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restic/vendor/github.com/kurin/blazer/b2/writer.go
Alexander Neumann 61cb1cc6f8 Update vendored dependencies
This includes github.com/kurin/blazer 0.2.0, which resolves #1291
2017-10-01 10:13:39 +02:00

523 lines
12 KiB
Go

// Copyright 2016, Google
//
// 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 b2
import (
"context"
"errors"
"fmt"
"io"
"sync"
"sync/atomic"
"time"
"github.com/kurin/blazer/internal/blog"
)
// Writer writes data into Backblaze. It automatically switches to the large
// file API if the file exceeds ChunkSize bytes. Due to that and other
// Backblaze API details, there is a large buffer.
//
// Changes to public Writer attributes must be made before the first call to
// Write.
type Writer struct {
// ConcurrentUploads is number of different threads sending data concurrently
// to Backblaze for large files. This can increase performance greatly, as
// each thread will hit a different endpoint. However, there is a ChunkSize
// buffer for each thread. Values less than 1 are equivalent to 1.
ConcurrentUploads int
// Resume an upload. If true, and the upload is a large file, and a file of
// the same name was started but not finished, then assume that we are
// resuming that file, and don't upload duplicate chunks.
Resume bool
// ChunkSize is the size, in bytes, of each individual part, when writing
// large files, and also when determining whether to upload a file normally
// or when to split it into parts. The default is 100M (1e8) The minimum is
// 5M (5e6); values less than this are not an error, but will fail. The
// maximum is 5GB (5e9).
ChunkSize int
// UseFileBuffer controls whether to use an in-memory buffer (the default) or
// scratch space on the file system. If this is true, b2 will save chunks in
// FileBufferDir.
UseFileBuffer bool
// FileBufferDir specifies the directory where scratch files are kept. If
// blank, os.TempDir() is used.
FileBufferDir string
contentType string
info map[string]string
csize int
ctx context.Context
cancel context.CancelFunc
ready chan chunk
wg sync.WaitGroup
start sync.Once
once sync.Once
done sync.Once
file beLargeFileInterface
seen map[int]string
everStarted bool
newBuffer func() (writeBuffer, error)
o *Object
name string
cidx int
w writeBuffer
emux sync.RWMutex
err error
smux sync.RWMutex
smap map[int]*meteredReader
}
type chunk struct {
id int
buf writeBuffer
}
func (w *Writer) setErr(err error) {
if err == nil || err == io.EOF {
return
}
w.emux.Lock()
defer w.emux.Unlock()
if w.err == nil {
blog.V(1).Infof("error writing %s: %v", w.name, err)
w.err = err
w.cancel()
}
}
func (w *Writer) getErr() error {
w.emux.RLock()
defer w.emux.RUnlock()
return w.err
}
func (w *Writer) registerChunk(id int, r *meteredReader) {
w.smux.Lock()
w.smap[id] = r
w.smux.Unlock()
}
func (w *Writer) completeChunk(id int) {
w.smux.Lock()
w.smap[id] = nil
w.smux.Unlock()
}
var gid int32
func (w *Writer) thread() {
w.wg.Add(1)
go func() {
defer w.wg.Done()
id := atomic.AddInt32(&gid, 1)
fc, err := w.file.getUploadPartURL(w.ctx)
if err != nil {
w.setErr(err)
return
}
for {
chunk, ok := <-w.ready
if !ok {
return
}
if sha, ok := w.seen[chunk.id]; ok {
if sha != chunk.buf.Hash() {
w.setErr(errors.New("resumable upload was requested, but chunks don't match!"))
return
}
chunk.buf.Close()
w.completeChunk(chunk.id)
blog.V(2).Infof("skipping chunk %d", chunk.id)
continue
}
blog.V(2).Infof("thread %d handling chunk %d", id, chunk.id)
r, err := chunk.buf.Reader()
if err != nil {
w.setErr(err)
return
}
mr := &meteredReader{r: r, size: chunk.buf.Len()}
w.registerChunk(chunk.id, mr)
sleep := time.Millisecond * 15
redo:
n, err := fc.uploadPart(w.ctx, mr, chunk.buf.Hash(), chunk.buf.Len(), chunk.id)
if n != chunk.buf.Len() || err != nil {
if w.o.b.r.reupload(err) {
time.Sleep(sleep)
sleep *= 2
if sleep > time.Second*15 {
sleep = time.Second * 15
}
blog.V(1).Infof("b2 writer: wrote %d of %d: error: %v; retrying", n, chunk.buf.Len(), err)
f, err := w.file.getUploadPartURL(w.ctx)
if err != nil {
w.setErr(err)
w.completeChunk(chunk.id)
chunk.buf.Close() // TODO: log error
return
}
fc = f
goto redo
}
w.setErr(err)
w.completeChunk(chunk.id)
chunk.buf.Close() // TODO: log error
return
}
w.completeChunk(chunk.id)
chunk.buf.Close() // TODO: log error
blog.V(2).Infof("chunk %d handled", chunk.id)
}
}()
}
func (w *Writer) init() {
w.start.Do(func() {
w.everStarted = true
w.smux.Lock()
w.smap = make(map[int]*meteredReader)
w.smux.Unlock()
w.o.b.c.addWriter(w)
w.csize = w.ChunkSize
if w.csize == 0 {
w.csize = 1e8
}
if w.newBuffer == nil {
w.newBuffer = func() (writeBuffer, error) { return newMemoryBuffer(), nil }
if w.UseFileBuffer {
w.newBuffer = func() (writeBuffer, error) { return newFileBuffer(w.FileBufferDir) }
}
}
v, err := w.newBuffer()
if err != nil {
w.setErr(err)
return
}
w.w = v
})
}
// Write satisfies the io.Writer interface.
func (w *Writer) Write(p []byte) (int, error) {
w.init()
if err := w.getErr(); err != nil {
return 0, err
}
left := w.csize - w.w.Len()
if len(p) < left {
return w.w.Write(p)
}
i, err := w.w.Write(p[:left])
if err != nil {
w.setErr(err)
return i, err
}
if err := w.sendChunk(); err != nil {
w.setErr(err)
return i, w.getErr()
}
k, err := w.Write(p[left:])
if err != nil {
w.setErr(err)
}
return i + k, err
}
func (w *Writer) simpleWriteFile() error {
ue, err := w.o.b.b.getUploadURL(w.ctx)
if err != nil {
return err
}
sha1 := w.w.Hash()
ctype := w.contentType
if ctype == "" {
ctype = "application/octet-stream"
}
r, err := w.w.Reader()
if err != nil {
return err
}
mr := &meteredReader{r: r, size: w.w.Len()}
w.registerChunk(1, mr)
defer w.completeChunk(1)
redo:
f, err := ue.uploadFile(w.ctx, mr, int(w.w.Len()), w.name, ctype, sha1, w.info)
if err != nil {
if w.o.b.r.reupload(err) {
blog.V(2).Infof("b2 writer: %v; retrying", err)
u, err := w.o.b.b.getUploadURL(w.ctx)
if err != nil {
return err
}
ue = u
goto redo
}
return err
}
w.o.f = f
return nil
}
func (w *Writer) getLargeFile() (beLargeFileInterface, error) {
if !w.Resume {
ctype := w.contentType
if ctype == "" {
ctype = "application/octet-stream"
}
return w.o.b.b.startLargeFile(w.ctx, w.name, ctype, w.info)
}
next := 1
seen := make(map[int]string)
var size int64
var fi beFileInterface
for {
cur := &Cursor{name: w.name}
objs, _, err := w.o.b.ListObjects(w.ctx, 1, cur)
if err != nil {
return nil, err
}
if len(objs) < 1 || objs[0].name != w.name {
w.Resume = false
return w.getLargeFile()
}
fi = objs[0].f
parts, n, err := fi.listParts(w.ctx, next, 100)
if err != nil {
return nil, err
}
next = n
for _, p := range parts {
seen[p.number()] = p.sha1()
size += p.size()
}
if len(parts) == 0 {
break
}
if next == 0 {
break
}
}
w.seen = make(map[int]string) // copy the map
for id, sha := range seen {
w.seen[id] = sha
}
return fi.compileParts(size, seen), nil
}
func (w *Writer) sendChunk() error {
var err error
w.once.Do(func() {
lf, e := w.getLargeFile()
if e != nil {
err = e
return
}
w.file = lf
w.ready = make(chan chunk)
if w.ConcurrentUploads < 1 {
w.ConcurrentUploads = 1
}
for i := 0; i < w.ConcurrentUploads; i++ {
w.thread()
}
})
if err != nil {
return err
}
select {
case w.ready <- chunk{
id: w.cidx + 1,
buf: w.w,
}:
case <-w.ctx.Done():
return w.ctx.Err()
}
w.cidx++
v, err := w.newBuffer()
if err != nil {
return err
}
w.w = v
return nil
}
// ReadFrom reads all of r into w, returning the first error or no error if r
// returns io.EOF. If r is also an io.Seeker, ReadFrom will stream r directly
// over the wire instead of buffering it locally. This reduces memory usage.
//
// Do not issue multiple calls to ReadFrom, or mix ReadFrom and Write. If you
// have multiple readers you want to concatenate into the same B2 object, use
// an io.MultiReader.
//
// Note that io.Copy will automatically choose to use ReadFrom.
//
// ReadFrom currently doesn't handle w.Resume; if w.Resume is true, ReadFrom
// will act as if r is not an io.Seeker.
func (w *Writer) ReadFrom(r io.Reader) (int64, error) {
rs, ok := r.(io.ReadSeeker)
if !ok || w.Resume {
return copyContext(w.ctx, w, r)
}
blog.V(2).Info("streaming without buffer")
size, err := rs.Seek(0, io.SeekEnd)
if err != nil {
return 0, err
}
var ra io.ReaderAt
if rat, ok := r.(io.ReaderAt); ok {
ra = rat
} else {
ra = enReaderAt(rs)
}
var offset int64
var wrote int64
w.newBuffer = func() (writeBuffer, error) {
left := size - offset
if left <= 0 {
// We're done sending real chunks; send empty chunks from now on so that
// Close() works.
w.newBuffer = func() (writeBuffer, error) { return newMemoryBuffer(), nil }
w.w = newMemoryBuffer()
return nil, io.EOF
}
csize := int64(w.csize)
if left < csize {
csize = left
}
nb := newNonBuffer(ra, offset, csize)
wrote += csize // TODO: this is kind of a total lie
offset += csize
return nb, nil
}
w.init()
if size < int64(w.csize) {
// the magic happens on w.Close()
return size, nil
}
for {
if err := w.sendChunk(); err != nil {
if err != io.EOF {
return wrote, err
}
return wrote, nil
}
}
}
// Close satisfies the io.Closer interface. It is critical to check the return
// value of Close for all writers.
func (w *Writer) Close() error {
w.done.Do(func() {
if !w.everStarted {
return
}
defer w.o.b.c.removeWriter(w)
defer func() {
if err := w.w.Close(); err != nil {
// this is non-fatal, but alarming
blog.V(1).Infof("close %s: %v", w.name, err)
}
}()
if w.cidx == 0 {
w.setErr(w.simpleWriteFile())
return
}
if w.w.Len() > 0 {
if err := w.sendChunk(); err != nil {
w.setErr(err)
return
}
}
close(w.ready)
w.wg.Wait()
f, err := w.file.finishLargeFile(w.ctx)
if err != nil {
w.setErr(err)
return
}
w.o.f = f
})
return w.getErr()
}
// WithAttrs sets the writable attributes of the resulting file to given
// values. WithAttrs must be called before the first call to Write.
func (w *Writer) WithAttrs(attrs *Attrs) *Writer {
w.contentType = attrs.ContentType
w.info = make(map[string]string)
for k, v := range attrs.Info {
w.info[k] = v
}
if len(w.info) < 10 && !attrs.LastModified.IsZero() {
w.info["src_last_modified_millis"] = fmt.Sprintf("%d", attrs.LastModified.UnixNano()/1e6)
}
return w
}
func (w *Writer) status() *WriterStatus {
w.smux.RLock()
defer w.smux.RUnlock()
ws := &WriterStatus{
Progress: make([]float64, len(w.smap)),
}
for i := 1; i <= len(w.smap); i++ {
ws.Progress[i-1] = w.smap[i].done()
}
return ws
}
type meteredReader struct {
read int64
size int
r readResetter
mux sync.Mutex
}
func (mr *meteredReader) Read(p []byte) (int, error) {
mr.mux.Lock()
defer mr.mux.Unlock()
n, err := mr.r.Read(p)
mr.read += int64(n)
return n, err
}
func (mr *meteredReader) Reset() error {
mr.mux.Lock()
defer mr.mux.Unlock()
mr.read = 0
return mr.r.Reset()
}
func (mr *meteredReader) done() float64 {
if mr == nil {
return 1
}
read := float64(atomic.LoadInt64(&mr.read))
return read / float64(mr.size)
}