gitee.com/ks-custle/core-gm@v0.0.0-20230922171213-b83bdd97b62c/internal/profile/legacy_profile.go (about) 1 // Copyright 2014 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 // This file implements parsers to convert legacy profiles into the 6 // profile.proto format. 7 8 package profile 9 10 import ( 11 "bufio" 12 "bytes" 13 "fmt" 14 "io" 15 "math" 16 "regexp" 17 "strconv" 18 "strings" 19 ) 20 21 var ( 22 countStartRE = regexp.MustCompile(`\A(\w+) profile: total \d+\n\z`) 23 countRE = regexp.MustCompile(`\A(\d+) @(( 0x[0-9a-f]+)+)\n\z`) 24 25 heapHeaderRE = regexp.MustCompile(`heap profile: *(\d+): *(\d+) *\[ *(\d+): *(\d+) *\] *@ *(heap[_a-z0-9]*)/?(\d*)`) 26 heapSampleRE = regexp.MustCompile(`(-?\d+): *(-?\d+) *\[ *(\d+): *(\d+) *] @([ x0-9a-f]*)`) 27 28 contentionSampleRE = regexp.MustCompile(`(\d+) *(\d+) @([ x0-9a-f]*)`) 29 30 hexNumberRE = regexp.MustCompile(`0x[0-9a-f]+`) 31 32 growthHeaderRE = regexp.MustCompile(`heap profile: *(\d+): *(\d+) *\[ *(\d+): *(\d+) *\] @ growthz`) 33 34 fragmentationHeaderRE = regexp.MustCompile(`heap profile: *(\d+): *(\d+) *\[ *(\d+): *(\d+) *\] @ fragmentationz`) 35 36 threadzStartRE = regexp.MustCompile(`--- threadz \d+ ---`) 37 threadStartRE = regexp.MustCompile(`--- Thread ([[:xdigit:]]+) \(name: (.*)/(\d+)\) stack: ---`) 38 39 procMapsRE = regexp.MustCompile(`([[:xdigit:]]+)-([[:xdigit:]]+)\s+([-rwxp]+)\s+([[:xdigit:]]+)\s+([[:xdigit:]]+):([[:xdigit:]]+)\s+([[:digit:]]+)\s*(\S+)?`) 40 41 briefMapsRE = regexp.MustCompile(`\s*([[:xdigit:]]+)-([[:xdigit:]]+):\s*(\S+)(\s.*@)?([[:xdigit:]]+)?`) 42 43 // LegacyHeapAllocated instructs the heapz parsers to use the 44 // allocated memory stats instead of the default in-use memory. Note 45 // that tcmalloc doesn't provide all allocated memory, only in-use 46 // stats. 47 LegacyHeapAllocated bool 48 ) 49 50 func isSpaceOrComment(line string) bool { 51 trimmed := strings.TrimSpace(line) 52 return len(trimmed) == 0 || trimmed[0] == '#' 53 } 54 55 // parseGoCount parses a Go count profile (e.g., threadcreate or 56 // goroutine) and returns a new Profile. 57 func parseGoCount(b []byte) (*Profile, error) { 58 r := bytes.NewBuffer(b) 59 60 var line string 61 var err error 62 for { 63 // Skip past comments and empty lines seeking a real header. 64 line, err = r.ReadString('\n') 65 if err != nil { 66 return nil, err 67 } 68 if !isSpaceOrComment(line) { 69 break 70 } 71 } 72 73 m := countStartRE.FindStringSubmatch(line) 74 if m == nil { 75 return nil, errUnrecognized 76 } 77 profileType := m[1] 78 p := &Profile{ 79 PeriodType: &ValueType{Type: profileType, Unit: "count"}, 80 Period: 1, 81 SampleType: []*ValueType{{Type: profileType, Unit: "count"}}, 82 } 83 locations := make(map[uint64]*Location) 84 for { 85 line, err = r.ReadString('\n') 86 if err != nil { 87 if err == io.EOF { 88 break 89 } 90 return nil, err 91 } 92 if isSpaceOrComment(line) { 93 continue 94 } 95 if strings.HasPrefix(line, "---") { 96 break 97 } 98 m := countRE.FindStringSubmatch(line) 99 if m == nil { 100 return nil, errMalformed 101 } 102 n, err := strconv.ParseInt(m[1], 0, 64) 103 if err != nil { 104 return nil, errMalformed 105 } 106 fields := strings.Fields(m[2]) 107 locs := make([]*Location, 0, len(fields)) 108 for _, stk := range fields { 109 addr, err := strconv.ParseUint(stk, 0, 64) 110 if err != nil { 111 return nil, errMalformed 112 } 113 // Adjust all frames by -1 to land on the call instruction. 114 addr-- 115 loc := locations[addr] 116 if loc == nil { 117 loc = &Location{ 118 Address: addr, 119 } 120 locations[addr] = loc 121 p.Location = append(p.Location, loc) 122 } 123 locs = append(locs, loc) 124 } 125 p.Sample = append(p.Sample, &Sample{ 126 Location: locs, 127 Value: []int64{n}, 128 }) 129 } 130 131 if err = parseAdditionalSections(strings.TrimSpace(line), r, p); err != nil { 132 return nil, err 133 } 134 return p, nil 135 } 136 137 // remapLocationIDs ensures there is a location for each address 138 // referenced by a sample, and remaps the samples to point to the new 139 // location ids. 140 func (p *Profile) remapLocationIDs() { 141 seen := make(map[*Location]bool, len(p.Location)) 142 var locs []*Location 143 144 for _, s := range p.Sample { 145 for _, l := range s.Location { 146 if seen[l] { 147 continue 148 } 149 l.ID = uint64(len(locs) + 1) 150 locs = append(locs, l) 151 seen[l] = true 152 } 153 } 154 p.Location = locs 155 } 156 157 func (p *Profile) remapFunctionIDs() { 158 seen := make(map[*Function]bool, len(p.Function)) 159 var fns []*Function 160 161 for _, l := range p.Location { 162 for _, ln := range l.Line { 163 fn := ln.Function 164 if fn == nil || seen[fn] { 165 continue 166 } 167 fn.ID = uint64(len(fns) + 1) 168 fns = append(fns, fn) 169 seen[fn] = true 170 } 171 } 172 p.Function = fns 173 } 174 175 // remapMappingIDs matches location addresses with existing mappings 176 // and updates them appropriately. This is O(N*M), if this ever shows 177 // up as a bottleneck, evaluate sorting the mappings and doing a 178 // binary search, which would make it O(N*log(M)). 179 func (p *Profile) remapMappingIDs() { 180 if len(p.Mapping) == 0 { 181 return 182 } 183 184 // Some profile handlers will incorrectly set regions for the main 185 // executable if its section is remapped. Fix them through heuristics. 186 187 // Remove the initial mapping if named '/anon_hugepage' and has a 188 // consecutive adjacent mapping. 189 if m := p.Mapping[0]; strings.HasPrefix(m.File, "/anon_hugepage") { 190 if len(p.Mapping) > 1 && m.Limit == p.Mapping[1].Start { 191 p.Mapping = p.Mapping[1:] 192 } 193 } 194 195 // Subtract the offset from the start of the main mapping if it 196 // ends up at a recognizable start address. 197 const expectedStart = 0x400000 198 if m := p.Mapping[0]; m.Start-m.Offset == expectedStart { 199 m.Start = expectedStart 200 m.Offset = 0 201 } 202 203 for _, l := range p.Location { 204 if a := l.Address; a != 0 { 205 for _, m := range p.Mapping { 206 if m.Start <= a && a < m.Limit { 207 l.Mapping = m 208 break 209 } 210 } 211 } 212 } 213 214 // Reset all mapping IDs. 215 for i, m := range p.Mapping { 216 m.ID = uint64(i + 1) 217 } 218 } 219 220 var cpuInts = []func([]byte) (uint64, []byte){ 221 get32l, 222 get32b, 223 get64l, 224 get64b, 225 } 226 227 func get32l(b []byte) (uint64, []byte) { 228 if len(b) < 4 { 229 return 0, nil 230 } 231 return uint64(b[0]) | uint64(b[1])<<8 | uint64(b[2])<<16 | uint64(b[3])<<24, b[4:] 232 } 233 234 func get32b(b []byte) (uint64, []byte) { 235 if len(b) < 4 { 236 return 0, nil 237 } 238 return uint64(b[3]) | uint64(b[2])<<8 | uint64(b[1])<<16 | uint64(b[0])<<24, b[4:] 239 } 240 241 func get64l(b []byte) (uint64, []byte) { 242 if len(b) < 8 { 243 return 0, nil 244 } 245 return uint64(b[0]) | uint64(b[1])<<8 | uint64(b[2])<<16 | uint64(b[3])<<24 | uint64(b[4])<<32 | uint64(b[5])<<40 | uint64(b[6])<<48 | uint64(b[7])<<56, b[8:] 246 } 247 248 func get64b(b []byte) (uint64, []byte) { 249 if len(b) < 8 { 250 return 0, nil 251 } 252 return uint64(b[7]) | uint64(b[6])<<8 | uint64(b[5])<<16 | uint64(b[4])<<24 | uint64(b[3])<<32 | uint64(b[2])<<40 | uint64(b[1])<<48 | uint64(b[0])<<56, b[8:] 253 } 254 255 // ParseTracebacks parses a set of tracebacks and returns a newly 256 // populated profile. It will accept any text file and generate a 257 // Profile out of it with any hex addresses it can identify, including 258 // a process map if it can recognize one. Each sample will include a 259 // tag "source" with the addresses recognized in string format. 260 func ParseTracebacks(b []byte) (*Profile, error) { 261 r := bytes.NewBuffer(b) 262 263 p := &Profile{ 264 PeriodType: &ValueType{Type: "trace", Unit: "count"}, 265 Period: 1, 266 SampleType: []*ValueType{ 267 {Type: "trace", Unit: "count"}, 268 }, 269 } 270 271 var sources []string 272 var sloc []*Location 273 274 locs := make(map[uint64]*Location) 275 for { 276 l, err := r.ReadString('\n') 277 if err != nil { 278 if err != io.EOF { 279 return nil, err 280 } 281 if l == "" { 282 break 283 } 284 } 285 if sectionTrigger(l) == memoryMapSection { 286 break 287 } 288 if s, addrs := extractHexAddresses(l); len(s) > 0 { 289 for _, addr := range addrs { 290 // Addresses from stack traces point to the next instruction after 291 // each call. Adjust by -1 to land somewhere on the actual call. 292 addr-- 293 loc := locs[addr] 294 if locs[addr] == nil { 295 loc = &Location{ 296 Address: addr, 297 } 298 p.Location = append(p.Location, loc) 299 locs[addr] = loc 300 } 301 sloc = append(sloc, loc) 302 } 303 304 sources = append(sources, s...) 305 } else { 306 if len(sources) > 0 || len(sloc) > 0 { 307 addTracebackSample(sloc, sources, p) 308 sloc, sources = nil, nil 309 } 310 } 311 } 312 313 // Add final sample to save any leftover data. 314 if len(sources) > 0 || len(sloc) > 0 { 315 addTracebackSample(sloc, sources, p) 316 } 317 318 if err := p.ParseMemoryMap(r); err != nil { 319 return nil, err 320 } 321 return p, nil 322 } 323 324 func addTracebackSample(l []*Location, s []string, p *Profile) { 325 p.Sample = append(p.Sample, 326 &Sample{ 327 Value: []int64{1}, 328 Location: l, 329 Label: map[string][]string{"source": s}, 330 }) 331 } 332 333 // parseCPU parses a profilez legacy profile and returns a newly 334 // populated Profile. 335 // 336 // The general format for profilez samples is a sequence of words in 337 // binary format. The first words are a header with the following data: 338 // 1st word -- 0 339 // 2nd word -- 3 340 // 3rd word -- 0 if a c++ application, 1 if a java application. 341 // 4th word -- Sampling period (in microseconds). 342 // 5th word -- Padding. 343 func parseCPU(b []byte) (*Profile, error) { 344 var parse func([]byte) (uint64, []byte) 345 var n1, n2, n3, n4, n5 uint64 346 for _, parse = range cpuInts { 347 var tmp []byte 348 n1, tmp = parse(b) 349 n2, tmp = parse(tmp) 350 n3, tmp = parse(tmp) 351 n4, tmp = parse(tmp) 352 n5, tmp = parse(tmp) 353 354 if tmp != nil && n1 == 0 && n2 == 3 && n3 == 0 && n4 > 0 && n5 == 0 { 355 b = tmp 356 return cpuProfile(b, int64(n4), parse) 357 } 358 } 359 return nil, errUnrecognized 360 } 361 362 // cpuProfile returns a new Profile from C++ profilez data. 363 // b is the profile bytes after the header, period is the profiling 364 // period, and parse is a function to parse 8-byte chunks from the 365 // profile in its native endianness. 366 func cpuProfile(b []byte, period int64, parse func(b []byte) (uint64, []byte)) (*Profile, error) { 367 p := &Profile{ 368 Period: period * 1000, 369 PeriodType: &ValueType{Type: "cpu", Unit: "nanoseconds"}, 370 SampleType: []*ValueType{ 371 {Type: "samples", Unit: "count"}, 372 {Type: "cpu", Unit: "nanoseconds"}, 373 }, 374 } 375 var err error 376 if b, _, err = parseCPUSamples(b, parse, true, p); err != nil { 377 return nil, err 378 } 379 380 // If all samples have the same second-to-the-bottom frame, it 381 // strongly suggests that it is an uninteresting artifact of 382 // measurement -- a stack frame pushed by the signal handler. The 383 // bottom frame is always correct as it is picked up from the signal 384 // structure, not the stack. Check if this is the case and if so, 385 // remove. 386 if len(p.Sample) > 1 && len(p.Sample[0].Location) > 1 { 387 allSame := true 388 id1 := p.Sample[0].Location[1].Address 389 for _, s := range p.Sample { 390 if len(s.Location) < 2 || id1 != s.Location[1].Address { 391 allSame = false 392 break 393 } 394 } 395 if allSame { 396 for _, s := range p.Sample { 397 s.Location = append(s.Location[:1], s.Location[2:]...) 398 } 399 } 400 } 401 402 if err := p.ParseMemoryMap(bytes.NewBuffer(b)); err != nil { 403 return nil, err 404 } 405 return p, nil 406 } 407 408 // parseCPUSamples parses a collection of profilez samples from a 409 // profile. 410 // 411 // profilez samples are a repeated sequence of stack frames of the 412 // form: 413 // 1st word -- The number of times this stack was encountered. 414 // 2nd word -- The size of the stack (StackSize). 415 // 3rd word -- The first address on the stack. 416 // ... 417 // StackSize + 2 -- The last address on the stack 418 // The last stack trace is of the form: 419 // 1st word -- 0 420 // 2nd word -- 1 421 // 3rd word -- 0 422 // 423 // Addresses from stack traces may point to the next instruction after 424 // each call. Optionally adjust by -1 to land somewhere on the actual 425 // call (except for the leaf, which is not a call). 426 func parseCPUSamples(b []byte, parse func(b []byte) (uint64, []byte), adjust bool, p *Profile) ([]byte, map[uint64]*Location, error) { 427 locs := make(map[uint64]*Location) 428 for len(b) > 0 { 429 var count, nstk uint64 430 count, b = parse(b) 431 nstk, b = parse(b) 432 if b == nil || nstk > uint64(len(b)/4) { 433 return nil, nil, errUnrecognized 434 } 435 var sloc []*Location 436 addrs := make([]uint64, nstk) 437 for i := 0; i < int(nstk); i++ { 438 addrs[i], b = parse(b) 439 } 440 441 if count == 0 && nstk == 1 && addrs[0] == 0 { 442 // End of data marker 443 break 444 } 445 for i, addr := range addrs { 446 if adjust && i > 0 { 447 addr-- 448 } 449 loc := locs[addr] 450 if loc == nil { 451 loc = &Location{ 452 Address: addr, 453 } 454 locs[addr] = loc 455 p.Location = append(p.Location, loc) 456 } 457 sloc = append(sloc, loc) 458 } 459 p.Sample = append(p.Sample, 460 &Sample{ 461 Value: []int64{int64(count), int64(count) * p.Period}, 462 Location: sloc, 463 }) 464 } 465 // Reached the end without finding the EOD marker. 466 return b, locs, nil 467 } 468 469 // parseHeap parses a heapz legacy or a growthz profile and 470 // returns a newly populated Profile. 471 func parseHeap(b []byte) (p *Profile, err error) { 472 r := bytes.NewBuffer(b) 473 l, err := r.ReadString('\n') 474 if err != nil { 475 return nil, errUnrecognized 476 } 477 478 sampling := "" 479 480 if header := heapHeaderRE.FindStringSubmatch(l); header != nil { 481 p = &Profile{ 482 SampleType: []*ValueType{ 483 {Type: "objects", Unit: "count"}, 484 {Type: "space", Unit: "bytes"}, 485 }, 486 PeriodType: &ValueType{Type: "objects", Unit: "bytes"}, 487 } 488 489 var period int64 490 if len(header[6]) > 0 { 491 if period, err = strconv.ParseInt(header[6], 10, 64); err != nil { 492 return nil, errUnrecognized 493 } 494 } 495 496 switch header[5] { 497 case "heapz_v2", "heap_v2": 498 sampling, p.Period = "v2", period 499 case "heapprofile": 500 sampling, p.Period = "", 1 501 case "heap": 502 sampling, p.Period = "v2", period/2 503 default: 504 return nil, errUnrecognized 505 } 506 } else if header = growthHeaderRE.FindStringSubmatch(l); header != nil { 507 p = &Profile{ 508 SampleType: []*ValueType{ 509 {Type: "objects", Unit: "count"}, 510 {Type: "space", Unit: "bytes"}, 511 }, 512 PeriodType: &ValueType{Type: "heapgrowth", Unit: "count"}, 513 Period: 1, 514 } 515 } else if header = fragmentationHeaderRE.FindStringSubmatch(l); header != nil { 516 p = &Profile{ 517 SampleType: []*ValueType{ 518 {Type: "objects", Unit: "count"}, 519 {Type: "space", Unit: "bytes"}, 520 }, 521 PeriodType: &ValueType{Type: "allocations", Unit: "count"}, 522 Period: 1, 523 } 524 } else { 525 return nil, errUnrecognized 526 } 527 528 if LegacyHeapAllocated { 529 for _, st := range p.SampleType { 530 st.Type = "alloc_" + st.Type 531 } 532 } else { 533 for _, st := range p.SampleType { 534 st.Type = "inuse_" + st.Type 535 } 536 } 537 538 locs := make(map[uint64]*Location) 539 for { 540 l, err = r.ReadString('\n') 541 if err != nil { 542 if err != io.EOF { 543 return nil, err 544 } 545 546 if l == "" { 547 break 548 } 549 } 550 551 if isSpaceOrComment(l) { 552 continue 553 } 554 l = strings.TrimSpace(l) 555 556 if sectionTrigger(l) != unrecognizedSection { 557 break 558 } 559 560 value, blocksize, addrs, err := parseHeapSample(l, p.Period, sampling) 561 if err != nil { 562 return nil, err 563 } 564 var sloc []*Location 565 for _, addr := range addrs { 566 // Addresses from stack traces point to the next instruction after 567 // each call. Adjust by -1 to land somewhere on the actual call. 568 addr-- 569 loc := locs[addr] 570 if locs[addr] == nil { 571 loc = &Location{ 572 Address: addr, 573 } 574 p.Location = append(p.Location, loc) 575 locs[addr] = loc 576 } 577 sloc = append(sloc, loc) 578 } 579 580 p.Sample = append(p.Sample, &Sample{ 581 Value: value, 582 Location: sloc, 583 NumLabel: map[string][]int64{"bytes": {blocksize}}, 584 }) 585 } 586 587 if err = parseAdditionalSections(l, r, p); err != nil { 588 return nil, err 589 } 590 return p, nil 591 } 592 593 // parseHeapSample parses a single row from a heap profile into a new Sample. 594 func parseHeapSample(line string, rate int64, sampling string) (value []int64, blocksize int64, addrs []uint64, err error) { 595 sampleData := heapSampleRE.FindStringSubmatch(line) 596 if len(sampleData) != 6 { 597 return value, blocksize, addrs, fmt.Errorf("unexpected number of sample values: got %d, want 6", len(sampleData)) 598 } 599 600 // Use first two values by default; tcmalloc sampling generates the 601 // same value for both, only the older heap-profile collect separate 602 // stats for in-use and allocated objects. 603 valueIndex := 1 604 if LegacyHeapAllocated { 605 valueIndex = 3 606 } 607 608 var v1, v2 int64 609 if v1, err = strconv.ParseInt(sampleData[valueIndex], 10, 64); err != nil { 610 return value, blocksize, addrs, fmt.Errorf("malformed sample: %s: %v", line, err) 611 } 612 if v2, err = strconv.ParseInt(sampleData[valueIndex+1], 10, 64); err != nil { 613 return value, blocksize, addrs, fmt.Errorf("malformed sample: %s: %v", line, err) 614 } 615 616 if v1 == 0 { 617 if v2 != 0 { 618 return value, blocksize, addrs, fmt.Errorf("allocation count was 0 but allocation bytes was %d", v2) 619 } 620 } else { 621 blocksize = v2 / v1 622 if sampling == "v2" { 623 v1, v2 = scaleHeapSample(v1, v2, rate) 624 } 625 } 626 627 value = []int64{v1, v2} 628 addrs = parseHexAddresses(sampleData[5]) 629 630 return value, blocksize, addrs, nil 631 } 632 633 // extractHexAddresses extracts hex numbers from a string and returns 634 // them, together with their numeric value, in a slice. 635 func extractHexAddresses(s string) ([]string, []uint64) { 636 hexStrings := hexNumberRE.FindAllString(s, -1) 637 var ids []uint64 638 for _, s := range hexStrings { 639 if id, err := strconv.ParseUint(s, 0, 64); err == nil { 640 ids = append(ids, id) 641 } else { 642 // Do not expect any parsing failures due to the regexp matching. 643 panic("failed to parse hex value:" + s) 644 } 645 } 646 return hexStrings, ids 647 } 648 649 // parseHexAddresses parses hex numbers from a string and returns them 650 // in a slice. 651 func parseHexAddresses(s string) []uint64 { 652 _, ids := extractHexAddresses(s) 653 return ids 654 } 655 656 // scaleHeapSample adjusts the data from a heapz Sample to 657 // account for its probability of appearing in the collected 658 // data. heapz profiles are a sampling of the memory allocations 659 // requests in a program. We estimate the unsampled value by dividing 660 // each collected sample by its probability of appearing in the 661 // profile. heapz v2 profiles rely on a poisson process to determine 662 // which samples to collect, based on the desired average collection 663 // rate R. The probability of a sample of size S to appear in that 664 // profile is 1-exp(-S/R). 665 func scaleHeapSample(count, size, rate int64) (int64, int64) { 666 if count == 0 || size == 0 { 667 return 0, 0 668 } 669 670 if rate <= 1 { 671 // if rate==1 all samples were collected so no adjustment is needed. 672 // if rate<1 treat as unknown and skip scaling. 673 return count, size 674 } 675 676 avgSize := float64(size) / float64(count) 677 scale := 1 / (1 - math.Exp(-avgSize/float64(rate))) 678 679 return int64(float64(count) * scale), int64(float64(size) * scale) 680 } 681 682 // parseContention parses a mutex or contention profile. There are 2 cases: 683 // "--- contentionz " for legacy C++ profiles (and backwards compatibility) 684 // "--- mutex:" or "--- contention:" for profiles generated by the Go runtime. 685 // This code converts the text output from runtime into a *Profile. (In the future 686 // the runtime might write a serialized Profile directly making this unnecessary.) 687 func parseContention(b []byte) (*Profile, error) { 688 r := bytes.NewBuffer(b) 689 var l string 690 var err error 691 for { 692 // Skip past comments and empty lines seeking a real header. 693 l, err = r.ReadString('\n') 694 if err != nil { 695 return nil, err 696 } 697 if !isSpaceOrComment(l) { 698 break 699 } 700 } 701 702 if strings.HasPrefix(l, "--- contentionz ") { 703 return parseCppContention(r) 704 } else if strings.HasPrefix(l, "--- mutex:") { 705 return parseCppContention(r) 706 } else if strings.HasPrefix(l, "--- contention:") { 707 return parseCppContention(r) 708 } 709 return nil, errUnrecognized 710 } 711 712 // parseCppContention parses the output from synchronization_profiling.cc 713 // for backward compatibility, and the compatible (non-debug) block profile 714 // output from the Go runtime. 715 func parseCppContention(r *bytes.Buffer) (*Profile, error) { 716 p := &Profile{ 717 PeriodType: &ValueType{Type: "contentions", Unit: "count"}, 718 Period: 1, 719 SampleType: []*ValueType{ 720 {Type: "contentions", Unit: "count"}, 721 {Type: "delay", Unit: "nanoseconds"}, 722 }, 723 } 724 725 var cpuHz int64 726 var l string 727 var err error 728 // Parse text of the form "attribute = value" before the samples. 729 const delimiter = "=" 730 for { 731 l, err = r.ReadString('\n') 732 if err != nil { 733 if err != io.EOF { 734 return nil, err 735 } 736 737 if l == "" { 738 break 739 } 740 } 741 if isSpaceOrComment(l) { 742 continue 743 } 744 745 if l = strings.TrimSpace(l); l == "" { 746 continue 747 } 748 749 if strings.HasPrefix(l, "---") { 750 break 751 } 752 753 attr := strings.SplitN(l, delimiter, 2) 754 if len(attr) != 2 { 755 break 756 } 757 key, val := strings.TrimSpace(attr[0]), strings.TrimSpace(attr[1]) 758 var err error 759 switch key { 760 case "cycles/second": 761 if cpuHz, err = strconv.ParseInt(val, 0, 64); err != nil { 762 return nil, errUnrecognized 763 } 764 case "sampling period": 765 if p.Period, err = strconv.ParseInt(val, 0, 64); err != nil { 766 return nil, errUnrecognized 767 } 768 case "ms since reset": 769 ms, err := strconv.ParseInt(val, 0, 64) 770 if err != nil { 771 return nil, errUnrecognized 772 } 773 p.DurationNanos = ms * 1000 * 1000 774 case "format": 775 // CPP contentionz profiles don't have format. 776 return nil, errUnrecognized 777 case "resolution": 778 // CPP contentionz profiles don't have resolution. 779 return nil, errUnrecognized 780 case "discarded samples": 781 default: 782 return nil, errUnrecognized 783 } 784 } 785 786 locs := make(map[uint64]*Location) 787 for { 788 if !isSpaceOrComment(l) { 789 if l = strings.TrimSpace(l); strings.HasPrefix(l, "---") { 790 break 791 } 792 value, addrs, err := parseContentionSample(l, p.Period, cpuHz) 793 if err != nil { 794 return nil, err 795 } 796 var sloc []*Location 797 for _, addr := range addrs { 798 // Addresses from stack traces point to the next instruction after 799 // each call. Adjust by -1 to land somewhere on the actual call. 800 addr-- 801 loc := locs[addr] 802 if locs[addr] == nil { 803 loc = &Location{ 804 Address: addr, 805 } 806 p.Location = append(p.Location, loc) 807 locs[addr] = loc 808 } 809 sloc = append(sloc, loc) 810 } 811 p.Sample = append(p.Sample, &Sample{ 812 Value: value, 813 Location: sloc, 814 }) 815 } 816 817 if l, err = r.ReadString('\n'); err != nil { 818 if err != io.EOF { 819 return nil, err 820 } 821 if l == "" { 822 break 823 } 824 } 825 } 826 827 if err = parseAdditionalSections(l, r, p); err != nil { 828 return nil, err 829 } 830 831 return p, nil 832 } 833 834 // parseContentionSample parses a single row from a contention profile 835 // into a new Sample. 836 func parseContentionSample(line string, period, cpuHz int64) (value []int64, addrs []uint64, err error) { 837 sampleData := contentionSampleRE.FindStringSubmatch(line) 838 if sampleData == nil { 839 return value, addrs, errUnrecognized 840 } 841 842 v1, err := strconv.ParseInt(sampleData[1], 10, 64) 843 if err != nil { 844 return value, addrs, fmt.Errorf("malformed sample: %s: %v", line, err) 845 } 846 v2, err := strconv.ParseInt(sampleData[2], 10, 64) 847 if err != nil { 848 return value, addrs, fmt.Errorf("malformed sample: %s: %v", line, err) 849 } 850 851 // Unsample values if period and cpuHz are available. 852 // - Delays are scaled to cycles and then to nanoseconds. 853 // - Contentions are scaled to cycles. 854 if period > 0 { 855 if cpuHz > 0 { 856 cpuGHz := float64(cpuHz) / 1e9 857 v1 = int64(float64(v1) * float64(period) / cpuGHz) 858 } 859 v2 = v2 * period 860 } 861 862 value = []int64{v2, v1} 863 addrs = parseHexAddresses(sampleData[3]) 864 865 return value, addrs, nil 866 } 867 868 // parseThread parses a Threadz profile and returns a new Profile. 869 func parseThread(b []byte) (*Profile, error) { 870 r := bytes.NewBuffer(b) 871 872 var line string 873 var err error 874 for { 875 // Skip past comments and empty lines seeking a real header. 876 line, err = r.ReadString('\n') 877 if err != nil { 878 return nil, err 879 } 880 if !isSpaceOrComment(line) { 881 break 882 } 883 } 884 885 if m := threadzStartRE.FindStringSubmatch(line); m != nil { 886 // Advance over initial comments until first stack trace. 887 for { 888 line, err = r.ReadString('\n') 889 if err != nil { 890 if err != io.EOF { 891 return nil, err 892 } 893 894 if line == "" { 895 break 896 } 897 } 898 if sectionTrigger(line) != unrecognizedSection || line[0] == '-' { 899 break 900 } 901 } 902 } else if t := threadStartRE.FindStringSubmatch(line); len(t) != 4 { 903 return nil, errUnrecognized 904 } 905 906 p := &Profile{ 907 SampleType: []*ValueType{{Type: "thread", Unit: "count"}}, 908 PeriodType: &ValueType{Type: "thread", Unit: "count"}, 909 Period: 1, 910 } 911 912 locs := make(map[uint64]*Location) 913 // Recognize each thread and populate profile samples. 914 for sectionTrigger(line) == unrecognizedSection { 915 if strings.HasPrefix(line, "---- no stack trace for") { 916 line = "" 917 break 918 } 919 if t := threadStartRE.FindStringSubmatch(line); len(t) != 4 { 920 return nil, errUnrecognized 921 } 922 923 var addrs []uint64 924 line, addrs, err = parseThreadSample(r) 925 if err != nil { 926 return nil, errUnrecognized 927 } 928 if len(addrs) == 0 { 929 // We got a --same as previous threads--. Bump counters. 930 if len(p.Sample) > 0 { 931 s := p.Sample[len(p.Sample)-1] 932 s.Value[0]++ 933 } 934 continue 935 } 936 937 var sloc []*Location 938 for _, addr := range addrs { 939 // Addresses from stack traces point to the next instruction after 940 // each call. Adjust by -1 to land somewhere on the actual call. 941 addr-- 942 loc := locs[addr] 943 if locs[addr] == nil { 944 loc = &Location{ 945 Address: addr, 946 } 947 p.Location = append(p.Location, loc) 948 locs[addr] = loc 949 } 950 sloc = append(sloc, loc) 951 } 952 953 p.Sample = append(p.Sample, &Sample{ 954 Value: []int64{1}, 955 Location: sloc, 956 }) 957 } 958 959 if err = parseAdditionalSections(line, r, p); err != nil { 960 return nil, err 961 } 962 963 return p, nil 964 } 965 966 // parseThreadSample parses a symbolized or unsymbolized stack trace. 967 // Returns the first line after the traceback, the sample (or nil if 968 // it hits a 'same-as-previous' marker) and an error. 969 func parseThreadSample(b *bytes.Buffer) (nextl string, addrs []uint64, err error) { 970 var l string 971 sameAsPrevious := false 972 for { 973 if l, err = b.ReadString('\n'); err != nil { 974 if err != io.EOF { 975 return "", nil, err 976 } 977 if l == "" { 978 break 979 } 980 } 981 if l = strings.TrimSpace(l); l == "" { 982 continue 983 } 984 985 if strings.HasPrefix(l, "---") { 986 break 987 } 988 if strings.Contains(l, "same as previous thread") { 989 sameAsPrevious = true 990 continue 991 } 992 993 addrs = append(addrs, parseHexAddresses(l)...) 994 } 995 996 if sameAsPrevious { 997 return l, nil, nil 998 } 999 return l, addrs, nil 1000 } 1001 1002 // parseAdditionalSections parses any additional sections in the 1003 // profile, ignoring any unrecognized sections. 1004 func parseAdditionalSections(l string, b *bytes.Buffer, p *Profile) (err error) { 1005 for { 1006 if sectionTrigger(l) == memoryMapSection { 1007 break 1008 } 1009 // Ignore any unrecognized sections. 1010 if l, err := b.ReadString('\n'); err != nil { 1011 if err != io.EOF { 1012 return err 1013 } 1014 if l == "" { 1015 break 1016 } 1017 } 1018 } 1019 return p.ParseMemoryMap(b) 1020 } 1021 1022 // ParseMemoryMap parses a memory map in the format of 1023 // /proc/self/maps, and overrides the mappings in the current profile. 1024 // It renumbers the samples and locations in the profile correspondingly. 1025 func (p *Profile) ParseMemoryMap(rd io.Reader) error { 1026 b := bufio.NewReader(rd) 1027 1028 var attrs []string 1029 var r *strings.Replacer 1030 const delimiter = "=" 1031 for { 1032 l, err := b.ReadString('\n') 1033 if err != nil { 1034 if err != io.EOF { 1035 return err 1036 } 1037 if l == "" { 1038 break 1039 } 1040 } 1041 if l = strings.TrimSpace(l); l == "" { 1042 continue 1043 } 1044 1045 if r != nil { 1046 l = r.Replace(l) 1047 } 1048 m, err := parseMappingEntry(l) 1049 if err != nil { 1050 if err == errUnrecognized { 1051 // Recognize assignments of the form: attr=value, and replace 1052 // $attr with value on subsequent mappings. 1053 if attr := strings.SplitN(l, delimiter, 2); len(attr) == 2 { 1054 attrs = append(attrs, "$"+strings.TrimSpace(attr[0]), strings.TrimSpace(attr[1])) 1055 r = strings.NewReplacer(attrs...) 1056 } 1057 // Ignore any unrecognized entries 1058 continue 1059 } 1060 return err 1061 } 1062 if m == nil || (m.File == "" && len(p.Mapping) != 0) { 1063 // In some cases the first entry may include the address range 1064 // but not the name of the file. It should be followed by 1065 // another entry with the name. 1066 continue 1067 } 1068 if len(p.Mapping) == 1 && p.Mapping[0].File == "" { 1069 // Update the name if this is the entry following that empty one. 1070 p.Mapping[0].File = m.File 1071 continue 1072 } 1073 p.Mapping = append(p.Mapping, m) 1074 } 1075 p.remapLocationIDs() 1076 p.remapFunctionIDs() 1077 p.remapMappingIDs() 1078 return nil 1079 } 1080 1081 func parseMappingEntry(l string) (*Mapping, error) { 1082 mapping := &Mapping{} 1083 var err error 1084 if me := procMapsRE.FindStringSubmatch(l); len(me) == 9 { 1085 if !strings.Contains(me[3], "x") { 1086 // Skip non-executable entries. 1087 return nil, nil 1088 } 1089 if mapping.Start, err = strconv.ParseUint(me[1], 16, 64); err != nil { 1090 return nil, errUnrecognized 1091 } 1092 if mapping.Limit, err = strconv.ParseUint(me[2], 16, 64); err != nil { 1093 return nil, errUnrecognized 1094 } 1095 if me[4] != "" { 1096 if mapping.Offset, err = strconv.ParseUint(me[4], 16, 64); err != nil { 1097 return nil, errUnrecognized 1098 } 1099 } 1100 mapping.File = me[8] 1101 return mapping, nil 1102 } 1103 1104 if me := briefMapsRE.FindStringSubmatch(l); len(me) == 6 { 1105 if mapping.Start, err = strconv.ParseUint(me[1], 16, 64); err != nil { 1106 return nil, errUnrecognized 1107 } 1108 if mapping.Limit, err = strconv.ParseUint(me[2], 16, 64); err != nil { 1109 return nil, errUnrecognized 1110 } 1111 mapping.File = me[3] 1112 if me[5] != "" { 1113 if mapping.Offset, err = strconv.ParseUint(me[5], 16, 64); err != nil { 1114 return nil, errUnrecognized 1115 } 1116 } 1117 return mapping, nil 1118 } 1119 1120 return nil, errUnrecognized 1121 } 1122 1123 type sectionType int 1124 1125 const ( 1126 unrecognizedSection sectionType = iota 1127 memoryMapSection 1128 ) 1129 1130 var memoryMapTriggers = []string{ 1131 "--- Memory map: ---", 1132 "MAPPED_LIBRARIES:", 1133 } 1134 1135 func sectionTrigger(line string) sectionType { 1136 for _, trigger := range memoryMapTriggers { 1137 if strings.Contains(line, trigger) { 1138 return memoryMapSection 1139 } 1140 } 1141 return unrecognizedSection 1142 } 1143 1144 func (p *Profile) addLegacyFrameInfo() { 1145 switch { 1146 case isProfileType(p, heapzSampleTypes) || 1147 isProfileType(p, heapzInUseSampleTypes) || 1148 isProfileType(p, heapzAllocSampleTypes): 1149 p.DropFrames, p.KeepFrames = allocRxStr, allocSkipRxStr 1150 case isProfileType(p, contentionzSampleTypes): 1151 p.DropFrames, p.KeepFrames = lockRxStr, "" 1152 default: 1153 p.DropFrames, p.KeepFrames = cpuProfilerRxStr, "" 1154 } 1155 } 1156 1157 var heapzSampleTypes = []string{"allocations", "size"} // early Go pprof profiles 1158 var heapzInUseSampleTypes = []string{"inuse_objects", "inuse_space"} 1159 var heapzAllocSampleTypes = []string{"alloc_objects", "alloc_space"} 1160 var contentionzSampleTypes = []string{"contentions", "delay"} 1161 1162 func isProfileType(p *Profile, t []string) bool { 1163 st := p.SampleType 1164 if len(st) != len(t) { 1165 return false 1166 } 1167 1168 for i := range st { 1169 if st[i].Type != t[i] { 1170 return false 1171 } 1172 } 1173 return true 1174 } 1175 1176 var allocRxStr = strings.Join([]string{ 1177 // POSIX entry points. 1178 `calloc`, 1179 `cfree`, 1180 `malloc`, 1181 `free`, 1182 `memalign`, 1183 `do_memalign`, 1184 `(__)?posix_memalign`, 1185 `pvalloc`, 1186 `valloc`, 1187 `realloc`, 1188 1189 // TC malloc. 1190 `tcmalloc::.*`, 1191 `tc_calloc`, 1192 `tc_cfree`, 1193 `tc_malloc`, 1194 `tc_free`, 1195 `tc_memalign`, 1196 `tc_posix_memalign`, 1197 `tc_pvalloc`, 1198 `tc_valloc`, 1199 `tc_realloc`, 1200 `tc_new`, 1201 `tc_delete`, 1202 `tc_newarray`, 1203 `tc_deletearray`, 1204 `tc_new_nothrow`, 1205 `tc_newarray_nothrow`, 1206 1207 // Memory-allocation routines on OS X. 1208 `malloc_zone_malloc`, 1209 `malloc_zone_calloc`, 1210 `malloc_zone_valloc`, 1211 `malloc_zone_realloc`, 1212 `malloc_zone_memalign`, 1213 `malloc_zone_free`, 1214 1215 // Go runtime 1216 `runtime\..*`, 1217 1218 // Other misc. memory allocation routines 1219 `BaseArena::.*`, 1220 `(::)?do_malloc_no_errno`, 1221 `(::)?do_malloc_pages`, 1222 `(::)?do_malloc`, 1223 `DoSampledAllocation`, 1224 `MallocedMemBlock::MallocedMemBlock`, 1225 `_M_allocate`, 1226 `__builtin_(vec_)?delete`, 1227 `__builtin_(vec_)?new`, 1228 `__gnu_cxx::new_allocator::allocate`, 1229 `__libc_malloc`, 1230 `__malloc_alloc_template::allocate`, 1231 `allocate`, 1232 `cpp_alloc`, 1233 `operator new(\[\])?`, 1234 `simple_alloc::allocate`, 1235 }, `|`) 1236 1237 var allocSkipRxStr = strings.Join([]string{ 1238 // Preserve Go runtime frames that appear in the middle/bottom of 1239 // the stack. 1240 `runtime\.panic`, 1241 `runtime\.reflectcall`, 1242 `runtime\.call[0-9]*`, 1243 }, `|`) 1244 1245 var cpuProfilerRxStr = strings.Join([]string{ 1246 `ProfileData::Add`, 1247 `ProfileData::prof_handler`, 1248 `CpuProfiler::prof_handler`, 1249 `__pthread_sighandler`, 1250 `__restore`, 1251 }, `|`) 1252 1253 var lockRxStr = strings.Join([]string{ 1254 `RecordLockProfileData`, 1255 `(base::)?RecordLockProfileData.*`, 1256 `(base::)?SubmitMutexProfileData.*`, 1257 `(base::)?SubmitSpinLockProfileData.*`, 1258 `(Mutex::)?AwaitCommon.*`, 1259 `(Mutex::)?Unlock.*`, 1260 `(Mutex::)?UnlockSlow.*`, 1261 `(Mutex::)?ReaderUnlock.*`, 1262 `(MutexLock::)?~MutexLock.*`, 1263 `(SpinLock::)?Unlock.*`, 1264 `(SpinLock::)?SlowUnlock.*`, 1265 `(SpinLockHolder::)?~SpinLockHolder.*`, 1266 }, `|`)