// 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 modfetch import ( "bytes" "context" "encoding/json" "errors" "fmt" "io" "io/fs" "math/rand" "os" "path/filepath" "strconv" "strings" "sync" "cmd/go/internal/base" "cmd/go/internal/cfg" "cmd/go/internal/gover" "cmd/go/internal/lockedfile" "cmd/go/internal/modfetch/codehost" "cmd/go/internal/par" "cmd/go/internal/robustio" "golang.org/x/mod/module" "golang.org/x/mod/semver" ) func cacheDir(ctx context.Context, path string) (string, error) { if err := checkCacheDir(ctx); err != nil { return "", err } enc, err := module.EscapePath(path) if err != nil { return "", err } return filepath.Join(cfg.GOMODCACHE, "cache/download", enc, "/@v"), nil } func CachePath(ctx context.Context, m module.Version, suffix string) (string, error) { if gover.IsToolchain(m.Path) { return "", ErrToolchain } dir, err := cacheDir(ctx, m.Path) if err != nil { return "", err } if !gover.ModIsValid(m.Path, m.Version) { return "", fmt.Errorf("non-semver module version %q", m.Version) } if module.CanonicalVersion(m.Version) != m.Version { return "", fmt.Errorf("non-canonical module version %q", m.Version) } encVer, err := module.EscapeVersion(m.Version) if err != nil { return "", err } return filepath.Join(dir, encVer+"."+suffix), nil } // DownloadDir returns the directory to which m should have been downloaded. // An error will be returned if the module path or version cannot be escaped. // An error satisfying errors.Is(err, fs.ErrNotExist) will be returned // along with the directory if the directory does not exist or if the directory // is not completely populated. func DownloadDir(ctx context.Context, m module.Version) (string, error) { if gover.IsToolchain(m.Path) { return "", ErrToolchain } if err := checkCacheDir(ctx); err != nil { return "", err } enc, err := module.EscapePath(m.Path) if err != nil { return "", err } if !gover.ModIsValid(m.Path, m.Version) { return "", fmt.Errorf("non-semver module version %q", m.Version) } if module.CanonicalVersion(m.Version) != m.Version { return "", fmt.Errorf("non-canonical module version %q", m.Version) } encVer, err := module.EscapeVersion(m.Version) if err != nil { return "", err } // Check whether the directory itself exists. dir := filepath.Join(cfg.GOMODCACHE, enc+"@"+encVer) if fi, err := os.Stat(dir); os.IsNotExist(err) { return dir, err } else if err != nil { return dir, &DownloadDirPartialError{dir, err} } else if !fi.IsDir() { return dir, &DownloadDirPartialError{dir, errors.New("not a directory")} } // Check if a .partial file exists. This is created at the beginning of // a download and removed after the zip is extracted. partialPath, err := CachePath(ctx, m, "partial") if err != nil { return dir, err } if _, err := os.Stat(partialPath); err == nil { return dir, &DownloadDirPartialError{dir, errors.New("not completely extracted")} } else if !os.IsNotExist(err) { return dir, err } // Check if a .ziphash file exists. It should be created before the // zip is extracted, but if it was deleted (by another program?), we need // to re-calculate it. Note that checkMod will repopulate the ziphash // file if it doesn't exist, but if the module is excluded by checks // through GONOSUMDB or GOPRIVATE, that check and repopulation won't happen. ziphashPath, err := CachePath(ctx, m, "ziphash") if err != nil { return dir, err } if _, err := os.Stat(ziphashPath); os.IsNotExist(err) { return dir, &DownloadDirPartialError{dir, errors.New("ziphash file is missing")} } else if err != nil { return dir, err } return dir, nil } // DownloadDirPartialError is returned by DownloadDir if a module directory // exists but was not completely populated. // // DownloadDirPartialError is equivalent to fs.ErrNotExist. type DownloadDirPartialError struct { Dir string Err error } func (e *DownloadDirPartialError) Error() string { return fmt.Sprintf("%s: %v", e.Dir, e.Err) } func (e *DownloadDirPartialError) Is(err error) bool { return err == fs.ErrNotExist } // lockVersion locks a file within the module cache that guards the downloading // and extraction of the zipfile for the given module version. func lockVersion(ctx context.Context, mod module.Version) (unlock func(), err error) { path, err := CachePath(ctx, mod, "lock") if err != nil { return nil, err } if err := os.MkdirAll(filepath.Dir(path), 0777); err != nil { return nil, err } return lockedfile.MutexAt(path).Lock() } // SideLock locks a file within the module cache that previously guarded // edits to files outside the cache, such as go.sum and go.mod files in the // user's working directory. // If err is nil, the caller MUST eventually call the unlock function. func SideLock(ctx context.Context) (unlock func(), err error) { if err := checkCacheDir(ctx); err != nil { return nil, err } path := filepath.Join(cfg.GOMODCACHE, "cache", "lock") if err := os.MkdirAll(filepath.Dir(path), 0777); err != nil { return nil, fmt.Errorf("failed to create cache directory: %w", err) } return lockedfile.MutexAt(path).Lock() } // A cachingRepo is a cache around an underlying Repo, // avoiding redundant calls to ModulePath, Versions, Stat, Latest, and GoMod (but not CheckReuse or Zip). // It is also safe for simultaneous use by multiple goroutines // (so that it can be returned from Lookup multiple times). // It serializes calls to the underlying Repo. type cachingRepo struct { path string versionsCache par.ErrCache[string, *Versions] statCache par.ErrCache[string, *RevInfo] latestCache par.ErrCache[struct{}, *RevInfo] gomodCache par.ErrCache[string, []byte] once sync.Once initRepo func(context.Context) (Repo, error) r Repo } func newCachingRepo(ctx context.Context, path string, initRepo func(context.Context) (Repo, error)) *cachingRepo { return &cachingRepo{ path: path, initRepo: initRepo, } } func (r *cachingRepo) repo(ctx context.Context) Repo { r.once.Do(func() { var err error r.r, err = r.initRepo(ctx) if err != nil { r.r = errRepo{r.path, err} } }) return r.r } func (r *cachingRepo) CheckReuse(ctx context.Context, old *codehost.Origin) error { return r.repo(ctx).CheckReuse(ctx, old) } func (r *cachingRepo) ModulePath() string { return r.path } func (r *cachingRepo) Versions(ctx context.Context, prefix string) (*Versions, error) { v, err := r.versionsCache.Do(prefix, func() (*Versions, error) { return r.repo(ctx).Versions(ctx, prefix) }) if err != nil { return nil, err } return &Versions{ Origin: v.Origin, List: append([]string(nil), v.List...), }, nil } type cachedInfo struct { info *RevInfo err error } func (r *cachingRepo) Stat(ctx context.Context, rev string) (*RevInfo, error) { if gover.IsToolchain(r.path) { // Skip disk cache; the underlying golang.org/toolchain repo is cached instead. return r.repo(ctx).Stat(ctx, rev) } info, err := r.statCache.Do(rev, func() (*RevInfo, error) { file, info, err := readDiskStat(ctx, r.path, rev) if err == nil { return info, err } info, err = r.repo(ctx).Stat(ctx, rev) if err == nil { // If we resolved, say, 1234abcde to v0.0.0-20180604122334-1234abcdef78, // then save the information under the proper version, for future use. if info.Version != rev { file, _ = CachePath(ctx, module.Version{Path: r.path, Version: info.Version}, "info") r.statCache.Do(info.Version, func() (*RevInfo, error) { return info, nil }) } if err := writeDiskStat(ctx, file, info); err != nil { fmt.Fprintf(os.Stderr, "go: writing stat cache: %v\n", err) } } return info, err }) if info != nil { copy := *info info = © } return info, err } func (r *cachingRepo) Latest(ctx context.Context) (*RevInfo, error) { if gover.IsToolchain(r.path) { // Skip disk cache; the underlying golang.org/toolchain repo is cached instead. return r.repo(ctx).Latest(ctx) } info, err := r.latestCache.Do(struct{}{}, func() (*RevInfo, error) { info, err := r.repo(ctx).Latest(ctx) // Save info for likely future Stat call. if err == nil { r.statCache.Do(info.Version, func() (*RevInfo, error) { return info, nil }) if file, _, err := readDiskStat(ctx, r.path, info.Version); err != nil { writeDiskStat(ctx, file, info) } } return info, err }) if info != nil { copy := *info info = © } return info, err } func (r *cachingRepo) GoMod(ctx context.Context, version string) ([]byte, error) { if gover.IsToolchain(r.path) { // Skip disk cache; the underlying golang.org/toolchain repo is cached instead. return r.repo(ctx).GoMod(ctx, version) } text, err := r.gomodCache.Do(version, func() ([]byte, error) { file, text, err := readDiskGoMod(ctx, r.path, version) if err == nil { // Note: readDiskGoMod already called checkGoMod. return text, nil } text, err = r.repo(ctx).GoMod(ctx, version) if err == nil { if err := checkGoMod(r.path, version, text); err != nil { return text, err } if err := writeDiskGoMod(ctx, file, text); err != nil { fmt.Fprintf(os.Stderr, "go: writing go.mod cache: %v\n", err) } } return text, err }) if err != nil { return nil, err } return append([]byte(nil), text...), nil } func (r *cachingRepo) Zip(ctx context.Context, dst io.Writer, version string) error { if gover.IsToolchain(r.path) { return ErrToolchain } return r.repo(ctx).Zip(ctx, dst, version) } // InfoFile is like Lookup(ctx, path).Stat(version) but also returns the name of the file // containing the cached information. func InfoFile(ctx context.Context, path, version string) (*RevInfo, string, error) { if !gover.ModIsValid(path, version) { return nil, "", fmt.Errorf("invalid version %q", version) } if file, info, err := readDiskStat(ctx, path, version); err == nil { return info, file, nil } var info *RevInfo var err2info map[error]*RevInfo err := TryProxies(func(proxy string) error { i, err := Lookup(ctx, proxy, path).Stat(ctx, version) if err == nil { info = i } else { if err2info == nil { err2info = make(map[error]*RevInfo) } err2info[err] = info } return err }) if err != nil { return err2info[err], "", err } // Stat should have populated the disk cache for us. file, err := CachePath(ctx, module.Version{Path: path, Version: version}, "info") if err != nil { return nil, "", err } return info, file, nil } // GoMod is like Lookup(ctx, path).GoMod(rev) but avoids the // repository path resolution in Lookup if the result is // already cached on local disk. func GoMod(ctx context.Context, path, rev string) ([]byte, error) { // Convert commit hash to pseudo-version // to increase cache hit rate. if !gover.ModIsValid(path, rev) { if _, info, err := readDiskStat(ctx, path, rev); err == nil { rev = info.Version } else { if errors.Is(err, statCacheErr) { return nil, err } err := TryProxies(func(proxy string) error { info, err := Lookup(ctx, proxy, path).Stat(ctx, rev) if err == nil { rev = info.Version } return err }) if err != nil { return nil, err } } } _, data, err := readDiskGoMod(ctx, path, rev) if err == nil { return data, nil } err = TryProxies(func(proxy string) (err error) { data, err = Lookup(ctx, proxy, path).GoMod(ctx, rev) return err }) return data, err } // GoModFile is like GoMod but returns the name of the file containing // the cached information. func GoModFile(ctx context.Context, path, version string) (string, error) { if !gover.ModIsValid(path, version) { return "", fmt.Errorf("invalid version %q", version) } if _, err := GoMod(ctx, path, version); err != nil { return "", err } // GoMod should have populated the disk cache for us. file, err := CachePath(ctx, module.Version{Path: path, Version: version}, "mod") if err != nil { return "", err } return file, nil } // GoModSum returns the go.sum entry for the module version's go.mod file. // (That is, it returns the entry listed in go.sum as "path version/go.mod".) func GoModSum(ctx context.Context, path, version string) (string, error) { if !gover.ModIsValid(path, version) { return "", fmt.Errorf("invalid version %q", version) } data, err := GoMod(ctx, path, version) if err != nil { return "", err } sum, err := goModSum(data) if err != nil { return "", err } return sum, nil } var errNotCached = fmt.Errorf("not in cache") // readDiskStat reads a cached stat result from disk, // returning the name of the cache file and the result. // If the read fails, the caller can use // writeDiskStat(file, info) to write a new cache entry. func readDiskStat(ctx context.Context, path, rev string) (file string, info *RevInfo, err error) { if gover.IsToolchain(path) { return "", nil, errNotCached } file, data, err := readDiskCache(ctx, path, rev, "info") if err != nil { // If the cache already contains a pseudo-version with the given hash, we // would previously return that pseudo-version without checking upstream. // However, that produced an unfortunate side-effect: if the author added a // tag to the repository, 'go get' would not pick up the effect of that new // tag on the existing commits, and 'go' commands that referred to those // commits would use the previous name instead of the new one. // // That's especially problematic if the original pseudo-version starts with // v0.0.0-, as was the case for all pseudo-versions during vgo development, // since a v0.0.0- pseudo-version has lower precedence than pretty much any // tagged version. // // In practice, we're only looking up by hash during initial conversion of a // legacy config and during an explicit 'go get', and a little extra latency // for those operations seems worth the benefit of picking up more accurate // versions. // // Fall back to this resolution scheme only if the GOPROXY setting prohibits // us from resolving upstream tags. if cfg.GOPROXY == "off" { if file, info, err := readDiskStatByHash(ctx, path, rev); err == nil { return file, info, nil } } return file, nil, err } info = new(RevInfo) if err := json.Unmarshal(data, info); err != nil { return file, nil, errNotCached } // The disk might have stale .info files that have Name and Short fields set. // We want to canonicalize to .info files with those fields omitted. // Remarshal and update the cache file if needed. data2, err := json.Marshal(info) if err == nil && !bytes.Equal(data2, data) { writeDiskCache(ctx, file, data) } return file, info, nil } // readDiskStatByHash is a fallback for readDiskStat for the case // where rev is a commit hash instead of a proper semantic version. // In that case, we look for a cached pseudo-version that matches // the commit hash. If we find one, we use it. // This matters most for converting legacy package management // configs, when we are often looking up commits by full hash. // Without this check we'd be doing network I/O to the remote repo // just to find out about a commit we already know about // (and have cached under its pseudo-version). func readDiskStatByHash(ctx context.Context, path, rev string) (file string, info *RevInfo, err error) { if gover.IsToolchain(path) { return "", nil, errNotCached } if cfg.GOMODCACHE == "" { // Do not download to current directory. return "", nil, errNotCached } if !codehost.AllHex(rev) || len(rev) < 12 { return "", nil, errNotCached } rev = rev[:12] cdir, err := cacheDir(ctx, path) if err != nil { return "", nil, errNotCached } dir, err := os.Open(cdir) if err != nil { return "", nil, errNotCached } names, err := dir.Readdirnames(-1) dir.Close() if err != nil { return "", nil, errNotCached } // A given commit hash may map to more than one pseudo-version, // depending on which tags are present on the repository. // Take the highest such version. var maxVersion string suffix := "-" + rev + ".info" err = errNotCached for _, name := range names { if strings.HasSuffix(name, suffix) { v := strings.TrimSuffix(name, ".info") if module.IsPseudoVersion(v) && semver.Compare(v, maxVersion) > 0 { maxVersion = v file, info, err = readDiskStat(ctx, path, strings.TrimSuffix(name, ".info")) } } } return file, info, err } // oldVgoPrefix is the prefix in the old auto-generated cached go.mod files. // We stopped trying to auto-generate the go.mod files. Now we use a trivial // go.mod with only a module line, and we've dropped the version prefix // entirely. If we see a version prefix, that means we're looking at an old copy // and should ignore it. var oldVgoPrefix = []byte("//vgo 0.0.") // readDiskGoMod reads a cached go.mod file from disk, // returning the name of the cache file and the result. // If the read fails, the caller can use // writeDiskGoMod(file, data) to write a new cache entry. func readDiskGoMod(ctx context.Context, path, rev string) (file string, data []byte, err error) { if gover.IsToolchain(path) { return "", nil, errNotCached } file, data, err = readDiskCache(ctx, path, rev, "mod") // If the file has an old auto-conversion prefix, pretend it's not there. if bytes.HasPrefix(data, oldVgoPrefix) { err = errNotCached data = nil } if err == nil { if err := checkGoMod(path, rev, data); err != nil { return "", nil, err } } return file, data, err } // readDiskCache is the generic "read from a cache file" implementation. // It takes the revision and an identifying suffix for the kind of data being cached. // It returns the name of the cache file and the content of the file. // If the read fails, the caller can use // writeDiskCache(file, data) to write a new cache entry. func readDiskCache(ctx context.Context, path, rev, suffix string) (file string, data []byte, err error) { if gover.IsToolchain(path) { return "", nil, errNotCached } file, err = CachePath(ctx, module.Version{Path: path, Version: rev}, suffix) if err != nil { return "", nil, errNotCached } data, err = robustio.ReadFile(file) if err != nil { return file, nil, errNotCached } return file, data, nil } // writeDiskStat writes a stat result cache entry. // The file name must have been returned by a previous call to readDiskStat. func writeDiskStat(ctx context.Context, file string, info *RevInfo) error { if file == "" { return nil } if info.Origin != nil { // Clean the origin information, which might have too many // validation criteria, for example if we are saving the result of // m@master as m@pseudo-version. clean := *info info = &clean o := *info.Origin info.Origin = &o // Tags never matter if you are starting with a semver version, // as we would be when finding this cache entry. o.TagSum = "" o.TagPrefix = "" // Ref doesn't matter if you have a pseudoversion. if module.IsPseudoVersion(info.Version) { o.Ref = "" } } js, err := json.Marshal(info) if err != nil { return err } return writeDiskCache(ctx, file, js) } // writeDiskGoMod writes a go.mod cache entry. // The file name must have been returned by a previous call to readDiskGoMod. func writeDiskGoMod(ctx context.Context, file string, text []byte) error { return writeDiskCache(ctx, file, text) } // writeDiskCache is the generic "write to a cache file" implementation. // The file must have been returned by a previous call to readDiskCache. func writeDiskCache(ctx context.Context, file string, data []byte) error { if file == "" { return nil } // Make sure directory for file exists. if err := os.MkdirAll(filepath.Dir(file), 0777); err != nil { return err } // Write the file to a temporary location, and then rename it to its final // path to reduce the likelihood of a corrupt file existing at that final path. f, err := tempFile(ctx, filepath.Dir(file), filepath.Base(file), 0666) if err != nil { return err } defer func() { // Only call os.Remove on f.Name() if we failed to rename it: otherwise, // some other process may have created a new file with the same name after // the rename completed. if err != nil { f.Close() os.Remove(f.Name()) } }() if _, err := f.Write(data); err != nil { return err } if err := f.Close(); err != nil { return err } if err := robustio.Rename(f.Name(), file); err != nil { return err } if strings.HasSuffix(file, ".mod") { rewriteVersionList(ctx, filepath.Dir(file)) } return nil } // tempFile creates a new temporary file with given permission bits. func tempFile(ctx context.Context, dir, prefix string, perm fs.FileMode) (f *os.File, err error) { for i := 0; i < 10000; i++ { name := filepath.Join(dir, prefix+strconv.Itoa(rand.Intn(1000000000))+".tmp") f, err = os.OpenFile(name, os.O_RDWR|os.O_CREATE|os.O_EXCL, perm) if os.IsExist(err) { if ctx.Err() != nil { return nil, ctx.Err() } continue } break } return } // rewriteVersionList rewrites the version list in dir // after a new *.mod file has been written. func rewriteVersionList(ctx context.Context, dir string) (err error) { if filepath.Base(dir) != "@v" { base.Fatalf("go: internal error: misuse of rewriteVersionList") } listFile := filepath.Join(dir, "list") // Lock listfile when writing to it to try to avoid corruption to the file. // Under rare circumstances, for instance, if the system loses power in the // middle of a write it is possible for corrupt data to be written. This is // not a problem for the go command itself, but may be an issue if the // cache is being served by a GOPROXY HTTP server. This will be corrected // the next time a new version of the module is fetched and the file is rewritten. // TODO(matloob): golang.org/issue/43313 covers adding a go mod verify // command that removes module versions that fail checksums. It should also // remove list files that are detected to be corrupt. f, err := lockedfile.Edit(listFile) if err != nil { return err } defer func() { if cerr := f.Close(); cerr != nil && err == nil { err = cerr } }() infos, err := os.ReadDir(dir) if err != nil { return err } var list []string for _, info := range infos { // We look for *.mod files on the theory that if we can't supply // the .mod file then there's no point in listing that version, // since it's unusable. (We can have *.info without *.mod.) // We don't require *.zip files on the theory that for code only // involved in module graph construction, many *.zip files // will never be requested. name := info.Name() if v, found := strings.CutSuffix(name, ".mod"); found { if v != "" && module.CanonicalVersion(v) == v { list = append(list, v) } } } semver.Sort(list) var buf bytes.Buffer for _, v := range list { buf.WriteString(v) buf.WriteString("\n") } if fi, err := f.Stat(); err == nil && int(fi.Size()) == buf.Len() { old := make([]byte, buf.Len()+1) if n, err := f.ReadAt(old, 0); err == io.EOF && n == buf.Len() && bytes.Equal(buf.Bytes(), old) { return nil // No edit needed. } } // Remove existing contents, so that when we truncate to the actual size it will zero-fill, // and we will be able to detect (some) incomplete writes as files containing trailing NUL bytes. if err := f.Truncate(0); err != nil { return err } // Reserve the final size and zero-fill. if err := f.Truncate(int64(buf.Len())); err != nil { return err } // Write the actual contents. If this fails partway through, // the remainder of the file should remain as zeroes. if _, err := f.Write(buf.Bytes()); err != nil { f.Truncate(0) return err } return nil } var ( statCacheOnce sync.Once statCacheErr error ) // checkCacheDir checks if the directory specified by GOMODCACHE exists. An // error is returned if it does not. func checkCacheDir(ctx context.Context) error { if cfg.GOMODCACHE == "" { // modload.Init exits if GOPATH[0] is empty, and cfg.GOMODCACHE // is set to GOPATH[0]/pkg/mod if GOMODCACHE is empty, so this should never happen. return fmt.Errorf("module cache not found: neither GOMODCACHE nor GOPATH is set") } if !filepath.IsAbs(cfg.GOMODCACHE) { return fmt.Errorf("GOMODCACHE entry is relative; must be absolute path: %q.\n", cfg.GOMODCACHE) } // os.Stat is slow on Windows, so we only call it once to prevent unnecessary // I/O every time this function is called. statCacheOnce.Do(func() { fi, err := os.Stat(cfg.GOMODCACHE) if err != nil { if !os.IsNotExist(err) { statCacheErr = fmt.Errorf("could not create module cache: %w", err) return } if err := os.MkdirAll(cfg.GOMODCACHE, 0777); err != nil { statCacheErr = fmt.Errorf("could not create module cache: %w", err) return } return } if !fi.IsDir() { statCacheErr = fmt.Errorf("could not create module cache: %q is not a directory", cfg.GOMODCACHE) return } }) return statCacheErr }