package docker import ( "bytes" "crypto/rand" "encoding/json" "fmt" "io" "io/ioutil" "net/http" "net/url" "os" "path/filepath" "github.com/Sirupsen/logrus" "github.com/containers/image/docker/reference" "github.com/containers/image/manifest" "github.com/containers/image/types" "github.com/docker/distribution/registry/api/errcode" "github.com/docker/distribution/registry/api/v2" "github.com/docker/distribution/registry/client" "github.com/opencontainers/go-digest" "github.com/pkg/errors" ) var manifestMIMETypes = []string{ // TODO(runcom): we'll add OCI as part of another PR here manifest.DockerV2Schema2MediaType, manifest.DockerV2Schema1SignedMediaType, manifest.DockerV2Schema1MediaType, } func supportedManifestMIMETypesMap() map[string]bool { m := make(map[string]bool, len(manifestMIMETypes)) for _, mt := range manifestMIMETypes { m[mt] = true } return m } type dockerImageDestination struct { ref dockerReference c *dockerClient // State manifestDigest digest.Digest // or "" if not yet known. } // newImageDestination creates a new ImageDestination for the specified image reference. func newImageDestination(ctx *types.SystemContext, ref dockerReference) (types.ImageDestination, error) { c, err := newDockerClient(ctx, ref, true, "pull,push") if err != nil { return nil, err } return &dockerImageDestination{ ref: ref, c: c, }, nil } // Reference returns the reference used to set up this destination. Note that this should directly correspond to user's intent, // e.g. it should use the public hostname instead of the result of resolving CNAMEs or following redirects. func (d *dockerImageDestination) Reference() types.ImageReference { return d.ref } // Close removes resources associated with an initialized ImageDestination, if any. func (d *dockerImageDestination) Close() error { return nil } func (d *dockerImageDestination) SupportedManifestMIMETypes() []string { return manifestMIMETypes } // SupportsSignatures returns an error (to be displayed to the user) if the destination certainly can't store signatures. // Note: It is still possible for PutSignatures to fail if SupportsSignatures returns nil. func (d *dockerImageDestination) SupportsSignatures() error { if err := d.c.detectProperties(); err != nil { return err } switch { case d.c.signatureBase != nil: return nil case d.c.supportsSignatures: return nil default: return errors.Errorf("X-Registry-Supports-Signatures extension not supported, and lookaside is not configured") } } // ShouldCompressLayers returns true iff it is desirable to compress layer blobs written to this destination. func (d *dockerImageDestination) ShouldCompressLayers() bool { return true } // AcceptsForeignLayerURLs returns false iff foreign layers in manifest should be actually // uploaded to the image destination, true otherwise. func (d *dockerImageDestination) AcceptsForeignLayerURLs() bool { return true } // sizeCounter is an io.Writer which only counts the total size of its input. type sizeCounter struct{ size int64 } func (c *sizeCounter) Write(p []byte) (n int, err error) { c.size += int64(len(p)) return len(p), nil } // PutBlob writes contents of stream and returns data representing the result (with all data filled in). // inputInfo.Digest can be optionally provided if known; it is not mandatory for the implementation to verify it. // inputInfo.Size is the expected length of stream, if known. // WARNING: The contents of stream are being verified on the fly. Until stream.Read() returns io.EOF, the contents of the data SHOULD NOT be available // to any other readers for download using the supplied digest. // If stream.Read() at any time, ESPECIALLY at end of input, returns an error, PutBlob MUST 1) fail, and 2) delete any data stored so far. func (d *dockerImageDestination) PutBlob(stream io.Reader, inputInfo types.BlobInfo) (types.BlobInfo, error) { if inputInfo.Digest.String() != "" { haveBlob, size, err := d.HasBlob(inputInfo) if err != nil { return types.BlobInfo{}, err } if haveBlob { return types.BlobInfo{Digest: inputInfo.Digest, Size: size}, nil } } // FIXME? Chunked upload, progress reporting, etc. uploadPath := fmt.Sprintf(blobUploadPath, reference.Path(d.ref.ref)) logrus.Debugf("Uploading %s", uploadPath) res, err := d.c.makeRequest("POST", uploadPath, nil, nil) if err != nil { return types.BlobInfo{}, err } defer res.Body.Close() if res.StatusCode != http.StatusAccepted { logrus.Debugf("Error initiating layer upload, response %#v", *res) return types.BlobInfo{}, errors.Errorf("Error initiating layer upload to %s, status %d", uploadPath, res.StatusCode) } uploadLocation, err := res.Location() if err != nil { return types.BlobInfo{}, errors.Wrap(err, "Error determining upload URL") } digester := digest.Canonical.Digester() sizeCounter := &sizeCounter{} tee := io.TeeReader(stream, io.MultiWriter(digester.Hash(), sizeCounter)) res, err = d.c.makeRequestToResolvedURL("PATCH", uploadLocation.String(), map[string][]string{"Content-Type": {"application/octet-stream"}}, tee, inputInfo.Size, true) if err != nil { logrus.Debugf("Error uploading layer chunked, response %#v", res) return types.BlobInfo{}, err } defer res.Body.Close() computedDigest := digester.Digest() uploadLocation, err = res.Location() if err != nil { return types.BlobInfo{}, errors.Wrap(err, "Error determining upload URL") } // FIXME: DELETE uploadLocation on failure locationQuery := uploadLocation.Query() // TODO: check inputInfo.Digest == computedDigest https://github.com/containers/image/pull/70#discussion_r77646717 locationQuery.Set("digest", computedDigest.String()) uploadLocation.RawQuery = locationQuery.Encode() res, err = d.c.makeRequestToResolvedURL("PUT", uploadLocation.String(), map[string][]string{"Content-Type": {"application/octet-stream"}}, nil, -1, true) if err != nil { return types.BlobInfo{}, err } defer res.Body.Close() if res.StatusCode != http.StatusCreated { logrus.Debugf("Error uploading layer, response %#v", *res) return types.BlobInfo{}, errors.Errorf("Error uploading layer to %s, status %d", uploadLocation, res.StatusCode) } logrus.Debugf("Upload of layer %s complete", computedDigest) return types.BlobInfo{Digest: computedDigest, Size: sizeCounter.size}, nil } // HasBlob returns true iff the image destination already contains a blob with the matching digest which can be reapplied using ReapplyBlob. // Unlike PutBlob, the digest can not be empty. If HasBlob returns true, the size of the blob must also be returned. // If the destination does not contain the blob, or it is unknown, HasBlob ordinarily returns (false, -1, nil); // it returns a non-nil error only on an unexpected failure. func (d *dockerImageDestination) HasBlob(info types.BlobInfo) (bool, int64, error) { if info.Digest == "" { return false, -1, errors.Errorf(`"Can not check for a blob with unknown digest`) } checkPath := fmt.Sprintf(blobsPath, reference.Path(d.ref.ref), info.Digest.String()) logrus.Debugf("Checking %s", checkPath) res, err := d.c.makeRequest("HEAD", checkPath, nil, nil) if err != nil { return false, -1, err } defer res.Body.Close() switch res.StatusCode { case http.StatusOK: logrus.Debugf("... already exists") return true, getBlobSize(res), nil case http.StatusUnauthorized: logrus.Debugf("... not authorized") return false, -1, errors.Errorf("not authorized to read from destination repository %s", reference.Path(d.ref.ref)) case http.StatusNotFound: logrus.Debugf("... not present") return false, -1, nil default: return false, -1, errors.Errorf("failed to read from destination repository %s: %v", reference.Path(d.ref.ref), http.StatusText(res.StatusCode)) } } func (d *dockerImageDestination) ReapplyBlob(info types.BlobInfo) (types.BlobInfo, error) { return info, nil } // PutManifest writes manifest to the destination. // FIXME? This should also receive a MIME type if known, to differentiate between schema versions. // If the destination is in principle available, refuses this manifest type (e.g. it does not recognize the schema), // but may accept a different manifest type, the returned error must be an ManifestTypeRejectedError. func (d *dockerImageDestination) PutManifest(m []byte) error { digest, err := manifest.Digest(m) if err != nil { return err } d.manifestDigest = digest refTail, err := d.ref.tagOrDigest() if err != nil { return err } path := fmt.Sprintf(manifestPath, reference.Path(d.ref.ref), refTail) headers := map[string][]string{} mimeType := manifest.GuessMIMEType(m) if mimeType != "" { headers["Content-Type"] = []string{mimeType} } res, err := d.c.makeRequest("PUT", path, headers, bytes.NewReader(m)) if err != nil { return err } defer res.Body.Close() if res.StatusCode != http.StatusCreated { err = errors.Wrapf(client.HandleErrorResponse(res), "Error uploading manifest to %s", path) if isManifestInvalidError(errors.Cause(err)) { err = types.ManifestTypeRejectedError{Err: err} } return err } return nil } // isManifestInvalidError returns true iff err from client.HandleErrorReponse is a “manifest invalid” error. func isManifestInvalidError(err error) bool { errors, ok := err.(errcode.Errors) if !ok || len(errors) == 0 { return false } ec, ok := errors[0].(errcode.ErrorCoder) if !ok { return false } // ErrorCodeManifestInvalid is returned by OpenShift with acceptschema2=false. // ErrorCodeTagInvalid is returned by docker/distribution (at least as of commit ec87e9b6971d831f0eff752ddb54fb64693e51cd) // when uploading to a tag (because it can’t find a matching tag inside the manifest) return ec.ErrorCode() == v2.ErrorCodeManifestInvalid || ec.ErrorCode() == v2.ErrorCodeTagInvalid } func (d *dockerImageDestination) PutSignatures(signatures [][]byte) error { // Do not fail if we don’t really need to support signatures. if len(signatures) == 0 { return nil } if err := d.c.detectProperties(); err != nil { return err } switch { case d.c.signatureBase != nil: return d.putSignaturesToLookaside(signatures) case d.c.supportsSignatures: return d.putSignaturesToAPIExtension(signatures) default: return errors.Errorf("X-Registry-Supports-Signatures extension not supported, and lookaside is not configured") } } // putSignaturesToLookaside implements PutSignatures() from the lookaside location configured in s.c.signatureBase, // which is not nil. func (d *dockerImageDestination) putSignaturesToLookaside(signatures [][]byte) error { // FIXME? This overwrites files one at a time, definitely not atomic. // A failure when updating signatures with a reordered copy could lose some of them. // Skip dealing with the manifest digest if not necessary. if len(signatures) == 0 { return nil } if d.manifestDigest.String() == "" { // This shouldn’t happen, ImageDestination users are required to call PutManifest before PutSignatures return errors.Errorf("Unknown manifest digest, can't add signatures") } // NOTE: Keep this in sync with docs/signature-protocols.md! for i, signature := range signatures { url := signatureStorageURL(d.c.signatureBase, d.manifestDigest, i) if url == nil { return errors.Errorf("Internal error: signatureStorageURL with non-nil base returned nil") } err := d.putOneSignature(url, signature) if err != nil { return err } } // Remove any other signatures, if present. // We stop at the first missing signature; if a previous deleting loop aborted // prematurely, this may not clean up all of them, but one missing signature // is enough for dockerImageSource to stop looking for other signatures, so that // is sufficient. for i := len(signatures); ; i++ { url := signatureStorageURL(d.c.signatureBase, d.manifestDigest, i) if url == nil { return errors.Errorf("Internal error: signatureStorageURL with non-nil base returned nil") } missing, err := d.c.deleteOneSignature(url) if err != nil { return err } if missing { break } } return nil } // putOneSignature stores one signature to url. // NOTE: Keep this in sync with docs/signature-protocols.md! func (d *dockerImageDestination) putOneSignature(url *url.URL, signature []byte) error { switch url.Scheme { case "file": logrus.Debugf("Writing to %s", url.Path) err := os.MkdirAll(filepath.Dir(url.Path), 0755) if err != nil { return err } err = ioutil.WriteFile(url.Path, signature, 0644) if err != nil { return err } return nil case "http", "https": return errors.Errorf("Writing directly to a %s sigstore %s is not supported. Configure a sigstore-staging: location", url.Scheme, url.String()) default: return errors.Errorf("Unsupported scheme when writing signature to %s", url.String()) } } // deleteOneSignature deletes a signature from url, if it exists. // If it successfully determines that the signature does not exist, returns (true, nil) // NOTE: Keep this in sync with docs/signature-protocols.md! func (c *dockerClient) deleteOneSignature(url *url.URL) (missing bool, err error) { switch url.Scheme { case "file": logrus.Debugf("Deleting %s", url.Path) err := os.Remove(url.Path) if err != nil && os.IsNotExist(err) { return true, nil } return false, err case "http", "https": return false, errors.Errorf("Writing directly to a %s sigstore %s is not supported. Configure a sigstore-staging: location", url.Scheme, url.String()) default: return false, errors.Errorf("Unsupported scheme when deleting signature from %s", url.String()) } } // putSignaturesToAPIExtension implements PutSignatures() using the X-Registry-Supports-Signatures API extension. func (d *dockerImageDestination) putSignaturesToAPIExtension(signatures [][]byte) error { // Skip dealing with the manifest digest, or reading the old state, if not necessary. if len(signatures) == 0 { return nil } if d.manifestDigest.String() == "" { // This shouldn’t happen, ImageDestination users are required to call PutManifest before PutSignatures return errors.Errorf("Unknown manifest digest, can't add signatures") } // Because image signatures are a shared resource in Atomic Registry, the default upload // always adds signatures. Eventually we should also allow removing signatures, // but the X-Registry-Supports-Signatures API extension does not support that yet. existingSignatures, err := d.c.getExtensionsSignatures(d.ref, d.manifestDigest) if err != nil { return err } existingSigNames := map[string]struct{}{} for _, sig := range existingSignatures.Signatures { existingSigNames[sig.Name] = struct{}{} } sigExists: for _, newSig := range signatures { for _, existingSig := range existingSignatures.Signatures { if existingSig.Version == extensionSignatureSchemaVersion && existingSig.Type == extensionSignatureTypeAtomic && bytes.Equal(existingSig.Content, newSig) { continue sigExists } } // The API expect us to invent a new unique name. This is racy, but hopefully good enough. var signatureName string for { randBytes := make([]byte, 16) n, err := rand.Read(randBytes) if err != nil || n != 16 { return errors.Wrapf(err, "Error generating random signature len %d", n) } signatureName = fmt.Sprintf("%s@%032x", d.manifestDigest.String(), randBytes) if _, ok := existingSigNames[signatureName]; !ok { break } } sig := extensionSignature{ Version: extensionSignatureSchemaVersion, Name: signatureName, Type: extensionSignatureTypeAtomic, Content: newSig, } body, err := json.Marshal(sig) if err != nil { return err } path := fmt.Sprintf(extensionsSignaturePath, reference.Path(d.ref.ref), d.manifestDigest.String()) res, err := d.c.makeRequest("PUT", path, nil, bytes.NewReader(body)) if err != nil { return err } defer res.Body.Close() if res.StatusCode != http.StatusCreated { body, err := ioutil.ReadAll(res.Body) if err == nil { logrus.Debugf("Error body %s", string(body)) } logrus.Debugf("Error uploading signature, status %d, %#v", res.StatusCode, res) return errors.Errorf("Error uploading signature to %s, status %d", path, res.StatusCode) } } return nil } // Commit marks the process of storing the image as successful and asks for the image to be persisted. // WARNING: This does not have any transactional semantics: // - Uploaded data MAY be visible to others before Commit() is called // - Uploaded data MAY be removed or MAY remain around if Close() is called without Commit() (i.e. rollback is allowed but not guaranteed) func (d *dockerImageDestination) Commit() error { return nil }