github.com/zebozhuang/go@v0.0.0-20200207033046-f8a98f6f5c5d/src/internal/trace/parser.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 package trace 6 7 import ( 8 "bufio" 9 "bytes" 10 "fmt" 11 "io" 12 "math/rand" 13 "os" 14 "os/exec" 15 "strconv" 16 "strings" 17 _ "unsafe" 18 ) 19 20 // Event describes one event in the trace. 21 type Event struct { 22 Off int // offset in input file (for debugging and error reporting) 23 Type byte // one of Ev* 24 seq int64 // sequence number 25 Ts int64 // timestamp in nanoseconds 26 P int // P on which the event happened (can be one of TimerP, NetpollP, SyscallP) 27 G uint64 // G on which the event happened 28 StkID uint64 // unique stack ID 29 Stk []*Frame // stack trace (can be empty) 30 Args [3]uint64 // event-type-specific arguments 31 SArgs []string // event-type-specific string args 32 // linked event (can be nil), depends on event type: 33 // for GCStart: the GCStop 34 // for GCScanStart: the GCScanDone 35 // for GCSweepStart: the GCSweepDone 36 // for GoCreate: first GoStart of the created goroutine 37 // for GoStart/GoStartLabel: the associated GoEnd, GoBlock or other blocking event 38 // for GoSched/GoPreempt: the next GoStart 39 // for GoBlock and other blocking events: the unblock event 40 // for GoUnblock: the associated GoStart 41 // for blocking GoSysCall: the associated GoSysExit 42 // for GoSysExit: the next GoStart 43 // for GCMarkAssistStart: the associated GCMarkAssistDone 44 Link *Event 45 } 46 47 // Frame is a frame in stack traces. 48 type Frame struct { 49 PC uint64 50 Fn string 51 File string 52 Line int 53 } 54 55 const ( 56 // Special P identifiers: 57 FakeP = 1000000 + iota 58 TimerP // depicts timer unblocks 59 NetpollP // depicts network unblocks 60 SyscallP // depicts returns from syscalls 61 GCP // depicts GC state 62 ) 63 64 // Parse parses, post-processes and verifies the trace. 65 func Parse(r io.Reader, bin string) ([]*Event, error) { 66 ver, events, err := parse(r, bin) 67 if err != nil { 68 return nil, err 69 } 70 if ver < 1007 && bin == "" { 71 return nil, fmt.Errorf("for traces produced by go 1.6 or below, the binary argument must be provided") 72 } 73 return events, nil 74 } 75 76 // parse parses, post-processes and verifies the trace. It returns the 77 // trace version and the list of events. 78 func parse(r io.Reader, bin string) (int, []*Event, error) { 79 ver, rawEvents, strings, err := readTrace(r) 80 if err != nil { 81 return 0, nil, err 82 } 83 events, stacks, err := parseEvents(ver, rawEvents, strings) 84 if err != nil { 85 return 0, nil, err 86 } 87 events, err = removeFutile(events) 88 if err != nil { 89 return 0, nil, err 90 } 91 err = postProcessTrace(ver, events) 92 if err != nil { 93 return 0, nil, err 94 } 95 // Attach stack traces. 96 for _, ev := range events { 97 if ev.StkID != 0 { 98 ev.Stk = stacks[ev.StkID] 99 } 100 } 101 if ver < 1007 && bin != "" { 102 if err := symbolize(events, bin); err != nil { 103 return 0, nil, err 104 } 105 } 106 return ver, events, nil 107 } 108 109 // rawEvent is a helper type used during parsing. 110 type rawEvent struct { 111 off int 112 typ byte 113 args []uint64 114 } 115 116 // readTrace does wire-format parsing and verification. 117 // It does not care about specific event types and argument meaning. 118 func readTrace(r io.Reader) (ver int, events []rawEvent, strings map[uint64]string, err error) { 119 // Read and validate trace header. 120 var buf [16]byte 121 off, err := io.ReadFull(r, buf[:]) 122 if err != nil { 123 err = fmt.Errorf("failed to read header: read %v, err %v", off, err) 124 return 125 } 126 ver, err = parseHeader(buf[:]) 127 if err != nil { 128 return 129 } 130 switch ver { 131 case 1005, 1007, 1008, 1009: 132 // Note: When adding a new version, add canned traces 133 // from the old version to the test suite using mkcanned.bash. 134 break 135 default: 136 err = fmt.Errorf("unsupported trace file version %v.%v (update Go toolchain) %v", ver/1000, ver%1000, ver) 137 return 138 } 139 140 // Read events. 141 strings = make(map[uint64]string) 142 for { 143 // Read event type and number of arguments (1 byte). 144 off0 := off 145 var n int 146 n, err = r.Read(buf[:1]) 147 if err == io.EOF { 148 err = nil 149 break 150 } 151 if err != nil || n != 1 { 152 err = fmt.Errorf("failed to read trace at offset 0x%x: n=%v err=%v", off0, n, err) 153 return 154 } 155 off += n 156 typ := buf[0] << 2 >> 2 157 narg := buf[0]>>6 + 1 158 inlineArgs := byte(4) 159 if ver < 1007 { 160 narg++ 161 inlineArgs++ 162 } 163 if typ == EvNone || typ >= EvCount || EventDescriptions[typ].minVersion > ver { 164 err = fmt.Errorf("unknown event type %v at offset 0x%x", typ, off0) 165 return 166 } 167 if typ == EvString { 168 // String dictionary entry [ID, length, string]. 169 var id uint64 170 id, off, err = readVal(r, off) 171 if err != nil { 172 return 173 } 174 if id == 0 { 175 err = fmt.Errorf("string at offset %d has invalid id 0", off) 176 return 177 } 178 if strings[id] != "" { 179 err = fmt.Errorf("string at offset %d has duplicate id %v", off, id) 180 return 181 } 182 var ln uint64 183 ln, off, err = readVal(r, off) 184 if err != nil { 185 return 186 } 187 if ln == 0 { 188 err = fmt.Errorf("string at offset %d has invalid length 0", off) 189 return 190 } 191 if ln > 1e6 { 192 err = fmt.Errorf("string at offset %d has too large length %v", off, ln) 193 return 194 } 195 buf := make([]byte, ln) 196 var n int 197 n, err = io.ReadFull(r, buf) 198 if err != nil { 199 err = fmt.Errorf("failed to read trace at offset %d: read %v, want %v, error %v", off, n, ln, err) 200 return 201 } 202 off += n 203 strings[id] = string(buf) 204 continue 205 } 206 ev := rawEvent{typ: typ, off: off0} 207 if narg < inlineArgs { 208 for i := 0; i < int(narg); i++ { 209 var v uint64 210 v, off, err = readVal(r, off) 211 if err != nil { 212 err = fmt.Errorf("failed to read event %v argument at offset %v (%v)", typ, off, err) 213 return 214 } 215 ev.args = append(ev.args, v) 216 } 217 } else { 218 // More than inlineArgs args, the first value is length of the event in bytes. 219 var v uint64 220 v, off, err = readVal(r, off) 221 if err != nil { 222 err = fmt.Errorf("failed to read event %v argument at offset %v (%v)", typ, off, err) 223 return 224 } 225 evLen := v 226 off1 := off 227 for evLen > uint64(off-off1) { 228 v, off, err = readVal(r, off) 229 if err != nil { 230 err = fmt.Errorf("failed to read event %v argument at offset %v (%v)", typ, off, err) 231 return 232 } 233 ev.args = append(ev.args, v) 234 } 235 if evLen != uint64(off-off1) { 236 err = fmt.Errorf("event has wrong length at offset 0x%x: want %v, got %v", off0, evLen, off-off1) 237 return 238 } 239 } 240 events = append(events, ev) 241 } 242 return 243 } 244 245 // parseHeader parses trace header of the form "go 1.7 trace\x00\x00\x00\x00" 246 // and returns parsed version as 1007. 247 func parseHeader(buf []byte) (int, error) { 248 if len(buf) != 16 { 249 return 0, fmt.Errorf("bad header length") 250 } 251 if buf[0] != 'g' || buf[1] != 'o' || buf[2] != ' ' || 252 buf[3] < '1' || buf[3] > '9' || 253 buf[4] != '.' || 254 buf[5] < '1' || buf[5] > '9' { 255 return 0, fmt.Errorf("not a trace file") 256 } 257 ver := int(buf[5] - '0') 258 i := 0 259 for ; buf[6+i] >= '0' && buf[6+i] <= '9' && i < 2; i++ { 260 ver = ver*10 + int(buf[6+i]-'0') 261 } 262 ver += int(buf[3]-'0') * 1000 263 if !bytes.Equal(buf[6+i:], []byte(" trace\x00\x00\x00\x00")[:10-i]) { 264 return 0, fmt.Errorf("not a trace file") 265 } 266 return ver, nil 267 } 268 269 // Parse events transforms raw events into events. 270 // It does analyze and verify per-event-type arguments. 271 func parseEvents(ver int, rawEvents []rawEvent, strings map[uint64]string) (events []*Event, stacks map[uint64][]*Frame, err error) { 272 var ticksPerSec, lastSeq, lastTs int64 273 var lastG, timerGoid uint64 274 var lastP int 275 lastGs := make(map[int]uint64) // last goroutine running on P 276 stacks = make(map[uint64][]*Frame) 277 batches := make(map[int][]*Event) // events by P 278 for _, raw := range rawEvents { 279 desc := EventDescriptions[raw.typ] 280 if desc.Name == "" { 281 err = fmt.Errorf("missing description for event type %v", raw.typ) 282 return 283 } 284 narg := argNum(raw, ver) 285 if len(raw.args) != narg { 286 err = fmt.Errorf("%v has wrong number of arguments at offset 0x%x: want %v, got %v", 287 desc.Name, raw.off, narg, len(raw.args)) 288 return 289 } 290 switch raw.typ { 291 case EvBatch: 292 lastGs[lastP] = lastG 293 lastP = int(raw.args[0]) 294 lastG = lastGs[lastP] 295 if ver < 1007 { 296 lastSeq = int64(raw.args[1]) 297 lastTs = int64(raw.args[2]) 298 } else { 299 lastTs = int64(raw.args[1]) 300 } 301 case EvFrequency: 302 ticksPerSec = int64(raw.args[0]) 303 if ticksPerSec <= 0 { 304 // The most likely cause for this is tick skew on different CPUs. 305 // For example, solaris/amd64 seems to have wildly different 306 // ticks on different CPUs. 307 err = ErrTimeOrder 308 return 309 } 310 case EvTimerGoroutine: 311 timerGoid = raw.args[0] 312 case EvStack: 313 if len(raw.args) < 2 { 314 err = fmt.Errorf("EvStack has wrong number of arguments at offset 0x%x: want at least 2, got %v", 315 raw.off, len(raw.args)) 316 return 317 } 318 size := raw.args[1] 319 if size > 1000 { 320 err = fmt.Errorf("EvStack has bad number of frames at offset 0x%x: %v", 321 raw.off, size) 322 return 323 } 324 want := 2 + 4*size 325 if ver < 1007 { 326 want = 2 + size 327 } 328 if uint64(len(raw.args)) != want { 329 err = fmt.Errorf("EvStack has wrong number of arguments at offset 0x%x: want %v, got %v", 330 raw.off, want, len(raw.args)) 331 return 332 } 333 id := raw.args[0] 334 if id != 0 && size > 0 { 335 stk := make([]*Frame, size) 336 for i := 0; i < int(size); i++ { 337 if ver < 1007 { 338 stk[i] = &Frame{PC: raw.args[2+i]} 339 } else { 340 pc := raw.args[2+i*4+0] 341 fn := raw.args[2+i*4+1] 342 file := raw.args[2+i*4+2] 343 line := raw.args[2+i*4+3] 344 stk[i] = &Frame{PC: pc, Fn: strings[fn], File: strings[file], Line: int(line)} 345 } 346 } 347 stacks[id] = stk 348 } 349 default: 350 e := &Event{Off: raw.off, Type: raw.typ, P: lastP, G: lastG} 351 var argOffset int 352 if ver < 1007 { 353 e.seq = lastSeq + int64(raw.args[0]) 354 e.Ts = lastTs + int64(raw.args[1]) 355 lastSeq = e.seq 356 argOffset = 2 357 } else { 358 e.Ts = lastTs + int64(raw.args[0]) 359 argOffset = 1 360 } 361 lastTs = e.Ts 362 for i := argOffset; i < narg; i++ { 363 if i == narg-1 && desc.Stack { 364 e.StkID = raw.args[i] 365 } else { 366 e.Args[i-argOffset] = raw.args[i] 367 } 368 } 369 switch raw.typ { 370 case EvGoStart, EvGoStartLocal, EvGoStartLabel: 371 lastG = e.Args[0] 372 e.G = lastG 373 if raw.typ == EvGoStartLabel { 374 e.SArgs = []string{strings[e.Args[2]]} 375 } 376 case EvGCStart, EvGCDone, EvGCScanStart, EvGCScanDone: 377 e.G = 0 378 case EvGoEnd, EvGoStop, EvGoSched, EvGoPreempt, 379 EvGoSleep, EvGoBlock, EvGoBlockSend, EvGoBlockRecv, 380 EvGoBlockSelect, EvGoBlockSync, EvGoBlockCond, EvGoBlockNet, 381 EvGoSysBlock, EvGoBlockGC: 382 lastG = 0 383 case EvGoSysExit, EvGoWaiting, EvGoInSyscall: 384 e.G = e.Args[0] 385 } 386 batches[lastP] = append(batches[lastP], e) 387 } 388 } 389 if len(batches) == 0 { 390 err = fmt.Errorf("trace is empty") 391 return 392 } 393 if ticksPerSec == 0 { 394 err = fmt.Errorf("no EvFrequency event") 395 return 396 } 397 if BreakTimestampsForTesting { 398 var batchArr [][]*Event 399 for _, batch := range batches { 400 batchArr = append(batchArr, batch) 401 } 402 for i := 0; i < 5; i++ { 403 batch := batchArr[rand.Intn(len(batchArr))] 404 batch[rand.Intn(len(batch))].Ts += int64(rand.Intn(2000) - 1000) 405 } 406 } 407 if ver < 1007 { 408 events, err = order1005(batches) 409 } else { 410 events, err = order1007(batches) 411 } 412 if err != nil { 413 return 414 } 415 416 // Translate cpu ticks to real time. 417 minTs := events[0].Ts 418 // Use floating point to avoid integer overflows. 419 freq := 1e9 / float64(ticksPerSec) 420 for _, ev := range events { 421 ev.Ts = int64(float64(ev.Ts-minTs) * freq) 422 // Move timers and syscalls to separate fake Ps. 423 if timerGoid != 0 && ev.G == timerGoid && ev.Type == EvGoUnblock { 424 ev.P = TimerP 425 } 426 if ev.Type == EvGoSysExit { 427 ev.P = SyscallP 428 } 429 } 430 431 return 432 } 433 434 // removeFutile removes all constituents of futile wakeups (block, unblock, start). 435 // For example, a goroutine was unblocked on a mutex, but another goroutine got 436 // ahead and acquired the mutex before the first goroutine is scheduled, 437 // so the first goroutine has to block again. Such wakeups happen on buffered 438 // channels and sync.Mutex, but are generally not interesting for end user. 439 func removeFutile(events []*Event) ([]*Event, error) { 440 // Two non-trivial aspects: 441 // 1. A goroutine can be preempted during a futile wakeup and migrate to another P. 442 // We want to remove all of that. 443 // 2. Tracing can start in the middle of a futile wakeup. 444 // That is, we can see a futile wakeup event w/o the actual wakeup before it. 445 // postProcessTrace runs after us and ensures that we leave the trace in a consistent state. 446 447 // Phase 1: determine futile wakeup sequences. 448 type G struct { 449 futile bool 450 wakeup []*Event // wakeup sequence (subject for removal) 451 } 452 gs := make(map[uint64]G) 453 futile := make(map[*Event]bool) 454 for _, ev := range events { 455 switch ev.Type { 456 case EvGoUnblock: 457 g := gs[ev.Args[0]] 458 g.wakeup = []*Event{ev} 459 gs[ev.Args[0]] = g 460 case EvGoStart, EvGoPreempt, EvFutileWakeup: 461 g := gs[ev.G] 462 g.wakeup = append(g.wakeup, ev) 463 if ev.Type == EvFutileWakeup { 464 g.futile = true 465 } 466 gs[ev.G] = g 467 case EvGoBlock, EvGoBlockSend, EvGoBlockRecv, EvGoBlockSelect, EvGoBlockSync, EvGoBlockCond: 468 g := gs[ev.G] 469 if g.futile { 470 futile[ev] = true 471 for _, ev1 := range g.wakeup { 472 futile[ev1] = true 473 } 474 } 475 delete(gs, ev.G) 476 } 477 } 478 479 // Phase 2: remove futile wakeup sequences. 480 newEvents := events[:0] // overwrite the original slice 481 for _, ev := range events { 482 if !futile[ev] { 483 newEvents = append(newEvents, ev) 484 } 485 } 486 return newEvents, nil 487 } 488 489 // ErrTimeOrder is returned by Parse when the trace contains 490 // time stamps that do not respect actual event ordering. 491 var ErrTimeOrder = fmt.Errorf("time stamps out of order") 492 493 // postProcessTrace does inter-event verification and information restoration. 494 // The resulting trace is guaranteed to be consistent 495 // (for example, a P does not run two Gs at the same time, or a G is indeed 496 // blocked before an unblock event). 497 func postProcessTrace(ver int, events []*Event) error { 498 const ( 499 gDead = iota 500 gRunnable 501 gRunning 502 gWaiting 503 ) 504 type gdesc struct { 505 state int 506 ev *Event 507 evStart *Event 508 evCreate *Event 509 evMarkAssist *Event 510 } 511 type pdesc struct { 512 running bool 513 g uint64 514 evScan *Event 515 evSweep *Event 516 } 517 518 gs := make(map[uint64]gdesc) 519 ps := make(map[int]pdesc) 520 gs[0] = gdesc{state: gRunning} 521 var evGC *Event 522 523 checkRunning := func(p pdesc, g gdesc, ev *Event, allowG0 bool) error { 524 name := EventDescriptions[ev.Type].Name 525 if g.state != gRunning { 526 return fmt.Errorf("g %v is not running while %v (offset %v, time %v)", ev.G, name, ev.Off, ev.Ts) 527 } 528 if p.g != ev.G { 529 return fmt.Errorf("p %v is not running g %v while %v (offset %v, time %v)", ev.P, ev.G, name, ev.Off, ev.Ts) 530 } 531 if !allowG0 && ev.G == 0 { 532 return fmt.Errorf("g 0 did %v (offset %v, time %v)", EventDescriptions[ev.Type].Name, ev.Off, ev.Ts) 533 } 534 return nil 535 } 536 537 for _, ev := range events { 538 g := gs[ev.G] 539 p := ps[ev.P] 540 541 switch ev.Type { 542 case EvProcStart: 543 if p.running { 544 return fmt.Errorf("p %v is running before start (offset %v, time %v)", ev.P, ev.Off, ev.Ts) 545 } 546 p.running = true 547 case EvProcStop: 548 if !p.running { 549 return fmt.Errorf("p %v is not running before stop (offset %v, time %v)", ev.P, ev.Off, ev.Ts) 550 } 551 if p.g != 0 { 552 return fmt.Errorf("p %v is running a goroutine %v during stop (offset %v, time %v)", ev.P, p.g, ev.Off, ev.Ts) 553 } 554 p.running = false 555 case EvGCStart: 556 if evGC != nil { 557 return fmt.Errorf("previous GC is not ended before a new one (offset %v, time %v)", ev.Off, ev.Ts) 558 } 559 evGC = ev 560 // Attribute this to the global GC state. 561 ev.P = GCP 562 case EvGCDone: 563 if evGC == nil { 564 return fmt.Errorf("bogus GC end (offset %v, time %v)", ev.Off, ev.Ts) 565 } 566 evGC.Link = ev 567 evGC = nil 568 case EvGCScanStart: 569 if p.evScan != nil { 570 return fmt.Errorf("previous scanning is not ended before a new one (offset %v, time %v)", ev.Off, ev.Ts) 571 } 572 p.evScan = ev 573 case EvGCScanDone: 574 if p.evScan == nil { 575 return fmt.Errorf("bogus scanning end (offset %v, time %v)", ev.Off, ev.Ts) 576 } 577 p.evScan.Link = ev 578 p.evScan = nil 579 case EvGCSweepStart: 580 if p.evSweep != nil { 581 return fmt.Errorf("previous sweeping is not ended before a new one (offset %v, time %v)", ev.Off, ev.Ts) 582 } 583 p.evSweep = ev 584 case EvGCMarkAssistStart: 585 if g.evMarkAssist != nil { 586 return fmt.Errorf("previous mark assist is not ended before a new one (offset %v, time %v)", ev.Off, ev.Ts) 587 } 588 g.evMarkAssist = ev 589 case EvGCMarkAssistDone: 590 // Unlike most events, mark assists can be in progress when a 591 // goroutine starts tracing, so we can't report an error here. 592 if g.evMarkAssist != nil { 593 g.evMarkAssist.Link = ev 594 g.evMarkAssist = nil 595 } 596 case EvGCSweepDone: 597 if p.evSweep == nil { 598 return fmt.Errorf("bogus sweeping end (offset %v, time %v)", ev.Off, ev.Ts) 599 } 600 p.evSweep.Link = ev 601 p.evSweep = nil 602 case EvGoWaiting: 603 if g.state != gRunnable { 604 return fmt.Errorf("g %v is not runnable before EvGoWaiting (offset %v, time %v)", ev.G, ev.Off, ev.Ts) 605 } 606 g.state = gWaiting 607 g.ev = ev 608 case EvGoInSyscall: 609 if g.state != gRunnable { 610 return fmt.Errorf("g %v is not runnable before EvGoInSyscall (offset %v, time %v)", ev.G, ev.Off, ev.Ts) 611 } 612 g.state = gWaiting 613 g.ev = ev 614 case EvGoCreate: 615 if err := checkRunning(p, g, ev, true); err != nil { 616 return err 617 } 618 if _, ok := gs[ev.Args[0]]; ok { 619 return fmt.Errorf("g %v already exists (offset %v, time %v)", ev.Args[0], ev.Off, ev.Ts) 620 } 621 gs[ev.Args[0]] = gdesc{state: gRunnable, ev: ev, evCreate: ev} 622 case EvGoStart, EvGoStartLabel: 623 if g.state != gRunnable { 624 return fmt.Errorf("g %v is not runnable before start (offset %v, time %v)", ev.G, ev.Off, ev.Ts) 625 } 626 if p.g != 0 { 627 return fmt.Errorf("p %v is already running g %v while start g %v (offset %v, time %v)", ev.P, p.g, ev.G, ev.Off, ev.Ts) 628 } 629 g.state = gRunning 630 g.evStart = ev 631 p.g = ev.G 632 if g.evCreate != nil { 633 if ver < 1007 { 634 // +1 because symbolizer expects return pc. 635 ev.Stk = []*Frame{{PC: g.evCreate.Args[1] + 1}} 636 } else { 637 ev.StkID = g.evCreate.Args[1] 638 } 639 g.evCreate = nil 640 } 641 642 if g.ev != nil { 643 g.ev.Link = ev 644 g.ev = nil 645 } 646 case EvGoEnd, EvGoStop: 647 if err := checkRunning(p, g, ev, false); err != nil { 648 return err 649 } 650 g.evStart.Link = ev 651 g.evStart = nil 652 g.state = gDead 653 p.g = 0 654 case EvGoSched, EvGoPreempt: 655 if err := checkRunning(p, g, ev, false); err != nil { 656 return err 657 } 658 g.state = gRunnable 659 g.evStart.Link = ev 660 g.evStart = nil 661 p.g = 0 662 g.ev = ev 663 case EvGoUnblock: 664 if g.state != gRunning { 665 return fmt.Errorf("g %v is not running while unpark (offset %v, time %v)", ev.G, ev.Off, ev.Ts) 666 } 667 if ev.P != TimerP && p.g != ev.G { 668 return fmt.Errorf("p %v is not running g %v while unpark (offset %v, time %v)", ev.P, ev.G, ev.Off, ev.Ts) 669 } 670 g1 := gs[ev.Args[0]] 671 if g1.state != gWaiting { 672 return fmt.Errorf("g %v is not waiting before unpark (offset %v, time %v)", ev.Args[0], ev.Off, ev.Ts) 673 } 674 if g1.ev != nil && g1.ev.Type == EvGoBlockNet && ev.P != TimerP { 675 ev.P = NetpollP 676 } 677 if g1.ev != nil { 678 g1.ev.Link = ev 679 } 680 g1.state = gRunnable 681 g1.ev = ev 682 gs[ev.Args[0]] = g1 683 case EvGoSysCall: 684 if err := checkRunning(p, g, ev, false); err != nil { 685 return err 686 } 687 g.ev = ev 688 case EvGoSysBlock: 689 if err := checkRunning(p, g, ev, false); err != nil { 690 return err 691 } 692 g.state = gWaiting 693 g.evStart.Link = ev 694 g.evStart = nil 695 p.g = 0 696 case EvGoSysExit: 697 if g.state != gWaiting { 698 return fmt.Errorf("g %v is not waiting during syscall exit (offset %v, time %v)", ev.G, ev.Off, ev.Ts) 699 } 700 if g.ev != nil && g.ev.Type == EvGoSysCall { 701 g.ev.Link = ev 702 } 703 g.state = gRunnable 704 g.ev = ev 705 case EvGoSleep, EvGoBlock, EvGoBlockSend, EvGoBlockRecv, 706 EvGoBlockSelect, EvGoBlockSync, EvGoBlockCond, EvGoBlockNet, EvGoBlockGC: 707 if err := checkRunning(p, g, ev, false); err != nil { 708 return err 709 } 710 g.state = gWaiting 711 g.ev = ev 712 g.evStart.Link = ev 713 g.evStart = nil 714 p.g = 0 715 } 716 717 gs[ev.G] = g 718 ps[ev.P] = p 719 } 720 721 // TODO(dvyukov): restore stacks for EvGoStart events. 722 // TODO(dvyukov): test that all EvGoStart events has non-nil Link. 723 724 return nil 725 } 726 727 // symbolize attaches func/file/line info to stack traces. 728 func symbolize(events []*Event, bin string) error { 729 // First, collect and dedup all pcs. 730 pcs := make(map[uint64]*Frame) 731 for _, ev := range events { 732 for _, f := range ev.Stk { 733 pcs[f.PC] = nil 734 } 735 } 736 737 // Start addr2line. 738 cmd := exec.Command("go", "tool", "addr2line", bin) 739 in, err := cmd.StdinPipe() 740 if err != nil { 741 return fmt.Errorf("failed to pipe addr2line stdin: %v", err) 742 } 743 cmd.Stderr = os.Stderr 744 out, err := cmd.StdoutPipe() 745 if err != nil { 746 return fmt.Errorf("failed to pipe addr2line stdout: %v", err) 747 } 748 err = cmd.Start() 749 if err != nil { 750 return fmt.Errorf("failed to start addr2line: %v", err) 751 } 752 outb := bufio.NewReader(out) 753 754 // Write all pcs to addr2line. 755 // Need to copy pcs to an array, because map iteration order is non-deterministic. 756 var pcArray []uint64 757 for pc := range pcs { 758 pcArray = append(pcArray, pc) 759 _, err := fmt.Fprintf(in, "0x%x\n", pc-1) 760 if err != nil { 761 return fmt.Errorf("failed to write to addr2line: %v", err) 762 } 763 } 764 in.Close() 765 766 // Read in answers. 767 for _, pc := range pcArray { 768 fn, err := outb.ReadString('\n') 769 if err != nil { 770 return fmt.Errorf("failed to read from addr2line: %v", err) 771 } 772 file, err := outb.ReadString('\n') 773 if err != nil { 774 return fmt.Errorf("failed to read from addr2line: %v", err) 775 } 776 f := &Frame{PC: pc} 777 f.Fn = fn[:len(fn)-1] 778 f.File = file[:len(file)-1] 779 if colon := strings.LastIndex(f.File, ":"); colon != -1 { 780 ln, err := strconv.Atoi(f.File[colon+1:]) 781 if err == nil { 782 f.File = f.File[:colon] 783 f.Line = ln 784 } 785 } 786 pcs[pc] = f 787 } 788 cmd.Wait() 789 790 // Replace frames in events array. 791 for _, ev := range events { 792 for i, f := range ev.Stk { 793 ev.Stk[i] = pcs[f.PC] 794 } 795 } 796 797 return nil 798 } 799 800 // readVal reads unsigned base-128 value from r. 801 func readVal(r io.Reader, off0 int) (v uint64, off int, err error) { 802 off = off0 803 for i := 0; i < 10; i++ { 804 var buf [1]byte 805 var n int 806 n, err = r.Read(buf[:]) 807 if err != nil || n != 1 { 808 return 0, 0, fmt.Errorf("failed to read trace at offset %d: read %v, error %v", off0, n, err) 809 } 810 off++ 811 v |= uint64(buf[0]&0x7f) << (uint(i) * 7) 812 if buf[0]&0x80 == 0 { 813 return 814 } 815 } 816 return 0, 0, fmt.Errorf("bad value at offset 0x%x", off0) 817 } 818 819 // Print dumps events to stdout. For debugging. 820 func Print(events []*Event) { 821 for _, ev := range events { 822 PrintEvent(ev) 823 } 824 } 825 826 // PrintEvent dumps the event to stdout. For debugging. 827 func PrintEvent(ev *Event) { 828 desc := EventDescriptions[ev.Type] 829 fmt.Printf("%v %v p=%v g=%v off=%v", ev.Ts, desc.Name, ev.P, ev.G, ev.Off) 830 for i, a := range desc.Args { 831 fmt.Printf(" %v=%v", a, ev.Args[i]) 832 } 833 fmt.Printf("\n") 834 } 835 836 // argNum returns total number of args for the event accounting for timestamps, 837 // sequence numbers and differences between trace format versions. 838 func argNum(raw rawEvent, ver int) int { 839 desc := EventDescriptions[raw.typ] 840 if raw.typ == EvStack { 841 return len(raw.args) 842 } 843 narg := len(desc.Args) 844 if desc.Stack { 845 narg++ 846 } 847 switch raw.typ { 848 case EvBatch, EvFrequency, EvTimerGoroutine: 849 if ver < 1007 { 850 narg++ // there was an unused arg before 1.7 851 } 852 return narg 853 } 854 narg++ // timestamp 855 if ver < 1007 { 856 narg++ // sequence 857 } 858 switch raw.typ { 859 case EvGCSweepDone: 860 if ver < 1009 { 861 narg -= 2 // 1.9 added two arguments 862 } 863 case EvGCStart, EvGoStart, EvGoUnblock: 864 if ver < 1007 { 865 narg-- // 1.7 added an additional seq arg 866 } 867 } 868 return narg 869 } 870 871 // BreakTimestampsForTesting causes the parser to randomly alter timestamps (for testing of broken cputicks). 872 var BreakTimestampsForTesting bool 873 874 // Event types in the trace. 875 // Verbatim copy from src/runtime/trace.go with the "trace" prefix removed. 876 const ( 877 EvNone = 0 // unused 878 EvBatch = 1 // start of per-P batch of events [pid, timestamp] 879 EvFrequency = 2 // contains tracer timer frequency [frequency (ticks per second)] 880 EvStack = 3 // stack [stack id, number of PCs, array of {PC, func string ID, file string ID, line}] 881 EvGomaxprocs = 4 // current value of GOMAXPROCS [timestamp, GOMAXPROCS, stack id] 882 EvProcStart = 5 // start of P [timestamp, thread id] 883 EvProcStop = 6 // stop of P [timestamp] 884 EvGCStart = 7 // GC start [timestamp, seq, stack id] 885 EvGCDone = 8 // GC done [timestamp] 886 EvGCScanStart = 9 // GC mark termination start [timestamp] 887 EvGCScanDone = 10 // GC mark termination done [timestamp] 888 EvGCSweepStart = 11 // GC sweep start [timestamp, stack id] 889 EvGCSweepDone = 12 // GC sweep done [timestamp, swept, reclaimed] 890 EvGoCreate = 13 // goroutine creation [timestamp, new goroutine id, new stack id, stack id] 891 EvGoStart = 14 // goroutine starts running [timestamp, goroutine id, seq] 892 EvGoEnd = 15 // goroutine ends [timestamp] 893 EvGoStop = 16 // goroutine stops (like in select{}) [timestamp, stack] 894 EvGoSched = 17 // goroutine calls Gosched [timestamp, stack] 895 EvGoPreempt = 18 // goroutine is preempted [timestamp, stack] 896 EvGoSleep = 19 // goroutine calls Sleep [timestamp, stack] 897 EvGoBlock = 20 // goroutine blocks [timestamp, stack] 898 EvGoUnblock = 21 // goroutine is unblocked [timestamp, goroutine id, seq, stack] 899 EvGoBlockSend = 22 // goroutine blocks on chan send [timestamp, stack] 900 EvGoBlockRecv = 23 // goroutine blocks on chan recv [timestamp, stack] 901 EvGoBlockSelect = 24 // goroutine blocks on select [timestamp, stack] 902 EvGoBlockSync = 25 // goroutine blocks on Mutex/RWMutex [timestamp, stack] 903 EvGoBlockCond = 26 // goroutine blocks on Cond [timestamp, stack] 904 EvGoBlockNet = 27 // goroutine blocks on network [timestamp, stack] 905 EvGoSysCall = 28 // syscall enter [timestamp, stack] 906 EvGoSysExit = 29 // syscall exit [timestamp, goroutine id, seq, real timestamp] 907 EvGoSysBlock = 30 // syscall blocks [timestamp] 908 EvGoWaiting = 31 // denotes that goroutine is blocked when tracing starts [timestamp, goroutine id] 909 EvGoInSyscall = 32 // denotes that goroutine is in syscall when tracing starts [timestamp, goroutine id] 910 EvHeapAlloc = 33 // memstats.heap_live change [timestamp, heap_alloc] 911 EvNextGC = 34 // memstats.next_gc change [timestamp, next_gc] 912 EvTimerGoroutine = 35 // denotes timer goroutine [timer goroutine id] 913 EvFutileWakeup = 36 // denotes that the previous wakeup of this goroutine was futile [timestamp] 914 EvString = 37 // string dictionary entry [ID, length, string] 915 EvGoStartLocal = 38 // goroutine starts running on the same P as the last event [timestamp, goroutine id] 916 EvGoUnblockLocal = 39 // goroutine is unblocked on the same P as the last event [timestamp, goroutine id, stack] 917 EvGoSysExitLocal = 40 // syscall exit on the same P as the last event [timestamp, goroutine id, real timestamp] 918 EvGoStartLabel = 41 // goroutine starts running with label [timestamp, goroutine id, seq, label string id] 919 EvGoBlockGC = 42 // goroutine blocks on GC assist [timestamp, stack] 920 EvGCMarkAssistStart = 43 // GC mark assist start [timestamp, stack] 921 EvGCMarkAssistDone = 44 // GC mark assist done [timestamp] 922 EvCount = 45 923 ) 924 925 var EventDescriptions = [EvCount]struct { 926 Name string 927 minVersion int 928 Stack bool 929 Args []string 930 }{ 931 EvNone: {"None", 1005, false, []string{}}, 932 EvBatch: {"Batch", 1005, false, []string{"p", "ticks"}}, // in 1.5 format it was {"p", "seq", "ticks"} 933 EvFrequency: {"Frequency", 1005, false, []string{"freq"}}, // in 1.5 format it was {"freq", "unused"} 934 EvStack: {"Stack", 1005, false, []string{"id", "siz"}}, 935 EvGomaxprocs: {"Gomaxprocs", 1005, true, []string{"procs"}}, 936 EvProcStart: {"ProcStart", 1005, false, []string{"thread"}}, 937 EvProcStop: {"ProcStop", 1005, false, []string{}}, 938 EvGCStart: {"GCStart", 1005, true, []string{"seq"}}, // in 1.5 format it was {} 939 EvGCDone: {"GCDone", 1005, false, []string{}}, 940 EvGCScanStart: {"GCScanStart", 1005, false, []string{}}, 941 EvGCScanDone: {"GCScanDone", 1005, false, []string{}}, 942 EvGCSweepStart: {"GCSweepStart", 1005, true, []string{}}, 943 EvGCSweepDone: {"GCSweepDone", 1005, false, []string{"swept", "reclaimed"}}, // before 1.9, format was {} 944 EvGoCreate: {"GoCreate", 1005, true, []string{"g", "stack"}}, 945 EvGoStart: {"GoStart", 1005, false, []string{"g", "seq"}}, // in 1.5 format it was {"g"} 946 EvGoEnd: {"GoEnd", 1005, false, []string{}}, 947 EvGoStop: {"GoStop", 1005, true, []string{}}, 948 EvGoSched: {"GoSched", 1005, true, []string{}}, 949 EvGoPreempt: {"GoPreempt", 1005, true, []string{}}, 950 EvGoSleep: {"GoSleep", 1005, true, []string{}}, 951 EvGoBlock: {"GoBlock", 1005, true, []string{}}, 952 EvGoUnblock: {"GoUnblock", 1005, true, []string{"g", "seq"}}, // in 1.5 format it was {"g"} 953 EvGoBlockSend: {"GoBlockSend", 1005, true, []string{}}, 954 EvGoBlockRecv: {"GoBlockRecv", 1005, true, []string{}}, 955 EvGoBlockSelect: {"GoBlockSelect", 1005, true, []string{}}, 956 EvGoBlockSync: {"GoBlockSync", 1005, true, []string{}}, 957 EvGoBlockCond: {"GoBlockCond", 1005, true, []string{}}, 958 EvGoBlockNet: {"GoBlockNet", 1005, true, []string{}}, 959 EvGoSysCall: {"GoSysCall", 1005, true, []string{}}, 960 EvGoSysExit: {"GoSysExit", 1005, false, []string{"g", "seq", "ts"}}, 961 EvGoSysBlock: {"GoSysBlock", 1005, false, []string{}}, 962 EvGoWaiting: {"GoWaiting", 1005, false, []string{"g"}}, 963 EvGoInSyscall: {"GoInSyscall", 1005, false, []string{"g"}}, 964 EvHeapAlloc: {"HeapAlloc", 1005, false, []string{"mem"}}, 965 EvNextGC: {"NextGC", 1005, false, []string{"mem"}}, 966 EvTimerGoroutine: {"TimerGoroutine", 1005, false, []string{"g"}}, // in 1.5 format it was {"g", "unused"} 967 EvFutileWakeup: {"FutileWakeup", 1005, false, []string{}}, 968 EvString: {"String", 1007, false, []string{}}, 969 EvGoStartLocal: {"GoStartLocal", 1007, false, []string{"g"}}, 970 EvGoUnblockLocal: {"GoUnblockLocal", 1007, true, []string{"g"}}, 971 EvGoSysExitLocal: {"GoSysExitLocal", 1007, false, []string{"g", "ts"}}, 972 EvGoStartLabel: {"GoStartLabel", 1008, false, []string{"g", "seq", "label"}}, 973 EvGoBlockGC: {"GoBlockGC", 1008, true, []string{}}, 974 EvGCMarkAssistStart: {"GCMarkAssistStart", 1009, true, []string{}}, 975 EvGCMarkAssistDone: {"GCMarkAssistDone", 1009, false, []string{}}, 976 }