rclone/vfs/read.go

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package vfs
import (
"io"
"os"
"sync"
"github.com/ncw/rclone/fs"
"github.com/pkg/errors"
)
// ReadFileHandle is an open for read file handle on a File
type ReadFileHandle struct {
baseHandle
mu sync.Mutex
closed bool // set if handle has been closed
r *fs.Account
o fs.Object
readCalled bool // set if read has been called
offset int64 // offset of read of o
roffset int64 // offset of Read() calls
noSeek bool
file *File
hash *fs.MultiHasher
opened bool
}
// Check interfaces
var (
_ io.Reader = (*ReadFileHandle)(nil)
_ io.ReaderAt = (*ReadFileHandle)(nil)
_ io.Seeker = (*ReadFileHandle)(nil)
_ io.Closer = (*ReadFileHandle)(nil)
)
func newReadFileHandle(f *File, o fs.Object) (*ReadFileHandle, error) {
var hash *fs.MultiHasher
var err error
if !f.d.vfs.Opt.NoChecksum {
hash, err = fs.NewMultiHasherTypes(o.Fs().Hashes())
if err != nil {
fs.Errorf(o.Fs(), "newReadFileHandle hash error: %v", err)
}
}
fh := &ReadFileHandle{
o: o,
noSeek: f.d.vfs.Opt.NoSeek,
file: f,
hash: hash,
}
fs.Stats.Transferring(fh.o.Remote())
return fh, nil
}
// openPending opens the file if there is a pending open
// call with the lock held
func (fh *ReadFileHandle) openPending() (err error) {
if fh.opened {
return nil
}
r, err := fh.o.Open()
if err != nil {
return err
}
fh.r = fs.NewAccount(r, fh.o).WithBuffer() // account the transfer
fh.opened = true
return nil
}
// String converts it to printable
func (fh *ReadFileHandle) String() string {
if fh == nil {
return "<nil *ReadFileHandle>"
}
if fh.file == nil {
return "<nil *ReadFileHandle.file>"
}
return fh.file.String() + " (r)"
}
// Node returns the Node assocuated with this - satisfies Noder interface
func (fh *ReadFileHandle) Node() Node {
return fh.file
}
// seek to a new offset
//
// if reopen is true, then we won't attempt to use an io.Seeker interface
//
// Must be called with fh.mu held
func (fh *ReadFileHandle) seek(offset int64, reopen bool) (err error) {
if fh.noSeek {
return ESPIPE
}
fh.r.StopBuffering() // stop the background reading first
fh.hash = nil
oldReader := fh.r.GetReader()
r := oldReader
// Can we seek it directly?
if do, ok := oldReader.(io.Seeker); !reopen && ok {
fs.Debugf(fh.o, "ReadFileHandle.seek from %d to %d (io.Seeker)", fh.offset, offset)
_, err = do.Seek(offset, 0)
if err != nil {
fs.Debugf(fh.o, "ReadFileHandle.Read io.Seeker failed: %v", err)
return err
}
} else {
fs.Debugf(fh.o, "ReadFileHandle.seek from %d to %d", fh.offset, offset)
// close old one
err = oldReader.Close()
if err != nil {
fs.Debugf(fh.o, "ReadFileHandle.Read seek close old failed: %v", err)
}
// re-open with a seek
r, err = fh.o.Open(&fs.SeekOption{Offset: offset})
if err != nil {
fs.Debugf(fh.o, "ReadFileHandle.Read seek failed: %v", err)
return err
}
}
fh.r.UpdateReader(r)
fh.offset = offset
return nil
}
// Seek the file
func (fh *ReadFileHandle) Seek(offset int64, whence int) (n int64, err error) {
size := fh.o.Size()
switch whence {
case 0:
fh.roffset = 0
case 2:
fh.roffset = size
}
fh.roffset += offset
// we don't check the offset - the next Read will
return fh.roffset, nil
}
// ReadAt reads len(p) bytes into p starting at offset off in the
// underlying input source. It returns the number of bytes read (0 <=
// n <= len(p)) and any error encountered.
//
// When ReadAt returns n < len(p), it returns a non-nil error
// explaining why more bytes were not returned. In this respect,
// ReadAt is stricter than Read.
//
// Even if ReadAt returns n < len(p), it may use all of p as scratch
// space during the call. If some data is available but not len(p)
// bytes, ReadAt blocks until either all the data is available or an
// error occurs. In this respect ReadAt is different from Read.
//
// If the n = len(p) bytes returned by ReadAt are at the end of the
// input source, ReadAt may return either err == EOF or err == nil.
//
// If ReadAt is reading from an input source with a seek offset,
// ReadAt should not affect nor be affected by the underlying seek
// offset.
//
// Clients of ReadAt can execute parallel ReadAt calls on the same
// input source.
//
// Implementations must not retain p.
func (fh *ReadFileHandle) ReadAt(p []byte, off int64) (n int, err error) {
fh.mu.Lock()
defer fh.mu.Unlock()
err = fh.openPending() // FIXME pending open could be more efficient in the presense of seek (and retried)
if err != nil {
return 0, err
}
// fs.Debugf(fh.o, "ReadFileHandle.Read size %d offset %d", reqSize, off)
if fh.closed {
fs.Errorf(fh.o, "ReadFileHandle.Read error: %v", EBADF)
return 0, EBADF
}
doSeek := off != fh.offset
var newOffset int64
retries := 0
reqSize := len(p)
doReopen := false
for {
if doSeek {
// Are we attempting to seek beyond the end of the
// file - if so just return EOF leaving the underlying
// file in an unchanged state.
if off >= fh.o.Size() {
fs.Debugf(fh.o, "ReadFileHandle.Read attempt to read beyond end of file: %d > %d", off, fh.o.Size())
return 0, nil
}
// Otherwise do the seek
err = fh.seek(off, doReopen)
} else {
err = nil
}
if err == nil {
if reqSize > 0 {
fh.readCalled = true
}
// One exception to the above is if we fail to fully populate a
// page cache page; a read into page cache is always page aligned.
// Make sure we never serve a partial read, to avoid that.
n, err = io.ReadFull(fh.r, p)
newOffset = fh.offset + int64(n)
// if err == nil && rand.Intn(10) == 0 {
// err = errors.New("random error")
// }
if err == nil {
break
} else if (err == io.ErrUnexpectedEOF || err == io.EOF) && newOffset == fh.o.Size() {
// Have read to end of file - reset error
err = nil
break
}
}
if retries >= fs.Config.LowLevelRetries {
break
}
retries++
fs.Errorf(fh.o, "ReadFileHandle.Read error: low level retry %d/%d: %v", retries, fs.Config.LowLevelRetries, err)
doSeek = true
doReopen = true
}
if err != nil {
fs.Errorf(fh.o, "ReadFileHandle.Read error: %v", err)
} else {
fh.offset = newOffset
// fs.Debugf(fh.o, "ReadFileHandle.Read OK")
if fh.hash != nil {
_, err = fh.hash.Write(p[:n])
if err != nil {
fs.Errorf(fh.o, "ReadFileHandle.Read HashError: %v", err)
return 0, err
}
}
}
return n, err
}
func (fh *ReadFileHandle) checkHash() error {
if fh.hash == nil || !fh.readCalled || fh.offset < fh.o.Size() {
return nil
}
for hashType, dstSum := range fh.hash.Sums() {
srcSum, err := fh.o.Hash(hashType)
if err != nil {
return err
}
if !fs.HashEquals(dstSum, srcSum) {
return errors.Errorf("corrupted on transfer: %v hash differ %q vs %q", hashType, dstSum, srcSum)
}
}
return nil
}
// Read reads up to len(p) bytes into p. It returns the number of bytes read (0
// <= n <= len(p)) and any error encountered. Even if Read returns n < len(p),
// it may use all of p as scratch space during the call. If some data is
// available but not len(p) bytes, Read conventionally returns what is
// available instead of waiting for more.
//
// When Read encounters an error or end-of-file condition after successfully
// reading n > 0 bytes, it returns the number of bytes read. It may return the
// (non-nil) error from the same call or return the error (and n == 0) from a
// subsequent call. An instance of this general case is that a Reader returning
// a non-zero number of bytes at the end of the input stream may return either
// err == EOF or err == nil. The next Read should return 0, EOF.
//
// Callers should always process the n > 0 bytes returned before considering
// the error err. Doing so correctly handles I/O errors that happen after
// reading some bytes and also both of the allowed EOF behaviors.
//
// Implementations of Read are discouraged from returning a zero byte count
// with a nil error, except when len(p) == 0. Callers should treat a return of
// 0 and nil as indicating that nothing happened; in particular it does not
// indicate EOF.
//
// Implementations must not retain p.
func (fh *ReadFileHandle) Read(p []byte) (n int, err error) {
if fh.roffset >= fh.o.Size() {
return 0, io.EOF
}
n, err = fh.ReadAt(p, fh.roffset)
fh.roffset += int64(n)
return n, err
}
// close the file handle returning EBADF if it has been
// closed already.
//
// Must be called with fh.mu held
func (fh *ReadFileHandle) close() error {
if fh.closed {
return EBADF
}
fh.closed = true
fs.Stats.DoneTransferring(fh.o.Remote(), true)
if err := fh.checkHash(); err != nil {
return err
}
return fh.r.Close()
}
// Flush is called each time the file or directory is closed.
// Because there can be multiple file descriptors referring to a
// single opened file, Flush can be called multiple times.
func (fh *ReadFileHandle) Flush() error {
fh.mu.Lock()
defer fh.mu.Unlock()
if !fh.opened {
return nil
}
// fs.Debugf(fh.o, "ReadFileHandle.Flush")
if err := fh.checkHash(); err != nil {
fs.Errorf(fh.o, "ReadFileHandle.Flush error: %v", err)
return err
}
// fs.Debugf(fh.o, "ReadFileHandle.Flush OK")
return nil
}
// Release is called when we are finished with the file handle
//
// It isn't called directly from userspace so the error is ignored by
// the kernel
func (fh *ReadFileHandle) Release() error {
fh.mu.Lock()
defer fh.mu.Unlock()
if !fh.opened {
return nil
}
if fh.closed {
fs.Debugf(fh.o, "ReadFileHandle.Release nothing to do")
return nil
}
fs.Debugf(fh.o, "ReadFileHandle.Release closing")
err := fh.close()
if err != nil {
fs.Errorf(fh.o, "ReadFileHandle.Release error: %v", err)
} else {
// fs.Debugf(fh.o, "ReadFileHandle.Release OK")
}
return err
}
// Size returns the size of the underlying file
func (fh *ReadFileHandle) Size() int64 {
return fh.o.Size()
}
// Stat returns info about the file
func (fh *ReadFileHandle) Stat() (os.FileInfo, error) {
return fh.file, nil
}
// Close closes the file calling Flush then Release
func (fh *ReadFileHandle) Close() error {
err := fh.Flush()
err2 := fh.Release()
if err != nil {
return err
}
return err2
}