public static final class StorageGrpc.StorageStub extends AbstractAsyncStub<StorageGrpc.StorageStub>
A stub to allow clients to do asynchronous rpc calls to service Storage.
API Overview and Naming Syntax
The Cloud Storage gRPC API allows applications to read and write data through
the abstractions of buckets and objects. For a description of these
abstractions please see https://cloud.google.com/storage/docs.
Resources are named as follows:
- Projects are referred to as they are defined by the Resource Manager API,
using strings like
projects/123456
or projects/my-string-id
.
- Buckets are named using string names of the form:
projects/{project}/buckets/{bucket}
For globally unique buckets, _
may be substituted for the project.
- Objects are uniquely identified by their name along with the name of the
bucket they belong to, as separate strings in this API. For example:
ReadObjectRequest {
bucket: 'projects/_/buckets/my-bucket'
object: 'my-object'
}
Note that object names can contain
/
characters, which are treated as
any other character (no special directory semantics).
Inheritance
java.lang.Object >
io.grpc.stub.AbstractStub >
io.grpc.stub.AbstractAsyncStub >
StorageGrpc.StorageStub
Inherited Members
io.grpc.stub.AbstractAsyncStub.<T>newStub(io.grpc.stub.AbstractStub.StubFactory<T>,io.grpc.Channel)
io.grpc.stub.AbstractAsyncStub.<T>newStub(io.grpc.stub.AbstractStub.StubFactory<T>,io.grpc.Channel,io.grpc.CallOptions)
io.grpc.stub.AbstractStub.<T>withOption(io.grpc.CallOptions.Key<T>,T)
io.grpc.stub.AbstractStub.build(io.grpc.Channel,io.grpc.CallOptions)
io.grpc.stub.AbstractStub.getCallOptions()
io.grpc.stub.AbstractStub.getChannel()
io.grpc.stub.AbstractStub.withCallCredentials(io.grpc.CallCredentials)
io.grpc.stub.AbstractStub.withChannel(io.grpc.Channel)
io.grpc.stub.AbstractStub.withCompression(java.lang.String)
io.grpc.stub.AbstractStub.withDeadline(io.grpc.Deadline)
io.grpc.stub.AbstractStub.withDeadlineAfter(java.time.Duration)
io.grpc.stub.AbstractStub.withDeadlineAfter(long,java.util.concurrent.TimeUnit)
io.grpc.stub.AbstractStub.withExecutor(java.util.concurrent.Executor)
io.grpc.stub.AbstractStub.withInterceptors(io.grpc.ClientInterceptor...)
io.grpc.stub.AbstractStub.withMaxInboundMessageSize(int)
io.grpc.stub.AbstractStub.withMaxOutboundMessageSize(int)
io.grpc.stub.AbstractStub.withOnReadyThreshold(int)
io.grpc.stub.AbstractStub.withWaitForReady()
Methods
bidiWriteObject(StreamObserver<BidiWriteObjectResponse> responseObserver)
public StreamObserver<BidiWriteObjectRequest> bidiWriteObject(StreamObserver<BidiWriteObjectResponse> responseObserver)
Stores a new object and metadata.
This is similar to the WriteObject call with the added support for
manual flushing of persisted state, and the ability to determine current
persisted size without closing the stream.
The client may specify one or both of the state_lookup
and flush
fields
in each BidiWriteObjectRequest. If flush
is specified, the data written
so far will be persisted to storage. If state_lookup
is specified, the
service will respond with a BidiWriteObjectResponse that contains the
persisted size. If both flush
and state_lookup
are specified, the flush
will always occur before a state_lookup
, so that both may be set in the
same request and the returned state will be the state of the object
post-flush. When the stream is closed, a BidiWriteObjectResponse will
always be sent to the client, regardless of the value of state_lookup
.
build(Channel channel, CallOptions callOptions)
protected StorageGrpc.StorageStub build(Channel channel, CallOptions callOptions)
Parameters |
Name |
Description |
channel |
io.grpc.Channel
|
callOptions |
io.grpc.CallOptions
|
Overrides
io.grpc.stub.AbstractStub.build(io.grpc.Channel,io.grpc.CallOptions)
cancelResumableWrite(CancelResumableWriteRequest request, StreamObserver<CancelResumableWriteResponse> responseObserver)
public void cancelResumableWrite(CancelResumableWriteRequest request, StreamObserver<CancelResumableWriteResponse> responseObserver)
Cancels an in-progress resumable upload.
Any attempts to write to the resumable upload after cancelling the upload
will fail.
The behavior for currently in progress write operations is not guaranteed -
they could either complete before the cancellation or fail if the
cancellation completes first.
composeObject(ComposeObjectRequest request, StreamObserver<Object> responseObserver)
public void composeObject(ComposeObjectRequest request, StreamObserver<Object> responseObserver)
Concatenates a list of existing objects into a new object in the same
bucket.
createBucket(CreateBucketRequest request, StreamObserver<Bucket> responseObserver)
public void createBucket(CreateBucketRequest request, StreamObserver<Bucket> responseObserver)
deleteBucket(DeleteBucketRequest request, StreamObserver<Empty> responseObserver)
public void deleteBucket(DeleteBucketRequest request, StreamObserver<Empty> responseObserver)
Permanently deletes an empty bucket.
deleteObject(DeleteObjectRequest request, StreamObserver<Empty> responseObserver)
public void deleteObject(DeleteObjectRequest request, StreamObserver<Empty> responseObserver)
Deletes an object and its metadata.
Deletions are normally permanent when versioning is disabled or whenever
the generation parameter is used. However, if soft delete is enabled for
the bucket, deleted objects can be restored using RestoreObject until the
soft delete retention period has passed.
getBucket(GetBucketRequest request, StreamObserver<Bucket> responseObserver)
public void getBucket(GetBucketRequest request, StreamObserver<Bucket> responseObserver)
Returns metadata for the specified bucket.
getIamPolicy(GetIamPolicyRequest request, StreamObserver<Policy> responseObserver)
public void getIamPolicy(GetIamPolicyRequest request, StreamObserver<Policy> responseObserver)
Gets the IAM policy for a specified bucket.
The resource
field in the request should be
projects/_/buckets/{bucket}
.
Parameters |
Name |
Description |
request |
com.google.iam.v1.GetIamPolicyRequest
|
responseObserver |
io.grpc.stub.StreamObserver<com.google.iam.v1.Policy>
|
getObject(GetObjectRequest request, StreamObserver<Object> responseObserver)
public void getObject(GetObjectRequest request, StreamObserver<Object> responseObserver)
Retrieves an object's metadata.
listBuckets(ListBucketsRequest request, StreamObserver<ListBucketsResponse> responseObserver)
public void listBuckets(ListBucketsRequest request, StreamObserver<ListBucketsResponse> responseObserver)
Retrieves a list of buckets for a given project.
listObjects(ListObjectsRequest request, StreamObserver<ListObjectsResponse> responseObserver)
public void listObjects(ListObjectsRequest request, StreamObserver<ListObjectsResponse> responseObserver)
Retrieves a list of objects matching the criteria.
lockBucketRetentionPolicy(LockBucketRetentionPolicyRequest request, StreamObserver<Bucket> responseObserver)
public void lockBucketRetentionPolicy(LockBucketRetentionPolicyRequest request, StreamObserver<Bucket> responseObserver)
Locks retention policy on a bucket.
queryWriteStatus(QueryWriteStatusRequest request, StreamObserver<QueryWriteStatusResponse> responseObserver)
public void queryWriteStatus(QueryWriteStatusRequest request, StreamObserver<QueryWriteStatusResponse> responseObserver)
Determines the persisted_size
for an object that is being written, which
can then be used as the write_offset
for the next Write()
call.
If the object does not exist (i.e., the object has been deleted, or the
first Write()
has not yet reached the service), this method returns the
error NOT_FOUND
.
The client may call QueryWriteStatus()
at any time to determine how
much data has been processed for this object. This is useful if the
client is buffering data and needs to know which data can be safely
evicted. For any sequence of QueryWriteStatus()
calls for a given
object name, the sequence of returned persisted_size
values will be
non-decreasing.
readObject(ReadObjectRequest request, StreamObserver<ReadObjectResponse> responseObserver)
public void readObject(ReadObjectRequest request, StreamObserver<ReadObjectResponse> responseObserver)
restoreObject(RestoreObjectRequest request, StreamObserver<Object> responseObserver)
public void restoreObject(RestoreObjectRequest request, StreamObserver<Object> responseObserver)
Restores a soft-deleted object.
rewriteObject(RewriteObjectRequest request, StreamObserver<RewriteResponse> responseObserver)
public void rewriteObject(RewriteObjectRequest request, StreamObserver<RewriteResponse> responseObserver)
Rewrites a source object to a destination object. Optionally overrides
metadata.
setIamPolicy(SetIamPolicyRequest request, StreamObserver<Policy> responseObserver)
public void setIamPolicy(SetIamPolicyRequest request, StreamObserver<Policy> responseObserver)
Updates an IAM policy for the specified bucket.
The resource
field in the request should be
projects/_/buckets/{bucket}
.
Parameters |
Name |
Description |
request |
com.google.iam.v1.SetIamPolicyRequest
|
responseObserver |
io.grpc.stub.StreamObserver<com.google.iam.v1.Policy>
|
startResumableWrite(StartResumableWriteRequest request, StreamObserver<StartResumableWriteResponse> responseObserver)
public void startResumableWrite(StartResumableWriteRequest request, StreamObserver<StartResumableWriteResponse> responseObserver)
Starts a resumable write. How long the write operation remains valid, and
what happens when the write operation becomes invalid, are
service-dependent.
testIamPermissions(TestIamPermissionsRequest request, StreamObserver<TestIamPermissionsResponse> responseObserver)
public void testIamPermissions(TestIamPermissionsRequest request, StreamObserver<TestIamPermissionsResponse> responseObserver)
Tests a set of permissions on the given bucket, object, or managed folder
to see which, if any, are held by the caller.
The resource
field in the request should be
projects//buckets/{bucket}
for a bucket,
projects//buckets/{bucket}/objects/{object}
for an object, or
projects/_/buckets/{bucket}/managedFolders/{managedFolder}
for a managed folder.
Parameters |
Name |
Description |
request |
com.google.iam.v1.TestIamPermissionsRequest
|
responseObserver |
io.grpc.stub.StreamObserver<com.google.iam.v1.TestIamPermissionsResponse>
|
updateBucket(UpdateBucketRequest request, StreamObserver<Bucket> responseObserver)
public void updateBucket(UpdateBucketRequest request, StreamObserver<Bucket> responseObserver)
Updates a bucket. Equivalent to JSON API's storage.buckets.patch method.
updateObject(UpdateObjectRequest request, StreamObserver<Object> responseObserver)
public void updateObject(UpdateObjectRequest request, StreamObserver<Object> responseObserver)
Updates an object's metadata.
Equivalent to JSON API's storage.objects.patch.
writeObject(StreamObserver<WriteObjectResponse> responseObserver)
public StreamObserver<WriteObjectRequest> writeObject(StreamObserver<WriteObjectResponse> responseObserver)
Stores a new object and metadata.
An object can be written either in a single message stream or in a
resumable sequence of message streams. To write using a single stream,
the client should include in the first message of the stream an
WriteObjectSpec
describing the destination bucket, object, and any
preconditions. Additionally, the final message must set 'finish_write' to
true, or else it is an error.
For a resumable write, the client should instead call
StartResumableWrite()
, populating a WriteObjectSpec
into that request.
They should then attach the returned upload_id
to the first message of
each following call to WriteObject
. If the stream is closed before
finishing the upload (either explicitly by the client or due to a network
error or an error response from the server), the client should do as
follows:
- Check the result Status of the stream, to determine if writing can be
resumed on this stream or must be restarted from scratch (by calling
StartResumableWrite()
). The resumable errors are DEADLINE_EXCEEDED,
INTERNAL, and UNAVAILABLE. For each case, the client should use binary
exponential backoff before retrying. Additionally, writes can be
resumed after RESOURCE_EXHAUSTED errors, but only after taking
appropriate measures, which may include reducing aggregate send rate
across clients and/or requesting a quota increase for your project.
- If the call to
WriteObject
returns ABORTED
, that indicates
concurrent attempts to update the resumable write, caused either by
multiple racing clients or by a single client where the previous
request was timed out on the client side but nonetheless reached the
server. In this case the client should take steps to prevent further
concurrent writes (e.g., increase the timeouts, stop using more than
one process to perform the upload, etc.), and then should follow the
steps below for resuming the upload.
- For resumable errors, the client should call
QueryWriteStatus()
and
then continue writing from the returned persisted_size
. This may be
less than the amount of data the client previously sent. Note also that
it is acceptable to send data starting at an offset earlier than the
returned persisted_size
; in this case, the service will skip data at
offsets that were already persisted (without checking that it matches
the previously written data), and write only the data starting from the
persisted offset. Even though the data isn't written, it may still
incur a performance cost over resuming at the correct write offset.
This behavior can make client-side handling simpler in some cases.
- Clients must only send data that is a multiple of 256 KiB per message,
unless the object is being finished with
finish_write
set to true
.
The service will not view the object as complete until the client has
sent a WriteObjectRequest
with finish_write
set to true
. Sending any
requests on a stream after sending a request with finish_write
set to
true
will cause an error. The client should check the response it
receives to determine how much data the service was able to commit and
whether the service views the object as complete.
Attempting to resume an already finalized object will result in an OK
status, with a WriteObjectResponse containing the finalized object's
metadata.
Alternatively, the BidiWriteObject operation may be used to write an
object with controls over flushing and the ability to fetch the ability to
determine the current persisted size.