package compress import ( "archive/tar" "archive/zip" "compress/gzip" "fmt" "io" "os" "path/filepath" "regexp" "runtime" "github.com/biogo/hts/bgzf" "github.com/hashicorp/packer/common" "github.com/hashicorp/packer/helper/config" "github.com/hashicorp/packer/packer" "github.com/hashicorp/packer/template/interpolate" "github.com/klauspost/pgzip" "github.com/pierrec/lz4" ) var ( // ErrInvalidCompressionLevel is returned when the compression level passed // to gzip is not in the expected range. See compress/flate for details. ErrInvalidCompressionLevel = fmt.Errorf( "Invalid compression level. Expected an integer from -1 to 9.") ErrWrongInputCount = fmt.Errorf( "Can only have 1 input file when not using tar/zip") filenamePattern = regexp.MustCompile(`(?:\.([a-z0-9]+))`) ) type Config struct { common.PackerConfig `mapstructure:",squash"` // Fields from config file OutputPath string `mapstructure:"output"` Format string `mapstructure:"format"` CompressionLevel int `mapstructure:"compression_level"` KeepInputArtifact bool `mapstructure:"keep_input_artifact"` // Derived fields Archive string Algorithm string ctx interpolate.Context } type PostProcessor struct { config Config } func (p *PostProcessor) Configure(raws ...interface{}) error { err := config.Decode(&p.config, &config.DecodeOpts{ Interpolate: true, InterpolateContext: &p.config.ctx, InterpolateFilter: &interpolate.RenderFilter{ Exclude: []string{"output"}, }, }, raws...) if err != nil { return err } errs := new(packer.MultiError) // If there is no explicit number of Go threads to use, then set it if os.Getenv("GOMAXPROCS") == "" { runtime.GOMAXPROCS(runtime.NumCPU()) } if p.config.OutputPath == "" { p.config.OutputPath = "packer_{{.BuildName}}_{{.BuilderType}}" } if p.config.CompressionLevel > pgzip.BestCompression { p.config.CompressionLevel = pgzip.BestCompression } // Technically 0 means "don't compress" but I don't know how to // differentiate between "user entered zero" and "user entered nothing". // Also, why bother creating a compressed file with zero compression? if p.config.CompressionLevel == -1 || p.config.CompressionLevel == 0 { p.config.CompressionLevel = pgzip.DefaultCompression } if err = interpolate.Validate(p.config.OutputPath, &p.config.ctx); err != nil { errs = packer.MultiErrorAppend( errs, fmt.Errorf("Error parsing target template: %s", err)) } p.config.detectFromFilename() if len(errs.Errors) > 0 { return errs } return nil } func (p *PostProcessor) PostProcess(ui packer.Ui, artifact packer.Artifact) (packer.Artifact, bool, error) { // These are extra variables that will be made available for interpolation. p.config.ctx.Data = map[string]string{ "BuildName": p.config.PackerBuildName, "BuilderType": p.config.PackerBuilderType, } target, err := interpolate.Render(p.config.OutputPath, &p.config.ctx) if err != nil { return nil, false, fmt.Errorf("Error interpolating output value: %s", err) } else { fmt.Println(target) } keep := p.config.KeepInputArtifact newArtifact := &Artifact{Path: target} if err = os.MkdirAll(filepath.Dir(target), os.FileMode(0755)); err != nil { return nil, false, fmt.Errorf( "Unable to create dir for archive %s: %s", target, err) } outputFile, err := os.Create(target) if err != nil { return nil, false, fmt.Errorf( "Unable to create archive %s: %s", target, err) } defer outputFile.Close() // Setup output interface. If we're using compression, output is a // compression writer. Otherwise it's just a file. var output io.WriteCloser switch p.config.Algorithm { case "bgzf": ui.Say(fmt.Sprintf("Using bgzf compression with %d cores for %s", runtime.GOMAXPROCS(-1), target)) output, err = makeBGZFWriter(outputFile, p.config.CompressionLevel) defer output.Close() case "lz4": ui.Say(fmt.Sprintf("Using lz4 compression with %d cores for %s", runtime.GOMAXPROCS(-1), target)) output, err = makeLZ4Writer(outputFile, p.config.CompressionLevel) defer output.Close() case "pgzip": ui.Say(fmt.Sprintf("Using pgzip compression with %d cores for %s", runtime.GOMAXPROCS(-1), target)) output, err = makePgzipWriter(outputFile, p.config.CompressionLevel) defer output.Close() default: output = outputFile } compression := p.config.Algorithm if compression == "" { compression = "no compression" } // Build an archive, if we're supposed to do that. switch p.config.Archive { case "tar": ui.Say(fmt.Sprintf("Tarring %s with %s", target, compression)) err = createTarArchive(artifact.Files(), output) if err != nil { return nil, keep, fmt.Errorf("Error creating tar: %s", err) } case "zip": ui.Say(fmt.Sprintf("Zipping %s", target)) err = createZipArchive(artifact.Files(), output) if err != nil { return nil, keep, fmt.Errorf("Error creating zip: %s", err) } default: // Filename indicates no tarball (just compress) so we'll do an io.Copy // into our compressor. if len(artifact.Files()) != 1 { return nil, keep, fmt.Errorf( "Can only have 1 input file when not using tar/zip. Found %d "+ "files: %v", len(artifact.Files()), artifact.Files()) } archiveFile := artifact.Files()[0] ui.Say(fmt.Sprintf("Archiving %s with %s", archiveFile, compression)) source, err := os.Open(archiveFile) if err != nil { return nil, keep, fmt.Errorf( "Failed to open source file %s for reading: %s", archiveFile, err) } defer source.Close() if _, err = io.Copy(output, source); err != nil { return nil, keep, fmt.Errorf("Failed to compress %s: %s", archiveFile, err) } } ui.Say(fmt.Sprintf("Archive %s completed", target)) return newArtifact, keep, nil } func (config *Config) detectFromFilename() { var result [][]string extensions := map[string]string{ "tar": "tar", "zip": "zip", "gz": "pgzip", "lz4": "lz4", "bgzf": "bgzf", } if config.Format == "" { result = filenamePattern.FindAllStringSubmatch(config.OutputPath, -1) } else { result = filenamePattern.FindAllStringSubmatch(fmt.Sprintf("%s.%s", config.OutputPath, config.Format), -1) } // No dots. Bail out with defaults. if len(result) == 0 { config.Algorithm = "pgzip" config.Archive = "tar" return } // Parse the last two .groups, if they're there lastItem := result[len(result)-1][1] var nextToLastItem string if len(result) == 1 { nextToLastItem = "" } else { nextToLastItem = result[len(result)-2][1] } // Should we make an archive? E.g. tar or zip? if nextToLastItem == "tar" { config.Archive = "tar" } if lastItem == "zip" || lastItem == "tar" { config.Archive = lastItem // Tar or zip is our final artifact. Bail out. return } // Should we compress the artifact? algorithm, ok := extensions[lastItem] if ok { config.Algorithm = algorithm // We found our compression algorithm. Bail out. return } // We didn't match a known compression format. Default to tar + pgzip config.Algorithm = "pgzip" config.Archive = "tar" return } func makeBGZFWriter(output io.WriteCloser, compressionLevel int) (io.WriteCloser, error) { bgzfWriter, err := bgzf.NewWriterLevel(output, compressionLevel, runtime.GOMAXPROCS(-1)) if err != nil { return nil, ErrInvalidCompressionLevel } return bgzfWriter, nil } func makeLZ4Writer(output io.WriteCloser, compressionLevel int) (io.WriteCloser, error) { lzwriter := lz4.NewWriter(output) if compressionLevel > gzip.DefaultCompression { lzwriter.Header.HighCompression = true } return lzwriter, nil } func makePgzipWriter(output io.WriteCloser, compressionLevel int) (io.WriteCloser, error) { gzipWriter, err := pgzip.NewWriterLevel(output, compressionLevel) if err != nil { return nil, ErrInvalidCompressionLevel } gzipWriter.SetConcurrency(500000, runtime.GOMAXPROCS(-1)) return gzipWriter, nil } func createTarArchive(files []string, output io.WriteCloser) error { archive := tar.NewWriter(output) defer archive.Close() for _, path := range files { file, err := os.Open(path) if err != nil { return fmt.Errorf("Unable to read file %s: %s", path, err) } defer file.Close() fi, err := file.Stat() if err != nil { return fmt.Errorf("Unable to get fileinfo for %s: %s", path, err) } header, err := tar.FileInfoHeader(fi, path) if err != nil { return fmt.Errorf("Failed to create tar header for %s: %s", path, err) } // workaround for archive format on go >=1.10 setHeaderFormat(header) if err := archive.WriteHeader(header); err != nil { return fmt.Errorf("Failed to write tar header for %s: %s", path, err) } if _, err := io.Copy(archive, file); err != nil { return fmt.Errorf("Failed to copy %s data to archive: %s", path, err) } } return nil } func createZipArchive(files []string, output io.WriteCloser) error { archive := zip.NewWriter(output) defer archive.Close() for _, path := range files { path = filepath.ToSlash(path) source, err := os.Open(path) if err != nil { return fmt.Errorf("Unable to read file %s: %s", path, err) } defer source.Close() target, err := archive.Create(path) if err != nil { return fmt.Errorf("Failed to add zip header for %s: %s", path, err) } _, err = io.Copy(target, source) if err != nil { return fmt.Errorf("Failed to copy %s data to archive: %s", path, err) } } return nil }