// Copyright 2018 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 debug import ( "fmt" "runtime" "strconv" "strings" ) // exported from runtime. func modinfo() string // ReadBuildInfo returns the build information embedded // in the running binary. The information is available only // in binaries built with module support. func ReadBuildInfo() (info *BuildInfo, ok bool) { data := modinfo() if len(data) < 32 { return nil, false } data = data[16 : len(data)-16] bi, err := ParseBuildInfo(data) if err != nil { return nil, false } // The go version is stored separately from other build info, mostly for // historical reasons. It is not part of the modinfo() string, and // ParseBuildInfo does not recognize it. We inject it here to hide this // awkwardness from the user. bi.GoVersion = runtime.Version() return bi, true } // BuildInfo represents the build information read from a Go binary. type BuildInfo struct { // GoVersion is the version of the Go toolchain that built the binary // (for example, "go1.19.2"). GoVersion string // Path is the package path of the main package for the binary // (for example, "golang.org/x/tools/cmd/stringer"). Path string // Main describes the module that contains the main package for the binary. Main Module // Deps describes all the dependency modules, both direct and indirect, // that contributed packages to the build of this binary. Deps []*Module // Settings describes the build settings used to build the binary. Settings []BuildSetting } // A Module describes a single module included in a build. type Module struct { Path string // module path Version string // module version Sum string // checksum Replace *Module // replaced by this module } // A BuildSetting is a key-value pair describing one setting that influenced a build. // // Defined keys include: // // - -buildmode: the buildmode flag used (typically "exe") // - -compiler: the compiler toolchain flag used (typically "gc") // - CGO_ENABLED: the effective CGO_ENABLED environment variable // - CGO_CFLAGS: the effective CGO_CFLAGS environment variable // - CGO_CPPFLAGS: the effective CGO_CPPFLAGS environment variable // - CGO_CXXFLAGS: the effective CGO_CXXFLAGS environment variable // - CGO_LDFLAGS: the effective CGO_LDFLAGS environment variable // - GOARCH: the architecture target // - GOAMD64/GOARM/GO386/etc: the architecture feature level for GOARCH // - GOOS: the operating system target // - vcs: the version control system for the source tree where the build ran // - vcs.revision: the revision identifier for the current commit or checkout // - vcs.time: the modification time associated with vcs.revision, in RFC3339 format // - vcs.modified: true or false indicating whether the source tree had local modifications type BuildSetting struct { // Key and Value describe the build setting. // Key must not contain an equals sign, space, tab, or newline. // Value must not contain newlines ('\n'). Key, Value string } // quoteKey reports whether key is required to be quoted. func quoteKey(key string) bool { return len(key) == 0 || strings.ContainsAny(key, "= \t\r\n\"`") } // quoteValue reports whether value is required to be quoted. func quoteValue(value string) bool { return strings.ContainsAny(value, " \t\r\n\"`") } // String returns a string representation of a [BuildInfo]. func (bi *BuildInfo) String() string { buf := new(strings.Builder) if bi.GoVersion != "" { fmt.Fprintf(buf, "go\t%s\n", bi.GoVersion) } if bi.Path != "" { fmt.Fprintf(buf, "path\t%s\n", bi.Path) } var formatMod func(string, Module) formatMod = func(word string, m Module) { buf.WriteString(word) buf.WriteByte('\t') buf.WriteString(m.Path) buf.WriteByte('\t') buf.WriteString(m.Version) if m.Replace == nil { buf.WriteByte('\t') buf.WriteString(m.Sum) } else { buf.WriteByte('\n') formatMod("=>", *m.Replace) } buf.WriteByte('\n') } if bi.Main != (Module{}) { formatMod("mod", bi.Main) } for _, dep := range bi.Deps { formatMod("dep", *dep) } for _, s := range bi.Settings { key := s.Key if quoteKey(key) { key = strconv.Quote(key) } value := s.Value if quoteValue(value) { value = strconv.Quote(value) } fmt.Fprintf(buf, "build\t%s=%s\n", key, value) } return buf.String() } // ParseBuildInfo parses the string returned by [*BuildInfo.String], // restoring the original BuildInfo, // except that the GoVersion field is not set. // Programs should normally not call this function, // but instead call [ReadBuildInfo], [debug/buildinfo.ReadFile], // or [debug/buildinfo.Read]. func ParseBuildInfo(data string) (bi *BuildInfo, err error) { lineNum := 1 defer func() { if err != nil { err = fmt.Errorf("could not parse Go build info: line %d: %w", lineNum, err) } }() const ( pathLine = "path\t" modLine = "mod\t" depLine = "dep\t" repLine = "=>\t" buildLine = "build\t" newline = "\n" tab = "\t" ) readModuleLine := func(elem []string) (Module, error) { if len(elem) != 2 && len(elem) != 3 { return Module{}, fmt.Errorf("expected 2 or 3 columns; got %d", len(elem)) } version := elem[1] sum := "" if len(elem) == 3 { sum = elem[2] } return Module{ Path: elem[0], Version: version, Sum: sum, }, nil } bi = new(BuildInfo) var ( last *Module line string ok bool ) // Reverse of BuildInfo.String(), except for go version. for len(data) > 0 { line, data, ok = strings.Cut(data, newline) if !ok { break } switch { case strings.HasPrefix(line, pathLine): elem := line[len(pathLine):] bi.Path = elem case strings.HasPrefix(line, modLine): elem := strings.Split(line[len(modLine):], tab) last = &bi.Main *last, err = readModuleLine(elem) if err != nil { return nil, err } case strings.HasPrefix(line, depLine): elem := strings.Split(line[len(depLine):], tab) last = new(Module) bi.Deps = append(bi.Deps, last) *last, err = readModuleLine(elem) if err != nil { return nil, err } case strings.HasPrefix(line, repLine): elem := strings.Split(line[len(repLine):], tab) if len(elem) != 3 { return nil, fmt.Errorf("expected 3 columns for replacement; got %d", len(elem)) } if last == nil { return nil, fmt.Errorf("replacement with no module on previous line") } last.Replace = &Module{ Path: elem[0], Version: elem[1], Sum: elem[2], } last = nil case strings.HasPrefix(line, buildLine): kv := line[len(buildLine):] if len(kv) < 1 { return nil, fmt.Errorf("build line missing '='") } var key, rawValue string switch kv[0] { case '=': return nil, fmt.Errorf("build line with missing key") case '`', '"': rawKey, err := strconv.QuotedPrefix(kv) if err != nil { return nil, fmt.Errorf("invalid quoted key in build line") } if len(kv) == len(rawKey) { return nil, fmt.Errorf("build line missing '=' after quoted key") } if c := kv[len(rawKey)]; c != '=' { return nil, fmt.Errorf("unexpected character after quoted key: %q", c) } key, _ = strconv.Unquote(rawKey) rawValue = kv[len(rawKey)+1:] default: var ok bool key, rawValue, ok = strings.Cut(kv, "=") if !ok { return nil, fmt.Errorf("build line missing '=' after key") } if quoteKey(key) { return nil, fmt.Errorf("unquoted key %q must be quoted", key) } } var value string if len(rawValue) > 0 { switch rawValue[0] { case '`', '"': var err error value, err = strconv.Unquote(rawValue) if err != nil { return nil, fmt.Errorf("invalid quoted value in build line") } default: value = rawValue if quoteValue(value) { return nil, fmt.Errorf("unquoted value %q must be quoted", value) } } } bi.Settings = append(bi.Settings, BuildSetting{Key: key, Value: value}) } lineNum++ } return bi, nil }