diff options
Diffstat (limited to 'src/debug/gosym')
-rw-r--r-- | src/debug/gosym/pclntab.go | 695 | ||||
-rw-r--r-- | src/debug/gosym/pclntab_test.go | 407 | ||||
-rw-r--r-- | src/debug/gosym/symtab.go | 774 | ||||
-rw-r--r-- | src/debug/gosym/symtab_test.go | 87 | ||||
-rw-r--r-- | src/debug/gosym/testdata/main.go | 10 | ||||
-rw-r--r-- | src/debug/gosym/testdata/pclinetest.h | 9 | ||||
-rw-r--r-- | src/debug/gosym/testdata/pclinetest.s | 48 | ||||
-rw-r--r-- | src/debug/gosym/testdata/pcln115.gz | bin | 0 -> 124875 bytes |
8 files changed, 2030 insertions, 0 deletions
diff --git a/src/debug/gosym/pclntab.go b/src/debug/gosym/pclntab.go new file mode 100644 index 0000000..a87e6cf --- /dev/null +++ b/src/debug/gosym/pclntab.go @@ -0,0 +1,695 @@ +// Copyright 2009 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +/* + * Line tables + */ + +package gosym + +import ( + "bytes" + "encoding/binary" + "sort" + "sync" +) + +// version of the pclntab +type version int + +const ( + verUnknown version = iota + ver11 + ver12 + ver116 + ver118 + ver120 +) + +// A LineTable is a data structure mapping program counters to line numbers. +// +// In Go 1.1 and earlier, each function (represented by a Func) had its own LineTable, +// and the line number corresponded to a numbering of all source lines in the +// program, across all files. That absolute line number would then have to be +// converted separately to a file name and line number within the file. +// +// In Go 1.2, the format of the data changed so that there is a single LineTable +// for the entire program, shared by all Funcs, and there are no absolute line +// numbers, just line numbers within specific files. +// +// For the most part, LineTable's methods should be treated as an internal +// detail of the package; callers should use the methods on Table instead. +type LineTable struct { + Data []byte + PC uint64 + Line int + + // This mutex is used to keep parsing of pclntab synchronous. + mu sync.Mutex + + // Contains the version of the pclntab section. + version version + + // Go 1.2/1.16/1.18 state + binary binary.ByteOrder + quantum uint32 + ptrsize uint32 + textStart uint64 // address of runtime.text symbol (1.18+) + funcnametab []byte + cutab []byte + funcdata []byte + functab []byte + nfunctab uint32 + filetab []byte + pctab []byte // points to the pctables. + nfiletab uint32 + funcNames map[uint32]string // cache the function names + strings map[uint32]string // interned substrings of Data, keyed by offset + // fileMap varies depending on the version of the object file. + // For ver12, it maps the name to the index in the file table. + // For ver116, it maps the name to the offset in filetab. + fileMap map[string]uint32 +} + +// NOTE(rsc): This is wrong for GOARCH=arm, which uses a quantum of 4, +// but we have no idea whether we're using arm or not. This only +// matters in the old (pre-Go 1.2) symbol table format, so it's not worth +// fixing. +const oldQuantum = 1 + +func (t *LineTable) parse(targetPC uint64, targetLine int) (b []byte, pc uint64, line int) { + // The PC/line table can be thought of as a sequence of + // <pc update>* <line update> + // batches. Each update batch results in a (pc, line) pair, + // where line applies to every PC from pc up to but not + // including the pc of the next pair. + // + // Here we process each update individually, which simplifies + // the code, but makes the corner cases more confusing. + b, pc, line = t.Data, t.PC, t.Line + for pc <= targetPC && line != targetLine && len(b) > 0 { + code := b[0] + b = b[1:] + switch { + case code == 0: + if len(b) < 4 { + b = b[0:0] + break + } + val := binary.BigEndian.Uint32(b) + b = b[4:] + line += int(val) + case code <= 64: + line += int(code) + case code <= 128: + line -= int(code - 64) + default: + pc += oldQuantum * uint64(code-128) + continue + } + pc += oldQuantum + } + return b, pc, line +} + +func (t *LineTable) slice(pc uint64) *LineTable { + data, pc, line := t.parse(pc, -1) + return &LineTable{Data: data, PC: pc, Line: line} +} + +// PCToLine returns the line number for the given program counter. +// +// Deprecated: Use Table's PCToLine method instead. +func (t *LineTable) PCToLine(pc uint64) int { + if t.isGo12() { + return t.go12PCToLine(pc) + } + _, _, line := t.parse(pc, -1) + return line +} + +// LineToPC returns the program counter for the given line number, +// considering only program counters before maxpc. +// +// Deprecated: Use Table's LineToPC method instead. +func (t *LineTable) LineToPC(line int, maxpc uint64) uint64 { + if t.isGo12() { + return 0 + } + _, pc, line1 := t.parse(maxpc, line) + if line1 != line { + return 0 + } + // Subtract quantum from PC to account for post-line increment + return pc - oldQuantum +} + +// NewLineTable returns a new PC/line table +// corresponding to the encoded data. +// Text must be the start address of the +// corresponding text segment. +func NewLineTable(data []byte, text uint64) *LineTable { + return &LineTable{Data: data, PC: text, Line: 0, funcNames: make(map[uint32]string), strings: make(map[uint32]string)} +} + +// Go 1.2 symbol table format. +// See golang.org/s/go12symtab. +// +// A general note about the methods here: rather than try to avoid +// index out of bounds errors, we trust Go to detect them, and then +// we recover from the panics and treat them as indicative of a malformed +// or incomplete table. +// +// The methods called by symtab.go, which begin with "go12" prefixes, +// are expected to have that recovery logic. + +// isGo12 reports whether this is a Go 1.2 (or later) symbol table. +func (t *LineTable) isGo12() bool { + t.parsePclnTab() + return t.version >= ver12 +} + +const ( + go12magic = 0xfffffffb + go116magic = 0xfffffffa + go118magic = 0xfffffff0 + go120magic = 0xfffffff1 +) + +// uintptr returns the pointer-sized value encoded at b. +// The pointer size is dictated by the table being read. +func (t *LineTable) uintptr(b []byte) uint64 { + if t.ptrsize == 4 { + return uint64(t.binary.Uint32(b)) + } + return t.binary.Uint64(b) +} + +// parsePclnTab parses the pclntab, setting the version. +func (t *LineTable) parsePclnTab() { + t.mu.Lock() + defer t.mu.Unlock() + if t.version != verUnknown { + return + } + + // Note that during this function, setting the version is the last thing we do. + // If we set the version too early, and parsing failed (likely as a panic on + // slice lookups), we'd have a mistaken version. + // + // Error paths through this code will default the version to 1.1. + t.version = ver11 + + if !disableRecover { + defer func() { + // If we panic parsing, assume it's a Go 1.1 pclntab. + recover() + }() + } + + // Check header: 4-byte magic, two zeros, pc quantum, pointer size. + if len(t.Data) < 16 || t.Data[4] != 0 || t.Data[5] != 0 || + (t.Data[6] != 1 && t.Data[6] != 2 && t.Data[6] != 4) || // pc quantum + (t.Data[7] != 4 && t.Data[7] != 8) { // pointer size + return + } + + var possibleVersion version + leMagic := binary.LittleEndian.Uint32(t.Data) + beMagic := binary.BigEndian.Uint32(t.Data) + switch { + case leMagic == go12magic: + t.binary, possibleVersion = binary.LittleEndian, ver12 + case beMagic == go12magic: + t.binary, possibleVersion = binary.BigEndian, ver12 + case leMagic == go116magic: + t.binary, possibleVersion = binary.LittleEndian, ver116 + case beMagic == go116magic: + t.binary, possibleVersion = binary.BigEndian, ver116 + case leMagic == go118magic: + t.binary, possibleVersion = binary.LittleEndian, ver118 + case beMagic == go118magic: + t.binary, possibleVersion = binary.BigEndian, ver118 + case leMagic == go120magic: + t.binary, possibleVersion = binary.LittleEndian, ver120 + case beMagic == go120magic: + t.binary, possibleVersion = binary.BigEndian, ver120 + default: + return + } + t.version = possibleVersion + + // quantum and ptrSize are the same between 1.2, 1.16, and 1.18 + t.quantum = uint32(t.Data[6]) + t.ptrsize = uint32(t.Data[7]) + + offset := func(word uint32) uint64 { + return t.uintptr(t.Data[8+word*t.ptrsize:]) + } + data := func(word uint32) []byte { + return t.Data[offset(word):] + } + + switch possibleVersion { + case ver118, ver120: + t.nfunctab = uint32(offset(0)) + t.nfiletab = uint32(offset(1)) + t.textStart = t.PC // use the start PC instead of reading from the table, which may be unrelocated + t.funcnametab = data(3) + t.cutab = data(4) + t.filetab = data(5) + t.pctab = data(6) + t.funcdata = data(7) + t.functab = data(7) + functabsize := (int(t.nfunctab)*2 + 1) * t.functabFieldSize() + t.functab = t.functab[:functabsize] + case ver116: + t.nfunctab = uint32(offset(0)) + t.nfiletab = uint32(offset(1)) + t.funcnametab = data(2) + t.cutab = data(3) + t.filetab = data(4) + t.pctab = data(5) + t.funcdata = data(6) + t.functab = data(6) + functabsize := (int(t.nfunctab)*2 + 1) * t.functabFieldSize() + t.functab = t.functab[:functabsize] + case ver12: + t.nfunctab = uint32(t.uintptr(t.Data[8:])) + t.funcdata = t.Data + t.funcnametab = t.Data + t.functab = t.Data[8+t.ptrsize:] + t.pctab = t.Data + functabsize := (int(t.nfunctab)*2 + 1) * t.functabFieldSize() + fileoff := t.binary.Uint32(t.functab[functabsize:]) + t.functab = t.functab[:functabsize] + t.filetab = t.Data[fileoff:] + t.nfiletab = t.binary.Uint32(t.filetab) + t.filetab = t.filetab[:t.nfiletab*4] + default: + panic("unreachable") + } +} + +// go12Funcs returns a slice of Funcs derived from the Go 1.2+ pcln table. +func (t *LineTable) go12Funcs() []Func { + // Assume it is malformed and return nil on error. + if !disableRecover { + defer func() { + recover() + }() + } + + ft := t.funcTab() + funcs := make([]Func, ft.Count()) + syms := make([]Sym, len(funcs)) + for i := range funcs { + f := &funcs[i] + f.Entry = ft.pc(i) + f.End = ft.pc(i + 1) + info := t.funcData(uint32(i)) + f.LineTable = t + f.FrameSize = int(info.deferreturn()) + syms[i] = Sym{ + Value: f.Entry, + Type: 'T', + Name: t.funcName(info.nameOff()), + GoType: 0, + Func: f, + goVersion: t.version, + } + f.Sym = &syms[i] + } + return funcs +} + +// findFunc returns the funcData corresponding to the given program counter. +func (t *LineTable) findFunc(pc uint64) funcData { + ft := t.funcTab() + if pc < ft.pc(0) || pc >= ft.pc(ft.Count()) { + return funcData{} + } + idx := sort.Search(int(t.nfunctab), func(i int) bool { + return ft.pc(i) > pc + }) + idx-- + return t.funcData(uint32(idx)) +} + +// readvarint reads, removes, and returns a varint from *pp. +func (t *LineTable) readvarint(pp *[]byte) uint32 { + var v, shift uint32 + p := *pp + for shift = 0; ; shift += 7 { + b := p[0] + p = p[1:] + v |= (uint32(b) & 0x7F) << shift + if b&0x80 == 0 { + break + } + } + *pp = p + return v +} + +// funcName returns the name of the function found at off. +func (t *LineTable) funcName(off uint32) string { + if s, ok := t.funcNames[off]; ok { + return s + } + i := bytes.IndexByte(t.funcnametab[off:], 0) + s := string(t.funcnametab[off : off+uint32(i)]) + t.funcNames[off] = s + return s +} + +// stringFrom returns a Go string found at off from a position. +func (t *LineTable) stringFrom(arr []byte, off uint32) string { + if s, ok := t.strings[off]; ok { + return s + } + i := bytes.IndexByte(arr[off:], 0) + s := string(arr[off : off+uint32(i)]) + t.strings[off] = s + return s +} + +// string returns a Go string found at off. +func (t *LineTable) string(off uint32) string { + return t.stringFrom(t.funcdata, off) +} + +// functabFieldSize returns the size in bytes of a single functab field. +func (t *LineTable) functabFieldSize() int { + if t.version >= ver118 { + return 4 + } + return int(t.ptrsize) +} + +// funcTab returns t's funcTab. +func (t *LineTable) funcTab() funcTab { + return funcTab{LineTable: t, sz: t.functabFieldSize()} +} + +// funcTab is memory corresponding to a slice of functab structs, followed by an invalid PC. +// A functab struct is a PC and a func offset. +type funcTab struct { + *LineTable + sz int // cached result of t.functabFieldSize +} + +// Count returns the number of func entries in f. +func (f funcTab) Count() int { + return int(f.nfunctab) +} + +// pc returns the PC of the i'th func in f. +func (f funcTab) pc(i int) uint64 { + u := f.uint(f.functab[2*i*f.sz:]) + if f.version >= ver118 { + u += f.textStart + } + return u +} + +// funcOff returns the funcdata offset of the i'th func in f. +func (f funcTab) funcOff(i int) uint64 { + return f.uint(f.functab[(2*i+1)*f.sz:]) +} + +// uint returns the uint stored at b. +func (f funcTab) uint(b []byte) uint64 { + if f.sz == 4 { + return uint64(f.binary.Uint32(b)) + } + return f.binary.Uint64(b) +} + +// funcData is memory corresponding to an _func struct. +type funcData struct { + t *LineTable // LineTable this data is a part of + data []byte // raw memory for the function +} + +// funcData returns the ith funcData in t.functab. +func (t *LineTable) funcData(i uint32) funcData { + data := t.funcdata[t.funcTab().funcOff(int(i)):] + return funcData{t: t, data: data} +} + +// IsZero reports whether f is the zero value. +func (f funcData) IsZero() bool { + return f.t == nil && f.data == nil +} + +// entryPC returns the func's entry PC. +func (f *funcData) entryPC() uint64 { + // In Go 1.18, the first field of _func changed + // from a uintptr entry PC to a uint32 entry offset. + if f.t.version >= ver118 { + // TODO: support multiple text sections. + // See runtime/symtab.go:(*moduledata).textAddr. + return uint64(f.t.binary.Uint32(f.data)) + f.t.textStart + } + return f.t.uintptr(f.data) +} + +func (f funcData) nameOff() uint32 { return f.field(1) } +func (f funcData) deferreturn() uint32 { return f.field(3) } +func (f funcData) pcfile() uint32 { return f.field(5) } +func (f funcData) pcln() uint32 { return f.field(6) } +func (f funcData) cuOffset() uint32 { return f.field(8) } + +// field returns the nth field of the _func struct. +// It panics if n == 0 or n > 9; for n == 0, call f.entryPC. +// Most callers should use a named field accessor (just above). +func (f funcData) field(n uint32) uint32 { + if n == 0 || n > 9 { + panic("bad funcdata field") + } + // In Go 1.18, the first field of _func changed + // from a uintptr entry PC to a uint32 entry offset. + sz0 := f.t.ptrsize + if f.t.version >= ver118 { + sz0 = 4 + } + off := sz0 + (n-1)*4 // subsequent fields are 4 bytes each + data := f.data[off:] + return f.t.binary.Uint32(data) +} + +// step advances to the next pc, value pair in the encoded table. +func (t *LineTable) step(p *[]byte, pc *uint64, val *int32, first bool) bool { + uvdelta := t.readvarint(p) + if uvdelta == 0 && !first { + return false + } + if uvdelta&1 != 0 { + uvdelta = ^(uvdelta >> 1) + } else { + uvdelta >>= 1 + } + vdelta := int32(uvdelta) + pcdelta := t.readvarint(p) * t.quantum + *pc += uint64(pcdelta) + *val += vdelta + return true +} + +// pcvalue reports the value associated with the target pc. +// off is the offset to the beginning of the pc-value table, +// and entry is the start PC for the corresponding function. +func (t *LineTable) pcvalue(off uint32, entry, targetpc uint64) int32 { + p := t.pctab[off:] + + val := int32(-1) + pc := entry + for t.step(&p, &pc, &val, pc == entry) { + if targetpc < pc { + return val + } + } + return -1 +} + +// findFileLine scans one function in the binary looking for a +// program counter in the given file on the given line. +// It does so by running the pc-value tables mapping program counter +// to file number. Since most functions come from a single file, these +// are usually short and quick to scan. If a file match is found, then the +// code goes to the expense of looking for a simultaneous line number match. +func (t *LineTable) findFileLine(entry uint64, filetab, linetab uint32, filenum, line int32, cutab []byte) uint64 { + if filetab == 0 || linetab == 0 { + return 0 + } + + fp := t.pctab[filetab:] + fl := t.pctab[linetab:] + fileVal := int32(-1) + filePC := entry + lineVal := int32(-1) + linePC := entry + fileStartPC := filePC + for t.step(&fp, &filePC, &fileVal, filePC == entry) { + fileIndex := fileVal + if t.version == ver116 || t.version == ver118 || t.version == ver120 { + fileIndex = int32(t.binary.Uint32(cutab[fileVal*4:])) + } + if fileIndex == filenum && fileStartPC < filePC { + // fileIndex is in effect starting at fileStartPC up to + // but not including filePC, and it's the file we want. + // Run the PC table looking for a matching line number + // or until we reach filePC. + lineStartPC := linePC + for linePC < filePC && t.step(&fl, &linePC, &lineVal, linePC == entry) { + // lineVal is in effect until linePC, and lineStartPC < filePC. + if lineVal == line { + if fileStartPC <= lineStartPC { + return lineStartPC + } + if fileStartPC < linePC { + return fileStartPC + } + } + lineStartPC = linePC + } + } + fileStartPC = filePC + } + return 0 +} + +// go12PCToLine maps program counter to line number for the Go 1.2+ pcln table. +func (t *LineTable) go12PCToLine(pc uint64) (line int) { + defer func() { + if !disableRecover && recover() != nil { + line = -1 + } + }() + + f := t.findFunc(pc) + if f.IsZero() { + return -1 + } + entry := f.entryPC() + linetab := f.pcln() + return int(t.pcvalue(linetab, entry, pc)) +} + +// go12PCToFile maps program counter to file name for the Go 1.2+ pcln table. +func (t *LineTable) go12PCToFile(pc uint64) (file string) { + defer func() { + if !disableRecover && recover() != nil { + file = "" + } + }() + + f := t.findFunc(pc) + if f.IsZero() { + return "" + } + entry := f.entryPC() + filetab := f.pcfile() + fno := t.pcvalue(filetab, entry, pc) + if t.version == ver12 { + if fno <= 0 { + return "" + } + return t.string(t.binary.Uint32(t.filetab[4*fno:])) + } + // Go ≥ 1.16 + if fno < 0 { // 0 is valid for ≥ 1.16 + return "" + } + cuoff := f.cuOffset() + if fnoff := t.binary.Uint32(t.cutab[(cuoff+uint32(fno))*4:]); fnoff != ^uint32(0) { + return t.stringFrom(t.filetab, fnoff) + } + return "" +} + +// go12LineToPC maps a (file, line) pair to a program counter for the Go 1.2+ pcln table. +func (t *LineTable) go12LineToPC(file string, line int) (pc uint64) { + defer func() { + if !disableRecover && recover() != nil { + pc = 0 + } + }() + + t.initFileMap() + filenum, ok := t.fileMap[file] + if !ok { + return 0 + } + + // Scan all functions. + // If this turns out to be a bottleneck, we could build a map[int32][]int32 + // mapping file number to a list of functions with code from that file. + var cutab []byte + for i := uint32(0); i < t.nfunctab; i++ { + f := t.funcData(i) + entry := f.entryPC() + filetab := f.pcfile() + linetab := f.pcln() + if t.version == ver116 || t.version == ver118 || t.version == ver120 { + if f.cuOffset() == ^uint32(0) { + // skip functions without compilation unit (not real function, or linker generated) + continue + } + cutab = t.cutab[f.cuOffset()*4:] + } + pc := t.findFileLine(entry, filetab, linetab, int32(filenum), int32(line), cutab) + if pc != 0 { + return pc + } + } + return 0 +} + +// initFileMap initializes the map from file name to file number. +func (t *LineTable) initFileMap() { + t.mu.Lock() + defer t.mu.Unlock() + + if t.fileMap != nil { + return + } + m := make(map[string]uint32) + + if t.version == ver12 { + for i := uint32(1); i < t.nfiletab; i++ { + s := t.string(t.binary.Uint32(t.filetab[4*i:])) + m[s] = i + } + } else { + var pos uint32 + for i := uint32(0); i < t.nfiletab; i++ { + s := t.stringFrom(t.filetab, pos) + m[s] = pos + pos += uint32(len(s) + 1) + } + } + t.fileMap = m +} + +// go12MapFiles adds to m a key for every file in the Go 1.2 LineTable. +// Every key maps to obj. That's not a very interesting map, but it provides +// a way for callers to obtain the list of files in the program. +func (t *LineTable) go12MapFiles(m map[string]*Obj, obj *Obj) { + if !disableRecover { + defer func() { + recover() + }() + } + + t.initFileMap() + for file := range t.fileMap { + m[file] = obj + } +} + +// disableRecover causes this package not to swallow panics. +// This is useful when making changes. +const disableRecover = false diff --git a/src/debug/gosym/pclntab_test.go b/src/debug/gosym/pclntab_test.go new file mode 100644 index 0000000..e380bb5 --- /dev/null +++ b/src/debug/gosym/pclntab_test.go @@ -0,0 +1,407 @@ +// Copyright 2009 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package gosym + +import ( + "bytes" + "compress/gzip" + "debug/elf" + "internal/testenv" + "io" + "os" + "os/exec" + "path/filepath" + "runtime" + "strings" + "testing" +) + +var ( + pclineTempDir string + pclinetestBinary string +) + +func dotest(t *testing.T) { + testenv.MustHaveGoBuild(t) + // For now, only works on amd64 platforms. + if runtime.GOARCH != "amd64" { + t.Skipf("skipping on non-AMD64 system %s", runtime.GOARCH) + } + // This test builds a Linux/AMD64 binary. Skipping in short mode if cross compiling. + if runtime.GOOS != "linux" && testing.Short() { + t.Skipf("skipping in short mode on non-Linux system %s", runtime.GOARCH) + } + var err error + pclineTempDir, err = os.MkdirTemp("", "pclinetest") + if err != nil { + t.Fatal(err) + } + pclinetestBinary = filepath.Join(pclineTempDir, "pclinetest") + cmd := exec.Command(testenv.GoToolPath(t), "build", "-o", pclinetestBinary) + cmd.Dir = "testdata" + cmd.Env = append(os.Environ(), "GOOS=linux") + cmd.Stdout = os.Stdout + cmd.Stderr = os.Stderr + if err := cmd.Run(); err != nil { + t.Fatal(err) + } +} + +func endtest() { + if pclineTempDir != "" { + os.RemoveAll(pclineTempDir) + pclineTempDir = "" + pclinetestBinary = "" + } +} + +// skipIfNotELF skips the test if we are not running on an ELF system. +// These tests open and examine the test binary, and use elf.Open to do so. +func skipIfNotELF(t *testing.T) { + switch runtime.GOOS { + case "dragonfly", "freebsd", "linux", "netbsd", "openbsd", "solaris", "illumos": + // OK. + default: + t.Skipf("skipping on non-ELF system %s", runtime.GOOS) + } +} + +func getTable(t *testing.T) *Table { + f, tab := crack(os.Args[0], t) + f.Close() + return tab +} + +func crack(file string, t *testing.T) (*elf.File, *Table) { + // Open self + f, err := elf.Open(file) + if err != nil { + t.Fatal(err) + } + return parse(file, f, t) +} + +func parse(file string, f *elf.File, t *testing.T) (*elf.File, *Table) { + s := f.Section(".gosymtab") + if s == nil { + t.Skip("no .gosymtab section") + } + symdat, err := s.Data() + if err != nil { + f.Close() + t.Fatalf("reading %s gosymtab: %v", file, err) + } + pclndat, err := f.Section(".gopclntab").Data() + if err != nil { + f.Close() + t.Fatalf("reading %s gopclntab: %v", file, err) + } + + pcln := NewLineTable(pclndat, f.Section(".text").Addr) + tab, err := NewTable(symdat, pcln) + if err != nil { + f.Close() + t.Fatalf("parsing %s gosymtab: %v", file, err) + } + + return f, tab +} + +func TestLineFromAline(t *testing.T) { + skipIfNotELF(t) + + tab := getTable(t) + if tab.go12line != nil { + // aline's don't exist in the Go 1.2 table. + t.Skip("not relevant to Go 1.2 symbol table") + } + + // Find the sym package + pkg := tab.LookupFunc("debug/gosym.TestLineFromAline").Obj + if pkg == nil { + t.Fatalf("nil pkg") + } + + // Walk every absolute line and ensure that we hit every + // source line monotonically + lastline := make(map[string]int) + final := -1 + for i := 0; i < 10000; i++ { + path, line := pkg.lineFromAline(i) + // Check for end of object + if path == "" { + if final == -1 { + final = i - 1 + } + continue + } else if final != -1 { + t.Fatalf("reached end of package at absolute line %d, but absolute line %d mapped to %s:%d", final, i, path, line) + } + // It's okay to see files multiple times (e.g., sys.a) + if line == 1 { + lastline[path] = 1 + continue + } + // Check that the is the next line in path + ll, ok := lastline[path] + if !ok { + t.Errorf("file %s starts on line %d", path, line) + } else if line != ll+1 { + t.Fatalf("expected next line of file %s to be %d, got %d", path, ll+1, line) + } + lastline[path] = line + } + if final == -1 { + t.Errorf("never reached end of object") + } +} + +func TestLineAline(t *testing.T) { + skipIfNotELF(t) + + tab := getTable(t) + if tab.go12line != nil { + // aline's don't exist in the Go 1.2 table. + t.Skip("not relevant to Go 1.2 symbol table") + } + + for _, o := range tab.Files { + // A source file can appear multiple times in a + // object. alineFromLine will always return alines in + // the first file, so track which lines we've seen. + found := make(map[string]int) + for i := 0; i < 1000; i++ { + path, line := o.lineFromAline(i) + if path == "" { + break + } + + // cgo files are full of 'Z' symbols, which we don't handle + if len(path) > 4 && path[len(path)-4:] == ".cgo" { + continue + } + + if minline, ok := found[path]; path != "" && ok { + if minline >= line { + // We've already covered this file + continue + } + } + found[path] = line + + a, err := o.alineFromLine(path, line) + if err != nil { + t.Errorf("absolute line %d in object %s maps to %s:%d, but mapping that back gives error %s", i, o.Paths[0].Name, path, line, err) + } else if a != i { + t.Errorf("absolute line %d in object %s maps to %s:%d, which maps back to absolute line %d\n", i, o.Paths[0].Name, path, line, a) + } + } + } +} + +func TestPCLine(t *testing.T) { + dotest(t) + defer endtest() + + f, tab := crack(pclinetestBinary, t) + defer f.Close() + text := f.Section(".text") + textdat, err := text.Data() + if err != nil { + t.Fatalf("reading .text: %v", err) + } + + // Test PCToLine + sym := tab.LookupFunc("main.linefrompc") + wantLine := 0 + for pc := sym.Entry; pc < sym.End; pc++ { + off := pc - text.Addr // TODO(rsc): should not need off; bug in 8g + if textdat[off] == 255 { + break + } + wantLine += int(textdat[off]) + t.Logf("off is %d %#x (max %d)", off, textdat[off], sym.End-pc) + file, line, fn := tab.PCToLine(pc) + if fn == nil { + t.Errorf("failed to get line of PC %#x", pc) + } else if !strings.HasSuffix(file, "pclinetest.s") || line != wantLine || fn != sym { + t.Errorf("PCToLine(%#x) = %s:%d (%s), want %s:%d (%s)", pc, file, line, fn.Name, "pclinetest.s", wantLine, sym.Name) + } + } + + // Test LineToPC + sym = tab.LookupFunc("main.pcfromline") + lookupline := -1 + wantLine = 0 + off := uint64(0) // TODO(rsc): should not need off; bug in 8g + for pc := sym.Value; pc < sym.End; pc += 2 + uint64(textdat[off]) { + file, line, fn := tab.PCToLine(pc) + off = pc - text.Addr + if textdat[off] == 255 { + break + } + wantLine += int(textdat[off]) + if line != wantLine { + t.Errorf("expected line %d at PC %#x in pcfromline, got %d", wantLine, pc, line) + off = pc + 1 - text.Addr + continue + } + if lookupline == -1 { + lookupline = line + } + for ; lookupline <= line; lookupline++ { + pc2, fn2, err := tab.LineToPC(file, lookupline) + if lookupline != line { + // Should be nothing on this line + if err == nil { + t.Errorf("expected no PC at line %d, got %#x (%s)", lookupline, pc2, fn2.Name) + } + } else if err != nil { + t.Errorf("failed to get PC of line %d: %s", lookupline, err) + } else if pc != pc2 { + t.Errorf("expected PC %#x (%s) at line %d, got PC %#x (%s)", pc, fn.Name, line, pc2, fn2.Name) + } + } + off = pc + 1 - text.Addr + } +} + +func TestSymVersion(t *testing.T) { + skipIfNotELF(t) + + table := getTable(t) + if table.go12line == nil { + t.Skip("not relevant to Go 1.2+ symbol table") + } + for _, fn := range table.Funcs { + if fn.goVersion == verUnknown { + t.Fatalf("unexpected symbol version: %v", fn) + } + } +} + +// read115Executable returns a hello world executable compiled by Go 1.15. +// +// The file was compiled in /tmp/hello.go: +// +// package main +// +// func main() { +// println("hello") +// } +func read115Executable(tb testing.TB) []byte { + zippedDat, err := os.ReadFile("testdata/pcln115.gz") + if err != nil { + tb.Fatal(err) + } + var gzReader *gzip.Reader + gzReader, err = gzip.NewReader(bytes.NewBuffer(zippedDat)) + if err != nil { + tb.Fatal(err) + } + var dat []byte + dat, err = io.ReadAll(gzReader) + if err != nil { + tb.Fatal(err) + } + return dat +} + +// Test that we can parse a pclntab from 1.15. +func Test115PclnParsing(t *testing.T) { + dat := read115Executable(t) + const textStart = 0x1001000 + pcln := NewLineTable(dat, textStart) + tab, err := NewTable(nil, pcln) + if err != nil { + t.Fatal(err) + } + var f *Func + var pc uint64 + pc, f, err = tab.LineToPC("/tmp/hello.go", 3) + if err != nil { + t.Fatal(err) + } + if pcln.version != ver12 { + t.Fatal("Expected pcln to parse as an older version") + } + if pc != 0x105c280 { + t.Fatalf("expect pc = 0x105c280, got 0x%x", pc) + } + if f.Name != "main.main" { + t.Fatalf("expected to parse name as main.main, got %v", f.Name) + } +} + +var ( + sinkLineTable *LineTable + sinkTable *Table +) + +func Benchmark115(b *testing.B) { + dat := read115Executable(b) + const textStart = 0x1001000 + + b.Run("NewLineTable", func(b *testing.B) { + b.ReportAllocs() + for i := 0; i < b.N; i++ { + sinkLineTable = NewLineTable(dat, textStart) + } + }) + + pcln := NewLineTable(dat, textStart) + b.Run("NewTable", func(b *testing.B) { + b.ReportAllocs() + for i := 0; i < b.N; i++ { + var err error + sinkTable, err = NewTable(nil, pcln) + if err != nil { + b.Fatal(err) + } + } + }) + + tab, err := NewTable(nil, pcln) + if err != nil { + b.Fatal(err) + } + + b.Run("LineToPC", func(b *testing.B) { + b.ReportAllocs() + for i := 0; i < b.N; i++ { + var f *Func + var pc uint64 + pc, f, err = tab.LineToPC("/tmp/hello.go", 3) + if err != nil { + b.Fatal(err) + } + if pcln.version != ver12 { + b.Fatalf("want version=%d, got %d", ver12, pcln.version) + } + if pc != 0x105c280 { + b.Fatalf("want pc=0x105c280, got 0x%x", pc) + } + if f.Name != "main.main" { + b.Fatalf("want name=main.main, got %q", f.Name) + } + } + }) + + b.Run("PCToLine", func(b *testing.B) { + b.ReportAllocs() + for i := 0; i < b.N; i++ { + file, line, fn := tab.PCToLine(0x105c280) + if file != "/tmp/hello.go" { + b.Fatalf("want name=/tmp/hello.go, got %q", file) + } + if line != 3 { + b.Fatalf("want line=3, got %d", line) + } + if fn.Name != "main.main" { + b.Fatalf("want name=main.main, got %q", fn.Name) + } + } + }) +} diff --git a/src/debug/gosym/symtab.go b/src/debug/gosym/symtab.go new file mode 100644 index 0000000..d87b312 --- /dev/null +++ b/src/debug/gosym/symtab.go @@ -0,0 +1,774 @@ +// Copyright 2009 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package gosym implements access to the Go symbol +// and line number tables embedded in Go binaries generated +// by the gc compilers. +package gosym + +import ( + "bytes" + "encoding/binary" + "fmt" + "strconv" + "strings" +) + +/* + * Symbols + */ + +// A Sym represents a single symbol table entry. +type Sym struct { + Value uint64 + Type byte + Name string + GoType uint64 + // If this symbol is a function symbol, the corresponding Func + Func *Func + + goVersion version +} + +// Static reports whether this symbol is static (not visible outside its file). +func (s *Sym) Static() bool { return s.Type >= 'a' } + +// nameWithoutInst returns s.Name if s.Name has no brackets (does not reference an +// instantiated type, function, or method). If s.Name contains brackets, then it +// returns s.Name with all the contents between (and including) the outermost left +// and right bracket removed. This is useful to ignore any extra slashes or dots +// inside the brackets from the string searches below, where needed. +func (s *Sym) nameWithoutInst() string { + start := strings.Index(s.Name, "[") + if start < 0 { + return s.Name + } + end := strings.LastIndex(s.Name, "]") + if end < 0 { + // Malformed name, should contain closing bracket too. + return s.Name + } + return s.Name[0:start] + s.Name[end+1:] +} + +// PackageName returns the package part of the symbol name, +// or the empty string if there is none. +func (s *Sym) PackageName() string { + name := s.nameWithoutInst() + + // Since go1.20, a prefix of "type:" and "go:" is a compiler-generated symbol, + // they do not belong to any package. + // + // See cmd/compile/internal/base/link.go:ReservedImports variable. + if s.goVersion >= ver120 && (strings.HasPrefix(name, "go:") || strings.HasPrefix(name, "type:")) { + return "" + } + + // For go1.18 and below, the prefix are "type." and "go." instead. + if s.goVersion <= ver118 && (strings.HasPrefix(name, "go.") || strings.HasPrefix(name, "type.")) { + return "" + } + + pathend := strings.LastIndex(name, "/") + if pathend < 0 { + pathend = 0 + } + + if i := strings.Index(name[pathend:], "."); i != -1 { + return name[:pathend+i] + } + return "" +} + +// ReceiverName returns the receiver type name of this symbol, +// or the empty string if there is none. A receiver name is only detected in +// the case that s.Name is fully-specified with a package name. +func (s *Sym) ReceiverName() string { + name := s.nameWithoutInst() + // If we find a slash in name, it should precede any bracketed expression + // that was removed, so pathend will apply correctly to name and s.Name. + pathend := strings.LastIndex(name, "/") + if pathend < 0 { + pathend = 0 + } + // Find the first dot after pathend (or from the beginning, if there was + // no slash in name). + l := strings.Index(name[pathend:], ".") + // Find the last dot after pathend (or the beginning). + r := strings.LastIndex(name[pathend:], ".") + if l == -1 || r == -1 || l == r { + // There is no receiver if we didn't find two distinct dots after pathend. + return "" + } + // Given there is a trailing '.' that is in name, find it now in s.Name. + // pathend+l should apply to s.Name, because it should be the dot in the + // package name. + r = strings.LastIndex(s.Name[pathend:], ".") + return s.Name[pathend+l+1 : pathend+r] +} + +// BaseName returns the symbol name without the package or receiver name. +func (s *Sym) BaseName() string { + name := s.nameWithoutInst() + if i := strings.LastIndex(name, "."); i != -1 { + if s.Name != name { + brack := strings.Index(s.Name, "[") + if i > brack { + // BaseName is a method name after the brackets, so + // recalculate for s.Name. Otherwise, i applies + // correctly to s.Name, since it is before the + // brackets. + i = strings.LastIndex(s.Name, ".") + } + } + return s.Name[i+1:] + } + return s.Name +} + +// A Func collects information about a single function. +type Func struct { + Entry uint64 + *Sym + End uint64 + Params []*Sym // nil for Go 1.3 and later binaries + Locals []*Sym // nil for Go 1.3 and later binaries + FrameSize int + LineTable *LineTable + Obj *Obj +} + +// An Obj represents a collection of functions in a symbol table. +// +// The exact method of division of a binary into separate Objs is an internal detail +// of the symbol table format. +// +// In early versions of Go each source file became a different Obj. +// +// In Go 1 and Go 1.1, each package produced one Obj for all Go sources +// and one Obj per C source file. +// +// In Go 1.2, there is a single Obj for the entire program. +type Obj struct { + // Funcs is a list of functions in the Obj. + Funcs []Func + + // In Go 1.1 and earlier, Paths is a list of symbols corresponding + // to the source file names that produced the Obj. + // In Go 1.2, Paths is nil. + // Use the keys of Table.Files to obtain a list of source files. + Paths []Sym // meta +} + +/* + * Symbol tables + */ + +// Table represents a Go symbol table. It stores all of the +// symbols decoded from the program and provides methods to translate +// between symbols, names, and addresses. +type Table struct { + Syms []Sym // nil for Go 1.3 and later binaries + Funcs []Func + Files map[string]*Obj // for Go 1.2 and later all files map to one Obj + Objs []Obj // for Go 1.2 and later only one Obj in slice + + go12line *LineTable // Go 1.2 line number table +} + +type sym struct { + value uint64 + gotype uint64 + typ byte + name []byte +} + +var ( + littleEndianSymtab = []byte{0xFD, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00} + bigEndianSymtab = []byte{0xFF, 0xFF, 0xFF, 0xFD, 0x00, 0x00, 0x00} + oldLittleEndianSymtab = []byte{0xFE, 0xFF, 0xFF, 0xFF, 0x00, 0x00} +) + +func walksymtab(data []byte, fn func(sym) error) error { + if len(data) == 0 { // missing symtab is okay + return nil + } + var order binary.ByteOrder = binary.BigEndian + newTable := false + switch { + case bytes.HasPrefix(data, oldLittleEndianSymtab): + // Same as Go 1.0, but little endian. + // Format was used during interim development between Go 1.0 and Go 1.1. + // Should not be widespread, but easy to support. + data = data[6:] + order = binary.LittleEndian + case bytes.HasPrefix(data, bigEndianSymtab): + newTable = true + case bytes.HasPrefix(data, littleEndianSymtab): + newTable = true + order = binary.LittleEndian + } + var ptrsz int + if newTable { + if len(data) < 8 { + return &DecodingError{len(data), "unexpected EOF", nil} + } + ptrsz = int(data[7]) + if ptrsz != 4 && ptrsz != 8 { + return &DecodingError{7, "invalid pointer size", ptrsz} + } + data = data[8:] + } + var s sym + p := data + for len(p) >= 4 { + var typ byte + if newTable { + // Symbol type, value, Go type. + typ = p[0] & 0x3F + wideValue := p[0]&0x40 != 0 + goType := p[0]&0x80 != 0 + if typ < 26 { + typ += 'A' + } else { + typ += 'a' - 26 + } + s.typ = typ + p = p[1:] + if wideValue { + if len(p) < ptrsz { + return &DecodingError{len(data), "unexpected EOF", nil} + } + // fixed-width value + if ptrsz == 8 { + s.value = order.Uint64(p[0:8]) + p = p[8:] + } else { + s.value = uint64(order.Uint32(p[0:4])) + p = p[4:] + } + } else { + // varint value + s.value = 0 + shift := uint(0) + for len(p) > 0 && p[0]&0x80 != 0 { + s.value |= uint64(p[0]&0x7F) << shift + shift += 7 + p = p[1:] + } + if len(p) == 0 { + return &DecodingError{len(data), "unexpected EOF", nil} + } + s.value |= uint64(p[0]) << shift + p = p[1:] + } + if goType { + if len(p) < ptrsz { + return &DecodingError{len(data), "unexpected EOF", nil} + } + // fixed-width go type + if ptrsz == 8 { + s.gotype = order.Uint64(p[0:8]) + p = p[8:] + } else { + s.gotype = uint64(order.Uint32(p[0:4])) + p = p[4:] + } + } + } else { + // Value, symbol type. + s.value = uint64(order.Uint32(p[0:4])) + if len(p) < 5 { + return &DecodingError{len(data), "unexpected EOF", nil} + } + typ = p[4] + if typ&0x80 == 0 { + return &DecodingError{len(data) - len(p) + 4, "bad symbol type", typ} + } + typ &^= 0x80 + s.typ = typ + p = p[5:] + } + + // Name. + var i int + var nnul int + for i = 0; i < len(p); i++ { + if p[i] == 0 { + nnul = 1 + break + } + } + switch typ { + case 'z', 'Z': + p = p[i+nnul:] + for i = 0; i+2 <= len(p); i += 2 { + if p[i] == 0 && p[i+1] == 0 { + nnul = 2 + break + } + } + } + if len(p) < i+nnul { + return &DecodingError{len(data), "unexpected EOF", nil} + } + s.name = p[0:i] + i += nnul + p = p[i:] + + if !newTable { + if len(p) < 4 { + return &DecodingError{len(data), "unexpected EOF", nil} + } + // Go type. + s.gotype = uint64(order.Uint32(p[:4])) + p = p[4:] + } + fn(s) + } + return nil +} + +// NewTable decodes the Go symbol table (the ".gosymtab" section in ELF), +// returning an in-memory representation. +// Starting with Go 1.3, the Go symbol table no longer includes symbol data. +func NewTable(symtab []byte, pcln *LineTable) (*Table, error) { + var n int + err := walksymtab(symtab, func(s sym) error { + n++ + return nil + }) + if err != nil { + return nil, err + } + + var t Table + if pcln.isGo12() { + t.go12line = pcln + } + fname := make(map[uint16]string) + t.Syms = make([]Sym, 0, n) + nf := 0 + nz := 0 + lasttyp := uint8(0) + err = walksymtab(symtab, func(s sym) error { + n := len(t.Syms) + t.Syms = t.Syms[0 : n+1] + ts := &t.Syms[n] + ts.Type = s.typ + ts.Value = s.value + ts.GoType = s.gotype + ts.goVersion = pcln.version + switch s.typ { + default: + // rewrite name to use . instead of · (c2 b7) + w := 0 + b := s.name + for i := 0; i < len(b); i++ { + if b[i] == 0xc2 && i+1 < len(b) && b[i+1] == 0xb7 { + i++ + b[i] = '.' + } + b[w] = b[i] + w++ + } + ts.Name = string(s.name[0:w]) + case 'z', 'Z': + if lasttyp != 'z' && lasttyp != 'Z' { + nz++ + } + for i := 0; i < len(s.name); i += 2 { + eltIdx := binary.BigEndian.Uint16(s.name[i : i+2]) + elt, ok := fname[eltIdx] + if !ok { + return &DecodingError{-1, "bad filename code", eltIdx} + } + if n := len(ts.Name); n > 0 && ts.Name[n-1] != '/' { + ts.Name += "/" + } + ts.Name += elt + } + } + switch s.typ { + case 'T', 't', 'L', 'l': + nf++ + case 'f': + fname[uint16(s.value)] = ts.Name + } + lasttyp = s.typ + return nil + }) + if err != nil { + return nil, err + } + + t.Funcs = make([]Func, 0, nf) + t.Files = make(map[string]*Obj) + + var obj *Obj + if t.go12line != nil { + // Put all functions into one Obj. + t.Objs = make([]Obj, 1) + obj = &t.Objs[0] + t.go12line.go12MapFiles(t.Files, obj) + } else { + t.Objs = make([]Obj, 0, nz) + } + + // Count text symbols and attach frame sizes, parameters, and + // locals to them. Also, find object file boundaries. + lastf := 0 + for i := 0; i < len(t.Syms); i++ { + sym := &t.Syms[i] + switch sym.Type { + case 'Z', 'z': // path symbol + if t.go12line != nil { + // Go 1.2 binaries have the file information elsewhere. Ignore. + break + } + // Finish the current object + if obj != nil { + obj.Funcs = t.Funcs[lastf:] + } + lastf = len(t.Funcs) + + // Start new object + n := len(t.Objs) + t.Objs = t.Objs[0 : n+1] + obj = &t.Objs[n] + + // Count & copy path symbols + var end int + for end = i + 1; end < len(t.Syms); end++ { + if c := t.Syms[end].Type; c != 'Z' && c != 'z' { + break + } + } + obj.Paths = t.Syms[i:end] + i = end - 1 // loop will i++ + + // Record file names + depth := 0 + for j := range obj.Paths { + s := &obj.Paths[j] + if s.Name == "" { + depth-- + } else { + if depth == 0 { + t.Files[s.Name] = obj + } + depth++ + } + } + + case 'T', 't', 'L', 'l': // text symbol + if n := len(t.Funcs); n > 0 { + t.Funcs[n-1].End = sym.Value + } + if sym.Name == "runtime.etext" || sym.Name == "etext" { + continue + } + + // Count parameter and local (auto) syms + var np, na int + var end int + countloop: + for end = i + 1; end < len(t.Syms); end++ { + switch t.Syms[end].Type { + case 'T', 't', 'L', 'l', 'Z', 'z': + break countloop + case 'p': + np++ + case 'a': + na++ + } + } + + // Fill in the function symbol + n := len(t.Funcs) + t.Funcs = t.Funcs[0 : n+1] + fn := &t.Funcs[n] + sym.Func = fn + fn.Params = make([]*Sym, 0, np) + fn.Locals = make([]*Sym, 0, na) + fn.Sym = sym + fn.Entry = sym.Value + fn.Obj = obj + if t.go12line != nil { + // All functions share the same line table. + // It knows how to narrow down to a specific + // function quickly. + fn.LineTable = t.go12line + } else if pcln != nil { + fn.LineTable = pcln.slice(fn.Entry) + pcln = fn.LineTable + } + for j := i; j < end; j++ { + s := &t.Syms[j] + switch s.Type { + case 'm': + fn.FrameSize = int(s.Value) + case 'p': + n := len(fn.Params) + fn.Params = fn.Params[0 : n+1] + fn.Params[n] = s + case 'a': + n := len(fn.Locals) + fn.Locals = fn.Locals[0 : n+1] + fn.Locals[n] = s + } + } + i = end - 1 // loop will i++ + } + } + + if t.go12line != nil && nf == 0 { + t.Funcs = t.go12line.go12Funcs() + } + if obj != nil { + obj.Funcs = t.Funcs[lastf:] + } + return &t, nil +} + +// PCToFunc returns the function containing the program counter pc, +// or nil if there is no such function. +func (t *Table) PCToFunc(pc uint64) *Func { + funcs := t.Funcs + for len(funcs) > 0 { + m := len(funcs) / 2 + fn := &funcs[m] + switch { + case pc < fn.Entry: + funcs = funcs[0:m] + case fn.Entry <= pc && pc < fn.End: + return fn + default: + funcs = funcs[m+1:] + } + } + return nil +} + +// PCToLine looks up line number information for a program counter. +// If there is no information, it returns fn == nil. +func (t *Table) PCToLine(pc uint64) (file string, line int, fn *Func) { + if fn = t.PCToFunc(pc); fn == nil { + return + } + if t.go12line != nil { + file = t.go12line.go12PCToFile(pc) + line = t.go12line.go12PCToLine(pc) + } else { + file, line = fn.Obj.lineFromAline(fn.LineTable.PCToLine(pc)) + } + return +} + +// LineToPC looks up the first program counter on the given line in +// the named file. It returns UnknownPathError or UnknownLineError if +// there is an error looking up this line. +func (t *Table) LineToPC(file string, line int) (pc uint64, fn *Func, err error) { + obj, ok := t.Files[file] + if !ok { + return 0, nil, UnknownFileError(file) + } + + if t.go12line != nil { + pc := t.go12line.go12LineToPC(file, line) + if pc == 0 { + return 0, nil, &UnknownLineError{file, line} + } + return pc, t.PCToFunc(pc), nil + } + + abs, err := obj.alineFromLine(file, line) + if err != nil { + return + } + for i := range obj.Funcs { + f := &obj.Funcs[i] + pc := f.LineTable.LineToPC(abs, f.End) + if pc != 0 { + return pc, f, nil + } + } + return 0, nil, &UnknownLineError{file, line} +} + +// LookupSym returns the text, data, or bss symbol with the given name, +// or nil if no such symbol is found. +func (t *Table) LookupSym(name string) *Sym { + // TODO(austin) Maybe make a map + for i := range t.Syms { + s := &t.Syms[i] + switch s.Type { + case 'T', 't', 'L', 'l', 'D', 'd', 'B', 'b': + if s.Name == name { + return s + } + } + } + return nil +} + +// LookupFunc returns the text, data, or bss symbol with the given name, +// or nil if no such symbol is found. +func (t *Table) LookupFunc(name string) *Func { + for i := range t.Funcs { + f := &t.Funcs[i] + if f.Sym.Name == name { + return f + } + } + return nil +} + +// SymByAddr returns the text, data, or bss symbol starting at the given address. +func (t *Table) SymByAddr(addr uint64) *Sym { + for i := range t.Syms { + s := &t.Syms[i] + switch s.Type { + case 'T', 't', 'L', 'l', 'D', 'd', 'B', 'b': + if s.Value == addr { + return s + } + } + } + return nil +} + +/* + * Object files + */ + +// This is legacy code for Go 1.1 and earlier, which used the +// Plan 9 format for pc-line tables. This code was never quite +// correct. It's probably very close, and it's usually correct, but +// we never quite found all the corner cases. +// +// Go 1.2 and later use a simpler format, documented at golang.org/s/go12symtab. + +func (o *Obj) lineFromAline(aline int) (string, int) { + type stackEnt struct { + path string + start int + offset int + prev *stackEnt + } + + noPath := &stackEnt{"", 0, 0, nil} + tos := noPath + +pathloop: + for _, s := range o.Paths { + val := int(s.Value) + switch { + case val > aline: + break pathloop + + case val == 1: + // Start a new stack + tos = &stackEnt{s.Name, val, 0, noPath} + + case s.Name == "": + // Pop + if tos == noPath { + return "<malformed symbol table>", 0 + } + tos.prev.offset += val - tos.start + tos = tos.prev + + default: + // Push + tos = &stackEnt{s.Name, val, 0, tos} + } + } + + if tos == noPath { + return "", 0 + } + return tos.path, aline - tos.start - tos.offset + 1 +} + +func (o *Obj) alineFromLine(path string, line int) (int, error) { + if line < 1 { + return 0, &UnknownLineError{path, line} + } + + for i, s := range o.Paths { + // Find this path + if s.Name != path { + continue + } + + // Find this line at this stack level + depth := 0 + var incstart int + line += int(s.Value) + pathloop: + for _, s := range o.Paths[i:] { + val := int(s.Value) + switch { + case depth == 1 && val >= line: + return line - 1, nil + + case s.Name == "": + depth-- + if depth == 0 { + break pathloop + } else if depth == 1 { + line += val - incstart + } + + default: + if depth == 1 { + incstart = val + } + depth++ + } + } + return 0, &UnknownLineError{path, line} + } + return 0, UnknownFileError(path) +} + +/* + * Errors + */ + +// UnknownFileError represents a failure to find the specific file in +// the symbol table. +type UnknownFileError string + +func (e UnknownFileError) Error() string { return "unknown file: " + string(e) } + +// UnknownLineError represents a failure to map a line to a program +// counter, either because the line is beyond the bounds of the file +// or because there is no code on the given line. +type UnknownLineError struct { + File string + Line int +} + +func (e *UnknownLineError) Error() string { + return "no code at " + e.File + ":" + strconv.Itoa(e.Line) +} + +// DecodingError represents an error during the decoding of +// the symbol table. +type DecodingError struct { + off int + msg string + val any +} + +func (e *DecodingError) Error() string { + msg := e.msg + if e.val != nil { + msg += fmt.Sprintf(" '%v'", e.val) + } + msg += fmt.Sprintf(" at byte %#x", e.off) + return msg +} diff --git a/src/debug/gosym/symtab_test.go b/src/debug/gosym/symtab_test.go new file mode 100644 index 0000000..bb1f267 --- /dev/null +++ b/src/debug/gosym/symtab_test.go @@ -0,0 +1,87 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package gosym + +import ( + "fmt" + "testing" +) + +func assertString(t *testing.T, dsc, out, tgt string) { + if out != tgt { + t.Fatalf("Expected: %q Actual: %q for %s", tgt, out, dsc) + } +} + +func TestStandardLibPackage(t *testing.T) { + s1 := Sym{Name: "io.(*LimitedReader).Read"} + s2 := Sym{Name: "io.NewSectionReader"} + assertString(t, fmt.Sprintf("package of %q", s1.Name), s1.PackageName(), "io") + assertString(t, fmt.Sprintf("package of %q", s2.Name), s2.PackageName(), "io") + assertString(t, fmt.Sprintf("receiver of %q", s1.Name), s1.ReceiverName(), "(*LimitedReader)") + assertString(t, fmt.Sprintf("receiver of %q", s2.Name), s2.ReceiverName(), "") +} + +func TestStandardLibPathPackage(t *testing.T) { + s1 := Sym{Name: "debug/gosym.(*LineTable).PCToLine"} + s2 := Sym{Name: "debug/gosym.NewTable"} + assertString(t, fmt.Sprintf("package of %q", s1.Name), s1.PackageName(), "debug/gosym") + assertString(t, fmt.Sprintf("package of %q", s2.Name), s2.PackageName(), "debug/gosym") + assertString(t, fmt.Sprintf("receiver of %q", s1.Name), s1.ReceiverName(), "(*LineTable)") + assertString(t, fmt.Sprintf("receiver of %q", s2.Name), s2.ReceiverName(), "") +} + +func TestGenericNames(t *testing.T) { + s1 := Sym{Name: "main.set[int]"} + s2 := Sym{Name: "main.(*value[int]).get"} + s3 := Sym{Name: "a/b.absDifference[c/d.orderedAbs[float64]]"} + s4 := Sym{Name: "main.testfunction[.shape.int]"} + assertString(t, fmt.Sprintf("package of %q", s1.Name), s1.PackageName(), "main") + assertString(t, fmt.Sprintf("package of %q", s2.Name), s2.PackageName(), "main") + assertString(t, fmt.Sprintf("package of %q", s3.Name), s3.PackageName(), "a/b") + assertString(t, fmt.Sprintf("package of %q", s4.Name), s4.PackageName(), "main") + assertString(t, fmt.Sprintf("receiver of %q", s1.Name), s1.ReceiverName(), "") + assertString(t, fmt.Sprintf("receiver of %q", s2.Name), s2.ReceiverName(), "(*value[int])") + assertString(t, fmt.Sprintf("receiver of %q", s3.Name), s3.ReceiverName(), "") + assertString(t, fmt.Sprintf("receiver of %q", s4.Name), s4.ReceiverName(), "") + assertString(t, fmt.Sprintf("base of %q", s1.Name), s1.BaseName(), "set[int]") + assertString(t, fmt.Sprintf("base of %q", s2.Name), s2.BaseName(), "get") + assertString(t, fmt.Sprintf("base of %q", s3.Name), s3.BaseName(), "absDifference[c/d.orderedAbs[float64]]") + assertString(t, fmt.Sprintf("base of %q", s4.Name), s4.BaseName(), "testfunction[.shape.int]") +} + +func TestRemotePackage(t *testing.T) { + s1 := Sym{Name: "github.com/docker/doc.ker/pkg/mflag.(*FlagSet).PrintDefaults"} + s2 := Sym{Name: "github.com/docker/doc.ker/pkg/mflag.PrintDefaults"} + assertString(t, fmt.Sprintf("package of %q", s1.Name), s1.PackageName(), "github.com/docker/doc.ker/pkg/mflag") + assertString(t, fmt.Sprintf("package of %q", s2.Name), s2.PackageName(), "github.com/docker/doc.ker/pkg/mflag") + assertString(t, fmt.Sprintf("receiver of %q", s1.Name), s1.ReceiverName(), "(*FlagSet)") + assertString(t, fmt.Sprintf("receiver of %q", s2.Name), s2.ReceiverName(), "") +} + +func TestIssue29551(t *testing.T) { + tests := []struct { + sym Sym + pkgName string + }{ + {Sym{goVersion: ver120, Name: "type:.eq.[9]debug/elf.intName"}, ""}, + {Sym{goVersion: ver120, Name: "type:.hash.debug/elf.ProgHeader"}, ""}, + {Sym{goVersion: ver120, Name: "type:.eq.runtime._panic"}, ""}, + {Sym{goVersion: ver120, Name: "type:.hash.struct { runtime.gList; runtime.n int32 }"}, ""}, + {Sym{goVersion: ver120, Name: "go:(*struct { sync.Mutex; math/big.table [64]math/big"}, ""}, + {Sym{goVersion: ver120, Name: "go.uber.org/zap/buffer.(*Buffer).AppendString"}, "go.uber.org/zap/buffer"}, + {Sym{goVersion: ver118, Name: "type..eq.[9]debug/elf.intName"}, ""}, + {Sym{goVersion: ver118, Name: "type..hash.debug/elf.ProgHeader"}, ""}, + {Sym{goVersion: ver118, Name: "type..eq.runtime._panic"}, ""}, + {Sym{goVersion: ver118, Name: "type..hash.struct { runtime.gList; runtime.n int32 }"}, ""}, + {Sym{goVersion: ver118, Name: "go.(*struct { sync.Mutex; math/big.table [64]math/big"}, ""}, + // unfortunate + {Sym{goVersion: ver118, Name: "go.uber.org/zap/buffer.(*Buffer).AppendString"}, ""}, + } + + for _, tc := range tests { + assertString(t, fmt.Sprintf("package of %q", tc.sym.Name), tc.sym.PackageName(), tc.pkgName) + } +} diff --git a/src/debug/gosym/testdata/main.go b/src/debug/gosym/testdata/main.go new file mode 100644 index 0000000..b770218 --- /dev/null +++ b/src/debug/gosym/testdata/main.go @@ -0,0 +1,10 @@ +package main + +func linefrompc() +func pcfromline() + +func main() { + // Prevent GC of our test symbols + linefrompc() + pcfromline() +} diff --git a/src/debug/gosym/testdata/pclinetest.h b/src/debug/gosym/testdata/pclinetest.h new file mode 100644 index 0000000..156c0b8 --- /dev/null +++ b/src/debug/gosym/testdata/pclinetest.h @@ -0,0 +1,9 @@ +// +build ignore + +// Empty include file to generate z symbols + + + + + +// EOF diff --git a/src/debug/gosym/testdata/pclinetest.s b/src/debug/gosym/testdata/pclinetest.s new file mode 100644 index 0000000..53461cd --- /dev/null +++ b/src/debug/gosym/testdata/pclinetest.s @@ -0,0 +1,48 @@ +TEXT ·linefrompc(SB),4,$0 // Each byte stores its line delta +BYTE $2; +BYTE $1; +BYTE $1; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; 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BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; 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BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; +BYTE $1; +BYTE $1; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +BYTE $1; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; BYTE $0; +#include "pclinetest.h" +BYTE $2; +#include "pclinetest.h" +BYTE $2; +BYTE $255; + +TEXT ·pcfromline(SB),4,$0 // Each record stores its line delta, then n, then n more bytes +BYTE $32; BYTE $0; +BYTE $1; BYTE $1; BYTE $0; +BYTE $1; BYTE $0; + +BYTE $2; BYTE $4; BYTE $0; BYTE $0; BYTE $0; BYTE $0; + + +#include "pclinetest.h" +BYTE $4; BYTE $0; + + +BYTE $3; BYTE $3; BYTE $0; BYTE $0; BYTE $0; +#include "pclinetest.h" + + +BYTE $4; BYTE $3; BYTE $0; BYTE $0; BYTE $0; +BYTE $255; diff --git a/src/debug/gosym/testdata/pcln115.gz b/src/debug/gosym/testdata/pcln115.gz Binary files differnew file mode 100644 index 0000000..db5c3d4 --- /dev/null +++ b/src/debug/gosym/testdata/pcln115.gz |