package dockerfile // import "github.com/docker/docker/builder/dockerfile" import ( "archive/tar" "fmt" "io" "mime" "net/http" "net/url" "os" "path/filepath" "runtime" "sort" "strings" "time" "github.com/docker/docker/builder" "github.com/docker/docker/builder/remotecontext" "github.com/docker/docker/pkg/archive" "github.com/docker/docker/pkg/containerfs" "github.com/docker/docker/pkg/idtools" "github.com/docker/docker/pkg/ioutils" "github.com/docker/docker/pkg/progress" "github.com/docker/docker/pkg/streamformatter" "github.com/docker/docker/pkg/system" "github.com/docker/docker/pkg/urlutil" specs "github.com/opencontainers/image-spec/specs-go/v1" "github.com/pkg/errors" ) const unnamedFilename = "__unnamed__" type pathCache interface { Load(key interface{}) (value interface{}, ok bool) Store(key, value interface{}) } // copyInfo is a data object which stores the metadata about each source file in // a copyInstruction type copyInfo struct { root containerfs.ContainerFS path string hash string noDecompress bool } func (c copyInfo) fullPath() (string, error) { return c.root.ResolveScopedPath(c.path, true) } func newCopyInfoFromSource(source builder.Source, path string, hash string) copyInfo { return copyInfo{root: source.Root(), path: path, hash: hash} } func newCopyInfos(copyInfos ...copyInfo) []copyInfo { return copyInfos } // copyInstruction is a fully parsed COPY or ADD command that is passed to // Builder.performCopy to copy files into the image filesystem type copyInstruction struct { cmdName string infos []copyInfo dest string chownStr string allowLocalDecompression bool } // copier reads a raw COPY or ADD command, fetches remote sources using a downloader, // and creates a copyInstruction type copier struct { imageSource *imageMount source builder.Source pathCache pathCache download sourceDownloader platform *specs.Platform // for cleanup. TODO: having copier.cleanup() is error prone and hard to // follow. Code calling performCopy should manage the lifecycle of its params. // Copier should take override source as input, not imageMount. activeLayer builder.RWLayer tmpPaths []string } func copierFromDispatchRequest(req dispatchRequest, download sourceDownloader, imageSource *imageMount) copier { platform := req.builder.platform if platform == nil { // May be nil if not explicitly set in API/dockerfile platform = &specs.Platform{} } if platform.OS == "" { // Default to the dispatch requests operating system if not explicit in API/dockerfile platform.OS = req.state.operatingSystem } if platform.OS == "" { // This is a failsafe just in case. Shouldn't be hit. platform.OS = runtime.GOOS } return copier{ source: req.source, pathCache: req.builder.pathCache, download: download, imageSource: imageSource, platform: platform, } } func (o *copier) createCopyInstruction(args []string, cmdName string) (copyInstruction, error) { inst := copyInstruction{cmdName: cmdName} last := len(args) - 1 // Work in platform-specific filepath semantics // TODO: This OS switch for paths is NOT correct and should not be supported. // Maintained for backwards compatibility pathOS := runtime.GOOS if o.platform != nil { pathOS = o.platform.OS } inst.dest = fromSlash(args[last], pathOS) separator := string(separator(pathOS)) infos, err := o.getCopyInfosForSourcePaths(args[0:last], inst.dest) if err != nil { return inst, errors.Wrapf(err, "%s failed", cmdName) } if len(infos) > 1 && !strings.HasSuffix(inst.dest, separator) { return inst, errors.Errorf("When using %s with more than one source file, the destination must be a directory and end with a /", cmdName) } inst.infos = infos return inst, nil } // getCopyInfosForSourcePaths iterates over the source files and calculate the info // needed to copy (e.g. hash value if cached) // The dest is used in case source is URL (and ends with "/") func (o *copier) getCopyInfosForSourcePaths(sources []string, dest string) ([]copyInfo, error) { var infos []copyInfo for _, orig := range sources { subinfos, err := o.getCopyInfoForSourcePath(orig, dest) if err != nil { return nil, err } infos = append(infos, subinfos...) } if len(infos) == 0 { return nil, errors.New("no source files were specified") } return infos, nil } func (o *copier) getCopyInfoForSourcePath(orig, dest string) ([]copyInfo, error) { if !urlutil.IsURL(orig) { return o.calcCopyInfo(orig, true) } remote, path, err := o.download(orig) if err != nil { return nil, err } // If path == "" then we are unable to determine filename from src // We have to make sure dest is available if path == "" { if strings.HasSuffix(dest, "/") { return nil, errors.Errorf("cannot determine filename for source %s", orig) } path = unnamedFilename } o.tmpPaths = append(o.tmpPaths, remote.Root().Path()) hash, err := remote.Hash(path) ci := newCopyInfoFromSource(remote, path, hash) ci.noDecompress = true // data from http shouldn't be extracted even on ADD return newCopyInfos(ci), err } // Cleanup removes any temporary directories created as part of downloading // remote files. func (o *copier) Cleanup() { for _, path := range o.tmpPaths { os.RemoveAll(path) } o.tmpPaths = []string{} if o.activeLayer != nil { o.activeLayer.Release() o.activeLayer = nil } } // TODO: allowWildcards can probably be removed by refactoring this function further. func (o *copier) calcCopyInfo(origPath string, allowWildcards bool) ([]copyInfo, error) { imageSource := o.imageSource // TODO: do this when creating copier. Requires validateCopySourcePath // (and other below) to be aware of the difference sources. Why is it only // done on image Source? if imageSource != nil && o.activeLayer == nil { // this needs to be protected against repeated calls as wildcard copy // will call it multiple times for a single COPY var err error rwLayer, err := imageSource.NewRWLayer() if err != nil { return nil, err } o.activeLayer = rwLayer o.source, err = remotecontext.NewLazySource(rwLayer.Root()) if err != nil { return nil, errors.Wrapf(err, "failed to create context for copy from %s", rwLayer.Root().Path()) } } if o.source == nil { return nil, errors.Errorf("missing build context") } root := o.source.Root() if err := validateCopySourcePath(imageSource, origPath, root.OS()); err != nil { return nil, err } // Work in source OS specific filepath semantics // For LCOW, this is NOT the daemon OS. origPath = root.FromSlash(origPath) origPath = strings.TrimPrefix(origPath, string(root.Separator())) origPath = strings.TrimPrefix(origPath, "."+string(root.Separator())) // Deal with wildcards if allowWildcards && containsWildcards(origPath, root.OS()) { return o.copyWithWildcards(origPath) } if imageSource != nil && imageSource.ImageID() != "" { // return a cached copy if one exists if h, ok := o.pathCache.Load(imageSource.ImageID() + origPath); ok { return newCopyInfos(newCopyInfoFromSource(o.source, origPath, h.(string))), nil } } // Deal with the single file case copyInfo, err := copyInfoForFile(o.source, origPath) switch { case err != nil: return nil, err case copyInfo.hash != "": o.storeInPathCache(imageSource, origPath, copyInfo.hash) return newCopyInfos(copyInfo), err } // TODO: remove, handle dirs in Hash() subfiles, err := walkSource(o.source, origPath) if err != nil { return nil, err } hash := hashStringSlice("dir", subfiles) o.storeInPathCache(imageSource, origPath, hash) return newCopyInfos(newCopyInfoFromSource(o.source, origPath, hash)), nil } func containsWildcards(name, platform string) bool { isWindows := platform == "windows" for i := 0; i < len(name); i++ { ch := name[i] if ch == '\\' && !isWindows { i++ } else if ch == '*' || ch == '?' || ch == '[' { return true } } return false } func (o *copier) storeInPathCache(im *imageMount, path string, hash string) { if im != nil { o.pathCache.Store(im.ImageID()+path, hash) } } func (o *copier) copyWithWildcards(origPath string) ([]copyInfo, error) { root := o.source.Root() var copyInfos []copyInfo if err := root.Walk(root.Path(), func(path string, info os.FileInfo, err error) error { if err != nil { return err } rel, err := remotecontext.Rel(root, path) if err != nil { return err } if rel == "." { return nil } if match, _ := root.Match(origPath, rel); !match { return nil } // Note we set allowWildcards to false in case the name has // a * in it subInfos, err := o.calcCopyInfo(rel, false) if err != nil { return err } copyInfos = append(copyInfos, subInfos...) return nil }); err != nil { return nil, err } return copyInfos, nil } func copyInfoForFile(source builder.Source, path string) (copyInfo, error) { fi, err := remotecontext.StatAt(source, path) if err != nil { return copyInfo{}, err } if fi.IsDir() { return copyInfo{}, nil } hash, err := source.Hash(path) if err != nil { return copyInfo{}, err } return newCopyInfoFromSource(source, path, "file:"+hash), nil } // TODO: dedupe with copyWithWildcards() func walkSource(source builder.Source, origPath string) ([]string, error) { fp, err := remotecontext.FullPath(source, origPath) if err != nil { return nil, err } // Must be a dir var subfiles []string err = source.Root().Walk(fp, func(path string, info os.FileInfo, err error) error { if err != nil { return err } rel, err := remotecontext.Rel(source.Root(), path) if err != nil { return err } if rel == "." { return nil } hash, err := source.Hash(rel) if err != nil { return nil } // we already checked handleHash above subfiles = append(subfiles, hash) return nil }) if err != nil { return nil, err } sort.Strings(subfiles) return subfiles, nil } type sourceDownloader func(string) (builder.Source, string, error) func newRemoteSourceDownloader(output, stdout io.Writer) sourceDownloader { return func(url string) (builder.Source, string, error) { return downloadSource(output, stdout, url) } } func errOnSourceDownload(_ string) (builder.Source, string, error) { return nil, "", errors.New("source can't be a URL for COPY") } func getFilenameForDownload(path string, resp *http.Response) string { // Guess filename based on source if path != "" && !strings.HasSuffix(path, "/") { if filename := filepath.Base(filepath.FromSlash(path)); filename != "" { return filename } } // Guess filename based on Content-Disposition if contentDisposition := resp.Header.Get("Content-Disposition"); contentDisposition != "" { if _, params, err := mime.ParseMediaType(contentDisposition); err == nil { if params["filename"] != "" && !strings.HasSuffix(params["filename"], "/") { if filename := filepath.Base(filepath.FromSlash(params["filename"])); filename != "" { return filename } } } } return "" } func downloadSource(output io.Writer, stdout io.Writer, srcURL string) (remote builder.Source, p string, err error) { u, err := url.Parse(srcURL) if err != nil { return } resp, err := remotecontext.GetWithStatusError(srcURL) if err != nil { return } filename := getFilenameForDownload(u.Path, resp) // Prepare file in a tmp dir tmpDir, err := ioutils.TempDir("", "docker-remote") if err != nil { return } defer func() { if err != nil { os.RemoveAll(tmpDir) } }() // If filename is empty, the returned filename will be "" but // the tmp filename will be created as "__unnamed__" tmpFileName := filename if filename == "" { tmpFileName = unnamedFilename } tmpFileName = filepath.Join(tmpDir, tmpFileName) tmpFile, err := os.OpenFile(tmpFileName, os.O_RDWR|os.O_CREATE|os.O_EXCL, 0600) if err != nil { return } progressOutput := streamformatter.NewJSONProgressOutput(output, true) progressReader := progress.NewProgressReader(resp.Body, progressOutput, resp.ContentLength, "", "Downloading") // Download and dump result to tmp file // TODO: add filehash directly if _, err = io.Copy(tmpFile, progressReader); err != nil { tmpFile.Close() return } // TODO: how important is this random blank line to the output? fmt.Fprintln(stdout) // Set the mtime to the Last-Modified header value if present // Otherwise just remove atime and mtime mTime := time.Time{} lastMod := resp.Header.Get("Last-Modified") if lastMod != "" { // If we can't parse it then just let it default to 'zero' // otherwise use the parsed time value if parsedMTime, err := http.ParseTime(lastMod); err == nil { mTime = parsedMTime } } tmpFile.Close() if err = system.Chtimes(tmpFileName, mTime, mTime); err != nil { return } lc, err := remotecontext.NewLazySource(containerfs.NewLocalContainerFS(tmpDir)) return lc, filename, err } type copyFileOptions struct { decompress bool identity idtools.Identity archiver Archiver } type copyEndpoint struct { driver containerfs.Driver path string } func performCopyForInfo(dest copyInfo, source copyInfo, options copyFileOptions) error { srcPath, err := source.fullPath() if err != nil { return err } destPath, err := dest.fullPath() if err != nil { return err } archiver := options.archiver srcEndpoint := ©Endpoint{driver: source.root, path: srcPath} destEndpoint := ©Endpoint{driver: dest.root, path: destPath} src, err := source.root.Stat(srcPath) if err != nil { return errors.Wrapf(err, "source path not found") } if src.IsDir() { return copyDirectory(archiver, srcEndpoint, destEndpoint, options.identity) } if options.decompress && isArchivePath(source.root, srcPath) && !source.noDecompress { return archiver.UntarPath(srcPath, destPath) } destExistsAsDir, err := isExistingDirectory(destEndpoint) if err != nil { return err } // dest.path must be used because destPath has already been cleaned of any // trailing slash if endsInSlash(dest.root, dest.path) || destExistsAsDir { // source.path must be used to get the correct filename when the source // is a symlink destPath = dest.root.Join(destPath, source.root.Base(source.path)) destEndpoint = ©Endpoint{driver: dest.root, path: destPath} } return copyFile(archiver, srcEndpoint, destEndpoint, options.identity) } func isArchivePath(driver containerfs.ContainerFS, path string) bool { file, err := driver.Open(path) if err != nil { return false } defer file.Close() rdr, err := archive.DecompressStream(file) if err != nil { return false } r := tar.NewReader(rdr) _, err = r.Next() return err == nil } func copyDirectory(archiver Archiver, source, dest *copyEndpoint, identity idtools.Identity) error { destExists, err := isExistingDirectory(dest) if err != nil { return errors.Wrapf(err, "failed to query destination path") } if err := archiver.CopyWithTar(source.path, dest.path); err != nil { return errors.Wrapf(err, "failed to copy directory") } // TODO: @gupta-ak. Investigate how LCOW permission mappings will work. return fixPermissions(source.path, dest.path, identity, !destExists) } func copyFile(archiver Archiver, source, dest *copyEndpoint, identity idtools.Identity) error { if runtime.GOOS == "windows" && dest.driver.OS() == "linux" { // LCOW if err := dest.driver.MkdirAll(dest.driver.Dir(dest.path), 0755); err != nil { return errors.Wrapf(err, "failed to create new directory") } } else { if err := idtools.MkdirAllAndChownNew(filepath.Dir(dest.path), 0755, identity); err != nil { // Normal containers return errors.Wrapf(err, "failed to create new directory") } } if err := archiver.CopyFileWithTar(source.path, dest.path); err != nil { return errors.Wrapf(err, "failed to copy file") } // TODO: @gupta-ak. Investigate how LCOW permission mappings will work. return fixPermissions(source.path, dest.path, identity, false) } func endsInSlash(driver containerfs.Driver, path string) bool { return strings.HasSuffix(path, string(driver.Separator())) } // isExistingDirectory returns true if the path exists and is a directory func isExistingDirectory(point *copyEndpoint) (bool, error) { destStat, err := point.driver.Stat(point.path) switch { case os.IsNotExist(err): return false, nil case err != nil: return false, err } return destStat.IsDir(), nil }