mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
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454 lines
13 KiB
Go
454 lines
13 KiB
Go
// Copyright 2021 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package vfs
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import (
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"io"
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"os"
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"sync"
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"sync/atomic"
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"syscall"
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"github.com/cockroachdb/errors"
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)
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// OnDiskFull wraps the provided FS with an FS that examines returned errors,
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// looking for ENOSPC errors. It invokes the provided callback when the
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// underlying filesystem returns an error signifying the storage is out of
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// disk space.
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//
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// All new writes to the filesystem are blocked while the callback executes,
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// so care must be taken to avoid expensive work from within the callback.
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//
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// Once the callback completes, any write-oriented operations that encountered
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// ENOSPC are retried exactly once. Once the callback completes, it will not
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// be invoked again until a new operation that began after the callback
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// returned encounters an ENOSPC error.
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//
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// OnDiskFull may be used to automatically manage a ballast file, which is
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// removed from the filesystem from within the callback. Note that if managing
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// a ballast, the caller should maintain a reference to the inner FS and
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// remove the ballast on the unwrapped FS.
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func OnDiskFull(fs FS, fn func()) FS {
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newFS := &enospcFS{inner: fs}
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newFS.mu.Cond.L = &newFS.mu.Mutex
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newFS.mu.onDiskFull = fn
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return newFS
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}
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type enospcFS struct {
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inner FS
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// generation is a monotonically increasing number that encodes the
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// current state of ENOSPC error handling. Incoming writes are
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// organized into generations to provide strong guarantees on when the
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// disk full callback is invoked. The callback is invoked once per
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// write generation.
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//
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// Special significance is given to the parity of this generation
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// field to optimize incoming writes in the normal state, which only
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// need to perform a single atomic load. If generation is odd, an
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// ENOSPC error is being actively handled. The generations associated
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// with writes are always even.
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//
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// The lifecycle of a write is:
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//
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// 1. Atomically load the current generation.
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// a. If it's even, this is the write's generation number.
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// b. If it's odd, an ENOSPC was recently encountered and the
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// corresponding invocation of the disk full callback has not
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// yet completed. The write must wait until the callback has
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// completed and generation is updated to an even number, which
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// becomes the write's generation number.
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// 2. Perform the write. If it encounters no error or an error other
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// than ENOSPC, the write returns and proceeds no further in this
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// lifecycle.
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// 3. Handle ENOSPC. If the write encounters ENOSPC, the callback must
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// be invoked for the write's generation. The write's goroutine
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// acquires the FS's mutex.
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// a. If the FS's current generation is still equal to the write's
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// generation, the write is the first write of its generation to
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// encounter ENOSPC. It increments the FS's current generation
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// to an odd number, signifying that an ENOSPC is being handled
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// and invokes the callback.
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// b. If the FS's current generation has changed, some other write
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// from the same generation encountered an ENOSPC first. This
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// write waits on the condition variable until the FS's current
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// generation is updated indicating that the generation's
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// callback invocation has completed.
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// 3. Retry the write once. The callback for the write's generation
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// has completed, either by this write's goroutine or another's.
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// The write may proceed with the expectation that the callback
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// remedied the full disk by freeing up disk space and an ENOSPC
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// should not be encountered again for at least a few minutes. If
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// we do encounter another ENOSPC on the retry, the callback was
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// unable to remedy the full disk and another retry won't be
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// useful. Any error, including ENOSPC, during the retry is
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// returned without further handling. None of the retries invoke
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// the callback.
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//
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// This scheme has a few nice properties:
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// * Once the disk-full callback completes, it won't be invoked
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// again unless a write that started strictly later encounters an
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// ENOSPC. This is convenient if the callback strives to 'fix' the
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// full disk, for example, by removing a ballast file. A new
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// invocation of the callback guarantees a new problem.
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// * Incoming writes block if there's an unhandled ENOSPC. Some
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// writes, like WAL or MANIFEST fsyncs, are fatal if they encounter
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// an ENOSPC.
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generation atomic.Uint32
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mu struct {
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sync.Mutex
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sync.Cond
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onDiskFull func()
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}
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}
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// Unwrap returns the underlying FS. This may be called by vfs.Root to access
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// the underlying filesystem.
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func (fs *enospcFS) Unwrap() FS {
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return fs.inner
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}
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// waitUntilReady is called before every FS or File operation that
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// might return ENOSPC. If an ENOSPC was encountered and the corresponding
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// invocation of the `onDiskFull` callback has not yet returned,
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// waitUntilReady blocks until the callback returns. The returned generation
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// is always even.
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func (fs *enospcFS) waitUntilReady() uint32 {
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gen := fs.generation.Load()
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if gen%2 == 0 {
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// An even generation indicates that we're not currently handling an
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// ENOSPC. Allow the write to proceed.
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return gen
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}
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// We're currently handling an ENOSPC error. Wait on the condition
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// variable until we're not handling an ENOSPC.
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fs.mu.Lock()
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defer fs.mu.Unlock()
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// Load the generation again with fs.mu locked.
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gen = fs.generation.Load()
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for gen%2 == 1 {
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fs.mu.Wait()
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gen = fs.generation.Load()
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}
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return gen
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}
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func (fs *enospcFS) handleENOSPC(gen uint32) {
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fs.mu.Lock()
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defer fs.mu.Unlock()
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currentGeneration := fs.generation.Load()
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// If the current generation is still `gen`, this is the first goroutine
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// to hit an ENOSPC within this write generation, so this goroutine is
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// responsible for invoking the callback.
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if currentGeneration == gen {
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// Increment the generation to an odd number, indicating that the FS
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// is out-of-disk space and incoming writes should pause and wait for
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// the next generation before continuing.
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fs.generation.Store(gen + 1)
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func() {
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// Drop the mutex while we invoke the callback, re-acquiring
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// afterwards.
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fs.mu.Unlock()
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defer fs.mu.Lock()
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fs.mu.onDiskFull()
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}()
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// Update the current generation again to an even number, indicating
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// that the callback has completed for the write generation `gen`.
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fs.generation.Store(gen + 2)
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fs.mu.Broadcast()
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return
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}
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// The current generation has already been incremented, so either the
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// callback is currently being run by another goroutine or it's already
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// completed. Wait for it complete if it hasn't already.
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//
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// The current generation may be updated multiple times, including to an
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// odd number signifying a later write generation has already encountered
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// ENOSPC. In that case, the callback was not able to remedy the full disk
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// and waiting is unlikely to be helpful. Continuing to wait risks
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// blocking an unbounded number of generations. Retrying and bubbling the
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// ENOSPC up might be helpful if we can abort a large compaction that
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// started before we became more selective about compaction picking, so
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// this loop only waits for this write generation's callback and no
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// subsequent generations' callbacks.
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for currentGeneration == gen+1 {
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fs.mu.Wait()
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currentGeneration = fs.generation.Load()
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}
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}
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func (fs *enospcFS) Create(name string) (File, error) {
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gen := fs.waitUntilReady()
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f, err := fs.inner.Create(name)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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f, err = fs.inner.Create(name)
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}
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if f != nil {
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f = &enospcFile{
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fs: fs,
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inner: f,
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}
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}
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return f, err
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}
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func (fs *enospcFS) Link(oldname, newname string) error {
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gen := fs.waitUntilReady()
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err := fs.inner.Link(oldname, newname)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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err = fs.inner.Link(oldname, newname)
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}
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return err
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}
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func (fs *enospcFS) Open(name string, opts ...OpenOption) (File, error) {
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f, err := fs.inner.Open(name, opts...)
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if f != nil {
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f = &enospcFile{
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fs: fs,
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inner: f,
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}
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}
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return f, err
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}
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func (fs *enospcFS) OpenReadWrite(name string, opts ...OpenOption) (File, error) {
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f, err := fs.inner.OpenReadWrite(name, opts...)
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if f != nil {
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f = &enospcFile{
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fs: fs,
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inner: f,
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}
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}
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return f, err
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}
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func (fs *enospcFS) OpenDir(name string) (File, error) {
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f, err := fs.inner.OpenDir(name)
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if f != nil {
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f = &enospcFile{
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fs: fs,
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inner: f,
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}
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}
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return f, err
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}
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func (fs *enospcFS) Remove(name string) error {
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gen := fs.waitUntilReady()
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err := fs.inner.Remove(name)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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err = fs.inner.Remove(name)
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}
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return err
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}
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func (fs *enospcFS) RemoveAll(name string) error {
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gen := fs.waitUntilReady()
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err := fs.inner.RemoveAll(name)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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err = fs.inner.RemoveAll(name)
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}
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return err
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}
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func (fs *enospcFS) Rename(oldname, newname string) error {
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gen := fs.waitUntilReady()
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err := fs.inner.Rename(oldname, newname)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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err = fs.inner.Rename(oldname, newname)
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}
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return err
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}
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func (fs *enospcFS) ReuseForWrite(oldname, newname string) (File, error) {
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gen := fs.waitUntilReady()
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f, err := fs.inner.ReuseForWrite(oldname, newname)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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f, err = fs.inner.ReuseForWrite(oldname, newname)
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}
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if f != nil {
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f = &enospcFile{
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fs: fs,
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inner: f,
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}
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}
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return f, err
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}
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func (fs *enospcFS) MkdirAll(dir string, perm os.FileMode) error {
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gen := fs.waitUntilReady()
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err := fs.inner.MkdirAll(dir, perm)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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err = fs.inner.MkdirAll(dir, perm)
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}
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return err
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}
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func (fs *enospcFS) Lock(name string) (io.Closer, error) {
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gen := fs.waitUntilReady()
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closer, err := fs.inner.Lock(name)
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if err != nil && isENOSPC(err) {
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fs.handleENOSPC(gen)
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closer, err = fs.inner.Lock(name)
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}
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return closer, err
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}
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func (fs *enospcFS) List(dir string) ([]string, error) {
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return fs.inner.List(dir)
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}
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func (fs *enospcFS) Stat(name string) (os.FileInfo, error) {
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return fs.inner.Stat(name)
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}
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func (fs *enospcFS) PathBase(path string) string {
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return fs.inner.PathBase(path)
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}
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func (fs *enospcFS) PathJoin(elem ...string) string {
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return fs.inner.PathJoin(elem...)
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}
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func (fs *enospcFS) PathDir(path string) string {
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return fs.inner.PathDir(path)
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}
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func (fs *enospcFS) GetDiskUsage(path string) (DiskUsage, error) {
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return fs.inner.GetDiskUsage(path)
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}
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type enospcFile struct {
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fs *enospcFS
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inner File
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}
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var _ File = (*enospcFile)(nil)
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func (f *enospcFile) Close() error {
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return f.inner.Close()
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}
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func (f *enospcFile) Read(p []byte) (n int, err error) {
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return f.inner.Read(p)
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}
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func (f *enospcFile) ReadAt(p []byte, off int64) (n int, err error) {
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return f.inner.ReadAt(p, off)
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}
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func (f *enospcFile) Write(p []byte) (n int, err error) {
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gen := f.fs.waitUntilReady()
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n, err = f.inner.Write(p)
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if err != nil && isENOSPC(err) {
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f.fs.handleENOSPC(gen)
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var n2 int
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n2, err = f.inner.Write(p[n:])
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n += n2
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}
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return n, err
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}
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func (f *enospcFile) WriteAt(p []byte, ofs int64) (n int, err error) {
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gen := f.fs.waitUntilReady()
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n, err = f.inner.WriteAt(p, ofs)
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if err != nil && isENOSPC(err) {
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f.fs.handleENOSPC(gen)
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var n2 int
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n2, err = f.inner.WriteAt(p[n:], ofs+int64(n))
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n += n2
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}
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return n, err
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}
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func (f *enospcFile) Prefetch(offset, length int64) error {
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return f.inner.Prefetch(offset, length)
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}
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func (f *enospcFile) Preallocate(offset, length int64) error {
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return f.inner.Preallocate(offset, length)
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}
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func (f *enospcFile) Stat() (os.FileInfo, error) {
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return f.inner.Stat()
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}
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func (f *enospcFile) Sync() error {
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gen := f.fs.waitUntilReady()
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err := f.inner.Sync()
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if err != nil && isENOSPC(err) {
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f.fs.handleENOSPC(gen)
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// NB: It is NOT safe to retry the Sync. See the PostgreSQL
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// 'fsyncgate' discussion. A successful Sync after a failed one does
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// not provide any guarantees and (always?) loses the unsynced writes.
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// We need to bubble the error up and hope we weren't syncing a WAL or
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// MANIFEST, because we'll have no choice but to crash. Errors while
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// syncing an sstable will result in a failed flush/compaction, and
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// the relevant sstable(s) will be marked as obsolete and deleted.
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// See: https://lwn.net/Articles/752063/
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}
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return err
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}
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func (f *enospcFile) SyncData() error {
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return f.inner.SyncData()
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}
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func (f *enospcFile) SyncTo(length int64) (fullSync bool, err error) {
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return f.inner.SyncTo(length)
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}
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func (f *enospcFile) Fd() uintptr {
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return f.inner.Fd()
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}
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var _ FS = (*enospcFS)(nil)
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func isENOSPC(err error) bool {
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err = errors.UnwrapAll(err)
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e, ok := err.(syscall.Errno)
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return ok && e == syscall.ENOSPC
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}
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