// 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 ( "bytes" "context" "crypto/sha256" "encoding/base64" "errors" "fmt" "io" "io/fs" "net/url" "os" "os/exec" "path/filepath" "runtime" "slices" "sort" "strconv" "strings" "sync" "time" "cmd/go/internal/base" "cmd/go/internal/lockedfile" "cmd/go/internal/par" "cmd/go/internal/web" "golang.org/x/mod/semver" ) // LocalGitRepo is like Repo but accepts both Git remote references // and paths to repositories on the local file system. func LocalGitRepo(ctx context.Context, remote string) (Repo, error) { return newGitRepoCached(ctx, remote, true) } // A notExistError wraps another error to retain its original text // but makes it opaquely equivalent to fs.ErrNotExist. type notExistError struct { err error } func (e notExistError) Error() string { return e.err.Error() } func (notExistError) Is(err error) bool { return err == fs.ErrNotExist } const gitWorkDirType = "git3" var gitRepoCache par.ErrCache[gitCacheKey, Repo] type gitCacheKey struct { remote string localOK bool } func newGitRepoCached(ctx context.Context, remote string, localOK bool) (Repo, error) { return gitRepoCache.Do(gitCacheKey{remote, localOK}, func() (Repo, error) { return newGitRepo(ctx, remote, localOK) }) } func newGitRepo(ctx context.Context, remote string, localOK bool) (Repo, error) { r := &gitRepo{remote: remote} if strings.Contains(remote, "://") { // This is a remote path. var err error r.dir, r.mu.Path, err = WorkDir(ctx, gitWorkDirType, r.remote) if err != nil { return nil, err } unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() if _, err := os.Stat(filepath.Join(r.dir, "objects")); err != nil { if _, err := Run(ctx, r.dir, "git", "init", "--bare"); err != nil { os.RemoveAll(r.dir) return nil, err } // We could just say git fetch https://whatever later, // but this lets us say git fetch origin instead, which // is a little nicer. More importantly, using a named remote // avoids a problem with Git LFS. See golang.org/issue/25605. if _, err := Run(ctx, r.dir, "git", "remote", "add", "origin", "--", r.remote); err != nil { os.RemoveAll(r.dir) return nil, err } if runtime.GOOS == "windows" { // Git for Windows by default does not support paths longer than // MAX_PATH (260 characters) because that may interfere with navigation // in some Windows programs. However, cmd/go should be able to handle // long paths just fine, and we expect people to use 'go clean' to // manipulate the module cache, so it should be harmless to set here, // and in some cases may be necessary in order to download modules with // long branch names. // // See https://github.com/git-for-windows/git/wiki/Git-cannot-create-a-file-or-directory-with-a-long-path. if _, err := Run(ctx, r.dir, "git", "config", "core.longpaths", "true"); err != nil { os.RemoveAll(r.dir) return nil, err } } } r.remoteURL = r.remote r.remote = "origin" } else { // Local path. // Disallow colon (not in ://) because sometimes // that's rcp-style host:path syntax and sometimes it's not (c:\work). // The go command has always insisted on URL syntax for ssh. if strings.Contains(remote, ":") { return nil, fmt.Errorf("git remote cannot use host:path syntax") } if !localOK { return nil, fmt.Errorf("git remote must not be local directory") } r.local = true info, err := os.Stat(remote) if err != nil { return nil, err } if !info.IsDir() { return nil, fmt.Errorf("%s exists but is not a directory", remote) } r.dir = remote r.mu.Path = r.dir + ".lock" } return r, nil } type gitRepo struct { ctx context.Context remote, remoteURL string local bool dir string mu lockedfile.Mutex // protects fetchLevel and git repo state fetchLevel int statCache par.ErrCache[string, *RevInfo] refsOnce sync.Once // refs maps branch and tag refs (e.g., "HEAD", "refs/heads/master") // to commits (e.g., "37ffd2e798afde829a34e8955b716ab730b2a6d6") refs map[string]string refsErr error localTagsOnce sync.Once localTags sync.Map // map[string]bool } const ( // How much have we fetched into the git repo (in this process)? fetchNone = iota // nothing yet fetchSome // shallow fetches of individual hashes fetchAll // "fetch -t origin": get all remote branches and tags ) // loadLocalTags loads tag references from the local git cache // into the map r.localTags. func (r *gitRepo) loadLocalTags(ctx context.Context) { // The git protocol sends all known refs and ls-remote filters them on the client side, // so we might as well record both heads and tags in one shot. // Most of the time we only care about tags but sometimes we care about heads too. out, err := Run(ctx, r.dir, "git", "tag", "-l") if err != nil { return } for _, line := range strings.Split(string(out), "\n") { if line != "" { r.localTags.Store(line, true) } } } func (r *gitRepo) CheckReuse(ctx context.Context, old *Origin, subdir string) error { if old == nil { return fmt.Errorf("missing origin") } if old.VCS != "git" || old.URL != r.remoteURL { return fmt.Errorf("origin moved from %v %q to %v %q", old.VCS, old.URL, "git", r.remoteURL) } if old.Subdir != subdir { return fmt.Errorf("origin moved from %v %q %q to %v %q %q", old.VCS, old.URL, old.Subdir, "git", r.remoteURL, subdir) } // Note: Can have Hash with no Ref and no TagSum and no RepoSum, // meaning the Hash simply has to remain in the repo. // In that case we assume it does in the absence of any real way to check. // But if neither Hash nor TagSum is present, we have nothing to check, // which we take to mean we didn't record enough information to be sure. if old.Hash == "" && old.TagSum == "" && old.RepoSum == "" { return fmt.Errorf("non-specific origin") } r.loadRefs(ctx) if r.refsErr != nil { return r.refsErr } if old.Ref != "" { hash, ok := r.refs[old.Ref] if !ok { return fmt.Errorf("ref %q deleted", old.Ref) } if hash != old.Hash { return fmt.Errorf("ref %q moved from %s to %s", old.Ref, old.Hash, hash) } } if old.TagSum != "" { tags, err := r.Tags(ctx, old.TagPrefix) if err != nil { return err } if tags.Origin.TagSum != old.TagSum { return fmt.Errorf("tags changed") } } if old.RepoSum != "" { if r.repoSum(r.refs) != old.RepoSum { return fmt.Errorf("refs changed") } } return nil } // loadRefs loads heads and tags references from the remote into the map r.refs. // The result is cached in memory. func (r *gitRepo) loadRefs(ctx context.Context) (map[string]string, error) { r.refsOnce.Do(func() { // The git protocol sends all known refs and ls-remote filters them on the client side, // so we might as well record both heads and tags in one shot. // Most of the time we only care about tags but sometimes we care about heads too. release, err := base.AcquireNet() if err != nil { r.refsErr = err return } out, gitErr := Run(ctx, r.dir, "git", "ls-remote", "-q", r.remote) release() if gitErr != nil { if rerr, ok := gitErr.(*RunError); ok { if bytes.Contains(rerr.Stderr, []byte("fatal: could not read Username")) { rerr.HelpText = "Confirm the import path was entered correctly.\nIf this is a private repository, see https://golang.org/doc/faq#git_https for additional information." } } // If the remote URL doesn't exist at all, ideally we should treat the whole // repository as nonexistent by wrapping the error in a notExistError. // For HTTP and HTTPS, that's easy to detect: we'll try to fetch the URL // ourselves and see what code it serves. if u, err := url.Parse(r.remoteURL); err == nil && (u.Scheme == "http" || u.Scheme == "https") { if _, err := web.GetBytes(u); errors.Is(err, fs.ErrNotExist) { gitErr = notExistError{gitErr} } } r.refsErr = gitErr return } refs := make(map[string]string) for _, line := range strings.Split(string(out), "\n") { f := strings.Fields(line) if len(f) != 2 { continue } if f[1] == "HEAD" || strings.HasPrefix(f[1], "refs/heads/") || strings.HasPrefix(f[1], "refs/tags/") { refs[f[1]] = f[0] } } for ref, hash := range refs { if k, found := strings.CutSuffix(ref, "^{}"); found { // record unwrapped annotated tag as value of tag refs[k] = hash delete(refs, ref) } } r.refs = refs }) return r.refs, r.refsErr } func (r *gitRepo) Tags(ctx context.Context, prefix string) (*Tags, error) { refs, err := r.loadRefs(ctx) if err != nil { return nil, err } tags := &Tags{ Origin: &Origin{ VCS: "git", URL: r.remoteURL, TagPrefix: prefix, }, List: []Tag{}, } for ref, hash := range refs { if !strings.HasPrefix(ref, "refs/tags/") { continue } tag := ref[len("refs/tags/"):] if !strings.HasPrefix(tag, prefix) { continue } tags.List = append(tags.List, Tag{tag, hash}) } sort.Slice(tags.List, func(i, j int) bool { return tags.List[i].Name < tags.List[j].Name }) dir := prefix[:strings.LastIndex(prefix, "/")+1] h := sha256.New() for _, tag := range tags.List { if isOriginTag(strings.TrimPrefix(tag.Name, dir)) { fmt.Fprintf(h, "%q %s\n", tag.Name, tag.Hash) } } tags.Origin.TagSum = "t1:" + base64.StdEncoding.EncodeToString(h.Sum(nil)) return tags, nil } // repoSum returns a checksum of the entire repo state, // which can be checked (as Origin.RepoSum) to cache // the absence of a specific module version. // The caller must supply refs, the result of a successful r.loadRefs. func (r *gitRepo) repoSum(refs map[string]string) string { var list []string for ref := range refs { list = append(list, ref) } sort.Strings(list) h := sha256.New() for _, ref := range list { fmt.Fprintf(h, "%q %s\n", ref, refs[ref]) } return "r1:" + base64.StdEncoding.EncodeToString(h.Sum(nil)) } // unknownRevisionInfo returns a RevInfo containing an Origin containing a RepoSum of refs, // for use when returning an UnknownRevisionError. func (r *gitRepo) unknownRevisionInfo(refs map[string]string) *RevInfo { return &RevInfo{ Origin: &Origin{ VCS: "git", URL: r.remoteURL, RepoSum: r.repoSum(refs), }, } } func (r *gitRepo) Latest(ctx context.Context) (*RevInfo, error) { refs, err := r.loadRefs(ctx) if err != nil { return nil, err } if refs["HEAD"] == "" { return nil, ErrNoCommits } statInfo, err := r.Stat(ctx, refs["HEAD"]) if err != nil { return nil, err } // Stat may return cached info, so make a copy to modify here. info := new(RevInfo) *info = *statInfo info.Origin = new(Origin) if statInfo.Origin != nil { *info.Origin = *statInfo.Origin } info.Origin.Ref = "HEAD" info.Origin.Hash = refs["HEAD"] return info, nil } // findRef finds some ref name for the given hash, // for use when the server requires giving a ref instead of a hash. // There may be multiple ref names for a given hash, // in which case this returns some name - it doesn't matter which. func (r *gitRepo) findRef(ctx context.Context, hash string) (ref string, ok bool) { refs, err := r.loadRefs(ctx) if err != nil { return "", false } for ref, h := range refs { if h == hash { return ref, true } } return "", false } // minHashDigits is the minimum number of digits to require // before accepting a hex digit sequence as potentially identifying // a specific commit in a git repo. (Of course, users can always // specify more digits, and many will paste in all 40 digits, // but many of git's commands default to printing short hashes // as 7 digits.) const minHashDigits = 7 // stat stats the given rev in the local repository, // or else it fetches more info from the remote repository and tries again. func (r *gitRepo) stat(ctx context.Context, rev string) (info *RevInfo, err error) { if r.local { return r.statLocal(ctx, rev, rev) } // Fast path: maybe rev is a hash we already have locally. didStatLocal := false if len(rev) >= minHashDigits && len(rev) <= 40 && AllHex(rev) { if info, err := r.statLocal(ctx, rev, rev); err == nil { return info, nil } didStatLocal = true } // Maybe rev is a tag we already have locally. // (Note that we're excluding branches, which can be stale.) r.localTagsOnce.Do(func() { r.loadLocalTags(ctx) }) if _, ok := r.localTags.Load(rev); ok { return r.statLocal(ctx, rev, "refs/tags/"+rev) } // Maybe rev is the name of a tag or branch on the remote server. // Or maybe it's the prefix of a hash of a named ref. // Try to resolve to both a ref (git name) and full (40-hex-digit) commit hash. refs, err := r.loadRefs(ctx) if err != nil { return nil, err } // loadRefs may return an error if git fails, for example segfaults, or // could not load a private repo, but defer checking to the else block // below, in case we already have the rev in question in the local cache. var ref, hash string if refs["refs/tags/"+rev] != "" { ref = "refs/tags/" + rev hash = refs[ref] // Keep rev as is: tags are assumed not to change meaning. } else if refs["refs/heads/"+rev] != "" { ref = "refs/heads/" + rev hash = refs[ref] rev = hash // Replace rev, because meaning of refs/heads/foo can change. } else if rev == "HEAD" && refs["HEAD"] != "" { ref = "HEAD" hash = refs[ref] rev = hash // Replace rev, because meaning of HEAD can change. } else if len(rev) >= minHashDigits && len(rev) <= 40 && AllHex(rev) { // At the least, we have a hash prefix we can look up after the fetch below. // Maybe we can map it to a full hash using the known refs. prefix := rev // Check whether rev is prefix of known ref hash. for k, h := range refs { if strings.HasPrefix(h, prefix) { if hash != "" && hash != h { // Hash is an ambiguous hash prefix. // More information will not change that. return nil, fmt.Errorf("ambiguous revision %s", rev) } if ref == "" || ref > k { // Break ties deterministically when multiple refs point at same hash. ref = k } rev = h hash = h } } if hash == "" && len(rev) == 40 { // Didn't find a ref, but rev is a full hash. hash = rev } } else { return r.unknownRevisionInfo(refs), &UnknownRevisionError{Rev: rev} } defer func() { if info != nil { info.Origin.Hash = info.Name // There's a ref = hash below; don't write that hash down as Origin.Ref. if ref != info.Origin.Hash { info.Origin.Ref = ref } } }() // Protect r.fetchLevel and the "fetch more and more" sequence. unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() // Perhaps r.localTags did not have the ref when we loaded local tags, // but we've since done fetches that pulled down the hash we need // (or already have the hash we need, just without its tag). // Either way, try a local stat before falling back to network I/O. if !didStatLocal { if info, err := r.statLocal(ctx, rev, hash); err == nil { tag, fromTag := strings.CutPrefix(ref, "refs/tags/") if fromTag && !slices.Contains(info.Tags, tag) { // The local repo includes the commit hash we want, but it is missing // the corresponding tag. Add that tag and try again. _, err := Run(ctx, r.dir, "git", "tag", tag, hash) if err != nil { return nil, err } r.localTags.Store(tag, true) return r.statLocal(ctx, rev, ref) } return info, err } } // If we know a specific commit we need and its ref, fetch it. // We do NOT fetch arbitrary hashes (when we don't know the ref) // because we want to avoid ever importing a commit that isn't // reachable from refs/tags/* or refs/heads/* or HEAD. // Both Gerrit and GitHub expose every CL/PR as a named ref, // and we don't want those commits masquerading as being real // pseudo-versions in the main repo. if r.fetchLevel <= fetchSome && ref != "" && hash != "" && !r.local { r.fetchLevel = fetchSome var refspec string if ref == "HEAD" { // Fetch the hash but give it a local name (refs/dummy), // because that triggers the fetch behavior of creating any // other known remote tags for the hash. We never use // refs/dummy (it's not refs/tags/dummy) and it will be // overwritten in the next command, and that's fine. ref = hash refspec = hash + ":refs/dummy" } else { // If we do know the ref name, save the mapping locally // so that (if it is a tag) it can show up in localTags // on a future call. Also, some servers refuse to allow // full hashes in ref specs, so prefer a ref name if known. refspec = ref + ":" + ref } release, err := base.AcquireNet() if err != nil { return nil, err } // We explicitly set protocol.version=2 for this command to work around // an apparent Git bug introduced in Git 2.21 (commit 61c771), // which causes the handler for protocol version 1 to sometimes miss // tags that point to the requested commit (see https://go.dev/issue/56881). _, err = Run(ctx, r.dir, "git", "-c", "protocol.version=2", "fetch", "-f", "--depth=1", r.remote, refspec) release() if err == nil { return r.statLocal(ctx, rev, ref) } // Don't try to be smart about parsing the error. // It's too complex and varies too much by git version. // No matter what went wrong, fall back to a complete fetch. } // Last resort. // Fetch all heads and tags and hope the hash we want is in the history. if err := r.fetchRefsLocked(ctx); err != nil { return nil, err } return r.statLocal(ctx, rev, rev) } // fetchRefsLocked fetches all heads and tags from the origin, along with the // ancestors of those commits. // // We only fetch heads and tags, not arbitrary other commits: we don't want to // pull in off-branch commits (such as rejected GitHub pull requests) that the // server may be willing to provide. (See the comments within the stat method // for more detail.) // // fetchRefsLocked requires that r.mu remain locked for the duration of the call. func (r *gitRepo) fetchRefsLocked(ctx context.Context) error { if r.fetchLevel < fetchAll { // NOTE: To work around a bug affecting Git clients up to at least 2.23.0 // (2019-08-16), we must first expand the set of local refs, and only then // unshallow the repository as a separate fetch operation. (See // golang.org/issue/34266 and // https://github.com/git/git/blob/4c86140027f4a0d2caaa3ab4bd8bfc5ce3c11c8a/transport.c#L1303-L1309.) release, err := base.AcquireNet() if err != nil { return err } defer release() if _, err := Run(ctx, r.dir, "git", "fetch", "-f", r.remote, "refs/heads/*:refs/heads/*", "refs/tags/*:refs/tags/*"); err != nil { return err } if _, err := os.Stat(filepath.Join(r.dir, "shallow")); err == nil { if _, err := Run(ctx, r.dir, "git", "fetch", "--unshallow", "-f", r.remote); err != nil { return err } } r.fetchLevel = fetchAll } return nil } // statLocal returns a new RevInfo describing rev in the local git repository. // It uses version as info.Version. func (r *gitRepo) statLocal(ctx context.Context, version, rev string) (*RevInfo, error) { out, err := Run(ctx, r.dir, "git", "-c", "log.showsignature=false", "log", "--no-decorate", "-n1", "--format=format:%H %ct %D", rev, "--") if err != nil { // Return info with Origin.RepoSum if possible to allow caching of negative lookup. var info *RevInfo if refs, err := r.loadRefs(ctx); err == nil { info = r.unknownRevisionInfo(refs) } return info, &UnknownRevisionError{Rev: rev} } f := strings.Fields(string(out)) if len(f) < 2 { return nil, fmt.Errorf("unexpected response from git log: %q", out) } hash := f[0] if strings.HasPrefix(hash, version) { version = hash // extend to full hash } t, err := strconv.ParseInt(f[1], 10, 64) if err != nil { return nil, fmt.Errorf("invalid time from git log: %q", out) } info := &RevInfo{ Origin: &Origin{ VCS: "git", URL: r.remoteURL, Hash: hash, }, Name: hash, Short: ShortenSHA1(hash), Time: time.Unix(t, 0).UTC(), Version: hash, } if !strings.HasPrefix(hash, rev) { info.Origin.Ref = rev } // Add tags. Output looks like: // ede458df7cd0fdca520df19a33158086a8a68e81 1523994202 HEAD -> master, tag: v1.2.4-annotated, tag: v1.2.3, origin/master, origin/HEAD for i := 2; i < len(f); i++ { if f[i] == "tag:" { i++ if i < len(f) { info.Tags = append(info.Tags, strings.TrimSuffix(f[i], ",")) } } } sort.Strings(info.Tags) // Used hash as info.Version above. // Use caller's suggested version if it appears in the tag list // (filters out branch names, HEAD). for _, tag := range info.Tags { if version == tag { info.Version = version } } return info, nil } func (r *gitRepo) Stat(ctx context.Context, rev string) (*RevInfo, error) { if rev == "latest" { return r.Latest(ctx) } return r.statCache.Do(rev, func() (*RevInfo, error) { return r.stat(ctx, rev) }) } func (r *gitRepo) ReadFile(ctx context.Context, rev, file string, maxSize int64) ([]byte, error) { // TODO: Could use git cat-file --batch. info, err := r.Stat(ctx, rev) // download rev into local git repo if err != nil { return nil, err } out, err := Run(ctx, r.dir, "git", "cat-file", "blob", info.Name+":"+file) if err != nil { return nil, fs.ErrNotExist } return out, nil } func (r *gitRepo) RecentTag(ctx context.Context, rev, prefix string, allowed func(tag string) bool) (tag string, err error) { info, err := r.Stat(ctx, rev) if err != nil { return "", err } rev = info.Name // expand hash prefixes // describe sets tag and err using 'git for-each-ref' and reports whether the // result is definitive. describe := func() (definitive bool) { var out []byte out, err = Run(ctx, r.dir, "git", "for-each-ref", "--format", "%(refname)", "refs/tags", "--merged", rev) if err != nil { return true } // prefixed tags aren't valid semver tags so compare without prefix, but only tags with correct prefix var highest string for _, line := range strings.Split(string(out), "\n") { line = strings.TrimSpace(line) // git do support lstrip in for-each-ref format, but it was added in v2.13.0. Stripping here // instead gives support for git v2.7.0. if !strings.HasPrefix(line, "refs/tags/") { continue } line = line[len("refs/tags/"):] if !strings.HasPrefix(line, prefix) { continue } if !allowed(line) { continue } semtag := line[len(prefix):] if semver.Compare(semtag, highest) > 0 { highest = semtag } } if highest != "" { tag = prefix + highest } return tag != "" && !AllHex(tag) } if describe() { return tag, err } // Git didn't find a version tag preceding the requested rev. // See whether any plausible tag exists. tags, err := r.Tags(ctx, prefix+"v") if err != nil { return "", err } if len(tags.List) == 0 { return "", nil } // There are plausible tags, but we don't know if rev is a descendent of any of them. // Fetch the history to find out. unlock, err := r.mu.Lock() if err != nil { return "", err } defer unlock() if err := r.fetchRefsLocked(ctx); err != nil { return "", err } // If we've reached this point, we have all of the commits that are reachable // from all heads and tags. // // The only refs we should be missing are those that are no longer reachable // (or never were reachable) from any branch or tag, including the master // branch, and we don't want to resolve them anyway (they're probably // unreachable for a reason). // // Try one last time in case some other goroutine fetched rev while we were // waiting on the lock. describe() return tag, err } func (r *gitRepo) DescendsFrom(ctx context.Context, rev, tag string) (bool, error) { // The "--is-ancestor" flag was added to "git merge-base" in version 1.8.0, so // this won't work with Git 1.7.1. According to golang.org/issue/28550, cmd/go // already doesn't work with Git 1.7.1, so at least it's not a regression. // // git merge-base --is-ancestor exits with status 0 if rev is an ancestor, or // 1 if not. _, err := Run(ctx, r.dir, "git", "merge-base", "--is-ancestor", "--", tag, rev) // Git reports "is an ancestor" with exit code 0 and "not an ancestor" with // exit code 1. // Unfortunately, if we've already fetched rev with a shallow history, git // merge-base has been observed to report a false-negative, so don't stop yet // even if the exit code is 1! if err == nil { return true, nil } // See whether the tag and rev even exist. tags, err := r.Tags(ctx, tag) if err != nil { return false, err } if len(tags.List) == 0 { return false, nil } // NOTE: r.stat is very careful not to fetch commits that we shouldn't know // about, like rejected GitHub pull requests, so don't try to short-circuit // that here. if _, err = r.stat(ctx, rev); err != nil { return false, err } // Now fetch history so that git can search for a path. unlock, err := r.mu.Lock() if err != nil { return false, err } defer unlock() if r.fetchLevel < fetchAll { // Fetch the complete history for all refs and heads. It would be more // efficient to only fetch the history from rev to tag, but that's much more // complicated, and any kind of shallow fetch is fairly likely to trigger // bugs in JGit servers and/or the go command anyway. if err := r.fetchRefsLocked(ctx); err != nil { return false, err } } _, err = Run(ctx, r.dir, "git", "merge-base", "--is-ancestor", "--", tag, rev) if err == nil { return true, nil } if ee, ok := err.(*RunError).Err.(*exec.ExitError); ok && ee.ExitCode() == 1 { return false, nil } return false, err } func (r *gitRepo) ReadZip(ctx context.Context, rev, subdir string, maxSize int64) (zip io.ReadCloser, err error) { // TODO: Use maxSize or drop it. args := []string{} if subdir != "" { args = append(args, "--", subdir) } info, err := r.Stat(ctx, rev) // download rev into local git repo if err != nil { return nil, err } unlock, err := r.mu.Lock() if err != nil { return nil, err } defer unlock() if err := ensureGitAttributes(r.dir); err != nil { return nil, err } // Incredibly, git produces different archives depending on whether // it is running on a Windows system or not, in an attempt to normalize // text file line endings. Setting -c core.autocrlf=input means only // translate files on the way into the repo, not on the way out (archive). // The -c core.eol=lf should be unnecessary but set it anyway. archive, err := Run(ctx, r.dir, "git", "-c", "core.autocrlf=input", "-c", "core.eol=lf", "archive", "--format=zip", "--prefix=prefix/", info.Name, args) if err != nil { if bytes.Contains(err.(*RunError).Stderr, []byte("did not match any files")) { return nil, fs.ErrNotExist } return nil, err } return io.NopCloser(bytes.NewReader(archive)), nil } // ensureGitAttributes makes sure export-subst and export-ignore features are // disabled for this repo. This is intended to be run prior to running git // archive so that zip files are generated that produce consistent ziphashes // for a given revision, independent of variables such as git version and the // size of the repo. // // See: https://github.com/golang/go/issues/27153 func ensureGitAttributes(repoDir string) (err error) { const attr = "\n* -export-subst -export-ignore\n" d := repoDir + "/info" p := d + "/attributes" if err := os.MkdirAll(d, 0755); err != nil { return err } f, err := os.OpenFile(p, os.O_CREATE|os.O_APPEND|os.O_RDWR, 0666) if err != nil { return err } defer func() { closeErr := f.Close() if closeErr != nil { err = closeErr } }() b, err := io.ReadAll(f) if err != nil { return err } if !bytes.HasSuffix(b, []byte(attr)) { _, err := f.WriteString(attr) return err } return nil }