917cb4acb3
This allows reads to only read part of the file and it keeps on disk a cache of what parts of each file have been loaded. File data itself is kept in sparse files.
321 lines
9.2 KiB
Go
321 lines
9.2 KiB
Go
package vfs
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import (
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"context"
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"io"
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"os"
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"sync"
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"time"
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"github.com/rclone/rclone/fs"
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"github.com/rclone/rclone/fs/operations"
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)
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// WriteFileHandle is an open for write handle on a File
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type WriteFileHandle struct {
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baseHandle
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mu sync.Mutex
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cond *sync.Cond // cond lock for out of sequence writes
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closed bool // set if handle has been closed
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remote string
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pipeWriter *io.PipeWriter
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o fs.Object
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result chan error
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file *File
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writeCalled bool // set the first time Write() is called
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offset int64
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opened bool
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flags int
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truncated bool
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}
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// Check interfaces
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var (
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_ io.Writer = (*WriteFileHandle)(nil)
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_ io.WriterAt = (*WriteFileHandle)(nil)
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_ io.Closer = (*WriteFileHandle)(nil)
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)
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func newWriteFileHandle(d *Dir, f *File, remote string, flags int) (*WriteFileHandle, error) {
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fh := &WriteFileHandle{
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remote: remote,
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flags: flags,
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result: make(chan error, 1),
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file: f,
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}
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fh.cond = sync.NewCond(&fh.mu)
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fh.file.addWriter(fh)
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return fh, nil
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}
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// returns whether it is OK to truncate the file
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func (fh *WriteFileHandle) safeToTruncate() bool {
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return fh.truncated || fh.flags&os.O_TRUNC != 0 || !fh.file.exists()
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}
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// openPending opens the file if there is a pending open
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//
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// call with the lock held
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func (fh *WriteFileHandle) openPending() (err error) {
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if fh.opened {
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return nil
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}
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if !fh.safeToTruncate() {
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fs.Errorf(fh.remote, "WriteFileHandle: Can't open for write without O_TRUNC on existing file without --vfs-cache-mode >= writes")
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return EPERM
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}
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var pipeReader *io.PipeReader
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pipeReader, fh.pipeWriter = io.Pipe()
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go func() {
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// NB Rcat deals with Stats.Transferring etc
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o, err := operations.Rcat(context.TODO(), fh.file.Fs(), fh.remote, pipeReader, time.Now())
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if err != nil {
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fs.Errorf(fh.remote, "WriteFileHandle.New Rcat failed: %v", err)
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}
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// Close the pipeReader so the pipeWriter fails with ErrClosedPipe
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_ = pipeReader.Close()
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fh.o = o
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fh.result <- err
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}()
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fh.file.setSize(0)
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fh.truncated = true
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fh.file.Dir().addObject(fh.file) // make sure the directory has this object in it now
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fh.opened = true
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return nil
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}
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// String converts it to printable
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func (fh *WriteFileHandle) String() string {
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if fh == nil {
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return "<nil *WriteFileHandle>"
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}
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fh.mu.Lock()
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defer fh.mu.Unlock()
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if fh.file == nil {
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return "<nil *WriteFileHandle.file>"
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}
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return fh.file.String() + " (w)"
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}
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// Node returns the Node assocuated with this - satisfies Noder interface
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func (fh *WriteFileHandle) Node() Node {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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return fh.file
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}
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// WriteAt writes len(p) bytes from p to the underlying data stream at offset
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// off. It returns the number of bytes written from p (0 <= n <= len(p)) and
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// any error encountered that caused the write to stop early. WriteAt must
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// return a non-nil error if it returns n < len(p).
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//
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// If WriteAt is writing to a destination with a seek offset, WriteAt should
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// not affect nor be affected by the underlying seek offset.
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//
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// Clients of WriteAt can execute parallel WriteAt calls on the same
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// destination if the ranges do not overlap.
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//
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// Implementations must not retain p.
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func (fh *WriteFileHandle) WriteAt(p []byte, off int64) (n int, err error) {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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return fh.writeAt(p, off)
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}
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// Implementatino of WriteAt - call with lock held
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func (fh *WriteFileHandle) writeAt(p []byte, off int64) (n int, err error) {
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// defer log.Trace(fh.remote, "len=%d off=%d", len(p), off)("n=%d, fh.off=%d, err=%v", &n, &fh.offset, &err)
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if fh.closed {
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fs.Errorf(fh.remote, "WriteFileHandle.Write: error: %v", EBADF)
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return 0, ECLOSED
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}
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if fh.offset != off {
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waitSequential("write", fh.remote, fh.cond, fh.file.VFS().Opt.WriteWait, &fh.offset, off)
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}
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if fh.offset != off {
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fs.Errorf(fh.remote, "WriteFileHandle.Write: can't seek in file without --vfs-cache-mode >= writes")
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return 0, ESPIPE
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}
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if err = fh.openPending(); err != nil {
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return 0, err
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}
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fh.writeCalled = true
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n, err = fh.pipeWriter.Write(p)
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fh.offset += int64(n)
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fh.file.setSize(fh.offset)
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if err != nil {
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fs.Errorf(fh.remote, "WriteFileHandle.Write error: %v", err)
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return 0, err
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}
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// fs.Debugf(fh.remote, "WriteFileHandle.Write OK (%d bytes written)", n)
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fh.cond.Broadcast() // wake everyone up waiting for an in-sequence read
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return n, nil
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}
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// Write writes len(p) bytes from p to the underlying data stream. It returns
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// the number of bytes written from p (0 <= n <= len(p)) and any error
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// encountered that caused the write to stop early. Write must return a non-nil
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// error if it returns n < len(p). Write must not modify the slice data, even
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// temporarily.
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//
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// Implementations must not retain p.
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func (fh *WriteFileHandle) Write(p []byte) (n int, err error) {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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// Since we can't seek, just call WriteAt with the current offset
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return fh.writeAt(p, fh.offset)
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}
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// WriteString a string to the file
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func (fh *WriteFileHandle) WriteString(s string) (n int, err error) {
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return fh.Write([]byte(s))
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}
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// Offset returns the offset of the file pointer
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func (fh *WriteFileHandle) Offset() (offset int64) {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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return fh.offset
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}
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// close the file handle returning EBADF if it has been
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// closed already.
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//
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// Must be called with fh.mu held
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func (fh *WriteFileHandle) close() (err error) {
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if fh.closed {
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return ECLOSED
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}
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fh.closed = true
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// leave writer open until file is transferred
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defer func() {
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fh.file.delWriter(fh)
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}()
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// If file not opened and not safe to truncate then leave file intact
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if !fh.opened && !fh.safeToTruncate() {
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return nil
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}
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if err = fh.openPending(); err != nil {
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return err
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}
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writeCloseErr := fh.pipeWriter.Close()
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err = <-fh.result
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if err == nil {
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fh.file.setObject(fh.o)
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err = writeCloseErr
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}
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return err
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}
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// Close closes the file
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func (fh *WriteFileHandle) Close() error {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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return fh.close()
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}
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// Flush is called on each close() of a file descriptor. So if a
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// filesystem wants to return write errors in close() and the file has
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// cached dirty data, this is a good place to write back data and
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// return any errors. Since many applications ignore close() errors
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// this is not always useful.
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//
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// NOTE: The flush() method may be called more than once for each
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// open(). This happens if more than one file descriptor refers to an
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// opened file due to dup(), dup2() or fork() calls. It is not
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// possible to determine if a flush is final, so each flush should be
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// treated equally. Multiple write-flush sequences are relatively
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// rare, so this shouldn't be a problem.
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//
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// Filesystems shouldn't assume that flush will always be called after
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// some writes, or that if will be called at all.
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func (fh *WriteFileHandle) Flush() error {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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if fh.closed {
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fs.Debugf(fh.remote, "WriteFileHandle.Flush nothing to do")
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return nil
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}
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// fs.Debugf(fh.remote, "WriteFileHandle.Flush")
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// If Write hasn't been called then ignore the Flush - Release
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// will pick it up
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if !fh.writeCalled {
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fs.Debugf(fh.remote, "WriteFileHandle.Flush unwritten handle, writing 0 bytes to avoid race conditions")
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_, err := fh.writeAt([]byte{}, fh.offset)
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return err
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}
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err := fh.close()
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if err != nil {
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fs.Errorf(fh.remote, "WriteFileHandle.Flush error: %v", err)
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} else {
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// fs.Debugf(fh.remote, "WriteFileHandle.Flush OK")
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}
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return err
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}
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// Release is called when we are finished with the file handle
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//
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// It isn't called directly from userspace so the error is ignored by
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// the kernel
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func (fh *WriteFileHandle) Release() error {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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if fh.closed {
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fs.Debugf(fh.remote, "WriteFileHandle.Release nothing to do")
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return nil
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}
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fs.Debugf(fh.remote, "WriteFileHandle.Release closing")
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err := fh.close()
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if err != nil {
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fs.Errorf(fh.remote, "WriteFileHandle.Release error: %v", err)
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} else {
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// fs.Debugf(fh.remote, "WriteFileHandle.Release OK")
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}
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return err
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}
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// Stat returns info about the file
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func (fh *WriteFileHandle) Stat() (os.FileInfo, error) {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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return fh.file, nil
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}
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// Truncate file to given size
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func (fh *WriteFileHandle) Truncate(size int64) (err error) {
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fh.mu.Lock()
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defer fh.mu.Unlock()
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if fh.closed {
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return ECLOSED
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}
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if size != fh.offset {
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fs.Errorf(fh.remote, "WriteFileHandle: Truncate: Can't change size without --vfs-cache-mode >= writes")
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return EPERM
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}
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// File is correct size
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if size == 0 {
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fh.truncated = true
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}
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return nil
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}
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// Read reads up to len(p) bytes into p.
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func (fh *WriteFileHandle) Read(p []byte) (n int, err error) {
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fs.Errorf(fh.remote, "WriteFileHandle: Read: Can't read and write to file without --vfs-cache-mode >= minimal")
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return 0, EPERM
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}
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// ReadAt reads len(p) bytes into p starting at offset off in the
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// underlying input source. It returns the number of bytes read (0 <=
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// n <= len(p)) and any error encountered.
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func (fh *WriteFileHandle) ReadAt(p []byte, off int64) (n int, err error) {
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fs.Errorf(fh.remote, "WriteFileHandle: ReadAt: Can't read and write to file without --vfs-cache-mode >= minimal")
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return 0, EPERM
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}
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// Sync commits the current contents of the file to stable storage. Typically,
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// this means flushing the file system's in-memory copy of recently written
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// data to disk.
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func (fh *WriteFileHandle) Sync() error {
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return nil
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}
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