// Copyright 2022 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 ( "context" "encoding/base64" "fmt" "io" "net/url" "os" "cloud.google.com/go/internal/trace" gapic "cloud.google.com/go/storage/internal/apiv2" storagepb "cloud.google.com/go/storage/internal/apiv2/stubs" "github.com/googleapis/gax-go/v2" "google.golang.org/api/iterator" "google.golang.org/api/option" "google.golang.org/api/option/internaloption" iampb "google.golang.org/genproto/googleapis/iam/v1" "google.golang.org/grpc" "google.golang.org/grpc/codes" "google.golang.org/grpc/metadata" "google.golang.org/grpc/status" "google.golang.org/protobuf/proto" fieldmaskpb "google.golang.org/protobuf/types/known/fieldmaskpb" ) const ( // defaultConnPoolSize is the default number of connections // to initialize in the GAPIC gRPC connection pool. A larger // connection pool may be necessary for jobs that require // high throughput and/or leverage many concurrent streams. // // This is only used for the gRPC client. defaultConnPoolSize = 4 // maxPerMessageWriteSize is the maximum amount of content that can be sent // per WriteObjectRequest message. A buffer reaching this amount will // precipitate a flush of the buffer. It is only used by the gRPC Writer // implementation. maxPerMessageWriteSize int = int(storagepb.ServiceConstants_MAX_WRITE_CHUNK_BYTES) // globalProjectAlias is the project ID alias used for global buckets. // // This is only used for the gRPC API. globalProjectAlias = "_" // msgEntityNotSupported indicates ACL entites using project ID are not currently supported. // // This is only used for the gRPC API. msgEntityNotSupported = "The gRPC API currently does not support ACL entities using project ID, use project numbers instead" ) // defaultGRPCOptions returns a set of the default client options // for gRPC client initialization. func defaultGRPCOptions() []option.ClientOption { defaults := []option.ClientOption{ option.WithGRPCConnectionPool(defaultConnPoolSize), } // Set emulator options for gRPC if an emulator was specified. Note that in a // hybrid client, STORAGE_EMULATOR_HOST will set the host to use for HTTP and // STORAGE_EMULATOR_HOST_GRPC will set the host to use for gRPC (when using a // local emulator, HTTP and gRPC must use different ports, so this is // necessary). // // TODO: When the newHybridClient is not longer used, remove // STORAGE_EMULATOR_HOST_GRPC and use STORAGE_EMULATOR_HOST for both the // HTTP and gRPC based clients. if host := os.Getenv("STORAGE_EMULATOR_HOST_GRPC"); host != "" { // Strip the scheme from the emulator host. WithEndpoint does not take a // scheme for gRPC. host = stripScheme(host) defaults = append(defaults, option.WithEndpoint(host), option.WithGRPCDialOption(grpc.WithInsecure()), option.WithoutAuthentication(), ) } else { // Only enable DirectPath when the emulator is not being targeted. defaults = append(defaults, internaloption.EnableDirectPath(true)) } return defaults } // grpcStorageClient is the gRPC API implementation of the transport-agnostic // storageClient interface. type grpcStorageClient struct { raw *gapic.Client settings *settings } // newGRPCStorageClient initializes a new storageClient that uses the gRPC // Storage API. func newGRPCStorageClient(ctx context.Context, opts ...storageOption) (storageClient, error) { s := initSettings(opts...) s.clientOption = append(defaultGRPCOptions(), s.clientOption...) g, err := gapic.NewClient(ctx, s.clientOption...) if err != nil { return nil, err } return &grpcStorageClient{ raw: g, settings: s, }, nil } func (c *grpcStorageClient) Close() error { return c.raw.Close() } // Top-level methods. func (c *grpcStorageClient) GetServiceAccount(ctx context.Context, project string, opts ...storageOption) (string, error) { s := callSettings(c.settings, opts...) req := &storagepb.GetServiceAccountRequest{ Project: toProjectResource(project), } var resp *storagepb.ServiceAccount err := run(ctx, func() error { var err error resp, err = c.raw.GetServiceAccount(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return "", err } return resp.EmailAddress, err } func (c *grpcStorageClient) CreateBucket(ctx context.Context, project, bucket string, attrs *BucketAttrs, opts ...storageOption) (*BucketAttrs, error) { s := callSettings(c.settings, opts...) b := attrs.toProtoBucket() b.Name = bucket // If there is lifecycle information but no location, explicitly set // the location. This is a GCS quirk/bug. if b.GetLocation() == "" && b.GetLifecycle() != nil { b.Location = "US" } req := &storagepb.CreateBucketRequest{ Parent: toProjectResource(project), Bucket: b, BucketId: b.GetName(), } if attrs != nil { req.PredefinedAcl = attrs.PredefinedACL req.PredefinedDefaultObjectAcl = attrs.PredefinedDefaultObjectACL } var battrs *BucketAttrs err := run(ctx, func() error { res, err := c.raw.CreateBucket(ctx, req, s.gax...) battrs = newBucketFromProto(res) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) return battrs, err } func (c *grpcStorageClient) ListBuckets(ctx context.Context, project string, opts ...storageOption) *BucketIterator { s := callSettings(c.settings, opts...) it := &BucketIterator{ ctx: ctx, projectID: project, } var gitr *gapic.BucketIterator fetch := func(pageSize int, pageToken string) (token string, err error) { // Initialize GAPIC-based iterator when pageToken is empty, which // indicates that this fetch call is attempting to get the first page. // // Note: Initializing the GAPIC-based iterator lazily is necessary to // capture the BucketIterator.Prefix set by the user *after* the // BucketIterator is returned to them from the veneer. if pageToken == "" { req := &storagepb.ListBucketsRequest{ Parent: toProjectResource(it.projectID), Prefix: it.Prefix, } gitr = c.raw.ListBuckets(it.ctx, req, s.gax...) } var buckets []*storagepb.Bucket var next string err = run(it.ctx, func() error { buckets, next, err = gitr.InternalFetch(pageSize, pageToken) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return "", err } for _, bkt := range buckets { b := newBucketFromProto(bkt) it.buckets = append(it.buckets, b) } return next, nil } it.pageInfo, it.nextFunc = iterator.NewPageInfo( fetch, func() int { return len(it.buckets) }, func() interface{} { b := it.buckets; it.buckets = nil; return b }) return it } // Bucket methods. func (c *grpcStorageClient) DeleteBucket(ctx context.Context, bucket string, conds *BucketConditions, opts ...storageOption) error { s := callSettings(c.settings, opts...) req := &storagepb.DeleteBucketRequest{ Name: bucketResourceName(globalProjectAlias, bucket), } if err := applyBucketCondsProto("grpcStorageClient.DeleteBucket", conds, req); err != nil { return err } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } return run(ctx, func() error { return c.raw.DeleteBucket(ctx, req, s.gax...) }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) } func (c *grpcStorageClient) GetBucket(ctx context.Context, bucket string, conds *BucketConditions, opts ...storageOption) (*BucketAttrs, error) { s := callSettings(c.settings, opts...) req := &storagepb.GetBucketRequest{ Name: bucketResourceName(globalProjectAlias, bucket), ReadMask: &fieldmaskpb.FieldMask{Paths: []string{"*"}}, } if err := applyBucketCondsProto("grpcStorageClient.GetBucket", conds, req); err != nil { return nil, err } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } var battrs *BucketAttrs err := run(ctx, func() error { res, err := c.raw.GetBucket(ctx, req, s.gax...) battrs = newBucketFromProto(res) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if s, ok := status.FromError(err); ok && s.Code() == codes.NotFound { return nil, ErrBucketNotExist } return battrs, err } func (c *grpcStorageClient) UpdateBucket(ctx context.Context, bucket string, uattrs *BucketAttrsToUpdate, conds *BucketConditions, opts ...storageOption) (*BucketAttrs, error) { s := callSettings(c.settings, opts...) b := uattrs.toProtoBucket() b.Name = bucketResourceName(globalProjectAlias, bucket) req := &storagepb.UpdateBucketRequest{ Bucket: b, PredefinedAcl: uattrs.PredefinedACL, PredefinedDefaultObjectAcl: uattrs.PredefinedDefaultObjectACL, } if err := applyBucketCondsProto("grpcStorageClient.UpdateBucket", conds, req); err != nil { return nil, err } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } var paths []string fieldMask := &fieldmaskpb.FieldMask{ Paths: paths, } if uattrs.CORS != nil { fieldMask.Paths = append(fieldMask.Paths, "cors") } if uattrs.DefaultEventBasedHold != nil { fieldMask.Paths = append(fieldMask.Paths, "default_event_based_hold") } if uattrs.RetentionPolicy != nil { fieldMask.Paths = append(fieldMask.Paths, "retention_policy") } if uattrs.VersioningEnabled != nil { fieldMask.Paths = append(fieldMask.Paths, "versioning") } if uattrs.RequesterPays != nil { fieldMask.Paths = append(fieldMask.Paths, "billing") } if uattrs.BucketPolicyOnly != nil || uattrs.UniformBucketLevelAccess != nil || uattrs.PublicAccessPrevention != PublicAccessPreventionUnknown { fieldMask.Paths = append(fieldMask.Paths, "iam_config") } if uattrs.Encryption != nil { fieldMask.Paths = append(fieldMask.Paths, "encryption") } if uattrs.Lifecycle != nil { fieldMask.Paths = append(fieldMask.Paths, "lifecycle") } if uattrs.Logging != nil { fieldMask.Paths = append(fieldMask.Paths, "logging") } if uattrs.Website != nil { fieldMask.Paths = append(fieldMask.Paths, "website") } if uattrs.PredefinedACL != "" { // In cases where PredefinedACL is set, Acl is cleared. fieldMask.Paths = append(fieldMask.Paths, "acl") } if uattrs.PredefinedDefaultObjectACL != "" { // In cases where PredefinedDefaultObjectACL is set, DefaultObjectAcl is cleared. fieldMask.Paths = append(fieldMask.Paths, "default_object_acl") } // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. if uattrs.acl != nil { // In cases where acl is set by UpdateBucketACL method. fieldMask.Paths = append(fieldMask.Paths, "acl") } if uattrs.defaultObjectACL != nil { // In cases where defaultObjectACL is set by UpdateBucketACL method. fieldMask.Paths = append(fieldMask.Paths, "default_object_acl") } if uattrs.StorageClass != "" { fieldMask.Paths = append(fieldMask.Paths, "storage_class") } if uattrs.RPO != RPOUnknown { fieldMask.Paths = append(fieldMask.Paths, "rpo") } if uattrs.Autoclass != nil { fieldMask.Paths = append(fieldMask.Paths, "autoclass") } // TODO(cathyo): Handle labels. Pending b/230510191. req.UpdateMask = fieldMask var battrs *BucketAttrs err := run(ctx, func() error { res, err := c.raw.UpdateBucket(ctx, req, s.gax...) battrs = newBucketFromProto(res) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) return battrs, err } func (c *grpcStorageClient) LockBucketRetentionPolicy(ctx context.Context, bucket string, conds *BucketConditions, opts ...storageOption) error { s := callSettings(c.settings, opts...) req := &storagepb.LockBucketRetentionPolicyRequest{ Bucket: bucketResourceName(globalProjectAlias, bucket), } if err := applyBucketCondsProto("grpcStorageClient.LockBucketRetentionPolicy", conds, req); err != nil { return err } return run(ctx, func() error { _, err := c.raw.LockBucketRetentionPolicy(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) } func (c *grpcStorageClient) ListObjects(ctx context.Context, bucket string, q *Query, opts ...storageOption) *ObjectIterator { s := callSettings(c.settings, opts...) it := &ObjectIterator{ ctx: ctx, } if q != nil { it.query = *q } req := &storagepb.ListObjectsRequest{ Parent: bucketResourceName(globalProjectAlias, bucket), Prefix: it.query.Prefix, Delimiter: it.query.Delimiter, Versions: it.query.Versions, LexicographicStart: it.query.StartOffset, LexicographicEnd: it.query.EndOffset, IncludeTrailingDelimiter: it.query.IncludeTrailingDelimiter, ReadMask: q.toFieldMask(), // a nil Query still results in a "*" FieldMask } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } gitr := c.raw.ListObjects(it.ctx, req, s.gax...) fetch := func(pageSize int, pageToken string) (token string, err error) { var objects []*storagepb.Object err = run(it.ctx, func() error { objects, token, err = gitr.InternalFetch(pageSize, pageToken) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { if st, ok := status.FromError(err); ok && st.Code() == codes.NotFound { err = ErrBucketNotExist } return "", err } for _, obj := range objects { b := newObjectFromProto(obj) it.items = append(it.items, b) } // Response is always non-nil after a successful request. res := gitr.Response.(*storagepb.ListObjectsResponse) for _, prefix := range res.GetPrefixes() { it.items = append(it.items, &ObjectAttrs{Prefix: prefix}) } return token, nil } it.pageInfo, it.nextFunc = iterator.NewPageInfo( fetch, func() int { return len(it.items) }, func() interface{} { b := it.items; it.items = nil; return b }) return it } // Object metadata methods. func (c *grpcStorageClient) DeleteObject(ctx context.Context, bucket, object string, gen int64, conds *Conditions, opts ...storageOption) error { s := callSettings(c.settings, opts...) req := &storagepb.DeleteObjectRequest{ Bucket: bucketResourceName(globalProjectAlias, bucket), Object: object, } if err := applyCondsProto("grpcStorageClient.DeleteObject", gen, conds, req); err != nil { return err } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } err := run(ctx, func() error { return c.raw.DeleteObject(ctx, req, s.gax...) }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if s, ok := status.FromError(err); ok && s.Code() == codes.NotFound { return ErrObjectNotExist } return err } func (c *grpcStorageClient) GetObject(ctx context.Context, bucket, object string, gen int64, encryptionKey []byte, conds *Conditions, opts ...storageOption) (*ObjectAttrs, error) { s := callSettings(c.settings, opts...) req := &storagepb.GetObjectRequest{ Bucket: bucketResourceName(globalProjectAlias, bucket), Object: object, // ProjectionFull by default. ReadMask: &fieldmaskpb.FieldMask{Paths: []string{"*"}}, } if err := applyCondsProto("grpcStorageClient.GetObject", gen, conds, req); err != nil { return nil, err } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } if encryptionKey != nil { req.CommonObjectRequestParams = toProtoCommonObjectRequestParams(encryptionKey) } var attrs *ObjectAttrs err := run(ctx, func() error { res, err := c.raw.GetObject(ctx, req, s.gax...) attrs = newObjectFromProto(res) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if s, ok := status.FromError(err); ok && s.Code() == codes.NotFound { return nil, ErrObjectNotExist } return attrs, err } func (c *grpcStorageClient) UpdateObject(ctx context.Context, bucket, object string, uattrs *ObjectAttrsToUpdate, gen int64, encryptionKey []byte, conds *Conditions, opts ...storageOption) (*ObjectAttrs, error) { s := callSettings(c.settings, opts...) o := uattrs.toProtoObject(bucketResourceName(globalProjectAlias, bucket), object) req := &storagepb.UpdateObjectRequest{ Object: o, PredefinedAcl: uattrs.PredefinedACL, } if err := applyCondsProto("grpcStorageClient.UpdateObject", gen, conds, req); err != nil { return nil, err } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } if encryptionKey != nil { req.CommonObjectRequestParams = toProtoCommonObjectRequestParams(encryptionKey) } fieldMask := &fieldmaskpb.FieldMask{Paths: nil} if uattrs.EventBasedHold != nil { fieldMask.Paths = append(fieldMask.Paths, "event_based_hold") } if uattrs.TemporaryHold != nil { fieldMask.Paths = append(fieldMask.Paths, "temporary_hold") } if uattrs.ContentType != nil { fieldMask.Paths = append(fieldMask.Paths, "content_type") } if uattrs.ContentLanguage != nil { fieldMask.Paths = append(fieldMask.Paths, "content_language") } if uattrs.ContentEncoding != nil { fieldMask.Paths = append(fieldMask.Paths, "content_encoding") } if uattrs.ContentDisposition != nil { fieldMask.Paths = append(fieldMask.Paths, "content_disposition") } if uattrs.CacheControl != nil { fieldMask.Paths = append(fieldMask.Paths, "cache_control") } if !uattrs.CustomTime.IsZero() { fieldMask.Paths = append(fieldMask.Paths, "custom_time") } // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. if uattrs.ACL != nil || len(uattrs.PredefinedACL) > 0 { fieldMask.Paths = append(fieldMask.Paths, "acl") } // TODO(cathyo): Handle metadata. Pending b/230510191. req.UpdateMask = fieldMask var attrs *ObjectAttrs err := run(ctx, func() error { res, err := c.raw.UpdateObject(ctx, req, s.gax...) attrs = newObjectFromProto(res) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if e, ok := status.FromError(err); ok && e.Code() == codes.NotFound { return nil, ErrObjectNotExist } return attrs, err } // Default Object ACL methods. func (c *grpcStorageClient) DeleteDefaultObjectACL(ctx context.Context, bucket string, entity ACLEntity, opts ...storageOption) error { // There is no separate API for PATCH in gRPC. // Make a GET call first to retrieve BucketAttrs. attrs, err := c.GetBucket(ctx, bucket, nil, opts...) if err != nil { return err } // Delete the entity and copy other remaining ACL entities. // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. // Return error if entity is not found or a project ID is used. invalidEntity := true var acl []ACLRule for _, a := range attrs.DefaultObjectACL { if a.Entity != entity { acl = append(acl, a) } if a.Entity == entity { invalidEntity = false } } if invalidEntity { return fmt.Errorf("storage: entity %v was not found on bucket %v, got %v. %v", entity, bucket, attrs.DefaultObjectACL, msgEntityNotSupported) } uattrs := &BucketAttrsToUpdate{defaultObjectACL: acl} // Call UpdateBucket with a MetagenerationMatch precondition set. if _, err = c.UpdateBucket(ctx, bucket, uattrs, &BucketConditions{MetagenerationMatch: attrs.MetaGeneration}, opts...); err != nil { return err } return nil } func (c *grpcStorageClient) ListDefaultObjectACLs(ctx context.Context, bucket string, opts ...storageOption) ([]ACLRule, error) { attrs, err := c.GetBucket(ctx, bucket, nil, opts...) if err != nil { return nil, err } return attrs.DefaultObjectACL, nil } func (c *grpcStorageClient) UpdateDefaultObjectACL(ctx context.Context, bucket string, entity ACLEntity, role ACLRole, opts ...storageOption) error { // There is no separate API for PATCH in gRPC. // Make a GET call first to retrieve BucketAttrs. attrs, err := c.GetBucket(ctx, bucket, nil, opts...) if err != nil { return err } // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. var acl []ACLRule aclRule := ACLRule{Entity: entity, Role: role} acl = append(attrs.DefaultObjectACL, aclRule) uattrs := &BucketAttrsToUpdate{defaultObjectACL: acl} // Call UpdateBucket with a MetagenerationMatch precondition set. if _, err = c.UpdateBucket(ctx, bucket, uattrs, &BucketConditions{MetagenerationMatch: attrs.MetaGeneration}, opts...); err != nil { return err } return nil } // Bucket ACL methods. func (c *grpcStorageClient) DeleteBucketACL(ctx context.Context, bucket string, entity ACLEntity, opts ...storageOption) error { // There is no separate API for PATCH in gRPC. // Make a GET call first to retrieve BucketAttrs. attrs, err := c.GetBucket(ctx, bucket, nil, opts...) if err != nil { return err } // Delete the entity and copy other remaining ACL entities. // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. // Return error if entity is not found or a project ID is used. invalidEntity := true var acl []ACLRule for _, a := range attrs.ACL { if a.Entity != entity { acl = append(acl, a) } if a.Entity == entity { invalidEntity = false } } if invalidEntity { return fmt.Errorf("storage: entity %v was not found on bucket %v, got %v. %v", entity, bucket, attrs.ACL, msgEntityNotSupported) } uattrs := &BucketAttrsToUpdate{acl: acl} // Call UpdateBucket with a MetagenerationMatch precondition set. if _, err = c.UpdateBucket(ctx, bucket, uattrs, &BucketConditions{MetagenerationMatch: attrs.MetaGeneration}, opts...); err != nil { return err } return nil } func (c *grpcStorageClient) ListBucketACLs(ctx context.Context, bucket string, opts ...storageOption) ([]ACLRule, error) { attrs, err := c.GetBucket(ctx, bucket, nil, opts...) if err != nil { return nil, err } return attrs.ACL, nil } func (c *grpcStorageClient) UpdateBucketACL(ctx context.Context, bucket string, entity ACLEntity, role ACLRole, opts ...storageOption) error { // There is no separate API for PATCH in gRPC. // Make a GET call first to retrieve BucketAttrs. attrs, err := c.GetBucket(ctx, bucket, nil, opts...) if err != nil { return err } // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. var acl []ACLRule aclRule := ACLRule{Entity: entity, Role: role} acl = append(attrs.ACL, aclRule) uattrs := &BucketAttrsToUpdate{acl: acl} // Call UpdateBucket with a MetagenerationMatch precondition set. if _, err = c.UpdateBucket(ctx, bucket, uattrs, &BucketConditions{MetagenerationMatch: attrs.MetaGeneration}, opts...); err != nil { return err } return nil } // Object ACL methods. func (c *grpcStorageClient) DeleteObjectACL(ctx context.Context, bucket, object string, entity ACLEntity, opts ...storageOption) error { // There is no separate API for PATCH in gRPC. // Make a GET call first to retrieve ObjectAttrs. attrs, err := c.GetObject(ctx, bucket, object, defaultGen, nil, nil, opts...) if err != nil { return err } // Delete the entity and copy other remaining ACL entities. // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. // Return error if entity is not found or a project ID is used. invalidEntity := true var acl []ACLRule for _, a := range attrs.ACL { if a.Entity != entity { acl = append(acl, a) } if a.Entity == entity { invalidEntity = false } } if invalidEntity { return fmt.Errorf("storage: entity %v was not found on bucket %v, got %v. %v", entity, bucket, attrs.ACL, msgEntityNotSupported) } uattrs := &ObjectAttrsToUpdate{ACL: acl} // Call UpdateObject with the specified metageneration. if _, err = c.UpdateObject(ctx, bucket, object, uattrs, defaultGen, nil, &Conditions{MetagenerationMatch: attrs.Metageneration}, opts...); err != nil { return err } return nil } // ListObjectACLs retrieves object ACL entries. By default, it operates on the latest generation of this object. // Selecting a specific generation of this object is not currently supported by the client. func (c *grpcStorageClient) ListObjectACLs(ctx context.Context, bucket, object string, opts ...storageOption) ([]ACLRule, error) { o, err := c.GetObject(ctx, bucket, object, defaultGen, nil, nil, opts...) if err != nil { return nil, err } return o.ACL, nil } func (c *grpcStorageClient) UpdateObjectACL(ctx context.Context, bucket, object string, entity ACLEntity, role ACLRole, opts ...storageOption) error { // There is no separate API for PATCH in gRPC. // Make a GET call first to retrieve ObjectAttrs. attrs, err := c.GetObject(ctx, bucket, object, defaultGen, nil, nil, opts...) if err != nil { return err } // Note: This API currently does not support entites using project ID. // Use project numbers in ACL entities. Pending b/233617896. var acl []ACLRule aclRule := ACLRule{Entity: entity, Role: role} acl = append(attrs.ACL, aclRule) uattrs := &ObjectAttrsToUpdate{ACL: acl} // Call UpdateObject with the specified metageneration. if _, err = c.UpdateObject(ctx, bucket, object, uattrs, defaultGen, nil, &Conditions{MetagenerationMatch: attrs.Metageneration}, opts...); err != nil { return err } return nil } // Media operations. func (c *grpcStorageClient) ComposeObject(ctx context.Context, req *composeObjectRequest, opts ...storageOption) (*ObjectAttrs, error) { s := callSettings(c.settings, opts...) if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } dstObjPb := req.dstObject.attrs.toProtoObject(req.dstBucket) dstObjPb.Name = req.dstObject.name if err := applyCondsProto("ComposeObject destination", defaultGen, req.dstObject.conds, dstObjPb); err != nil { return nil, err } if req.sendCRC32C { dstObjPb.Checksums.Crc32C = &req.dstObject.attrs.CRC32C } srcs := []*storagepb.ComposeObjectRequest_SourceObject{} for _, src := range req.srcs { srcObjPb := &storagepb.ComposeObjectRequest_SourceObject{Name: src.name} if err := applyCondsProto("ComposeObject source", src.gen, src.conds, srcObjPb); err != nil { return nil, err } srcs = append(srcs, srcObjPb) } rawReq := &storagepb.ComposeObjectRequest{ Destination: dstObjPb, SourceObjects: srcs, } if req.predefinedACL != "" { rawReq.DestinationPredefinedAcl = req.predefinedACL } if req.dstObject.encryptionKey != nil { rawReq.CommonObjectRequestParams = toProtoCommonObjectRequestParams(req.dstObject.encryptionKey) } var obj *storagepb.Object var err error if err := run(ctx, func() error { obj, err = c.raw.ComposeObject(ctx, rawReq, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)); err != nil { return nil, err } return newObjectFromProto(obj), nil } func (c *grpcStorageClient) RewriteObject(ctx context.Context, req *rewriteObjectRequest, opts ...storageOption) (*rewriteObjectResponse, error) { s := callSettings(c.settings, opts...) obj := req.dstObject.attrs.toProtoObject("") call := &storagepb.RewriteObjectRequest{ SourceBucket: bucketResourceName(globalProjectAlias, req.srcObject.bucket), SourceObject: req.srcObject.name, RewriteToken: req.token, DestinationBucket: bucketResourceName(globalProjectAlias, req.dstObject.bucket), DestinationName: req.dstObject.name, Destination: obj, DestinationKmsKey: req.dstObject.keyName, DestinationPredefinedAcl: req.predefinedACL, } // The userProject, whether source or destination project, is decided by the code calling the interface. if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } if err := applyCondsProto("Copy destination", defaultGen, req.dstObject.conds, call); err != nil { return nil, err } if err := applySourceCondsProto(req.srcObject.gen, req.srcObject.conds, call); err != nil { return nil, err } if len(req.dstObject.encryptionKey) > 0 { call.CommonObjectRequestParams = toProtoCommonObjectRequestParams(req.dstObject.encryptionKey) } if len(req.srcObject.encryptionKey) > 0 { srcParams := toProtoCommonObjectRequestParams(req.srcObject.encryptionKey) call.CopySourceEncryptionAlgorithm = srcParams.GetEncryptionAlgorithm() call.CopySourceEncryptionKeyBytes = srcParams.GetEncryptionKeyBytes() call.CopySourceEncryptionKeySha256Bytes = srcParams.GetEncryptionKeySha256Bytes() } call.MaxBytesRewrittenPerCall = req.maxBytesRewrittenPerCall var res *storagepb.RewriteResponse var err error retryCall := func() error { res, err = c.raw.RewriteObject(ctx, call, s.gax...); return err } if err := run(ctx, retryCall, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)); err != nil { return nil, err } r := &rewriteObjectResponse{ done: res.GetDone(), written: res.GetTotalBytesRewritten(), size: res.GetObjectSize(), token: res.GetRewriteToken(), resource: newObjectFromProto(res.GetResource()), } return r, nil } func (c *grpcStorageClient) NewRangeReader(ctx context.Context, params *newRangeReaderParams, opts ...storageOption) (r *Reader, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/storage.grpcStorageClient.NewRangeReader") defer func() { trace.EndSpan(ctx, err) }() s := callSettings(c.settings, opts...) if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } // A negative length means "read to the end of the object", but the // read_limit field it corresponds to uses zero to mean the same thing. Thus // we coerce the length to 0 to read to the end of the object. if params.length < 0 { params.length = 0 } b := bucketResourceName(globalProjectAlias, params.bucket) // TODO(noahdietz): Use encryptionKey to set relevant request fields. req := &storagepb.ReadObjectRequest{ Bucket: b, Object: params.object, } // The default is a negative value, which means latest. if params.gen >= 0 { req.Generation = params.gen } // Define a function that initiates a Read with offset and length, assuming // we have already read seen bytes. reopen := func(seen int64) (*readStreamResponse, context.CancelFunc, error) { // If the context has already expired, return immediately without making // we call. if err := ctx.Err(); err != nil { return nil, nil, err } cc, cancel := context.WithCancel(ctx) start := params.offset + seen // Only set a ReadLimit if length is greater than zero, because zero // means read it all. if params.length > 0 { req.ReadLimit = params.length - seen } req.ReadOffset = start if err := applyCondsProto("gRPCReader.reopen", params.gen, params.conds, req); err != nil { cancel() return nil, nil, err } var stream storagepb.Storage_ReadObjectClient var msg *storagepb.ReadObjectResponse var err error err = run(cc, func() error { stream, err = c.raw.ReadObject(cc, req, s.gax...) if err != nil { return err } msg, err = stream.Recv() // These types of errors show up on the Recv call, rather than the // initialization of the stream via ReadObject above. if s, ok := status.FromError(err); ok && s.Code() == codes.NotFound { return ErrObjectNotExist } return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { // Close the stream context we just created to ensure we don't leak // resources. cancel() return nil, nil, err } return &readStreamResponse{stream, msg}, cancel, nil } res, cancel, err := reopen(0) if err != nil { return nil, err } // The first message was Recv'd on stream open, use it to populate the // object metadata. msg := res.response obj := msg.GetMetadata() // This is the size of the entire object, even if only a range was requested. size := obj.GetSize() r = &Reader{ Attrs: ReaderObjectAttrs{ Size: size, ContentType: obj.GetContentType(), ContentEncoding: obj.GetContentEncoding(), CacheControl: obj.GetCacheControl(), LastModified: obj.GetUpdateTime().AsTime(), Metageneration: obj.GetMetageneration(), Generation: obj.GetGeneration(), }, reader: &gRPCReader{ stream: res.stream, reopen: reopen, cancel: cancel, size: size, // Store the content from the first Recv in the // client buffer for reading later. leftovers: msg.GetChecksummedData().GetContent(), settings: s, }, } cr := msg.GetContentRange() if cr != nil { r.Attrs.StartOffset = cr.GetStart() r.remain = cr.GetEnd() - cr.GetStart() + 1 } else { r.remain = size } // Only support checksums when reading an entire object, not a range. if checksums := msg.GetObjectChecksums(); checksums != nil && checksums.Crc32C != nil && params.offset == 0 && params.length == 0 { r.wantCRC = checksums.GetCrc32C() r.checkCRC = true } return r, nil } func (c *grpcStorageClient) OpenWriter(params *openWriterParams, opts ...storageOption) (*io.PipeWriter, error) { s := callSettings(c.settings, opts...) var offset int64 errorf := params.setError progress := params.progress setObj := params.setObj pr, pw := io.Pipe() gw := newGRPCWriter(c, params, pr) gw.settings = s if s.userProject != "" { gw.ctx = setUserProjectMetadata(gw.ctx, s.userProject) } // This function reads the data sent to the pipe and sends sets of messages // on the gRPC client-stream as the buffer is filled. go func() { defer close(params.donec) // Loop until there is an error or the Object has been finalized. for { // Note: This blocks until either the buffer is full or EOF is read. recvd, doneReading, err := gw.read() if err != nil { err = checkCanceled(err) errorf(err) pr.CloseWithError(err) return } // TODO(noahdietz): Send encryption key via CommonObjectRequestParams. // The chunk buffer is full, but there is no end in sight. This // means that a resumable upload will need to be used to send // multiple chunks, until we are done reading data. Start a // resumable upload if it has not already been started. // Otherwise, all data will be sent over a single gRPC stream. if !doneReading && gw.upid == "" { err = gw.startResumableUpload() if err != nil { err = checkCanceled(err) errorf(err) pr.CloseWithError(err) return } } o, off, finalized, err := gw.uploadBuffer(recvd, offset, doneReading) if err != nil { err = checkCanceled(err) errorf(err) pr.CloseWithError(err) return } // At this point, the current buffer has been uploaded. Capture the // committed offset here in case the upload was not finalized and // another chunk is to be uploaded. offset = off progress(offset) // When we are done reading data and the chunk has been finalized, // we are done. if doneReading && finalized { // Build Object from server's response. setObj(newObjectFromProto(o)) return } } }() return pw, nil } // IAM methods. func (c *grpcStorageClient) GetIamPolicy(ctx context.Context, resource string, version int32, opts ...storageOption) (*iampb.Policy, error) { // TODO: Need a way to set UserProject, potentially in X-Goog-User-Project system parameter. s := callSettings(c.settings, opts...) req := &iampb.GetIamPolicyRequest{ Resource: bucketResourceName(globalProjectAlias, resource), Options: &iampb.GetPolicyOptions{ RequestedPolicyVersion: version, }, } var rp *iampb.Policy err := run(ctx, func() error { var err error rp, err = c.raw.GetIamPolicy(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) return rp, err } func (c *grpcStorageClient) SetIamPolicy(ctx context.Context, resource string, policy *iampb.Policy, opts ...storageOption) error { // TODO: Need a way to set UserProject, potentially in X-Goog-User-Project system parameter. s := callSettings(c.settings, opts...) req := &iampb.SetIamPolicyRequest{ Resource: bucketResourceName(globalProjectAlias, resource), Policy: policy, } return run(ctx, func() error { _, err := c.raw.SetIamPolicy(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) } func (c *grpcStorageClient) TestIamPermissions(ctx context.Context, resource string, permissions []string, opts ...storageOption) ([]string, error) { // TODO: Need a way to set UserProject, potentially in X-Goog-User-Project system parameter. s := callSettings(c.settings, opts...) req := &iampb.TestIamPermissionsRequest{ Resource: bucketResourceName(globalProjectAlias, resource), Permissions: permissions, } var res *iampb.TestIamPermissionsResponse err := run(ctx, func() error { var err error res, err = c.raw.TestIamPermissions(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return nil, err } return res.Permissions, nil } // HMAC Key methods. func (c *grpcStorageClient) GetHMACKey(ctx context.Context, project, accessID string, opts ...storageOption) (*HMACKey, error) { s := callSettings(c.settings, opts...) req := &storagepb.GetHmacKeyRequest{ AccessId: accessID, Project: toProjectResource(project), } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } var metadata *storagepb.HmacKeyMetadata err := run(ctx, func() error { var err error metadata, err = c.raw.GetHmacKey(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return nil, err } return toHMACKeyFromProto(metadata), nil } func (c *grpcStorageClient) ListHMACKeys(ctx context.Context, project, serviceAccountEmail string, showDeletedKeys bool, opts ...storageOption) *HMACKeysIterator { s := callSettings(c.settings, opts...) req := &storagepb.ListHmacKeysRequest{ Project: toProjectResource(project), ServiceAccountEmail: serviceAccountEmail, ShowDeletedKeys: showDeletedKeys, } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } it := &HMACKeysIterator{ ctx: ctx, projectID: project, retry: s.retry, } gitr := c.raw.ListHmacKeys(it.ctx, req, s.gax...) fetch := func(pageSize int, pageToken string) (token string, err error) { var hmacKeys []*storagepb.HmacKeyMetadata err = run(it.ctx, func() error { hmacKeys, token, err = gitr.InternalFetch(pageSize, pageToken) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return "", err } for _, hkmd := range hmacKeys { hk := toHMACKeyFromProto(hkmd) it.hmacKeys = append(it.hmacKeys, hk) } return token, nil } it.pageInfo, it.nextFunc = iterator.NewPageInfo( fetch, func() int { return len(it.hmacKeys) - it.index }, func() interface{} { prev := it.hmacKeys it.hmacKeys = it.hmacKeys[:0] it.index = 0 return prev }) return it } func (c *grpcStorageClient) UpdateHMACKey(ctx context.Context, project, serviceAccountEmail, accessID string, attrs *HMACKeyAttrsToUpdate, opts ...storageOption) (*HMACKey, error) { s := callSettings(c.settings, opts...) hk := &storagepb.HmacKeyMetadata{ AccessId: accessID, Project: toProjectResource(project), ServiceAccountEmail: serviceAccountEmail, State: string(attrs.State), Etag: attrs.Etag, } var paths []string fieldMask := &fieldmaskpb.FieldMask{ Paths: paths, } if attrs.State != "" { fieldMask.Paths = append(fieldMask.Paths, "state") } req := &storagepb.UpdateHmacKeyRequest{ HmacKey: hk, UpdateMask: fieldMask, } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } var metadata *storagepb.HmacKeyMetadata err := run(ctx, func() error { var err error metadata, err = c.raw.UpdateHmacKey(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return nil, err } return toHMACKeyFromProto(metadata), nil } func (c *grpcStorageClient) CreateHMACKey(ctx context.Context, project, serviceAccountEmail string, opts ...storageOption) (*HMACKey, error) { s := callSettings(c.settings, opts...) req := &storagepb.CreateHmacKeyRequest{ Project: toProjectResource(project), ServiceAccountEmail: serviceAccountEmail, } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } var res *storagepb.CreateHmacKeyResponse err := run(ctx, func() error { var err error res, err = c.raw.CreateHmacKey(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return nil, err } key := toHMACKeyFromProto(res.Metadata) key.Secret = base64.StdEncoding.EncodeToString(res.SecretKeyBytes) return key, nil } func (c *grpcStorageClient) DeleteHMACKey(ctx context.Context, project string, accessID string, opts ...storageOption) error { s := callSettings(c.settings, opts...) req := &storagepb.DeleteHmacKeyRequest{ AccessId: accessID, Project: toProjectResource(project), } if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } return run(ctx, func() error { return c.raw.DeleteHmacKey(ctx, req, s.gax...) }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) } // Notification methods. func (c *grpcStorageClient) ListNotifications(ctx context.Context, bucket string, opts ...storageOption) (n map[string]*Notification, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/storage.grpcStorageClient.ListNotifications") defer func() { trace.EndSpan(ctx, err) }() s := callSettings(c.settings, opts...) if s.userProject != "" { ctx = setUserProjectMetadata(ctx, s.userProject) } req := &storagepb.ListNotificationsRequest{ Parent: bucketResourceName(globalProjectAlias, bucket), } var notifications []*storagepb.Notification err = run(ctx, func() error { gitr := c.raw.ListNotifications(ctx, req, s.gax...) for { // PageSize is not set and fallbacks to the API default pageSize of 100. items, nextPageToken, err := gitr.InternalFetch(int(req.GetPageSize()), req.GetPageToken()) if err != nil { return err } notifications = append(notifications, items...) // If there are no more results, nextPageToken is empty and err is nil. if nextPageToken == "" { return err } req.PageToken = nextPageToken } }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return nil, err } return notificationsToMapFromProto(notifications), nil } func (c *grpcStorageClient) CreateNotification(ctx context.Context, bucket string, n *Notification, opts ...storageOption) (ret *Notification, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/storage.grpcStorageClient.CreateNotification") defer func() { trace.EndSpan(ctx, err) }() s := callSettings(c.settings, opts...) req := &storagepb.CreateNotificationRequest{ Parent: bucketResourceName(globalProjectAlias, bucket), Notification: toProtoNotification(n), } var pbn *storagepb.Notification err = run(ctx, func() error { var err error pbn, err = c.raw.CreateNotification(ctx, req, s.gax...) return err }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) if err != nil { return nil, err } return toNotificationFromProto(pbn), err } func (c *grpcStorageClient) DeleteNotification(ctx context.Context, bucket string, id string, opts ...storageOption) (err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/storage.grpcStorageClient.DeleteNotification") defer func() { trace.EndSpan(ctx, err) }() s := callSettings(c.settings, opts...) req := &storagepb.DeleteNotificationRequest{Name: id} return run(ctx, func() error { return c.raw.DeleteNotification(ctx, req, s.gax...) }, s.retry, s.idempotent, setRetryHeaderGRPC(ctx)) } // setUserProjectMetadata appends a project ID to the outgoing Context metadata // via the x-goog-user-project system parameter defined at // https://cloud.google.com/apis/docs/system-parameters. This is only for // billing purposes, and is generally optional, except for requester-pays // buckets. func setUserProjectMetadata(ctx context.Context, project string) context.Context { return metadata.AppendToOutgoingContext(ctx, "x-goog-user-project", project) } type readStreamResponse struct { stream storagepb.Storage_ReadObjectClient response *storagepb.ReadObjectResponse } type gRPCReader struct { seen, size int64 stream storagepb.Storage_ReadObjectClient reopen func(seen int64) (*readStreamResponse, context.CancelFunc, error) leftovers []byte cancel context.CancelFunc settings *settings } // Read reads bytes into the user's buffer from an open gRPC stream. func (r *gRPCReader) Read(p []byte) (int, error) { // No stream to read from, either never initiliazed or Close was called. // Note: There is a potential concurrency issue if multiple routines are // using the same reader. One encounters an error and the stream is closed // and then reopened while the other routine attempts to read from it. if r.stream == nil { return 0, fmt.Errorf("reader has been closed") } // The entire object has been read by this reader, return EOF. if r.size != 0 && r.size == r.seen { return 0, io.EOF } var n int // Read leftovers and return what was available to conform to the Reader // interface: https://pkg.go.dev/io#Reader. if len(r.leftovers) > 0 { n = copy(p, r.leftovers) r.seen += int64(n) r.leftovers = r.leftovers[n:] return n, nil } // Attempt to Recv the next message on the stream. msg, err := r.recv() if err != nil { return 0, err } // TODO: Determine if we need to capture incremental CRC32C for this // chunk. The Object CRC32C checksum is captured when directed to read // the entire Object. If directed to read a range, we may need to // calculate the range's checksum for verification if the checksum is // present in the response here. // TODO: Figure out if we need to support decompressive transcoding // https://cloud.google.com/storage/docs/transcoding. content := msg.GetChecksummedData().GetContent() n = copy(p[n:], content) leftover := len(content) - n if leftover > 0 { // Wasn't able to copy all of the data in the message, store for // future Read calls. r.leftovers = content[n:] } r.seen += int64(n) return n, nil } // Close cancels the read stream's context in order for it to be closed and // collected. func (r *gRPCReader) Close() error { if r.cancel != nil { r.cancel() } r.stream = nil return nil } // recv attempts to Recv the next message on the stream. In the event // that a retryable error is encountered, the stream will be closed, reopened, // and Recv again. This will attempt to Recv until one of the following is true: // // * Recv is successful // * A non-retryable error is encountered // * The Reader's context is canceled // // The last error received is the one that is returned, which could be from // an attempt to reopen the stream. func (r *gRPCReader) recv() (*storagepb.ReadObjectResponse, error) { msg, err := r.stream.Recv() var shouldRetry = ShouldRetry if r.settings.retry != nil && r.settings.retry.shouldRetry != nil { shouldRetry = r.settings.retry.shouldRetry } if err != nil && shouldRetry(err) { // This will "close" the existing stream and immediately attempt to // reopen the stream, but will backoff if further attempts are necessary. // Reopening the stream Recvs the first message, so if retrying is // successful, the next logical chunk will be returned. msg, err = r.reopenStream() } return msg, err } // reopenStream "closes" the existing stream and attempts to reopen a stream and // sets the Reader's stream and cancelStream properties in the process. func (r *gRPCReader) reopenStream() (*storagepb.ReadObjectResponse, error) { // Close existing stream and initialize new stream with updated offset. r.Close() res, cancel, err := r.reopen(r.seen) if err != nil { return nil, err } r.stream = res.stream r.cancel = cancel return res.response, nil } func newGRPCWriter(c *grpcStorageClient, params *openWriterParams, r io.Reader) *gRPCWriter { size := params.chunkSize if params.chunkSize == 0 { // TODO: Should we actually use the minimum of 256 KB here when the user // indicates they want minimal memory usage? We cannot do a zero-copy, // bufferless upload like HTTP/JSON can. // TODO: We need to determine if we can avoid starting a // resumable upload when the user *plans* to send more than bufSize but // with a bufferless upload. size = maxPerMessageWriteSize } return &gRPCWriter{ buf: make([]byte, size), c: c, ctx: params.ctx, reader: r, bucket: params.bucket, attrs: params.attrs, conds: params.conds, encryptionKey: params.encryptionKey, sendCRC32C: params.sendCRC32C, } } // gRPCWriter is a wrapper around the the gRPC client-stream API that manages // sending chunks of data provided by the user over the stream. type gRPCWriter struct { c *grpcStorageClient buf []byte reader io.Reader ctx context.Context bucket string attrs *ObjectAttrs conds *Conditions encryptionKey []byte settings *settings sendCRC32C bool // The gRPC client-stream used for sending buffers. stream storagepb.Storage_WriteObjectClient // The Resumable Upload ID started by a gRPC-based Writer. upid string } // startResumableUpload initializes a Resumable Upload with gRPC and sets the // upload ID on the Writer. func (w *gRPCWriter) startResumableUpload() error { spec, err := w.writeObjectSpec() if err != nil { return err } return run(w.ctx, func() error { upres, err := w.c.raw.StartResumableWrite(w.ctx, &storagepb.StartResumableWriteRequest{ WriteObjectSpec: spec, }) w.upid = upres.GetUploadId() return err }, w.settings.retry, w.settings.idempotent, setRetryHeaderGRPC(w.ctx)) } // queryProgress is a helper that queries the status of the resumable upload // associated with the given upload ID. func (w *gRPCWriter) queryProgress() (int64, error) { var persistedSize int64 err := run(w.ctx, func() error { q, err := w.c.raw.QueryWriteStatus(w.ctx, &storagepb.QueryWriteStatusRequest{UploadId: w.upid}) persistedSize = q.GetPersistedSize() return err }, w.settings.retry, true, setRetryHeaderGRPC(w.ctx)) // q.GetCommittedSize() will return 0 if q is nil. return persistedSize, err } // uploadBuffer opens a Write stream and uploads the buffer at the given offset (if // uploading a chunk for a resumable uploadBuffer), and will mark the write as // finished if we are done receiving data from the user. The resulting write // offset after uploading the buffer is returned, as well as a boolean // indicating if the Object has been finalized. If it has been finalized, the // final Object will be returned as well. Finalizing the upload is primarily // important for Resumable Uploads. A simple or multi-part upload will always // be finalized once the entire buffer has been written. func (w *gRPCWriter) uploadBuffer(recvd int, start int64, doneReading bool) (*storagepb.Object, int64, bool, error) { var err error var finishWrite bool var sent, limit int = 0, maxPerMessageWriteSize var shouldRetry = ShouldRetry if w.settings.retry != nil && w.settings.retry.shouldRetry != nil { shouldRetry = w.settings.retry.shouldRetry } offset := start toWrite := w.buf[:recvd] for { first := sent == 0 // This indicates that this is the last message and the remaining // data fits in one message. belowLimit := recvd-sent <= limit if belowLimit { limit = recvd - sent } if belowLimit && doneReading { finishWrite = true } // Prepare chunk section for upload. data := toWrite[sent : sent+limit] req := &storagepb.WriteObjectRequest{ Data: &storagepb.WriteObjectRequest_ChecksummedData{ ChecksummedData: &storagepb.ChecksummedData{ Content: data, }, }, WriteOffset: offset, FinishWrite: finishWrite, } // Open a new stream and set the first_message field on the request. // The first message on the WriteObject stream must either be the // Object or the Resumable Upload ID. if first { ctx := gapic.InsertMetadata(w.ctx, metadata.Pairs("x-goog-request-params", "bucket="+url.QueryEscape(w.bucket))) w.stream, err = w.c.raw.WriteObject(ctx) if err != nil { return nil, 0, false, err } if w.upid != "" { req.FirstMessage = &storagepb.WriteObjectRequest_UploadId{UploadId: w.upid} } else { spec, err := w.writeObjectSpec() if err != nil { return nil, 0, false, err } req.FirstMessage = &storagepb.WriteObjectRequest_WriteObjectSpec{ WriteObjectSpec: spec, } } // TODO: Currently the checksums are only sent on the first message // of the stream, but in the future, we must also support sending it // on the *last* message of the stream (instead of the first). if w.sendCRC32C { req.ObjectChecksums = &storagepb.ObjectChecksums{ Crc32C: proto.Uint32(w.attrs.CRC32C), } } if len(w.attrs.MD5) != 0 { if cs := req.GetObjectChecksums(); cs == nil { req.ObjectChecksums = &storagepb.ObjectChecksums{ Md5Hash: w.attrs.MD5, } } else { cs.Md5Hash = w.attrs.MD5 } } } err = w.stream.Send(req) if err == io.EOF { // err was io.EOF. The client-side of a stream only gets an EOF on Send // when the backend closes the stream and wants to return an error // status. Closing the stream receives the status as an error. _, err = w.stream.CloseAndRecv() // Retriable errors mean we should start over and attempt to // resend the entire buffer via a new stream. // If not retriable, falling through will return the error received // from closing the stream. if shouldRetry(err) { sent = 0 finishWrite = false // TODO: Add test case for failure modes of querying progress. offset, err = w.determineOffset(start) if err == nil { continue } } } if err != nil { return nil, 0, false, err } // Update the immediate stream's sent total and the upload offset with // the data sent. sent += len(data) offset += int64(len(data)) // Not done sending data, do not attempt to commit it yet, loop around // and send more data. if recvd-sent > 0 { continue } // Done sending data. Close the stream to "commit" the data sent. resp, finalized, err := w.commit() // Retriable errors mean we should start over and attempt to // resend the entire buffer via a new stream. // If not retriable, falling through will return the error received // from closing the stream. if shouldRetry(err) { sent = 0 finishWrite = false offset, err = w.determineOffset(start) if err == nil { continue } } if err != nil { return nil, 0, false, err } return resp.GetResource(), offset, finalized, nil } } // determineOffset either returns the offset given to it in the case of a simple // upload, or queries the write status in the case a resumable upload is being // used. func (w *gRPCWriter) determineOffset(offset int64) (int64, error) { // For a Resumable Upload, we must start from however much data // was committed. if w.upid != "" { committed, err := w.queryProgress() if err != nil { return 0, err } offset = committed } return offset, nil } // commit closes the stream to commit the data sent and potentially receive // the finalized object if finished uploading. If the last request sent // indicated that writing was finished, the Object will be finalized and // returned. If not, then the Object will be nil, and the boolean returned will // be false. func (w *gRPCWriter) commit() (*storagepb.WriteObjectResponse, bool, error) { finalized := true resp, err := w.stream.CloseAndRecv() if err == io.EOF { // Closing a stream for a resumable upload finish_write = false results // in an EOF which can be ignored, as we aren't done uploading yet. finalized = false err = nil } // Drop the stream reference as it has been closed. w.stream = nil return resp, finalized, err } // writeObjectSpec constructs a WriteObjectSpec proto using the Writer's // ObjectAttrs and applies its Conditions. This is only used for gRPC. func (w *gRPCWriter) writeObjectSpec() (*storagepb.WriteObjectSpec, error) { // To avoid modifying the ObjectAttrs embeded in the calling writer, deref // the ObjectAttrs pointer to make a copy, then assign the desired name to // the attribute. attrs := *w.attrs spec := &storagepb.WriteObjectSpec{ Resource: attrs.toProtoObject(w.bucket), } // WriteObject doesn't support the generation condition, so use default. if err := applyCondsProto("WriteObject", defaultGen, w.conds, spec); err != nil { return nil, err } return spec, nil } // read copies the data in the reader to the given buffer and reports how much // data was read into the buffer and if there is no more data to read (EOF). // Furthermore, if the attrs.ContentType is unset, the first bytes of content // will be sniffed for a matching content type. func (w *gRPCWriter) read() (int, bool, error) { if w.attrs.ContentType == "" { w.reader, w.attrs.ContentType = gax.DetermineContentType(w.reader) } // Set n to -1 to start the Read loop. var n, recvd int = -1, 0 var err error for err == nil && n != 0 { // The routine blocks here until data is received. n, err = w.reader.Read(w.buf[recvd:]) recvd += n } var done bool if err == io.EOF { done = true err = nil } return recvd, done, err } func checkCanceled(err error) error { if status.Code(err) == codes.Canceled { return context.Canceled } return err }