// Copyright 2014 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package storage import ( "bytes" "context" "crypto" "crypto/rand" "crypto/rsa" "crypto/sha256" "crypto/x509" "encoding/base64" "encoding/hex" "encoding/pem" "errors" "fmt" "net/http" "net/url" "os" "reflect" "regexp" "sort" "strconv" "strings" "time" "unicode/utf8" "cloud.google.com/go/internal/optional" "cloud.google.com/go/internal/trace" "cloud.google.com/go/internal/version" "google.golang.org/api/googleapi" "google.golang.org/api/option" raw "google.golang.org/api/storage/v1" htransport "google.golang.org/api/transport/http" ) var ( // ErrBucketNotExist indicates that the bucket does not exist. ErrBucketNotExist = errors.New("storage: bucket doesn't exist") // ErrObjectNotExist indicates that the object does not exist. ErrObjectNotExist = errors.New("storage: object doesn't exist") ) const userAgent = "gcloud-golang-storage/20151204" const ( // ScopeFullControl grants permissions to manage your // data and permissions in Google Cloud Storage. ScopeFullControl = raw.DevstorageFullControlScope // ScopeReadOnly grants permissions to // view your data in Google Cloud Storage. ScopeReadOnly = raw.DevstorageReadOnlyScope // ScopeReadWrite grants permissions to manage your // data in Google Cloud Storage. ScopeReadWrite = raw.DevstorageReadWriteScope ) var xGoogHeader = fmt.Sprintf("gl-go/%s gccl/%s", version.Go(), version.Repo) func setClientHeader(headers http.Header) { headers.Set("x-goog-api-client", xGoogHeader) } // Client is a client for interacting with Google Cloud Storage. // // Clients should be reused instead of created as needed. // The methods of Client are safe for concurrent use by multiple goroutines. type Client struct { hc *http.Client raw *raw.Service // Scheme describes the scheme under the current host. scheme string // EnvHost is the host set on the STORAGE_EMULATOR_HOST variable. envHost string // ReadHost is the default host used on the reader. readHost string } // NewClient creates a new Google Cloud Storage client. // The default scope is ScopeFullControl. To use a different scope, like ScopeReadOnly, use option.WithScopes. func NewClient(ctx context.Context, opts ...option.ClientOption) (*Client, error) { o := []option.ClientOption{ option.WithScopes(ScopeFullControl), option.WithUserAgent(userAgent), } opts = append(o, opts...) hc, ep, err := htransport.NewClient(ctx, opts...) if err != nil { return nil, fmt.Errorf("dialing: %v", err) } rawService, err := raw.New(hc) if err != nil { return nil, fmt.Errorf("storage client: %v", err) } if ep != "" { rawService.BasePath = ep } scheme := "https" var host, readHost string if host = os.Getenv("STORAGE_EMULATOR_HOST"); host != "" { scheme = "http" readHost = host } else { readHost = "storage.googleapis.com" } return &Client{ hc: hc, raw: rawService, scheme: scheme, envHost: host, readHost: readHost, }, nil } // Close closes the Client. // // Close need not be called at program exit. func (c *Client) Close() error { // Set fields to nil so that subsequent uses will panic. c.hc = nil c.raw = nil return nil } // SigningScheme determines the API version to use when signing URLs. type SigningScheme int const ( // SigningSchemeDefault is presently V2 and will change to V4 in the future. SigningSchemeDefault SigningScheme = iota // SigningSchemeV2 uses the V2 scheme to sign URLs. SigningSchemeV2 // SigningSchemeV4 uses the V4 scheme to sign URLs. SigningSchemeV4 ) // SignedURLOptions allows you to restrict the access to the signed URL. type SignedURLOptions struct { // GoogleAccessID represents the authorizer of the signed URL generation. // It is typically the Google service account client email address from // the Google Developers Console in the form of "xxx@developer.gserviceaccount.com". // Required. GoogleAccessID string // PrivateKey is the Google service account private key. It is obtainable // from the Google Developers Console. // At https://console.developers.google.com/project//apiui/credential, // create a service account client ID or reuse one of your existing service account // credentials. Click on the "Generate new P12 key" to generate and download // a new private key. Once you download the P12 file, use the following command // to convert it into a PEM file. // // $ openssl pkcs12 -in key.p12 -passin pass:notasecret -out key.pem -nodes // // Provide the contents of the PEM file as a byte slice. // Exactly one of PrivateKey or SignBytes must be non-nil. PrivateKey []byte // SignBytes is a function for implementing custom signing. For example, if // your application is running on Google App Engine, you can use // appengine's internal signing function: // ctx := appengine.NewContext(request) // acc, _ := appengine.ServiceAccount(ctx) // url, err := SignedURL("bucket", "object", &SignedURLOptions{ // GoogleAccessID: acc, // SignBytes: func(b []byte) ([]byte, error) { // _, signedBytes, err := appengine.SignBytes(ctx, b) // return signedBytes, err // }, // // etc. // }) // // Exactly one of PrivateKey or SignBytes must be non-nil. SignBytes func([]byte) ([]byte, error) // Method is the HTTP method to be used with the signed URL. // Signed URLs can be used with GET, HEAD, PUT, and DELETE requests. // Required. Method string // Expires is the expiration time on the signed URL. It must be // a datetime in the future. For SigningSchemeV4, the expiration may be no // more than seven days in the future. // Required. Expires time.Time // ContentType is the content type header the client must provide // to use the generated signed URL. // Optional. ContentType string // Headers is a list of extension headers the client must provide // in order to use the generated signed URL. // Optional. Headers []string // MD5 is the base64 encoded MD5 checksum of the file. // If provided, the client should provide the exact value on the request // header in order to use the signed URL. // Optional. MD5 string // Scheme determines the version of URL signing to use. Default is // SigningSchemeV2. Scheme SigningScheme } var ( tabRegex = regexp.MustCompile(`[\t]+`) // I was tempted to call this spacex. :) spaceRegex = regexp.MustCompile(` +`) canonicalHeaderRegexp = regexp.MustCompile(`(?i)^(x-goog-[^:]+):(.*)?$`) excludedCanonicalHeaders = map[string]bool{ "x-goog-encryption-key": true, "x-goog-encryption-key-sha256": true, } ) // v2SanitizeHeaders applies the specifications for canonical extension headers at // https://cloud.google.com/storage/docs/access-control/signed-urls#about-canonical-extension-headers. func v2SanitizeHeaders(hdrs []string) []string { headerMap := map[string][]string{} for _, hdr := range hdrs { // No leading or trailing whitespaces. sanitizedHeader := strings.TrimSpace(hdr) var header, value string // Only keep canonical headers, discard any others. headerMatches := canonicalHeaderRegexp.FindStringSubmatch(sanitizedHeader) if len(headerMatches) == 0 { continue } header = headerMatches[1] value = headerMatches[2] header = strings.ToLower(strings.TrimSpace(header)) value = strings.TrimSpace(value) if excludedCanonicalHeaders[header] { // Do not keep any deliberately excluded canonical headers when signing. continue } if len(value) > 0 { // Remove duplicate headers by appending the values of duplicates // in their order of appearance. headerMap[header] = append(headerMap[header], value) } } var sanitizedHeaders []string for header, values := range headerMap { // There should be no spaces around the colon separating the header name // from the header value or around the values themselves. The values // should be separated by commas. // // NOTE: The semantics for headers without a value are not clear. // However from specifications these should be edge-cases anyway and we // should assume that there will be no canonical headers using empty // values. Any such headers are discarded at the regexp stage above. sanitizedHeaders = append(sanitizedHeaders, fmt.Sprintf("%s:%s", header, strings.Join(values, ","))) } sort.Strings(sanitizedHeaders) return sanitizedHeaders } // v4SanitizeHeaders applies the specifications for canonical extension headers // at https://cloud.google.com/storage/docs/access-control/signed-urls#about-canonical-extension-headers. // // V4 does a couple things differently from V2: // - Headers get sorted by key, instead of by key:value. We do this in // signedURLV4. // - There's no canonical regexp: we simply split headers on :. // - We don't exclude canonical headers. // - We replace leading and trailing spaces in header values, like v2, but also // all intermediate space duplicates get stripped. That is, there's only ever // a single consecutive space. func v4SanitizeHeaders(hdrs []string) []string { headerMap := map[string][]string{} for _, hdr := range hdrs { // No leading or trailing whitespaces. sanitizedHeader := strings.TrimSpace(hdr) var key, value string headerMatches := strings.Split(sanitizedHeader, ":") if len(headerMatches) < 2 { continue } key = headerMatches[0] value = headerMatches[1] key = strings.ToLower(strings.TrimSpace(key)) value = strings.TrimSpace(value) value = string(spaceRegex.ReplaceAll([]byte(value), []byte(" "))) value = string(tabRegex.ReplaceAll([]byte(value), []byte("\t"))) if len(value) > 0 { // Remove duplicate headers by appending the values of duplicates // in their order of appearance. headerMap[key] = append(headerMap[key], value) } } var sanitizedHeaders []string for header, values := range headerMap { // There should be no spaces around the colon separating the header name // from the header value or around the values themselves. The values // should be separated by commas. // // NOTE: The semantics for headers without a value are not clear. // However from specifications these should be edge-cases anyway and we // should assume that there will be no canonical headers using empty // values. Any such headers are discarded at the regexp stage above. sanitizedHeaders = append(sanitizedHeaders, fmt.Sprintf("%s:%s", header, strings.Join(values, ","))) } return sanitizedHeaders } // SignedURL returns a URL for the specified object. Signed URLs allow // the users access to a restricted resource for a limited time without having a // Google account or signing in. For more information about the signed // URLs, see https://cloud.google.com/storage/docs/accesscontrol#Signed-URLs. func SignedURL(bucket, name string, opts *SignedURLOptions) (string, error) { now := utcNow() if err := validateOptions(opts, now); err != nil { return "", err } switch opts.Scheme { case SigningSchemeV2: opts.Headers = v2SanitizeHeaders(opts.Headers) return signedURLV2(bucket, name, opts) case SigningSchemeV4: opts.Headers = v4SanitizeHeaders(opts.Headers) return signedURLV4(bucket, name, opts, now) default: // SigningSchemeDefault opts.Headers = v2SanitizeHeaders(opts.Headers) return signedURLV2(bucket, name, opts) } } func validateOptions(opts *SignedURLOptions, now time.Time) error { if opts == nil { return errors.New("storage: missing required SignedURLOptions") } if opts.GoogleAccessID == "" { return errors.New("storage: missing required GoogleAccessID") } if (opts.PrivateKey == nil) == (opts.SignBytes == nil) { return errors.New("storage: exactly one of PrivateKey or SignedBytes must be set") } if opts.Method == "" { return errors.New("storage: missing required method option") } if opts.Expires.IsZero() { return errors.New("storage: missing required expires option") } if opts.MD5 != "" { md5, err := base64.StdEncoding.DecodeString(opts.MD5) if err != nil || len(md5) != 16 { return errors.New("storage: invalid MD5 checksum") } } if opts.Scheme == SigningSchemeV4 { cutoff := now.Add(604801 * time.Second) // 7 days + 1 second if !opts.Expires.Before(cutoff) { return errors.New("storage: expires must be within seven days from now") } } return nil } const ( iso8601 = "20060102T150405Z" yearMonthDay = "20060102" ) // utcNow returns the current time in UTC and is a variable to allow for // reassignment in tests to provide deterministic signed URL values. var utcNow = func() time.Time { return time.Now().UTC() } // extractHeaderNames takes in a series of key:value headers and returns the // header names only. func extractHeaderNames(kvs []string) []string { var res []string for _, header := range kvs { nameValue := strings.Split(header, ":") res = append(res, nameValue[0]) } return res } // signedURLV4 creates a signed URL using the sigV4 algorithm. func signedURLV4(bucket, name string, opts *SignedURLOptions, now time.Time) (string, error) { buf := &bytes.Buffer{} fmt.Fprintf(buf, "%s\n", opts.Method) u := &url.URL{Path: bucket} if name != "" { u.Path += "/" + name } // Note: we have to add a / here because GCS does so auto-magically, despite // Go's EscapedPath not doing so (and we have to exactly match their // canonical query). fmt.Fprintf(buf, "/%s\n", u.EscapedPath()) headerNames := append(extractHeaderNames(opts.Headers), "host") if opts.ContentType != "" { headerNames = append(headerNames, "content-type") } if opts.MD5 != "" { headerNames = append(headerNames, "content-md5") } sort.Strings(headerNames) signedHeaders := strings.Join(headerNames, ";") timestamp := now.Format(iso8601) credentialScope := fmt.Sprintf("%s/auto/storage/goog4_request", now.Format(yearMonthDay)) canonicalQueryString := url.Values{ "X-Goog-Algorithm": {"GOOG4-RSA-SHA256"}, "X-Goog-Credential": {fmt.Sprintf("%s/%s", opts.GoogleAccessID, credentialScope)}, "X-Goog-Date": {timestamp}, "X-Goog-Expires": {fmt.Sprintf("%d", int(opts.Expires.Sub(now).Seconds()))}, "X-Goog-SignedHeaders": {signedHeaders}, } fmt.Fprintf(buf, "%s\n", canonicalQueryString.Encode()) u.Host = "storage.googleapis.com" var headersWithValue []string headersWithValue = append(headersWithValue, "host:"+u.Host) headersWithValue = append(headersWithValue, opts.Headers...) if opts.ContentType != "" { headersWithValue = append(headersWithValue, "content-type:"+strings.TrimSpace(opts.ContentType)) } if opts.MD5 != "" { headersWithValue = append(headersWithValue, "content-md5:"+strings.TrimSpace(opts.MD5)) } canonicalHeaders := strings.Join(sortHeadersByKey(headersWithValue), "\n") fmt.Fprintf(buf, "%s\n\n", canonicalHeaders) fmt.Fprintf(buf, "%s\n", signedHeaders) fmt.Fprint(buf, "UNSIGNED-PAYLOAD") sum := sha256.Sum256(buf.Bytes()) hexDigest := hex.EncodeToString(sum[:]) signBuf := &bytes.Buffer{} fmt.Fprint(signBuf, "GOOG4-RSA-SHA256\n") fmt.Fprintf(signBuf, "%s\n", timestamp) fmt.Fprintf(signBuf, "%s\n", credentialScope) fmt.Fprintf(signBuf, "%s", hexDigest) signBytes := opts.SignBytes if opts.PrivateKey != nil { key, err := parseKey(opts.PrivateKey) if err != nil { return "", err } signBytes = func(b []byte) ([]byte, error) { sum := sha256.Sum256(b) return rsa.SignPKCS1v15( rand.Reader, key, crypto.SHA256, sum[:], ) } } b, err := signBytes(signBuf.Bytes()) if err != nil { return "", err } signature := hex.EncodeToString(b) canonicalQueryString.Set("X-Goog-Signature", string(signature)) u.Scheme = "https" u.RawQuery = canonicalQueryString.Encode() return u.String(), nil } // takes a list of headerKey:headervalue1,headervalue2,etc and sorts by header // key. func sortHeadersByKey(hdrs []string) []string { headersMap := map[string]string{} var headersKeys []string for _, h := range hdrs { parts := strings.Split(h, ":") k := parts[0] v := parts[1] headersMap[k] = v headersKeys = append(headersKeys, k) } sort.Strings(headersKeys) var sorted []string for _, k := range headersKeys { v := headersMap[k] sorted = append(sorted, fmt.Sprintf("%s:%s", k, v)) } return sorted } func signedURLV2(bucket, name string, opts *SignedURLOptions) (string, error) { signBytes := opts.SignBytes if opts.PrivateKey != nil { key, err := parseKey(opts.PrivateKey) if err != nil { return "", err } signBytes = func(b []byte) ([]byte, error) { sum := sha256.Sum256(b) return rsa.SignPKCS1v15( rand.Reader, key, crypto.SHA256, sum[:], ) } } u := &url.URL{ Path: fmt.Sprintf("/%s/%s", bucket, name), } buf := &bytes.Buffer{} fmt.Fprintf(buf, "%s\n", opts.Method) fmt.Fprintf(buf, "%s\n", opts.MD5) fmt.Fprintf(buf, "%s\n", opts.ContentType) fmt.Fprintf(buf, "%d\n", opts.Expires.Unix()) if len(opts.Headers) > 0 { fmt.Fprintf(buf, "%s\n", strings.Join(opts.Headers, "\n")) } fmt.Fprintf(buf, "%s", u.String()) b, err := signBytes(buf.Bytes()) if err != nil { return "", err } encoded := base64.StdEncoding.EncodeToString(b) u.Scheme = "https" u.Host = "storage.googleapis.com" q := u.Query() q.Set("GoogleAccessId", opts.GoogleAccessID) q.Set("Expires", fmt.Sprintf("%d", opts.Expires.Unix())) q.Set("Signature", string(encoded)) u.RawQuery = q.Encode() return u.String(), nil } // ObjectHandle provides operations on an object in a Google Cloud Storage bucket. // Use BucketHandle.Object to get a handle. type ObjectHandle struct { c *Client bucket string object string acl ACLHandle gen int64 // a negative value indicates latest conds *Conditions encryptionKey []byte // AES-256 key userProject string // for requester-pays buckets readCompressed bool // Accept-Encoding: gzip } // ACL provides access to the object's access control list. // This controls who can read and write this object. // This call does not perform any network operations. func (o *ObjectHandle) ACL() *ACLHandle { return &o.acl } // Generation returns a new ObjectHandle that operates on a specific generation // of the object. // By default, the handle operates on the latest generation. Not // all operations work when given a specific generation; check the API // endpoints at https://cloud.google.com/storage/docs/json_api/ for details. func (o *ObjectHandle) Generation(gen int64) *ObjectHandle { o2 := *o o2.gen = gen return &o2 } // If returns a new ObjectHandle that applies a set of preconditions. // Preconditions already set on the ObjectHandle are ignored. // Operations on the new handle will return an error if the preconditions are not // satisfied. See https://cloud.google.com/storage/docs/generations-preconditions // for more details. func (o *ObjectHandle) If(conds Conditions) *ObjectHandle { o2 := *o o2.conds = &conds return &o2 } // Key returns a new ObjectHandle that uses the supplied encryption // key to encrypt and decrypt the object's contents. // // Encryption key must be a 32-byte AES-256 key. // See https://cloud.google.com/storage/docs/encryption for details. func (o *ObjectHandle) Key(encryptionKey []byte) *ObjectHandle { o2 := *o o2.encryptionKey = encryptionKey return &o2 } // Attrs returns meta information about the object. // ErrObjectNotExist will be returned if the object is not found. func (o *ObjectHandle) Attrs(ctx context.Context) (attrs *ObjectAttrs, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/storage.Object.Attrs") defer func() { trace.EndSpan(ctx, err) }() if err := o.validate(); err != nil { return nil, err } call := o.c.raw.Objects.Get(o.bucket, o.object).Projection("full").Context(ctx) if err := applyConds("Attrs", o.gen, o.conds, call); err != nil { return nil, err } if o.userProject != "" { call.UserProject(o.userProject) } if err := setEncryptionHeaders(call.Header(), o.encryptionKey, false); err != nil { return nil, err } var obj *raw.Object setClientHeader(call.Header()) err = runWithRetry(ctx, func() error { obj, err = call.Do(); return err }) if e, ok := err.(*googleapi.Error); ok && e.Code == http.StatusNotFound { return nil, ErrObjectNotExist } if err != nil { return nil, err } return newObject(obj), nil } // Update updates an object with the provided attributes. // All zero-value attributes are ignored. // ErrObjectNotExist will be returned if the object is not found. func (o *ObjectHandle) Update(ctx context.Context, uattrs ObjectAttrsToUpdate) (oa *ObjectAttrs, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/storage.Object.Update") defer func() { trace.EndSpan(ctx, err) }() if err := o.validate(); err != nil { return nil, err } var attrs ObjectAttrs // Lists of fields to send, and set to null, in the JSON. var forceSendFields, nullFields []string if uattrs.ContentType != nil { attrs.ContentType = optional.ToString(uattrs.ContentType) // For ContentType, sending the empty string is a no-op. // Instead we send a null. if attrs.ContentType == "" { nullFields = append(nullFields, "ContentType") } else { forceSendFields = append(forceSendFields, "ContentType") } } if uattrs.ContentLanguage != nil { attrs.ContentLanguage = optional.ToString(uattrs.ContentLanguage) // For ContentLanguage it's an error to send the empty string. // Instead we send a null. if attrs.ContentLanguage == "" { nullFields = append(nullFields, "ContentLanguage") } else { forceSendFields = append(forceSendFields, "ContentLanguage") } } if uattrs.ContentEncoding != nil { attrs.ContentEncoding = optional.ToString(uattrs.ContentEncoding) forceSendFields = append(forceSendFields, "ContentEncoding") } if uattrs.ContentDisposition != nil { attrs.ContentDisposition = optional.ToString(uattrs.ContentDisposition) forceSendFields = append(forceSendFields, "ContentDisposition") } if uattrs.CacheControl != nil { attrs.CacheControl = optional.ToString(uattrs.CacheControl) forceSendFields = append(forceSendFields, "CacheControl") } if uattrs.EventBasedHold != nil { attrs.EventBasedHold = optional.ToBool(uattrs.EventBasedHold) forceSendFields = append(forceSendFields, "EventBasedHold") } if uattrs.TemporaryHold != nil { attrs.TemporaryHold = optional.ToBool(uattrs.TemporaryHold) forceSendFields = append(forceSendFields, "TemporaryHold") } if uattrs.Metadata != nil { attrs.Metadata = uattrs.Metadata if len(attrs.Metadata) == 0 { // Sending the empty map is a no-op. We send null instead. nullFields = append(nullFields, "Metadata") } else { forceSendFields = append(forceSendFields, "Metadata") } } if uattrs.ACL != nil { attrs.ACL = uattrs.ACL // It's an error to attempt to delete the ACL, so // we don't append to nullFields here. forceSendFields = append(forceSendFields, "Acl") } rawObj := attrs.toRawObject(o.bucket) rawObj.ForceSendFields = forceSendFields rawObj.NullFields = nullFields call := o.c.raw.Objects.Patch(o.bucket, o.object, rawObj).Projection("full").Context(ctx) if err := applyConds("Update", o.gen, o.conds, call); err != nil { return nil, err } if o.userProject != "" { call.UserProject(o.userProject) } if uattrs.PredefinedACL != "" { call.PredefinedAcl(uattrs.PredefinedACL) } if err := setEncryptionHeaders(call.Header(), o.encryptionKey, false); err != nil { return nil, err } var obj *raw.Object setClientHeader(call.Header()) err = runWithRetry(ctx, func() error { obj, err = call.Do(); return err }) if e, ok := err.(*googleapi.Error); ok && e.Code == http.StatusNotFound { return nil, ErrObjectNotExist } if err != nil { return nil, err } return newObject(obj), nil } // BucketName returns the name of the bucket. func (o *ObjectHandle) BucketName() string { return o.bucket } // ObjectName returns the name of the object. func (o *ObjectHandle) ObjectName() string { return o.object } // ObjectAttrsToUpdate is used to update the attributes of an object. // Only fields set to non-nil values will be updated. // Set a field to its zero value to delete it. // // For example, to change ContentType and delete ContentEncoding and // Metadata, use // ObjectAttrsToUpdate{ // ContentType: "text/html", // ContentEncoding: "", // Metadata: map[string]string{}, // } type ObjectAttrsToUpdate struct { EventBasedHold optional.Bool TemporaryHold optional.Bool ContentType optional.String ContentLanguage optional.String ContentEncoding optional.String ContentDisposition optional.String CacheControl optional.String Metadata map[string]string // set to map[string]string{} to delete ACL []ACLRule // If not empty, applies a predefined set of access controls. ACL must be nil. // See https://cloud.google.com/storage/docs/json_api/v1/objects/patch. PredefinedACL string } // Delete deletes the single specified object. func (o *ObjectHandle) Delete(ctx context.Context) error { if err := o.validate(); err != nil { return err } call := o.c.raw.Objects.Delete(o.bucket, o.object).Context(ctx) if err := applyConds("Delete", o.gen, o.conds, call); err != nil { return err } if o.userProject != "" { call.UserProject(o.userProject) } // Encryption doesn't apply to Delete. setClientHeader(call.Header()) err := runWithRetry(ctx, func() error { return call.Do() }) switch e := err.(type) { case nil: return nil case *googleapi.Error: if e.Code == http.StatusNotFound { return ErrObjectNotExist } } return err } // ReadCompressed when true causes the read to happen without decompressing. func (o *ObjectHandle) ReadCompressed(compressed bool) *ObjectHandle { o2 := *o o2.readCompressed = compressed return &o2 } // NewWriter returns a storage Writer that writes to the GCS object // associated with this ObjectHandle. // // A new object will be created unless an object with this name already exists. // Otherwise any previous object with the same name will be replaced. // The object will not be available (and any previous object will remain) // until Close has been called. // // Attributes can be set on the object by modifying the returned Writer's // ObjectAttrs field before the first call to Write. If no ContentType // attribute is specified, the content type will be automatically sniffed // using net/http.DetectContentType. // // It is the caller's responsibility to call Close when writing is done. To // stop writing without saving the data, cancel the context. func (o *ObjectHandle) NewWriter(ctx context.Context) *Writer { return &Writer{ ctx: ctx, o: o, donec: make(chan struct{}), ObjectAttrs: ObjectAttrs{Name: o.object}, ChunkSize: googleapi.DefaultUploadChunkSize, } } func (o *ObjectHandle) validate() error { if o.bucket == "" { return errors.New("storage: bucket name is empty") } if o.object == "" { return errors.New("storage: object name is empty") } if !utf8.ValidString(o.object) { return fmt.Errorf("storage: object name %q is not valid UTF-8", o.object) } return nil } // parseKey converts the binary contents of a private key file to an // *rsa.PrivateKey. It detects whether the private key is in a PEM container or // not. If so, it extracts the private key from PEM container before // conversion. It only supports PEM containers with no passphrase. func parseKey(key []byte) (*rsa.PrivateKey, error) { if block, _ := pem.Decode(key); block != nil { key = block.Bytes } parsedKey, err := x509.ParsePKCS8PrivateKey(key) if err != nil { parsedKey, err = x509.ParsePKCS1PrivateKey(key) if err != nil { return nil, err } } parsed, ok := parsedKey.(*rsa.PrivateKey) if !ok { return nil, errors.New("oauth2: private key is invalid") } return parsed, nil } // toRawObject copies the editable attributes from o to the raw library's Object type. func (o *ObjectAttrs) toRawObject(bucket string) *raw.Object { var ret string if !o.RetentionExpirationTime.IsZero() { ret = o.RetentionExpirationTime.Format(time.RFC3339) } return &raw.Object{ Bucket: bucket, Name: o.Name, EventBasedHold: o.EventBasedHold, TemporaryHold: o.TemporaryHold, RetentionExpirationTime: ret, ContentType: o.ContentType, ContentEncoding: o.ContentEncoding, ContentLanguage: o.ContentLanguage, CacheControl: o.CacheControl, ContentDisposition: o.ContentDisposition, StorageClass: o.StorageClass, Acl: toRawObjectACL(o.ACL), Metadata: o.Metadata, } } // ObjectAttrs represents the metadata for a Google Cloud Storage (GCS) object. type ObjectAttrs struct { // Bucket is the name of the bucket containing this GCS object. // This field is read-only. Bucket string // Name is the name of the object within the bucket. // This field is read-only. Name string // ContentType is the MIME type of the object's content. ContentType string // ContentLanguage is the content language of the object's content. ContentLanguage string // CacheControl is the Cache-Control header to be sent in the response // headers when serving the object data. CacheControl string // EventBasedHold specifies whether an object is under event-based hold. New // objects created in a bucket whose DefaultEventBasedHold is set will // default to that value. EventBasedHold bool // TemporaryHold specifies whether an object is under temporary hold. While // this flag is set to true, the object is protected against deletion and // overwrites. TemporaryHold bool // RetentionExpirationTime is a server-determined value that specifies the // earliest time that the object's retention period expires. // This is a read-only field. RetentionExpirationTime time.Time // ACL is the list of access control rules for the object. ACL []ACLRule // If not empty, applies a predefined set of access controls. It should be set // only when writing, copying or composing an object. When copying or composing, // it acts as the destinationPredefinedAcl parameter. // PredefinedACL is always empty for ObjectAttrs returned from the service. // See https://cloud.google.com/storage/docs/json_api/v1/objects/insert // for valid values. PredefinedACL string // Owner is the owner of the object. This field is read-only. // // If non-zero, it is in the form of "user-". Owner string // Size is the length of the object's content. This field is read-only. Size int64 // ContentEncoding is the encoding of the object's content. ContentEncoding string // ContentDisposition is the optional Content-Disposition header of the object // sent in the response headers. ContentDisposition string // MD5 is the MD5 hash of the object's content. This field is read-only, // except when used from a Writer. If set on a Writer, the uploaded // data is rejected if its MD5 hash does not match this field. MD5 []byte // CRC32C is the CRC32 checksum of the object's content using // the Castagnoli93 polynomial. This field is read-only, except when // used from a Writer. If set on a Writer and Writer.SendCRC32C // is true, the uploaded data is rejected if its CRC32c hash does not // match this field. CRC32C uint32 // MediaLink is an URL to the object's content. This field is read-only. MediaLink string // Metadata represents user-provided metadata, in key/value pairs. // It can be nil if no metadata is provided. Metadata map[string]string // Generation is the generation number of the object's content. // This field is read-only. Generation int64 // Metageneration is the version of the metadata for this // object at this generation. This field is used for preconditions // and for detecting changes in metadata. A metageneration number // is only meaningful in the context of a particular generation // of a particular object. This field is read-only. Metageneration int64 // StorageClass is the storage class of the object. // This value defines how objects in the bucket are stored and // determines the SLA and the cost of storage. Typical values are // "NEARLINE", "COLDLINE" and "STANDARD". // It defaults to "STANDARD". StorageClass string // Created is the time the object was created. This field is read-only. Created time.Time // Deleted is the time the object was deleted. // If not deleted, it is the zero value. This field is read-only. Deleted time.Time // Updated is the creation or modification time of the object. // For buckets with versioning enabled, changing an object's // metadata does not change this property. This field is read-only. Updated time.Time // CustomerKeySHA256 is the base64-encoded SHA-256 hash of the // customer-supplied encryption key for the object. It is empty if there is // no customer-supplied encryption key. // See // https://cloud.google.com/storage/docs/encryption for more about // encryption in Google Cloud Storage. CustomerKeySHA256 string // Cloud KMS key name, in the form // projects/P/locations/L/keyRings/R/cryptoKeys/K, used to encrypt this object, // if the object is encrypted by such a key. // // Providing both a KMSKeyName and a customer-supplied encryption key (via // ObjectHandle.Key) will result in an error when writing an object. KMSKeyName string // Prefix is set only for ObjectAttrs which represent synthetic "directory // entries" when iterating over buckets using Query.Delimiter. See // ObjectIterator.Next. When set, no other fields in ObjectAttrs will be // populated. Prefix string // Etag is the HTTP/1.1 Entity tag for the object. // This field is read-only. Etag string } // convertTime converts a time in RFC3339 format to time.Time. // If any error occurs in parsing, the zero-value time.Time is silently returned. func convertTime(t string) time.Time { var r time.Time if t != "" { r, _ = time.Parse(time.RFC3339, t) } return r } func newObject(o *raw.Object) *ObjectAttrs { if o == nil { return nil } owner := "" if o.Owner != nil { owner = o.Owner.Entity } md5, _ := base64.StdEncoding.DecodeString(o.Md5Hash) crc32c, _ := decodeUint32(o.Crc32c) var sha256 string if o.CustomerEncryption != nil { sha256 = o.CustomerEncryption.KeySha256 } return &ObjectAttrs{ Bucket: o.Bucket, Name: o.Name, ContentType: o.ContentType, ContentLanguage: o.ContentLanguage, CacheControl: o.CacheControl, EventBasedHold: o.EventBasedHold, TemporaryHold: o.TemporaryHold, RetentionExpirationTime: convertTime(o.RetentionExpirationTime), ACL: toObjectACLRules(o.Acl), Owner: owner, ContentEncoding: o.ContentEncoding, ContentDisposition: o.ContentDisposition, Size: int64(o.Size), MD5: md5, CRC32C: crc32c, MediaLink: o.MediaLink, Metadata: o.Metadata, Generation: o.Generation, Metageneration: o.Metageneration, StorageClass: o.StorageClass, CustomerKeySHA256: sha256, KMSKeyName: o.KmsKeyName, Created: convertTime(o.TimeCreated), Deleted: convertTime(o.TimeDeleted), Updated: convertTime(o.Updated), Etag: o.Etag, } } // Decode a uint32 encoded in Base64 in big-endian byte order. func decodeUint32(b64 string) (uint32, error) { d, err := base64.StdEncoding.DecodeString(b64) if err != nil { return 0, err } if len(d) != 4 { return 0, fmt.Errorf("storage: %q does not encode a 32-bit value", d) } return uint32(d[0])<<24 + uint32(d[1])<<16 + uint32(d[2])<<8 + uint32(d[3]), nil } // Encode a uint32 as Base64 in big-endian byte order. func encodeUint32(u uint32) string { b := []byte{byte(u >> 24), byte(u >> 16), byte(u >> 8), byte(u)} return base64.StdEncoding.EncodeToString(b) } // Query represents a query to filter objects from a bucket. type Query struct { // Delimiter returns results in a directory-like fashion. // Results will contain only objects whose names, aside from the // prefix, do not contain delimiter. Objects whose names, // aside from the prefix, contain delimiter will have their name, // truncated after the delimiter, returned in prefixes. // Duplicate prefixes are omitted. // Optional. Delimiter string // Prefix is the prefix filter to query objects // whose names begin with this prefix. // Optional. Prefix string // Versions indicates whether multiple versions of the same // object will be included in the results. Versions bool } // Conditions constrain methods to act on specific generations of // objects. // // The zero value is an empty set of constraints. Not all conditions or // combinations of conditions are applicable to all methods. // See https://cloud.google.com/storage/docs/generations-preconditions // for details on how these operate. type Conditions struct { // Generation constraints. // At most one of the following can be set to a non-zero value. // GenerationMatch specifies that the object must have the given generation // for the operation to occur. // If GenerationMatch is zero, it has no effect. // Use DoesNotExist to specify that the object does not exist in the bucket. GenerationMatch int64 // GenerationNotMatch specifies that the object must not have the given // generation for the operation to occur. // If GenerationNotMatch is zero, it has no effect. GenerationNotMatch int64 // DoesNotExist specifies that the object must not exist in the bucket for // the operation to occur. // If DoesNotExist is false, it has no effect. DoesNotExist bool // Metadata generation constraints. // At most one of the following can be set to a non-zero value. // MetagenerationMatch specifies that the object must have the given // metageneration for the operation to occur. // If MetagenerationMatch is zero, it has no effect. MetagenerationMatch int64 // MetagenerationNotMatch specifies that the object must not have the given // metageneration for the operation to occur. // If MetagenerationNotMatch is zero, it has no effect. MetagenerationNotMatch int64 } func (c *Conditions) validate(method string) error { if *c == (Conditions{}) { return fmt.Errorf("storage: %s: empty conditions", method) } if !c.isGenerationValid() { return fmt.Errorf("storage: %s: multiple conditions specified for generation", method) } if !c.isMetagenerationValid() { return fmt.Errorf("storage: %s: multiple conditions specified for metageneration", method) } return nil } func (c *Conditions) isGenerationValid() bool { n := 0 if c.GenerationMatch != 0 { n++ } if c.GenerationNotMatch != 0 { n++ } if c.DoesNotExist { n++ } return n <= 1 } func (c *Conditions) isMetagenerationValid() bool { return c.MetagenerationMatch == 0 || c.MetagenerationNotMatch == 0 } // applyConds modifies the provided call using the conditions in conds. // call is something that quacks like a *raw.WhateverCall. func applyConds(method string, gen int64, conds *Conditions, call interface{}) error { cval := reflect.ValueOf(call) if gen >= 0 { if !setConditionField(cval, "Generation", gen) { return fmt.Errorf("storage: %s: generation not supported", method) } } if conds == nil { return nil } if err := conds.validate(method); err != nil { return err } switch { case conds.GenerationMatch != 0: if !setConditionField(cval, "IfGenerationMatch", conds.GenerationMatch) { return fmt.Errorf("storage: %s: ifGenerationMatch not supported", method) } case conds.GenerationNotMatch != 0: if !setConditionField(cval, "IfGenerationNotMatch", conds.GenerationNotMatch) { return fmt.Errorf("storage: %s: ifGenerationNotMatch not supported", method) } case conds.DoesNotExist: if !setConditionField(cval, "IfGenerationMatch", int64(0)) { return fmt.Errorf("storage: %s: DoesNotExist not supported", method) } } switch { case conds.MetagenerationMatch != 0: if !setConditionField(cval, "IfMetagenerationMatch", conds.MetagenerationMatch) { return fmt.Errorf("storage: %s: ifMetagenerationMatch not supported", method) } case conds.MetagenerationNotMatch != 0: if !setConditionField(cval, "IfMetagenerationNotMatch", conds.MetagenerationNotMatch) { return fmt.Errorf("storage: %s: ifMetagenerationNotMatch not supported", method) } } return nil } func applySourceConds(gen int64, conds *Conditions, call *raw.ObjectsRewriteCall) error { if gen >= 0 { call.SourceGeneration(gen) } if conds == nil { return nil } if err := conds.validate("CopyTo source"); err != nil { return err } switch { case conds.GenerationMatch != 0: call.IfSourceGenerationMatch(conds.GenerationMatch) case conds.GenerationNotMatch != 0: call.IfSourceGenerationNotMatch(conds.GenerationNotMatch) case conds.DoesNotExist: call.IfSourceGenerationMatch(0) } switch { case conds.MetagenerationMatch != 0: call.IfSourceMetagenerationMatch(conds.MetagenerationMatch) case conds.MetagenerationNotMatch != 0: call.IfSourceMetagenerationNotMatch(conds.MetagenerationNotMatch) } return nil } // setConditionField sets a field on a *raw.WhateverCall. // We can't use anonymous interfaces because the return type is // different, since the field setters are builders. func setConditionField(call reflect.Value, name string, value interface{}) bool { m := call.MethodByName(name) if !m.IsValid() { return false } m.Call([]reflect.Value{reflect.ValueOf(value)}) return true } // conditionsQuery returns the generation and conditions as a URL query // string suitable for URL.RawQuery. It assumes that the conditions // have been validated. func conditionsQuery(gen int64, conds *Conditions) string { // URL escapes are elided because integer strings are URL-safe. var buf []byte appendParam := func(s string, n int64) { if len(buf) > 0 { buf = append(buf, '&') } buf = append(buf, s...) buf = strconv.AppendInt(buf, n, 10) } if gen >= 0 { appendParam("generation=", gen) } if conds == nil { return string(buf) } switch { case conds.GenerationMatch != 0: appendParam("ifGenerationMatch=", conds.GenerationMatch) case conds.GenerationNotMatch != 0: appendParam("ifGenerationNotMatch=", conds.GenerationNotMatch) case conds.DoesNotExist: appendParam("ifGenerationMatch=", 0) } switch { case conds.MetagenerationMatch != 0: appendParam("ifMetagenerationMatch=", conds.MetagenerationMatch) case conds.MetagenerationNotMatch != 0: appendParam("ifMetagenerationNotMatch=", conds.MetagenerationNotMatch) } return string(buf) } // composeSourceObj wraps a *raw.ComposeRequestSourceObjects, but adds the methods // that modifyCall searches for by name. type composeSourceObj struct { src *raw.ComposeRequestSourceObjects } func (c composeSourceObj) Generation(gen int64) { c.src.Generation = gen } func (c composeSourceObj) IfGenerationMatch(gen int64) { // It's safe to overwrite ObjectPreconditions, since its only field is // IfGenerationMatch. c.src.ObjectPreconditions = &raw.ComposeRequestSourceObjectsObjectPreconditions{ IfGenerationMatch: gen, } } func setEncryptionHeaders(headers http.Header, key []byte, copySource bool) error { if key == nil { return nil } // TODO(jbd): Ask the API team to return a more user-friendly error // and avoid doing this check at the client level. if len(key) != 32 { return errors.New("storage: not a 32-byte AES-256 key") } var cs string if copySource { cs = "copy-source-" } headers.Set("x-goog-"+cs+"encryption-algorithm", "AES256") headers.Set("x-goog-"+cs+"encryption-key", base64.StdEncoding.EncodeToString(key)) keyHash := sha256.Sum256(key) headers.Set("x-goog-"+cs+"encryption-key-sha256", base64.StdEncoding.EncodeToString(keyHash[:])) return nil } // ServiceAccount fetches the email address of the given project's Google Cloud Storage service account. func (c *Client) ServiceAccount(ctx context.Context, projectID string) (string, error) { r := c.raw.Projects.ServiceAccount.Get(projectID) res, err := r.Context(ctx).Do() if err != nil { return "", err } return res.EmailAddress, nil }