package common import ( "context" "crypto/sha1" "encoding/hex" "fmt" "log" "os" "path/filepath" "runtime" "strings" getter "github.com/hashicorp/go-getter" urlhelper "github.com/hashicorp/go-getter/helper/url" "github.com/hashicorp/packer/common/filelock" "github.com/hashicorp/packer/helper/multistep" "github.com/hashicorp/packer/packer" ) // StepDownload downloads a remote file using the download client within // this package. This step handles setting up the download configuration, // progress reporting, interrupt handling, etc. // // Uses: // cache packer.Cache // ui packer.Ui type StepDownload struct { // The checksum and the type of the checksum for the download Checksum string ChecksumType string // A short description of the type of download being done. Example: // "ISO" or "Guest Additions" Description string // The name of the key where the final path of the ISO will be put // into the state. ResultKey string // The path where the result should go, otherwise it goes to the // cache directory. TargetPath string // A list of URLs to attempt to download this thing. Url []string // Extension is the extension to force for the file that is downloaded. // Some systems require a certain extension. If this isn't set, the // extension on the URL is used. Otherwise, this will be forced // on the downloaded file for every URL. Extension string } func (s *StepDownload) Run(ctx context.Context, state multistep.StateBag) multistep.StepAction { defer log.Printf("Leaving retrieve loop for %s", s.Description) ui := state.Get("ui").(packer.Ui) ui.Say(fmt.Sprintf("Retrieving %s", s.Description)) var errs []error for _, source := range s.Url { if ctx.Err() != nil { state.Put("error", fmt.Errorf("Download cancelled: %v", errs)) return multistep.ActionHalt } ui.Say(fmt.Sprintf("Trying %s", source)) var err error var dst string if s.Description == "OVF/OVA" && strings.HasSuffix(source, ".ovf") { // TODO(adrien): make go-getter allow using files in place. // ovf files usually point to a file in the same directory, so // using them in place is the only way. ui.Say(fmt.Sprintf("Using ovf inplace")) dst = source } else { dst, err = s.download(ctx, ui, source) } if err == nil { state.Put(s.ResultKey, dst) return multistep.ActionContinue } // may be another url will work errs = append(errs, err) } err := fmt.Errorf("error downloading %s: %v", s.Description, errs) state.Put("error", err) ui.Error(err.Error()) return multistep.ActionHalt } var ( getters = getter.Getters ) func init() { if runtime.GOOS == "windows" { getters["file"] = &getter.FileGetter{ // always copy local files instead of symlinking to fix GH-7534. The // longer term fix for this would be to change the go-getter so that it // can leave the source file where it is & tell us where it is. Copy: true, } getters["smb"] = &getter.FileGetter{ Copy: true, } } } func (s *StepDownload) download(ctx context.Context, ui packer.Ui, source string) (string, error) { if runtime.GOOS == "windows" { // Check that the user specified a UNC path, and promote it to an smb:// uri. if strings.HasPrefix(source, "\\\\") && len(source) > 2 && source[2] != '?' { source = filepath.ToSlash(source[2:]) source = fmt.Sprintf("smb://%s", source) } } u, err := urlhelper.Parse(source) if err != nil { return "", fmt.Errorf("url parse: %s", err) } if checksum := u.Query().Get("checksum"); checksum != "" { s.Checksum = checksum } if s.ChecksumType != "" && s.ChecksumType != "none" { // add checksum to url query params as go getter will checksum for us q := u.Query() q.Set("checksum", s.ChecksumType+":"+s.Checksum) u.RawQuery = q.Encode() } else if s.Checksum != "" { q := u.Query() q.Set("checksum", s.Checksum) u.RawQuery = q.Encode() } targetPath := s.TargetPath if targetPath == "" { // store file under sha1(hash) if set // hash can sometimes be a checksum url // otherwise, use sha1(source_url) var shaSum [20]byte if s.Checksum != "" { shaSum = sha1.Sum([]byte(s.Checksum)) } else { shaSum = sha1.Sum([]byte(u.String())) } targetPath = hex.EncodeToString(shaSum[:]) if s.Extension != "" { targetPath += "." + s.Extension } targetPath, err = packer.CachePath(targetPath) if err != nil { return "", fmt.Errorf("CachePath: %s", err) } } lockFile := targetPath + ".lock" log.Printf("Acquiring lock for: %s (%s)", u.String(), lockFile) lock := filelock.New(lockFile) lock.Lock() defer lock.Unlock() wd, err := os.Getwd() if err != nil { log.Printf("get working directory: %v", err) // here we ignore the error in case the // working directory is not needed. // It would be better if the go-getter // could guess it only in cases it is // necessary. } src := u.String() if u.Scheme == "" || strings.ToLower(u.Scheme) == "file" { // If a local filepath, then we need to preprocess to make sure the // path doens't have any multiple successive path separators; if it // does, go-getter will read this as a specialized go-getter-specific // subdirectory command, which it most likely isn't. src = filepath.Clean(u.String()) if _, err := os.Stat(filepath.Clean(u.Path)); err != nil { // Cleaned path isn't present on system so it must be some other // scheme. Don't error right away; see if go-getter can figure it // out. src = u.String() } } ui.Say(fmt.Sprintf("Trying %s", u.String())) gc := getter.Client{ Ctx: ctx, Dst: targetPath, Src: src, ProgressListener: ui, Pwd: wd, Dir: false, Getters: getters, } switch err := gc.Get(); err.(type) { case nil: // success ! ui.Say(fmt.Sprintf("%s => %s", u.String(), targetPath)) return targetPath, nil case *getter.ChecksumError: ui.Say(fmt.Sprintf("Checksum did not match, removing %s", targetPath)) if err := os.Remove(targetPath); err != nil { ui.Error(fmt.Sprintf("Failed to remove cache file. Please remove manually: %s", targetPath)) } return "", err default: ui.Say(fmt.Sprintf("Download failed %s", err)) return "", err } } func (s *StepDownload) Cleanup(multistep.StateBag) {}