MachVMMemory.cpp revision 3a54da4467c036cf6b8ed4afe5cdd9dd7409c2d5
1//===-- MachVMMemory.cpp ----------------------------------------*- C++ -*-===// 2// 3// The LLVM Compiler Infrastructure 4// 5// This file is distributed under the University of Illinois Open Source 6// License. See LICENSE.TXT for details. 7// 8//===----------------------------------------------------------------------===// 9// 10// Created by Greg Clayton on 6/26/07. 11// 12//===----------------------------------------------------------------------===// 13 14#include "MachVMMemory.h" 15#include "MachVMRegion.h" 16#include "DNBLog.h" 17#include <mach/mach_vm.h> 18#include <mach/shared_region.h> 19#include <sys/sysctl.h> 20#include <dlfcn.h> 21 22MachVMMemory::MachVMMemory() : 23 m_page_size (kInvalidPageSize), 24 m_err (0) 25{ 26} 27 28MachVMMemory::~MachVMMemory() 29{ 30} 31 32nub_size_t 33MachVMMemory::PageSize(task_t task) 34{ 35 if (m_page_size == kInvalidPageSize) 36 { 37#if defined (TASK_VM_INFO) && TASK_VM_INFO >= 22 38 if (task != TASK_NULL) 39 { 40 kern_return_t kr; 41 mach_msg_type_number_t info_count = TASK_VM_INFO_COUNT; 42 task_vm_info_data_t vm_info; 43 kr = task_info (task, TASK_VM_INFO, (task_info_t) &vm_info, &info_count); 44 if (kr == KERN_SUCCESS) 45 { 46 DNBLogThreadedIf(LOG_TASK, "MachVMMemory::PageSize task_info returned page size of 0x%x", (int) vm_info.page_size); 47 m_page_size = vm_info.page_size; 48 return m_page_size; 49 } 50 else 51 { 52 DNBLogThreadedIf(LOG_TASK, "MachVMMemory::PageSize task_info call failed to get page size, TASK_VM_INFO %d, TASK_VM_INFO_COUNT %d, kern return %d", TASK_VM_INFO, TASK_VM_INFO_COUNT, kr); 53 } 54 } 55#endif 56 m_err = ::host_page_size( ::mach_host_self(), &m_page_size); 57 if (m_err.Fail()) 58 m_page_size = 0; 59 } 60 return m_page_size; 61} 62 63nub_size_t 64MachVMMemory::MaxBytesLeftInPage(task_t task, nub_addr_t addr, nub_size_t count) 65{ 66 const nub_size_t page_size = PageSize(task); 67 if (page_size > 0) 68 { 69 nub_size_t page_offset = (addr % page_size); 70 nub_size_t bytes_left_in_page = page_size - page_offset; 71 if (count > bytes_left_in_page) 72 count = bytes_left_in_page; 73 } 74 return count; 75} 76 77nub_bool_t 78MachVMMemory::GetMemoryRegionInfo(task_t task, nub_addr_t address, DNBRegionInfo *region_info) 79{ 80 MachVMRegion vmRegion(task); 81 82 if (vmRegion.GetRegionForAddress(address)) 83 { 84 region_info->addr = vmRegion.StartAddress(); 85 region_info->size = vmRegion.GetByteSize(); 86 region_info->permissions = vmRegion.GetDNBPermissions(); 87 } 88 else 89 { 90 region_info->addr = address; 91 region_info->size = 0; 92 if (vmRegion.GetError().Success()) 93 { 94 // vmRegion.GetRegionForAddress() return false, indicating that "address" 95 // wasn't in a valid region, but the "vmRegion" info was successfully 96 // read from the task which means the info describes the next valid 97 // region from which we can infer the size of this invalid region 98 mach_vm_address_t start_addr = vmRegion.StartAddress(); 99 if (address < start_addr) 100 region_info->size = start_addr - address; 101 } 102 // If we can't get any infor about the size from the next region, just fill 103 // 1 in as the byte size 104 if (region_info->size == 0) 105 region_info->size = 1; 106 107 // Not readable, writeable or executable 108 region_info->permissions = 0; 109 } 110 return true; 111} 112 113// For integrated graphics chip, this makes the accounting info for 'wired' memory more like top. 114uint64_t 115MachVMMemory::GetStolenPages(task_t task) 116{ 117 static uint64_t stolenPages = 0; 118 static bool calculated = false; 119 if (calculated) return stolenPages; 120 121 static int mib_reserved[CTL_MAXNAME]; 122 static int mib_unusable[CTL_MAXNAME]; 123 static int mib_other[CTL_MAXNAME]; 124 static size_t mib_reserved_len = 0; 125 static size_t mib_unusable_len = 0; 126 static size_t mib_other_len = 0; 127 int r; 128 129 /* This can be used for testing: */ 130 //tsamp->pages_stolen = (256 * 1024 * 1024ULL) / tsamp->pagesize; 131 132 if(0 == mib_reserved_len) 133 { 134 mib_reserved_len = CTL_MAXNAME; 135 136 r = sysctlnametomib("machdep.memmap.Reserved", mib_reserved, 137 &mib_reserved_len); 138 139 if(-1 == r) 140 { 141 mib_reserved_len = 0; 142 return 0; 143 } 144 145 mib_unusable_len = CTL_MAXNAME; 146 147 r = sysctlnametomib("machdep.memmap.Unusable", mib_unusable, 148 &mib_unusable_len); 149 150 if(-1 == r) 151 { 152 mib_reserved_len = 0; 153 return 0; 154 } 155 156 157 mib_other_len = CTL_MAXNAME; 158 159 r = sysctlnametomib("machdep.memmap.Other", mib_other, 160 &mib_other_len); 161 162 if(-1 == r) 163 { 164 mib_reserved_len = 0; 165 return 0; 166 } 167 } 168 169 if(mib_reserved_len > 0 && mib_unusable_len > 0 && mib_other_len > 0) 170 { 171 uint64_t reserved = 0, unusable = 0, other = 0; 172 size_t reserved_len; 173 size_t unusable_len; 174 size_t other_len; 175 176 reserved_len = sizeof(reserved); 177 unusable_len = sizeof(unusable); 178 other_len = sizeof(other); 179 180 /* These are all declared as QUAD/uint64_t sysctls in the kernel. */ 181 182 if(-1 == sysctl(mib_reserved, mib_reserved_len, &reserved, 183 &reserved_len, NULL, 0)) 184 { 185 return 0; 186 } 187 188 if(-1 == sysctl(mib_unusable, mib_unusable_len, &unusable, 189 &unusable_len, NULL, 0)) 190 { 191 return 0; 192 } 193 194 if(-1 == sysctl(mib_other, mib_other_len, &other, 195 &other_len, NULL, 0)) 196 { 197 return 0; 198 } 199 200 if(reserved_len == sizeof(reserved) 201 && unusable_len == sizeof(unusable) 202 && other_len == sizeof(other)) 203 { 204 uint64_t stolen = reserved + unusable + other; 205 uint64_t mb128 = 128 * 1024 * 1024ULL; 206 207 if(stolen >= mb128) 208 { 209 stolen = (stolen & ~((128 * 1024 * 1024ULL) - 1)); // rounding down 210 stolenPages = stolen / PageSize (task); 211 } 212 } 213 } 214 215 calculated = true; 216 return stolenPages; 217} 218 219static uint64_t GetPhysicalMemory() 220{ 221 // This doesn't change often at all. No need to poll each time. 222 static uint64_t physical_memory = 0; 223 static bool calculated = false; 224 if (calculated) return physical_memory; 225 226 int mib[2]; 227 mib[0] = CTL_HW; 228 mib[1] = HW_MEMSIZE; 229 size_t len = sizeof(physical_memory); 230 sysctl(mib, 2, &physical_memory, &len, NULL, 0); 231 return physical_memory; 232} 233 234// rsize and dirty_size is not adjusted for dyld shared cache and multiple __LINKEDIT segment, as in vmmap. In practice, dirty_size doesn't differ much but rsize may. There is performance penalty for the adjustment. Right now, only use the dirty_size. 235void 236MachVMMemory::GetRegionSizes(task_t task, mach_vm_size_t &rsize, mach_vm_size_t &dirty_size) 237{ 238 mach_vm_address_t address = 0; 239 mach_vm_size_t size; 240 kern_return_t err = 0; 241 unsigned nestingDepth = 0; 242 mach_vm_size_t pages_resident = 0; 243 mach_vm_size_t pages_dirtied = 0; 244 245 while (1) 246 { 247 mach_msg_type_number_t count; 248 struct vm_region_submap_info_64 info; 249 250 count = VM_REGION_SUBMAP_INFO_COUNT_64; 251 err = mach_vm_region_recurse(task, &address, &size, &nestingDepth, (vm_region_info_t)&info, &count); 252 if (err == KERN_INVALID_ADDRESS) 253 { 254 // It seems like this is a good break too. 255 break; 256 } 257 else if (err) 258 { 259 mach_error("vm_region",err); 260 break; // reached last region 261 } 262 263 bool should_count = true; 264 if (info.is_submap) 265 { // is it a submap? 266 nestingDepth++; 267 should_count = false; 268 } 269 else 270 { 271 // Don't count malloc stack logging data in the TOTAL VM usage lines. 272 if (info.user_tag == VM_MEMORY_ANALYSIS_TOOL) 273 should_count = false; 274 275 address = address+size; 276 } 277 278 if (should_count) 279 { 280 pages_resident += info.pages_resident; 281 pages_dirtied += info.pages_dirtied; 282 } 283 } 284 285 vm_size_t pagesize = PageSize (task); 286 rsize = pages_resident * pagesize; 287 dirty_size = pages_dirtied * pagesize; 288} 289 290// Test whether the virtual address is within the architecture's shared region. 291static bool InSharedRegion(mach_vm_address_t addr, cpu_type_t type) 292{ 293 mach_vm_address_t base = 0, size = 0; 294 295 switch(type) { 296 case CPU_TYPE_ARM: 297 base = SHARED_REGION_BASE_ARM; 298 size = SHARED_REGION_SIZE_ARM; 299 break; 300 301 case CPU_TYPE_X86_64: 302 base = SHARED_REGION_BASE_X86_64; 303 size = SHARED_REGION_SIZE_X86_64; 304 break; 305 306 case CPU_TYPE_I386: 307 base = SHARED_REGION_BASE_I386; 308 size = SHARED_REGION_SIZE_I386; 309 break; 310 311 default: { 312 // Log error abut unknown CPU type 313 break; 314 } 315 } 316 317 318 return(addr >= base && addr < (base + size)); 319} 320 321void 322MachVMMemory::GetMemorySizes(task_t task, cpu_type_t cputype, nub_process_t pid, mach_vm_size_t &rprvt, mach_vm_size_t &vprvt) 323{ 324 // Collecting some other info cheaply but not reporting for now. 325 mach_vm_size_t empty = 0; 326 mach_vm_size_t fw_private = 0; 327 328 mach_vm_size_t aliased = 0; 329 bool global_shared_text_data_mapped = false; 330 vm_size_t pagesize = PageSize (task); 331 332 for (mach_vm_address_t addr=0, size=0; ; addr += size) 333 { 334 vm_region_top_info_data_t info; 335 mach_msg_type_number_t count = VM_REGION_TOP_INFO_COUNT; 336 mach_port_t object_name; 337 338 kern_return_t kr = mach_vm_region(task, &addr, &size, VM_REGION_TOP_INFO, (vm_region_info_t)&info, &count, &object_name); 339 if (kr != KERN_SUCCESS) break; 340 341 if (InSharedRegion(addr, cputype)) 342 { 343 // Private Shared 344 fw_private += info.private_pages_resident * pagesize; 345 346 // Check if this process has the globally shared text and data regions mapped in. If so, set global_shared_text_data_mapped to TRUE and avoid checking again. 347 if (global_shared_text_data_mapped == FALSE && info.share_mode == SM_EMPTY) { 348 vm_region_basic_info_data_64_t b_info; 349 mach_vm_address_t b_addr = addr; 350 mach_vm_size_t b_size = size; 351 count = VM_REGION_BASIC_INFO_COUNT_64; 352 353 kr = mach_vm_region(task, &b_addr, &b_size, VM_REGION_BASIC_INFO, (vm_region_info_t)&b_info, &count, &object_name); 354 if (kr != KERN_SUCCESS) break; 355 356 if (b_info.reserved) { 357 global_shared_text_data_mapped = TRUE; 358 } 359 } 360 361 // Short circuit the loop if this isn't a shared private region, since that's the only region type we care about within the current address range. 362 if (info.share_mode != SM_PRIVATE) 363 { 364 continue; 365 } 366 } 367 368 // Update counters according to the region type. 369 if (info.share_mode == SM_COW && info.ref_count == 1) 370 { 371 // Treat single reference SM_COW as SM_PRIVATE 372 info.share_mode = SM_PRIVATE; 373 } 374 375 switch (info.share_mode) 376 { 377 case SM_LARGE_PAGE: 378 // Treat SM_LARGE_PAGE the same as SM_PRIVATE 379 // since they are not shareable and are wired. 380 case SM_PRIVATE: 381 rprvt += info.private_pages_resident * pagesize; 382 rprvt += info.shared_pages_resident * pagesize; 383 vprvt += size; 384 break; 385 386 case SM_EMPTY: 387 empty += size; 388 break; 389 390 case SM_COW: 391 case SM_SHARED: 392 { 393 if (pid == 0) 394 { 395 // Treat kernel_task specially 396 if (info.share_mode == SM_COW) 397 { 398 rprvt += info.private_pages_resident * pagesize; 399 vprvt += size; 400 } 401 break; 402 } 403 404 if (info.share_mode == SM_COW) 405 { 406 rprvt += info.private_pages_resident * pagesize; 407 vprvt += info.private_pages_resident * pagesize; 408 } 409 break; 410 } 411 default: 412 // log that something is really bad. 413 break; 414 } 415 } 416 417 rprvt += aliased; 418} 419 420#if defined (TASK_VM_INFO) && TASK_VM_INFO >= 22 421 422// cribbed from sysmond 423static uint64_t 424SumVMPurgeableInfo(const vm_purgeable_info_t info) 425{ 426 uint64_t sum = 0; 427 int i; 428 429 for (i = 0; i < 8; i++) 430 { 431 sum += info->fifo_data[i].size; 432 } 433 sum += info->obsolete_data.size; 434 for (i = 0; i < 8; i++) 435 { 436 sum += info->lifo_data[i].size; 437 } 438 439 return sum; 440} 441 442#endif 443 444static void 445GetPurgeableAndAnonymous(task_t task, uint64_t &purgeable, uint64_t &anonymous) 446{ 447#if defined (TASK_VM_INFO) && TASK_VM_INFO >= 22 448 449 kern_return_t kr; 450 task_purgable_info_t purgeable_info; 451 uint64_t purgeable_sum = 0; 452 mach_msg_type_number_t info_count; 453 task_vm_info_data_t vm_info; 454 455 typedef kern_return_t (*task_purgable_info_type) (task_t, task_purgable_info_t *); 456 task_purgable_info_type task_purgable_info_ptr = NULL; 457 task_purgable_info_ptr = (task_purgable_info_type)dlsym(RTLD_NEXT, "task_purgable_info"); 458 if (task_purgable_info_ptr != NULL) 459 { 460 kr = (*task_purgable_info_ptr)(task, &purgeable_info); 461 if (kr == KERN_SUCCESS) { 462 purgeable_sum = SumVMPurgeableInfo(&purgeable_info); 463 purgeable = purgeable_sum; 464 } 465 } 466 467 info_count = TASK_VM_INFO_COUNT; 468 kr = task_info(task, TASK_VM_INFO, (task_info_t)&vm_info, &info_count); 469 if (kr == KERN_SUCCESS) 470 { 471 if (purgeable_sum < vm_info.internal) 472 { 473 anonymous = vm_info.internal - purgeable_sum; 474 } 475 else 476 { 477 anonymous = 0; 478 } 479 } 480 481#endif 482} 483 484nub_bool_t 485MachVMMemory::GetMemoryProfile(DNBProfileDataScanType scanType, task_t task, struct task_basic_info ti, cpu_type_t cputype, nub_process_t pid, vm_statistics_data_t &vm_stats, uint64_t &physical_memory, mach_vm_size_t &rprvt, mach_vm_size_t &rsize, mach_vm_size_t &vprvt, mach_vm_size_t &vsize, mach_vm_size_t &dirty_size, mach_vm_size_t &purgeable, mach_vm_size_t &anonymous) 486{ 487 if (scanType & eProfileHostMemory) 488 physical_memory = GetPhysicalMemory(); 489 490 if (scanType & eProfileMemory) 491 { 492 static mach_port_t localHost = mach_host_self(); 493 mach_msg_type_number_t count = HOST_VM_INFO_COUNT; 494 host_statistics(localHost, HOST_VM_INFO, (host_info_t)&vm_stats, &count); 495 vm_stats.wire_count += GetStolenPages(task); 496 497 GetMemorySizes(task, cputype, pid, rprvt, vprvt); 498 499 rsize = ti.resident_size; 500 vsize = ti.virtual_size; 501 502 if (scanType & eProfileMemoryDirtyPage) 503 { 504 // This uses vmmap strategy. We don't use the returned rsize for now. We prefer to match top's version since that's what we do for the rest of the metrics. 505 GetRegionSizes(task, rsize, dirty_size); 506 } 507 508 if (scanType & eProfileMemoryAnonymous) 509 { 510 GetPurgeableAndAnonymous(task, purgeable, anonymous); 511 } 512 } 513 514 return true; 515} 516 517nub_size_t 518MachVMMemory::Read(task_t task, nub_addr_t address, void *data, nub_size_t data_count) 519{ 520 if (data == NULL || data_count == 0) 521 return 0; 522 523 nub_size_t total_bytes_read = 0; 524 nub_addr_t curr_addr = address; 525 uint8_t *curr_data = (uint8_t*)data; 526 while (total_bytes_read < data_count) 527 { 528 mach_vm_size_t curr_size = MaxBytesLeftInPage(task, curr_addr, data_count - total_bytes_read); 529 mach_msg_type_number_t curr_bytes_read = 0; 530 vm_offset_t vm_memory = NULL; 531 m_err = ::mach_vm_read (task, curr_addr, curr_size, &vm_memory, &curr_bytes_read); 532 533 if (DNBLogCheckLogBit(LOG_MEMORY)) 534 m_err.LogThreaded("::mach_vm_read ( task = 0x%4.4x, addr = 0x%8.8llx, size = %llu, data => %8.8p, dataCnt => %i )", task, (uint64_t)curr_addr, (uint64_t)curr_size, vm_memory, curr_bytes_read); 535 536 if (m_err.Success()) 537 { 538 if (curr_bytes_read != curr_size) 539 { 540 if (DNBLogCheckLogBit(LOG_MEMORY)) 541 m_err.LogThreaded("::mach_vm_read ( task = 0x%4.4x, addr = 0x%8.8llx, size = %llu, data => %8.8p, dataCnt=>%i ) only read %u of %llu bytes", task, (uint64_t)curr_addr, (uint64_t)curr_size, vm_memory, curr_bytes_read, curr_bytes_read, (uint64_t)curr_size); 542 } 543 ::memcpy (curr_data, (void *)vm_memory, curr_bytes_read); 544 ::vm_deallocate (mach_task_self (), vm_memory, curr_bytes_read); 545 total_bytes_read += curr_bytes_read; 546 curr_addr += curr_bytes_read; 547 curr_data += curr_bytes_read; 548 } 549 else 550 { 551 break; 552 } 553 } 554 return total_bytes_read; 555} 556 557 558nub_size_t 559MachVMMemory::Write(task_t task, nub_addr_t address, const void *data, nub_size_t data_count) 560{ 561 MachVMRegion vmRegion(task); 562 563 nub_size_t total_bytes_written = 0; 564 nub_addr_t curr_addr = address; 565 const uint8_t *curr_data = (const uint8_t*)data; 566 567 568 while (total_bytes_written < data_count) 569 { 570 if (vmRegion.GetRegionForAddress(curr_addr)) 571 { 572 mach_vm_size_t curr_data_count = data_count - total_bytes_written; 573 mach_vm_size_t region_bytes_left = vmRegion.BytesRemaining(curr_addr); 574 if (region_bytes_left == 0) 575 { 576 break; 577 } 578 if (curr_data_count > region_bytes_left) 579 curr_data_count = region_bytes_left; 580 581 if (vmRegion.SetProtections(curr_addr, curr_data_count, VM_PROT_READ | VM_PROT_WRITE)) 582 { 583 nub_size_t bytes_written = WriteRegion(task, curr_addr, curr_data, curr_data_count); 584 if (bytes_written <= 0) 585 { 586 // Error should have already be posted by WriteRegion... 587 break; 588 } 589 else 590 { 591 total_bytes_written += bytes_written; 592 curr_addr += bytes_written; 593 curr_data += bytes_written; 594 } 595 } 596 else 597 { 598 DNBLogThreadedIf(LOG_MEMORY_PROTECTIONS, "Failed to set read/write protections on region for address: [0x%8.8llx-0x%8.8llx)", (uint64_t)curr_addr, (uint64_t)(curr_addr + curr_data_count)); 599 break; 600 } 601 } 602 else 603 { 604 DNBLogThreadedIf(LOG_MEMORY_PROTECTIONS, "Failed to get region for address: 0x%8.8llx", (uint64_t)address); 605 break; 606 } 607 } 608 609 return total_bytes_written; 610} 611 612 613nub_size_t 614MachVMMemory::WriteRegion(task_t task, const nub_addr_t address, const void *data, const nub_size_t data_count) 615{ 616 if (data == NULL || data_count == 0) 617 return 0; 618 619 nub_size_t total_bytes_written = 0; 620 nub_addr_t curr_addr = address; 621 const uint8_t *curr_data = (const uint8_t*)data; 622 while (total_bytes_written < data_count) 623 { 624 mach_msg_type_number_t curr_data_count = MaxBytesLeftInPage(task, curr_addr, data_count - total_bytes_written); 625 m_err = ::mach_vm_write (task, curr_addr, (pointer_t) curr_data, curr_data_count); 626 if (DNBLogCheckLogBit(LOG_MEMORY) || m_err.Fail()) 627 m_err.LogThreaded("::mach_vm_write ( task = 0x%4.4x, addr = 0x%8.8llx, data = %8.8p, dataCnt = %u )", task, (uint64_t)curr_addr, curr_data, curr_data_count); 628 629#if !defined (__i386__) && !defined (__x86_64__) 630 vm_machine_attribute_val_t mattr_value = MATTR_VAL_CACHE_FLUSH; 631 632 m_err = ::vm_machine_attribute (task, curr_addr, curr_data_count, MATTR_CACHE, &mattr_value); 633 if (DNBLogCheckLogBit(LOG_MEMORY) || m_err.Fail()) 634 m_err.LogThreaded("::vm_machine_attribute ( task = 0x%4.4x, addr = 0x%8.8llx, size = %u, attr = MATTR_CACHE, mattr_value => MATTR_VAL_CACHE_FLUSH )", task, (uint64_t)curr_addr, curr_data_count); 635#endif 636 637 if (m_err.Success()) 638 { 639 total_bytes_written += curr_data_count; 640 curr_addr += curr_data_count; 641 curr_data += curr_data_count; 642 } 643 else 644 { 645 break; 646 } 647 } 648 return total_bytes_written; 649} 650