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restic/internal/archiver/blob_saver.go

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package archiver
import (
"context"
"sync"
"github.com/restic/restic/internal/restic"
)
// Saver allows saving a blob.
type Saver interface {
SaveBlob(ctx context.Context, t restic.BlobType, data []byte, id restic.ID) (restic.ID, error)
Index() restic.Index
}
// BlobSaver concurrently saves incoming blobs to the repo.
type BlobSaver struct {
repo Saver
m sync.Mutex
knownBlobs restic.BlobSet
ch chan<- saveBlobJob
wg sync.WaitGroup
}
// NewBlobSaver returns a new blob. A worker pool is started, it is stopped
// when ctx is cancelled.
func NewBlobSaver(ctx context.Context, repo Saver, workers uint) *BlobSaver {
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ch := make(chan saveBlobJob)
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s := &BlobSaver{
repo: repo,
knownBlobs: restic.NewBlobSet(),
ch: ch,
}
for i := uint(0); i < workers; i++ {
s.wg.Add(1)
go s.worker(ctx, &s.wg, ch)
}
return s
}
// Save stores a blob in the repo. It checks the index and the known blobs
// before saving anything. The second return parameter is true if the blob was
// previously unknown.
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func (s *BlobSaver) Save(ctx context.Context, t restic.BlobType, buf *Buffer) FutureBlob {
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ch := make(chan saveBlobResponse, 1)
s.ch <- saveBlobJob{BlobType: t, buf: buf, ch: ch}
return FutureBlob{ch: ch, length: len(buf.Data)}
}
// FutureBlob is returned by SaveBlob and will return the data once it has been processed.
type FutureBlob struct {
ch <-chan saveBlobResponse
length int
res saveBlobResponse
}
func (s *FutureBlob) wait() {
res, ok := <-s.ch
if ok {
s.res = res
}
}
// ID returns the ID of the blob after it has been saved.
func (s *FutureBlob) ID() restic.ID {
s.wait()
return s.res.id
}
// Known returns whether or not the blob was already known.
func (s *FutureBlob) Known() bool {
s.wait()
return s.res.known
}
// Err returns the error which may have occurred during save.
func (s *FutureBlob) Err() error {
s.wait()
return s.res.err
}
// Length returns the length of the blob.
func (s *FutureBlob) Length() int {
return s.length
}
type saveBlobJob struct {
restic.BlobType
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buf *Buffer
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ch chan<- saveBlobResponse
}
type saveBlobResponse struct {
id restic.ID
known bool
err error
}
func (s *BlobSaver) saveBlob(ctx context.Context, t restic.BlobType, buf []byte) saveBlobResponse {
id := restic.Hash(buf)
h := restic.BlobHandle{ID: id, Type: t}
// check if another goroutine has already saved this blob
known := false
s.m.Lock()
if s.knownBlobs.Has(h) {
known = true
} else {
s.knownBlobs.Insert(h)
known = false
}
s.m.Unlock()
// blob is already known, nothing to do
if known {
return saveBlobResponse{
id: id,
known: true,
}
}
// check if the repo knows this blob
if s.repo.Index().Has(id, t) {
return saveBlobResponse{
id: id,
known: true,
}
}
// otherwise we're responsible for saving it
_, err := s.repo.SaveBlob(ctx, t, buf, id)
return saveBlobResponse{
id: id,
known: false,
err: err,
}
}
func (s *BlobSaver) worker(ctx context.Context, wg *sync.WaitGroup, jobs <-chan saveBlobJob) {
defer wg.Done()
for {
var job saveBlobJob
select {
case <-ctx.Done():
return
case job = <-jobs:
}
job.ch <- s.saveBlob(ctx, job.BlobType, job.buf.Data)
close(job.ch)
job.buf.Release()
}
}