t purgeable_count; /* # of pages purgeable */ 100 natural_t purges; /* # of pages purged */ 101 102 /* added for rev2 */ 103 /* 104 * NB: speculative pages are already accounted for in "free_count", 105 * so "speculative_count" is the number of "free" pages that are 106 * used to hold data that was read speculatively from disk but 107 * haven't actually been used by anyone so far. 108 */ 109 natural_t speculative_count; /* # of pages speculative */ 110}; 111 112/* Used by all architectures */ 113typedef struct vm_statistics *vm_statistics_t; 114typedef struct vm_statistics vm_statistics_data_t; 115 116/* 117 * vm_statistics64 118 * 119 * History: 120 * rev0 - original structure. 121 * rev1 - added purgable info (purgable_count and purges). 122 * rev2 - added speculative_count. 123 * ---- 124 * rev3 - changed name to vm_statistics64. 125 * changed some fields in structure to 64-bit on 126 * arm, i386 and x86_64 architectures. 127 * rev4 - require 64-bit alignment for efficient access 128 * in the kernel. No change to reported data. 129 * 130 */ 131 132struct vm_statistics64 { 133 natural_t free_count; /* # of pages free */ 134 natural_t active_count; /* # of pages active */ 135 natural_t inactive_count; /* # of pages inactive */ 136 natural_t wire_count; /* # of pages wired down */ 137 uint64_t zero_fill_count; /* # of zero fill pages */ 138 uint64_t reactivations; /* # of pages reactivated */ 139 uint64_t pageins; /* # of pageins */ 140 uint64_t pageouts; /* # of pageouts */ 141 uint64_t faults; /* # of faults */ 142 uint64_t cow_faults; /* # of copy-on-writes */ 143 uint64_t lookups; /* object cache lookups */ 144 uint64_t hits; /* object cache hits */ 145 uint64_t purges; /* # of pages purged */ 146 natural_t purgeable_count; /* # of pages purgeable */ 147 /* 148 * NB: speculative pages are already accounted for in "free_count", 149 * so "speculative_count" is the number of "free" pages that are 150 * used to hold data that was read speculatively from disk but 151 * haven't actually been used by anyone so far. 152 */ 153 natural_t speculative_count; /* # of pages speculative */ 154 155 /* added for rev1 */ 156 uint64_t decompressions; /* # of pages decompressed */ 157 uint64_t compressions; /* # of pages compressed */ 158 uint64_t swapins; /* # of pages swapped in (via compression segments) */ 159 uint64_t swapouts; /* # of pages swapped out (via compression segments) */ 160 natural_t compressor_page_count; /* # of pages used by the compressed pager to hold all the compressed data */ 161 natural_t throttled_count; /* # of pages throttled */ 162 natural_t external_page_count; /* # of pages that are file-backed (non-swap) */ 163 natural_t internal_page_count; /* # of pages that are anonymous */ 164 uint64_t total_uncompressed_pages_in_compressor; /* # of pages (uncompressed) held within the compressor. */ 165} __attribute__((aligned(8))); 166 167typedef struct vm_statistics64 *vm_statistics64_t; 168typedef struct vm_statistics64 vm_statistics64_data_t; 169 170/* 171 * VM_STATISTICS_TRUNCATE_TO_32_BIT 172 * 173 * This is used by host_statistics() to truncate and peg the 64-bit in-kernel values from 174 * vm_statistics64 to the 32-bit values of the older structure above (vm_statistics). 175 */ 176#define VM_STATISTICS_TRUNCATE_TO_32_BIT(value) ((uint32_t)(((value) > UINT32_MAX ) ? UINT32_MAX : (value))) 177 178/* 179 * vm_extmod_statistics 180 * 181 * Structure to record modifications to a task by an 182 * external agent. 183 * 184 * History: 185 * rev0 - original structure. 186 */ 187 188struct vm_extmod_statistics { 189 int64_t task_for_pid_count; /* # of times task port was looked up */ 190 int64_t task_for_pid_caller_count; /* # of times this task called task_for_pid */ 191 int64_t thread_creation_count; /* # of threads created in task */ 192 int64_t thread_creation_caller_count; /* # of threads created by task */ 193 int64_t thread_set_state_count; /* # of register state sets in task */ 194 int64_t thread_set_state_caller_count; /* # of register state sets by task */ 195} __attribute__((aligned(8))); 196 197typedef struct vm_extmod_statistics *vm_extmod_statistics_t; 198typedef struct vm_extmod_statistics vm_extmod_statistics_data_t; 199 200typedef struct vm_purgeable_stat { 201 uint64_t count; 202 uint64_t size; 203}vm_purgeable_stat_t; 204 205struct vm_purgeable_info { 206 vm_purgeable_stat_t fifo_data[8]; 207 vm_purgeable_stat_t obsolete_data; 208 vm_purgeable_stat_t lifo_data[8]; 209}; 210 211typedef struct vm_purgeable_info *vm_purgeable_info_t; 212 213/* included for the vm_map_page_query call */ 214 215#define VM_PAGE_QUERY_PAGE_PRESENT 0x1 216#define VM_PAGE_QUERY_PAGE_FICTITIOUS 0x2 217#define VM_PAGE_QUERY_PAGE_REF 0x4 218#define VM_PAGE_QUERY_PAGE_DIRTY 0x8 219#define VM_PAGE_QUERY_PAGE_PAGED_OUT 0x10 220#define VM_PAGE_QUERY_PAGE_COPIED 0x20 221#define VM_PAGE_QUERY_PAGE_SPECULATIVE 0x40 222#define VM_PAGE_QUERY_PAGE_EXTERNAL 0x80 223#define VM_PAGE_QUERY_PAGE_CS_VALIDATED 0x100 224#define VM_PAGE_QUERY_PAGE_CS_TAINTED 0x200 225 226#ifdef MACH_KERNEL_PRIVATE 227 228/* 229 * Each machine dependent implementation is expected to 230 * keep certain statistics. They may do this anyway they 231 * so choose, but are expected to return the statistics 232 * in the following structure. 233 */ 234 235struct pmap_statistics { 236 integer_t resident_count; /* # of pages mapped (total)*/ 237 integer_t resident_max; /* # of pages mapped (peak) */ 238 integer_t wired_count; /* # of pages wired */ 239 240 integer_t device; 241 integer_t device_peak; 242 integer_t internal; 243 integer_t internal_peak; 244 integer_t external; 245 integer_t external_peak; 246 integer_t reusable; 247 integer_t reusable_peak; 248 uint64_t compressed; 249 uint64_t compressed_peak; 250 uint64_t compressed_lifetime; 251}; 252 253typedef struct pmap_statistics *pmap_statistics_t; 254 255#define PMAP_STATS_PEAK(field) \ 256 MACRO_BEGIN \ 257 if (field > field##_peak) { \ 258 field##_peak = field; \ 259 } \ 260 MACRO_END 261 262#endif /* MACH_KERNEL_PRIVATE */ 263 264/* 265 * VM allocation flags: 266 * 267 * VM_FLAGS_FIXED 268 * (really the absence of VM_FLAGS_ANYWHERE) 269 * Allocate new VM region at the specified virtual address, if possible. 270 * 271 * VM_FLAGS_ANYWHERE 272 * Allocate new VM region anywhere it would fit in the address space. 273 * 274 * VM_FLAGS_PURGABLE 275 * Create a purgable VM object for that new VM region. 276 * 277 * VM_FLAGS_NO_PMAP_CHECK 278 * (for DEBUG kernel config only, ignored for other configs) 279 * Do not check that there is no stale pmap mapping for the new VM region. 280 * This is useful for kernel memory allocations at bootstrap when building 281 * the initial kernel address space while some memory is already in use. 282 * 283 * VM_FLAGS_OVERWRITE 284 * The new VM region can replace existing VM regions if necessary 285 * (to be used in combination with VM_FLAGS_FIXED). 286 * 287 * VM_FLAGS_NO_CACHE 288 * Pages brought in to this VM region are placed on the speculative 289 * queue instead of the active queue. In other words, they are not 290 * cached so that they will be stolen first if memory runs low. 291 */ 292#define VM_FLAGS_FIXED 0x0000 293#define VM_FLAGS_ANYWHERE 0x0001 294#define VM_FLAGS_PURGABLE 0x0002 295#define VM_FLAGS_NO_CACHE 0x0010 296#ifdef KERNEL_PRIVATE 297#define VM_FLAGS_PERMANENT 0x0100 /* mapping can NEVER be unmapped */ 298#define VM_FLAGS_GUARD_AFTER 0x0200 /* guard page after the mapping */ 299#define VM_FLAGS_GUARD_BEFORE 0x0400 /* guard page before the mapping */ 300#define VM_FLAGS_SUBMAP 0x0800 /* mapping a VM submap */ 301#define VM_FLAGS_ALREADY 0x1000 /* OK if same mapping already exists */ 302#define VM_FLAGS_BEYOND_MAX 0x2000 /* map beyond the map's max offset */ 303#endif /* KERNEL_PRIVATE */ 304#define VM_FLAGS_OVERWRITE 0x4000 /* delete any existing mappings first */ 305#ifdef KERNEL_PRIVATE 306#define VM_FLAGS_NO_PMAP_CHECK 0x8000 /* do not check that pmap is empty */ 307#define VM_FLAGS_MAP_JIT 0x80000 /* Used to mark an entry as describing a JIT region */ 308#endif /* KERNEL_PRIVATE */ 309#define VM_FLAGS_RETURN_DATA_ADDR 0x100000 /* Return address of target data, rather than base of page */ 310/* 311 * VM_FLAGS_SUPERPAGE_MASK 312 * 3 bits that specify whether large pages should be used instead of 313 * base pages (!=0), as well as the requested page size. 314 */ 315#define VM_FLAGS_SUPERPAGE_MASK 0x70000 /* bits 0x10000, 0x20000, 0x40000 */ 316#define VM_FLAGS_SUPERPAGE_SHIFT 16 317 318#define SUPERPAGE_NONE 0 /* no superpages, if all bits are 0 */ 319#define SUPERPAGE_SIZE_ANY 1 320#define VM_FLAGS_SUPERPAGE_NONE (SUPERPAGE_NONE << VM_FLAGS_SUPERPAGE_SHIFT) 321#define VM_FLAGS_SUPERPAGE_SIZE_ANY (SUPERPAGE_SIZE_ANY << VM_FLAGS_SUPERPAGE_SHIFT) 322#if defined(__x86_64__) || !defined(KERNEL) 323#define SUPERPAGE_SIZE_2MB 2 324#define VM_FLAGS_SUPERPAGE_SIZE_2MB (SUPERPAGE_SIZE_2MB<<VM_FLAGS_SUPERPAGE_SHIFT) 325#endif 326 327#define VM_FLAGS_ALIAS_MASK 0xFF000000 328#define VM_GET_FLAGS_ALIAS(flags, alias) \ 329 (alias) = ((flags) & VM_FLAGS_ALIAS_MASK) >> 24 330#define VM_SET_FLAGS_ALIAS(flags, alias) \ 331 (flags) = (((flags) & ~VM_FLAGS_ALIAS_MASK) | \ 332 (((alias) & ~VM_FLAGS_ALIAS_MASK) << 24)) 333 334/* These are the flags that we accept from user-space */ 335#define VM_FLAGS_USER_ALLOCATE (VM_FLAGS_FIXED | \ 336 VM_FLAGS_ANYWHERE | \ 337 VM_FLAGS_PURGABLE | \ 338 VM_FLAGS_NO_CACHE | \ 339 VM_FLAGS_OVERWRITE | \ 340 VM_FLAGS_SUPERPAGE_MASK | \ 341 VM_FLAGS_ALIAS_MASK) 342#define VM_FLAGS_USER_MAP (VM_FLAGS_USER_ALLOCATE | VM_FLAGS_RETURN_DATA_ADDR) 343#define VM_FLAGS_USER_REMAP (VM_FLAGS_FIXED | \ 344 VM_FLAGS_ANYWHERE | \ 345 VM_FLAGS_OVERWRITE| \ 346 VM_FLAGS_RETURN_DATA_ADDR) 347 348#define VM_MEMORY_MALLOC 1 349#define VM_MEMORY_MALLOC_SMALL 2 350#define VM_MEMORY_MALLOC_LARGE 3 351#define VM_MEMORY_MALLOC_HUGE 4 352#define VM_MEMORY_SBRK 5// uninteresting -- no one should call 353#define VM_MEMORY_REALLOC 6 354#define VM_MEMORY_MALLOC_TINY 7 355#define VM_MEMORY_MALLOC_LARGE_REUSABLE 8 356#define VM_MEMORY_MALLOC_LARGE_REUSED 9 357 358#define VM_MEMORY_ANALYSIS_TOOL 10 359 360#define VM_MEMORY_MALLOC_NANO 11 361 362#define VM_MEMORY_MACH_MSG 20 363#define VM_MEMORY_IOKIT 21 364#define VM_MEMORY_STACK 30 365#define VM_MEMORY_GUARD 31 366#define VM_MEMORY_SHARED_PMAP 32 367/* memory containing a dylib */ 368#define VM_MEMORY_DYLIB 33 369#define VM_MEMORY_OBJC_DISPATCHERS 34 370 371/* Was a nested pmap (VM_MEMORY_SHARED_PMAP) which has now been unnested */ 372#define VM_MEMORY_UNSHARED_PMAP 35 373 374 375// Placeholders for now -- as we analyze the libraries and find how they 376// use memory, we can make these labels more specific. 377#define VM_MEMORY_APPKIT 40 378#define VM_MEMORY_FOUNDATION 41 379#define VM_MEMORY_COREGRAPHICS 42 380#define VM_MEMORY_CORESERVICES 43 381#define VM_MEMORY_CARBON VM_MEMORY_CORESERVICES 382#define VM_MEMORY_JAVA 44 383#define VM_MEMORY_COREDATA 45 384#define VM_MEMORY_COREDATA_OBJECTIDS 46 385#define VM_MEMORY_ATS 50 386#define VM_MEMORY_LAYERKIT 51 387#define VM_MEMORY_CGIMAGE 52 388#define VM_MEMORY_TCMALLOC 53 389 390/* private raster data (i.e. layers, some images, QGL allocator) */ 391#define VM_MEMORY_COREGRAPHICS_DATA 54 392 393/* shared image and font caches */ 394#define VM_MEMORY_COREGRAPHICS_SHARED 55 395 396/* Memory used for virtual framebuffers, shadowing buffers, etc... */ 397#define VM_MEMORY_COREGRAPHICS_FRAMEBUFFERS 56 398 399/* Window backing stores, custom shadow data, and compressed backing stores */ 400#define VM_MEMORY_COREGRAPHICS_BACKINGSTORES 57 401 402/* catch-all for other uses, such as the read-only shared data page */ 403#define VM_MEMORY_COREGRAPHICS_MISC VM_MEMORY_COREGRAPHICS 404 405/* memory allocated by the dynamic loader for itself */ 406#define VM_MEMORY_DYLD 60 407/* malloc'd memory created by dyld */ 408#define VM_MEMORY_DYLD_MALLOC 61 409 410/* Used for sqlite page cache */ 411#define VM_MEMORY_SQLITE 62 412 413/* JavaScriptCore heaps */ 414#define VM_MEMORY_JAVASCRIPT_CORE 63 415/* memory allocated for the JIT */ 416#define VM_MEMORY_JAVASCRIPT_JIT_EXECUTABLE_ALLOCATOR 64 417#define VM_MEMORY_JAVASCRIPT_JIT_REGISTER_FILE 65 418 419/* memory allocated for GLSL */ 420#define VM_MEMORY_GLSL 66 421 422/* memory allocated for OpenCL.framework */ 423#define VM_MEMORY_OPENCL 67 424 425/* memory allocated for QuartzCore.framework */ 426#define VM_MEMORY_COREIMAGE 68 427 428/* memory allocated for WebCore Purgeable Buffers */ 429#define VM_MEMORY_WEBCORE_PURGEABLE_BUFFERS 69 430 431/* ImageIO memory */ 432#define VM_MEMORY_IMAGEIO 70 433 434/* CoreProfile memory */ 435#define VM_MEMORY_COREPROFILE 71 436 437/* assetsd / MobileSlideShow memory */ 438#define VM_MEMORY_ASSETSD 72 439 440/* libsystem_kernel os_once_alloc */ 441#define VM_MEMORY_OS_ALLOC_ONCE 73 442 443/* libdispatch internal allocator */ 444#define VM_MEMORY_LIBDISPATCH 74 445 446/* Accelerate.framework image backing stores */ 447#define VM_MEMORY_ACCELERATE 75 448 449/* CoreUI image block data */ 450#define VM_MEMORY_COREUI 76 451 452/* Reserve 240-255 for application */ 453#define VM_MEMORY_APPLICATION_SPECIFIC_1 240 454#define VM_MEMORY_APPLICATION_SPECIFIC_16 255 455 456#define VM_MAKE_TAG(tag) ((tag) << 24) 457 458#endif /* _MACH_VM_STATISTICS_H_ */ 459