VictoriaMetrics/vendor/cloud.google.com/go/storage/writer.go

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// 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 (
"context"
"encoding/base64"
"errors"
"fmt"
"io"
"sync"
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"time"
"unicode/utf8"
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"github.com/golang/protobuf/proto"
"google.golang.org/api/googleapi"
raw "google.golang.org/api/storage/v1"
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storagepb "google.golang.org/genproto/googleapis/storage/v2"
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"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
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)
const (
// Maximum amount of content that can be sent per WriteObjectRequest message.
// A buffer reaching this amount will precipitate a flush of the buffer.
//
// This is only used for the gRPC-based Writer.
maxPerMessageWriteSize int = int(storagepb.ServiceConstants_MAX_WRITE_CHUNK_BYTES)
)
// A Writer writes a Cloud Storage object.
type Writer struct {
// ObjectAttrs are optional attributes to set on the object. Any attributes
// must be initialized before the first Write call. Nil or zero-valued
// attributes are ignored.
ObjectAttrs
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// SendCRC32C specifies whether to transmit a CRC32C field. It should be set
// to true in addition to setting the Writer's CRC32C field, because zero
// is a valid CRC and normally a zero would not be transmitted.
// If a CRC32C is sent, and the data written does not match the checksum,
// the write will be rejected.
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//
// Note: SendCRC32C must be set to true BEFORE the first call to
// Writer.Write() in order to send the checksum. If it is set after that
// point, the checksum will be ignored.
SendCRC32C bool
// ChunkSize controls the maximum number of bytes of the object that the
// Writer will attempt to send to the server in a single request. Objects
// smaller than the size will be sent in a single request, while larger
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// objects will be split over multiple requests. The value will be rounded up
// to the nearest multiple of 256K. The default ChunkSize is 16MiB.
//
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// Each Writer will internally allocate a buffer of size ChunkSize. This is
// used to buffer input data and allow for the input to be sent again if a
// request must be retried.
//
// If you upload small objects (< 16MiB), you should set ChunkSize
// to a value slightly larger than the objects' sizes to avoid memory bloat.
// This is especially important if you are uploading many small objects
// concurrently. See
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// https://cloud.google.com/storage/docs/json_api/v1/how-tos/upload#size
// for more information about performance trade-offs related to ChunkSize.
//
// If ChunkSize is set to zero, chunking will be disabled and the object will
// be uploaded in a single request without the use of a buffer. This will
// further reduce memory used during uploads, but will also prevent the writer
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// from retrying in case of a transient error from the server or resuming an
// upload that fails midway through, since the buffer is required in order to
// retry the failed request.
//
// ChunkSize must be set before the first Write call.
ChunkSize int
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// ChunkRetryDeadline sets a per-chunk retry deadline for multi-chunk
// resumable uploads.
//
// For uploads of larger files, the Writer will attempt to retry if the
// request to upload a particular chunk fails with a transient error.
// If a single chunk has been attempting to upload for longer than this
// deadline and the request fails, it will no longer be retried, and the error
// will be returned to the caller. This is only applicable for files which are
// large enough to require a multi-chunk resumable upload. The default value
// is 32s. Users may want to pick a longer deadline if they are using larger
// values for ChunkSize or if they expect to have a slow or unreliable
// internet connection.
//
// To set a deadline on the entire upload, use context timeout or
// cancellation.
ChunkRetryDeadline time.Duration
// ProgressFunc can be used to monitor the progress of a large write.
// operation. If ProgressFunc is not nil and writing requires multiple
// calls to the underlying service (see
// https://cloud.google.com/storage/docs/json_api/v1/how-tos/resumable-upload),
// then ProgressFunc will be invoked after each call with the number of bytes of
// content copied so far.
//
// ProgressFunc should return quickly without blocking.
ProgressFunc func(int64)
ctx context.Context
o *ObjectHandle
opened bool
pw *io.PipeWriter
donec chan struct{} // closed after err and obj are set.
obj *ObjectAttrs
mu sync.Mutex
err error
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// The gRPC client-stream used for sending buffers.
//
// This is an experimental API and not intended for public use.
stream storagepb.Storage_WriteObjectClient
// The Resumable Upload ID started by a gRPC-based Writer.
//
// This is an experimental API and not intended for public use.
upid string
}
func (w *Writer) open() error {
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if err := w.validateWriteAttrs(); err != nil {
return err
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}
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pr, pw := io.Pipe()
w.pw = pw
w.opened = true
go w.monitorCancel()
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attrs := w.ObjectAttrs
mediaOpts := []googleapi.MediaOption{
googleapi.ChunkSize(w.ChunkSize),
}
if c := attrs.ContentType; c != "" {
mediaOpts = append(mediaOpts, googleapi.ContentType(c))
}
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if w.ChunkRetryDeadline != 0 {
mediaOpts = append(mediaOpts, googleapi.ChunkRetryDeadline(w.ChunkRetryDeadline))
}
go func() {
defer close(w.donec)
rawObj := attrs.toRawObject(w.o.bucket)
if w.SendCRC32C {
rawObj.Crc32c = encodeUint32(attrs.CRC32C)
}
if w.MD5 != nil {
rawObj.Md5Hash = base64.StdEncoding.EncodeToString(w.MD5)
}
call := w.o.c.raw.Objects.Insert(w.o.bucket, rawObj).
Media(pr, mediaOpts...).
Projection("full").
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Context(w.ctx).
Name(w.o.object)
if w.ProgressFunc != nil {
call.ProgressUpdater(func(n, _ int64) { w.ProgressFunc(n) })
}
if attrs.KMSKeyName != "" {
call.KmsKeyName(attrs.KMSKeyName)
}
if attrs.PredefinedACL != "" {
call.PredefinedAcl(attrs.PredefinedACL)
}
if err := setEncryptionHeaders(call.Header(), w.o.encryptionKey, false); err != nil {
w.mu.Lock()
w.err = err
w.mu.Unlock()
pr.CloseWithError(err)
return
}
var resp *raw.Object
err := applyConds("NewWriter", w.o.gen, w.o.conds, call)
if err == nil {
if w.o.userProject != "" {
call.UserProject(w.o.userProject)
}
setClientHeader(call.Header())
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// The internals that perform call.Do automatically retry both the initial
// call to set up the upload as well as calls to upload individual chunks
// for a resumable upload (as long as the chunk size is non-zero). Hence
// there is no need to add retries here.
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// Retry only when the operation is idempotent or the retry policy is RetryAlways.
isIdempotent := w.o.conds != nil && (w.o.conds.GenerationMatch >= 0 || w.o.conds.DoesNotExist == true)
var useRetry bool
if (w.o.retry == nil || w.o.retry.policy == RetryIdempotent) && isIdempotent {
useRetry = true
} else if w.o.retry != nil && w.o.retry.policy == RetryAlways {
useRetry = true
}
if useRetry {
if w.o.retry != nil {
call.WithRetry(w.o.retry.backoff, w.o.retry.shouldRetry)
} else {
call.WithRetry(nil, nil)
}
}
resp, err = call.Do()
}
if err != nil {
w.mu.Lock()
w.err = err
w.mu.Unlock()
pr.CloseWithError(err)
return
}
w.obj = newObject(resp)
}()
return nil
}
// Write appends to w. It implements the io.Writer interface.
//
// Since writes happen asynchronously, Write may return a nil
// error even though the write failed (or will fail). Always
// use the error returned from Writer.Close to determine if
// the upload was successful.
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//
// Writes will be retried on transient errors from the server, unless
// Writer.ChunkSize has been set to zero.
func (w *Writer) Write(p []byte) (n int, err error) {
w.mu.Lock()
werr := w.err
w.mu.Unlock()
if werr != nil {
return 0, werr
}
if !w.opened {
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// gRPC client has been initialized - use gRPC to upload.
if w.o.c.gc != nil {
if err := w.openGRPC(); err != nil {
return 0, err
}
} else if err := w.open(); err != nil {
return 0, err
}
}
n, err = w.pw.Write(p)
if err != nil {
w.mu.Lock()
werr := w.err
w.mu.Unlock()
// Preserve existing functionality that when context is canceled, Write will return
// context.Canceled instead of "io: read/write on closed pipe". This hides the
// pipe implementation detail from users and makes Write seem as though it's an RPC.
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if errors.Is(werr, context.Canceled) || errors.Is(werr, context.DeadlineExceeded) {
return n, werr
}
}
return n, err
}
// Close completes the write operation and flushes any buffered data.
// If Close doesn't return an error, metadata about the written object
// can be retrieved by calling Attrs.
func (w *Writer) Close() error {
if !w.opened {
if err := w.open(); err != nil {
return err
}
}
// Closing either the read or write causes the entire pipe to close.
if err := w.pw.Close(); err != nil {
return err
}
<-w.donec
w.mu.Lock()
defer w.mu.Unlock()
return w.err
}
// monitorCancel is intended to be used as a background goroutine. It monitors the
// context, and when it observes that the context has been canceled, it manually
// closes things that do not take a context.
func (w *Writer) monitorCancel() {
select {
case <-w.ctx.Done():
w.mu.Lock()
werr := w.ctx.Err()
w.err = werr
w.mu.Unlock()
// Closing either the read or write causes the entire pipe to close.
w.CloseWithError(werr)
case <-w.donec:
}
}
// CloseWithError aborts the write operation with the provided error.
// CloseWithError always returns nil.
//
// Deprecated: cancel the context passed to NewWriter instead.
func (w *Writer) CloseWithError(err error) error {
if !w.opened {
return nil
}
return w.pw.CloseWithError(err)
}
// Attrs returns metadata about a successfully-written object.
// It's only valid to call it after Close returns nil.
func (w *Writer) Attrs() *ObjectAttrs {
return w.obj
}
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func (w *Writer) validateWriteAttrs() error {
attrs := w.ObjectAttrs
// Check the developer didn't change the object Name (this is unfortunate, but
// we don't want to store an object under the wrong name).
if attrs.Name != w.o.object {
return fmt.Errorf("storage: Writer.Name %q does not match object name %q", attrs.Name, w.o.object)
}
if !utf8.ValidString(attrs.Name) {
return fmt.Errorf("storage: object name %q is not valid UTF-8", attrs.Name)
}
if attrs.KMSKeyName != "" && w.o.encryptionKey != nil {
return errors.New("storage: cannot use KMSKeyName with a customer-supplied encryption key")
}
if w.ChunkSize < 0 {
return errors.New("storage: Writer.ChunkSize must be non-negative")
}
return nil
}
// progress is a convenience wrapper that reports write progress to the Writer
// ProgressFunc if it is set and progress is non-zero.
func (w *Writer) progress(p int64) {
if w.ProgressFunc != nil && p != 0 {
w.ProgressFunc(p)
}
}
// error acquires the Writer's lock, sets the Writer's err to the given error,
// then relinquishes the lock.
func (w *Writer) error(err error) {
w.mu.Lock()
w.err = err
w.mu.Unlock()
}
// openGRPC initializes a pipe for the user to write data to, and a routine to
// read from that pipe and upload the data to GCS via gRPC.
//
// This is an experimental API and not intended for public use.
func (w *Writer) openGRPC() error {
if err := w.validateWriteAttrs(); err != nil {
return err
}
pr, pw := io.Pipe()
w.pw = pw
w.opened = true
go w.monitorCancel()
bufSize := w.ChunkSize
if w.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.
bufSize = maxPerMessageWriteSize
}
buf := make([]byte, bufSize)
var offset int64
// 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(w.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 := read(pr, buf)
if err != nil {
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err = checkCanceled(err)
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w.error(err)
pr.CloseWithError(err)
return
}
toWrite := buf[:recvd]
// TODO: Figure out how to set up encryption 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 && w.upid == "" {
err = w.startResumableUpload()
if err != nil {
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err = checkCanceled(err)
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w.error(err)
pr.CloseWithError(err)
return
}
}
o, off, finalized, err := w.uploadBuffer(toWrite, recvd, offset, doneReading)
if err != nil {
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err = checkCanceled(err)
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w.error(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
w.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.
w.obj = newObjectFromProto(o)
return
}
}
}()
return nil
}
// startResumableUpload initializes a Resumable Upload with gRPC and sets the
// upload ID on the Writer.
//
// This is an experimental API and not intended for public use.
func (w *Writer) startResumableUpload() error {
spec, err := w.writeObjectSpec()
if err != nil {
return err
}
upres, err := w.o.c.gc.StartResumableWrite(w.ctx, &storagepb.StartResumableWriteRequest{
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WriteObjectSpec: spec,
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})
w.upid = upres.GetUploadId()
return err
}
// queryProgress is a helper that queries the status of the resumable upload
// associated with the given upload ID.
//
// This is an experimental API and not intended for public use.
func (w *Writer) queryProgress() (int64, error) {
q, err := w.o.c.gc.QueryWriteStatus(w.ctx, &storagepb.QueryWriteStatusRequest{UploadId: w.upid})
// q.GetCommittedSize() will return 0 if q is nil.
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return q.GetPersistedSize(), err
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}
// 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.
//
// This is an experimental API and not intended for public use.
func (w *Writer) uploadBuffer(buf []byte, recvd int, start int64, doneReading bool) (*storagepb.Object, int64, bool, error) {
var err error
var finishWrite bool
var sent, limit int = 0, maxPerMessageWriteSize
offset := start
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 := buf[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 {
w.stream, err = w.o.c.gc.WriteObject(w.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.CRC32C),
Md5Hash: w.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.
//
// This is an experimental API and not intended for public use.
func (w *Writer) 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.
//
// This is an experimental API and not intended for public use.
func (w *Writer) 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.
//
// This is an experimental API and not intended for public use.
func (w *Writer) writeObjectSpec() (*storagepb.WriteObjectSpec, error) {
spec := &storagepb.WriteObjectSpec{
Resource: w.ObjectAttrs.toProtoObject(w.o.bucket),
}
// WriteObject doesn't support the generation condition, so use -1.
if err := applyCondsProto("WriteObject", -1, w.o.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).
//
// This is an experimental API and not intended for public use.
func read(r io.Reader, buf []byte) (int, bool, error) {
// 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 = r.Read(buf[recvd:])
recvd += n
}
var done bool
if err == io.EOF {
done = true
err = nil
}
return recvd, done, err
}
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func checkCanceled(err error) error {
if status.Code(err) == codes.Canceled {
return context.Canceled
}
return err
}