// 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 codehost import ( "context" "errors" "fmt" "internal/lazyregexp" "io" "io/fs" "os" "path/filepath" "sort" "strconv" "strings" "sync" "time" "cmd/go/internal/base" "cmd/go/internal/lockedfile" "cmd/go/internal/par" "cmd/go/internal/str" ) // A VCSError indicates an error using a version control system. // The implication of a VCSError is that we know definitively where // to get the code, but we can't access it due to the error. // The caller should report this error instead of continuing to probe // other possible module paths. // // TODO(golang.org/issue/31730): See if we can invert this. (Return a // distinguished error for “repo not found” and treat everything else // as terminal.) type VCSError struct { Err error } func (e *VCSError) Error() string { return e.Err.Error() } func (e *VCSError) Unwrap() error { return e.Err } func vcsErrorf(format string, a ...any) error { return &VCSError{Err: fmt.Errorf(format, a...)} } type vcsCacheKey struct { vcs string remote string } func NewRepo(ctx context.Context, vcs, remote string) (Repo, error) { return vcsRepoCache.Do(vcsCacheKey{vcs, remote}, func() (Repo, error) { repo, err := newVCSRepo(ctx, vcs, remote) if err != nil { return nil, &VCSError{err} } return repo, nil }) } var vcsRepoCache par.ErrCache[vcsCacheKey, Repo] type vcsRepo struct { mu lockedfile.Mutex // protects all commands, so we don't have to decide which are safe on a per-VCS basis remote string cmd *vcsCmd dir string tagsOnce sync.Once tags map[string]bool branchesOnce sync.Once branches map[string]bool fetchOnce sync.Once fetchErr error } func newVCSRepo(ctx context.Context, vcs, remote string) (Repo, error) { if vcs == "git" { return newGitRepo(ctx, remote, false) } cmd := vcsCmds[vcs] if cmd == nil { return nil, fmt.Errorf("unknown vcs: %s %s", vcs, remote) } if !strings.Contains(remote, "://") { return nil, fmt.Errorf("invalid vcs remote: %s %s", vcs, remote) } r := &vcsRepo{remote: remote, cmd: cmd} var err error r.dir, r.mu.Path, err = WorkDir(ctx, vcsWorkDirType+vcs, r.remote) if err != nil { return nil, err } if cmd.init == nil { return r, nil } unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() if _, err := os.Stat(filepath.Join(r.dir, "."+vcs)); err != nil { release, err := base.AcquireNet() if err != nil { return nil, err } _, err = Run(ctx, r.dir, cmd.init(r.remote)) release() if err != nil { os.RemoveAll(r.dir) return nil, err } } return r, nil } const vcsWorkDirType = "vcs1." type vcsCmd struct { vcs string // vcs name "hg" init func(remote string) []string // cmd to init repo to track remote tags func(remote string) []string // cmd to list local tags tagRE *lazyregexp.Regexp // regexp to extract tag names from output of tags cmd branches func(remote string) []string // cmd to list local branches branchRE *lazyregexp.Regexp // regexp to extract branch names from output of tags cmd badLocalRevRE *lazyregexp.Regexp // regexp of names that must not be served out of local cache without doing fetch first statLocal func(rev, remote string) []string // cmd to stat local rev parseStat func(rev, out string) (*RevInfo, error) // cmd to parse output of statLocal fetch []string // cmd to fetch everything from remote latest string // name of latest commit on remote (tip, HEAD, etc) readFile func(rev, file, remote string) []string // cmd to read rev's file readZip func(rev, subdir, remote, target string) []string // cmd to read rev's subdir as zip file doReadZip func(ctx context.Context, dst io.Writer, workDir, rev, subdir, remote string) error // arbitrary function to read rev's subdir as zip file } var re = lazyregexp.New var vcsCmds = map[string]*vcsCmd{ "hg": { vcs: "hg", init: func(remote string) []string { return []string{"hg", "clone", "-U", "--", remote, "."} }, tags: func(remote string) []string { return []string{"hg", "tags", "-q"} }, tagRE: re(`(?m)^[^\n]+$`), branches: func(remote string) []string { return []string{"hg", "branches", "-c", "-q"} }, branchRE: re(`(?m)^[^\n]+$`), badLocalRevRE: re(`(?m)^(tip)$`), statLocal: func(rev, remote string) []string { return []string{"hg", "log", "-l1", "-r", rev, "--template", "{node} {date|hgdate} {tags}"} }, parseStat: hgParseStat, fetch: []string{"hg", "pull", "-f"}, latest: "tip", readFile: func(rev, file, remote string) []string { return []string{"hg", "cat", "-r", rev, file} }, readZip: func(rev, subdir, remote, target string) []string { pattern := []string{} if subdir != "" { pattern = []string{"-I", subdir + "/**"} } return str.StringList("hg", "archive", "-t", "zip", "--no-decode", "-r", rev, "--prefix=prefix/", pattern, "--", target) }, }, "svn": { vcs: "svn", init: nil, // no local checkout tags: func(remote string) []string { return []string{"svn", "list", "--", strings.TrimSuffix(remote, "/trunk") + "/tags"} }, tagRE: re(`(?m)^(.*?)/?$`), statLocal: func(rev, remote string) []string { suffix := "@" + rev if rev == "latest" { suffix = "" } return []string{"svn", "log", "-l1", "--xml", "--", remote + suffix} }, parseStat: svnParseStat, latest: "latest", readFile: func(rev, file, remote string) []string { return []string{"svn", "cat", "--", remote + "/" + file + "@" + rev} }, doReadZip: svnReadZip, }, "bzr": { vcs: "bzr", init: func(remote string) []string { return []string{"bzr", "branch", "--use-existing-dir", "--", remote, "."} }, fetch: []string{ "bzr", "pull", "--overwrite-tags", }, tags: func(remote string) []string { return []string{"bzr", "tags"} }, tagRE: re(`(?m)^\S+`), badLocalRevRE: re(`^revno:-`), statLocal: func(rev, remote string) []string { return []string{"bzr", "log", "-l1", "--long", "--show-ids", "-r", rev} }, parseStat: bzrParseStat, latest: "revno:-1", readFile: func(rev, file, remote string) []string { return []string{"bzr", "cat", "-r", rev, file} }, readZip: func(rev, subdir, remote, target string) []string { extra := []string{} if subdir != "" { extra = []string{"./" + subdir} } return str.StringList("bzr", "export", "--format=zip", "-r", rev, "--root=prefix/", "--", target, extra) }, }, "fossil": { vcs: "fossil", init: func(remote string) []string { return []string{"fossil", "clone", "--", remote, ".fossil"} }, fetch: []string{"fossil", "pull", "-R", ".fossil"}, tags: func(remote string) []string { return []string{"fossil", "tag", "-R", ".fossil", "list"} }, tagRE: re(`XXXTODO`), statLocal: func(rev, remote string) []string { return []string{"fossil", "info", "-R", ".fossil", rev} }, parseStat: fossilParseStat, latest: "trunk", readFile: func(rev, file, remote string) []string { return []string{"fossil", "cat", "-R", ".fossil", "-r", rev, file} }, readZip: func(rev, subdir, remote, target string) []string { extra := []string{} if subdir != "" && !strings.ContainsAny(subdir, "*?[],") { extra = []string{"--include", subdir} } // Note that vcsRepo.ReadZip below rewrites this command // to run in a different directory, to work around a fossil bug. return str.StringList("fossil", "zip", "-R", ".fossil", "--name", "prefix", extra, "--", rev, target) }, }, } func (r *vcsRepo) loadTags(ctx context.Context) { out, err := Run(ctx, r.dir, r.cmd.tags(r.remote)) if err != nil { return } // Run tag-listing command and extract tags. r.tags = make(map[string]bool) for _, tag := range r.cmd.tagRE.FindAllString(string(out), -1) { if r.cmd.badLocalRevRE != nil && r.cmd.badLocalRevRE.MatchString(tag) { continue } r.tags[tag] = true } } func (r *vcsRepo) loadBranches(ctx context.Context) { if r.cmd.branches == nil { return } out, err := Run(ctx, r.dir, r.cmd.branches(r.remote)) if err != nil { return } r.branches = make(map[string]bool) for _, branch := range r.cmd.branchRE.FindAllString(string(out), -1) { if r.cmd.badLocalRevRE != nil && r.cmd.badLocalRevRE.MatchString(branch) { continue } r.branches[branch] = true } } func (r *vcsRepo) CheckReuse(ctx context.Context, old *Origin, subdir string) error { return fmt.Errorf("vcs %s: CheckReuse: %w", r.cmd.vcs, errors.ErrUnsupported) } func (r *vcsRepo) Tags(ctx context.Context, prefix string) (*Tags, error) { unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() r.tagsOnce.Do(func() { r.loadTags(ctx) }) tags := &Tags{ // None of the other VCS provide a reasonable way to compute TagSum // without downloading the whole repo, so we only include VCS and URL // in the Origin. Origin: &Origin{ VCS: r.cmd.vcs, URL: r.remote, }, List: []Tag{}, } for tag := range r.tags { if strings.HasPrefix(tag, prefix) { tags.List = append(tags.List, Tag{tag, ""}) } } sort.Slice(tags.List, func(i, j int) bool { return tags.List[i].Name < tags.List[j].Name }) return tags, nil } func (r *vcsRepo) Stat(ctx context.Context, rev string) (*RevInfo, error) { unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() if rev == "latest" { rev = r.cmd.latest } r.branchesOnce.Do(func() { r.loadBranches(ctx) }) revOK := (r.cmd.badLocalRevRE == nil || !r.cmd.badLocalRevRE.MatchString(rev)) && !r.branches[rev] if revOK { if info, err := r.statLocal(ctx, rev); err == nil { return info, nil } } r.fetchOnce.Do(func() { r.fetch(ctx) }) if r.fetchErr != nil { return nil, r.fetchErr } info, err := r.statLocal(ctx, rev) if err != nil { return nil, err } if !revOK { info.Version = info.Name } return info, nil } func (r *vcsRepo) fetch(ctx context.Context) { if len(r.cmd.fetch) > 0 { release, err := base.AcquireNet() if err != nil { r.fetchErr = err return } _, r.fetchErr = Run(ctx, r.dir, r.cmd.fetch) release() } } func (r *vcsRepo) statLocal(ctx context.Context, rev string) (*RevInfo, error) { out, err := Run(ctx, r.dir, r.cmd.statLocal(rev, r.remote)) if err != nil { return nil, &UnknownRevisionError{Rev: rev} } info, err := r.cmd.parseStat(rev, string(out)) if err != nil { return nil, err } if info.Origin == nil { info.Origin = new(Origin) } info.Origin.VCS = r.cmd.vcs info.Origin.URL = r.remote return info, nil } func (r *vcsRepo) Latest(ctx context.Context) (*RevInfo, error) { return r.Stat(ctx, "latest") } func (r *vcsRepo) ReadFile(ctx context.Context, rev, file string, maxSize int64) ([]byte, error) { if rev == "latest" { rev = r.cmd.latest } _, err := r.Stat(ctx, rev) // download rev into local repo if err != nil { return nil, err } // r.Stat acquires r.mu, so lock after that. unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() out, err := Run(ctx, r.dir, r.cmd.readFile(rev, file, r.remote)) if err != nil { return nil, fs.ErrNotExist } return out, nil } func (r *vcsRepo) RecentTag(ctx context.Context, rev, prefix string, allowed func(string) bool) (tag string, err error) { // We don't technically need to lock here since we're returning an error // uncondititonally, but doing so anyway will help to avoid baking in // lock-inversion bugs. unlock, err := r.mu.Lock() if err != nil { return "", err } defer unlock() return "", vcsErrorf("vcs %s: RecentTag: %w", r.cmd.vcs, errors.ErrUnsupported) } func (r *vcsRepo) DescendsFrom(ctx context.Context, rev, tag string) (bool, error) { unlock, err := r.mu.Lock() if err != nil { return false, err } defer unlock() return false, vcsErrorf("vcs %s: DescendsFrom: %w", r.cmd.vcs, errors.ErrUnsupported) } func (r *vcsRepo) ReadZip(ctx context.Context, rev, subdir string, maxSize int64) (zip io.ReadCloser, err error) { if r.cmd.readZip == nil && r.cmd.doReadZip == nil { return nil, vcsErrorf("vcs %s: ReadZip: %w", r.cmd.vcs, errors.ErrUnsupported) } unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() if rev == "latest" { rev = r.cmd.latest } f, err := os.CreateTemp("", "go-readzip-*.zip") if err != nil { return nil, err } if r.cmd.doReadZip != nil { lw := &limitedWriter{ W: f, N: maxSize, ErrLimitReached: errors.New("ReadZip: encoded file exceeds allowed size"), } err = r.cmd.doReadZip(ctx, lw, r.dir, rev, subdir, r.remote) if err == nil { _, err = f.Seek(0, io.SeekStart) } } else if r.cmd.vcs == "fossil" { // If you run // fossil zip -R .fossil --name prefix trunk /tmp/x.zip // fossil fails with "unable to create directory /tmp" [sic]. // Change the command to run in /tmp instead, // replacing the -R argument with an absolute path. args := r.cmd.readZip(rev, subdir, r.remote, filepath.Base(f.Name())) for i := range args { if args[i] == ".fossil" { args[i] = filepath.Join(r.dir, ".fossil") } } _, err = Run(ctx, filepath.Dir(f.Name()), args) } else { _, err = Run(ctx, r.dir, r.cmd.readZip(rev, subdir, r.remote, f.Name())) } if err != nil { f.Close() os.Remove(f.Name()) return nil, err } return &deleteCloser{f}, nil } // deleteCloser is a file that gets deleted on Close. type deleteCloser struct { *os.File } func (d *deleteCloser) Close() error { defer os.Remove(d.File.Name()) return d.File.Close() } func hgParseStat(rev, out string) (*RevInfo, error) { f := strings.Fields(out) if len(f) < 3 { return nil, vcsErrorf("unexpected response from hg log: %q", out) } hash := f[0] version := rev if strings.HasPrefix(hash, version) { version = hash // extend to full hash } t, err := strconv.ParseInt(f[1], 10, 64) if err != nil { return nil, vcsErrorf("invalid time from hg log: %q", out) } var tags []string for _, tag := range f[3:] { if tag != "tip" { tags = append(tags, tag) } } sort.Strings(tags) info := &RevInfo{ Origin: &Origin{ Hash: hash, }, Name: hash, Short: ShortenSHA1(hash), Time: time.Unix(t, 0).UTC(), Version: version, Tags: tags, } return info, nil } func bzrParseStat(rev, out string) (*RevInfo, error) { var revno int64 var tm time.Time for _, line := range strings.Split(out, "\n") { if line == "" || line[0] == ' ' || line[0] == '\t' { // End of header, start of commit message. break } if line[0] == '-' { continue } before, after, found := strings.Cut(line, ":") if !found { // End of header, start of commit message. break } key, val := before, strings.TrimSpace(after) switch key { case "revno": if j := strings.Index(val, " "); j >= 0 { val = val[:j] } i, err := strconv.ParseInt(val, 10, 64) if err != nil { return nil, vcsErrorf("unexpected revno from bzr log: %q", line) } revno = i case "timestamp": j := strings.Index(val, " ") if j < 0 { return nil, vcsErrorf("unexpected timestamp from bzr log: %q", line) } t, err := time.Parse("2006-01-02 15:04:05 -0700", val[j+1:]) if err != nil { return nil, vcsErrorf("unexpected timestamp from bzr log: %q", line) } tm = t.UTC() } } if revno == 0 || tm.IsZero() { return nil, vcsErrorf("unexpected response from bzr log: %q", out) } info := &RevInfo{ Name: strconv.FormatInt(revno, 10), Short: fmt.Sprintf("%012d", revno), Time: tm, Version: rev, } return info, nil } func fossilParseStat(rev, out string) (*RevInfo, error) { for _, line := range strings.Split(out, "\n") { if strings.HasPrefix(line, "uuid:") || strings.HasPrefix(line, "hash:") { f := strings.Fields(line) if len(f) != 5 || len(f[1]) != 40 || f[4] != "UTC" { return nil, vcsErrorf("unexpected response from fossil info: %q", line) } t, err := time.Parse(time.DateTime, f[2]+" "+f[3]) if err != nil { return nil, vcsErrorf("unexpected response from fossil info: %q", line) } hash := f[1] version := rev if strings.HasPrefix(hash, version) { version = hash // extend to full hash } info := &RevInfo{ Origin: &Origin{ Hash: hash, }, Name: hash, Short: ShortenSHA1(hash), Time: t, Version: version, } return info, nil } } return nil, vcsErrorf("unexpected response from fossil info: %q", out) } type limitedWriter struct { W io.Writer N int64 ErrLimitReached error } func (l *limitedWriter) Write(p []byte) (n int, err error) { if l.N > 0 { max := len(p) if l.N < int64(max) { max = int(l.N) } n, err = l.W.Write(p[:max]) l.N -= int64(n) if err != nil || n >= len(p) { return n, err } } return n, l.ErrLimitReached }