ceremonyclient/pebble/vfs/syncing_file.go

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// Copyright 2019 The LevelDB-Go and Pebble Authors. All rights reserved. Use
// of this source code is governed by a BSD-style license that can be found in
// the LICENSE file.
package vfs
import (
"sync/atomic"
"github.com/cockroachdb/errors"
)
// SyncingFileOptions holds the options for a syncingFile.
type SyncingFileOptions struct {
// NoSyncOnClose elides the automatic Sync during Close if it's not possible
// to sync the remainder of the file in a non-blocking way.
NoSyncOnClose bool
BytesPerSync int
PreallocateSize int
}
type syncingFile struct {
File
// fd can be InvalidFd if the underlying File does not support it.
fd uintptr
noSyncOnClose bool
bytesPerSync int64
preallocateSize int64
// The offset at which dirty data has been written.
offset atomic.Int64
// The offset at which data has been synced. Note that if SyncFileRange is
// being used, the periodic syncing of data during writing will only ever
// sync up to offset-1MB. This is done to avoid rewriting the tail of the
// file multiple times, but has the side effect of ensuring that Close will
// sync the file's metadata.
syncOffset atomic.Int64
preallocatedBlocks int64
}
// NewSyncingFile wraps a writable file and ensures that data is synced
// periodically as it is written. The syncing does not provide persistency
// guarantees for these periodic syncs, but is used to avoid latency spikes if
// the OS automatically decides to write out a large chunk of dirty filesystem
// buffers. The underlying file is fully synced upon close.
func NewSyncingFile(f File, opts SyncingFileOptions) File {
s := &syncingFile{
File: f,
fd: f.Fd(),
noSyncOnClose: bool(opts.NoSyncOnClose),
bytesPerSync: int64(opts.BytesPerSync),
preallocateSize: int64(opts.PreallocateSize),
}
// Ensure a file that is opened and then closed will be synced, even if no
// data has been written to it.
s.syncOffset.Store(-1)
return s
}
// NB: syncingFile.Write is unsafe for concurrent use!
func (f *syncingFile) Write(p []byte) (n int, err error) {
_ = f.preallocate(f.offset.Load())
n, err = f.File.Write(p)
if err != nil {
return n, errors.WithStack(err)
}
// The offset is updated atomically so that it can be accessed safely from
// Sync.
f.offset.Add(int64(n))
if err := f.maybeSync(); err != nil {
return 0, err
}
return n, nil
}
func (f *syncingFile) preallocate(offset int64) error {
if f.fd == InvalidFd || f.preallocateSize == 0 {
return nil
}
newPreallocatedBlocks := (offset + f.preallocateSize - 1) / f.preallocateSize
if newPreallocatedBlocks <= f.preallocatedBlocks {
return nil
}
length := f.preallocateSize * (newPreallocatedBlocks - f.preallocatedBlocks)
offset = f.preallocateSize * f.preallocatedBlocks
f.preallocatedBlocks = newPreallocatedBlocks
return f.Preallocate(offset, length)
}
func (f *syncingFile) ratchetSyncOffset(offset int64) {
for {
syncOffset := f.syncOffset.Load()
if syncOffset >= offset {
return
}
if f.syncOffset.CompareAndSwap(syncOffset, offset) {
return
}
}
}
func (f *syncingFile) Sync() error {
// We update syncOffset (atomically) in order to avoid spurious syncs in
// maybeSync. Note that even if syncOffset is larger than the current file
// offset, we still need to call the underlying file's sync for persistence
// guarantees which are not provided by SyncTo (or by sync_file_range on
// Linux).
f.ratchetSyncOffset(f.offset.Load())
return f.SyncData()
}
func (f *syncingFile) maybeSync() error {
if f.bytesPerSync <= 0 {
return nil
}
// From the RocksDB source:
//
// We try to avoid sync to the last 1MB of data. For two reasons:
// (1) avoid rewrite the same page that is modified later.
// (2) for older version of OS, write can block while writing out
// the page.
// Xfs does neighbor page flushing outside of the specified ranges. We
// need to make sure sync range is far from the write offset.
const syncRangeBuffer = 1 << 20 // 1 MB
offset := f.offset.Load()
if offset <= syncRangeBuffer {
return nil
}
const syncRangeAlignment = 4 << 10 // 4 KB
syncToOffset := offset - syncRangeBuffer
syncToOffset -= syncToOffset % syncRangeAlignment
syncOffset := f.syncOffset.Load()
if syncToOffset < 0 || (syncToOffset-syncOffset) < f.bytesPerSync {
return nil
}
if f.fd == InvalidFd {
return errors.WithStack(f.Sync())
}
// Note that SyncTo will always be called with an offset < atomic.offset.
// The SyncTo implementation may choose to sync the entire file (i.e. on
// OSes which do not support syncing a portion of the file).
fullSync, err := f.SyncTo(syncToOffset)
if err != nil {
return errors.WithStack(err)
}
if fullSync {
f.ratchetSyncOffset(offset)
} else {
f.ratchetSyncOffset(syncToOffset)
}
return nil
}
func (f *syncingFile) Close() error {
// Sync any data that has been written but not yet synced unless the file
// has noSyncOnClose option explicitly set.
//
// NB: If the file is capable of non-durability-guarantee SyncTos, and the
// caller has not called Sync since the last write, syncOffset is guaranteed
// to be less than atomic.offset. This ensures we fall into the below
// conditional and perform a full sync to durably persist the file.
if off := f.offset.Load(); off > f.syncOffset.Load() {
// There's still remaining dirty data.
if f.noSyncOnClose {
// If NoSyncOnClose is set, only perform a SyncTo. On linux, SyncTo
// translates to a non-blocking `sync_file_range` call which
// provides no persistence guarantee. Since it's non-blocking,
// there's no latency hit of a blocking sync call, but we still
// ensure we're not allowing significant dirty data to accumulate.
if _, err := f.File.SyncTo(off); err != nil {
return err
}
f.ratchetSyncOffset(off)
} else if err := f.Sync(); err != nil {
return errors.WithStack(err)
}
}
return errors.WithStack(f.File.Close())
}
// NewSyncingFS wraps a vfs.FS with one that wraps newly created files with
// vfs.NewSyncingFile.
func NewSyncingFS(fs FS, syncOpts SyncingFileOptions) FS {
return &syncingFS{
FS: fs,
syncOpts: syncOpts,
}
}
type syncingFS struct {
FS
syncOpts SyncingFileOptions
}
var _ FS = (*syncingFS)(nil)
func (fs *syncingFS) Create(name string) (File, error) {
f, err := fs.FS.Create(name)
if err != nil {
return nil, err
}
return NewSyncingFile(f, fs.syncOpts), nil
}
func (fs *syncingFS) ReuseForWrite(oldname, newname string) (File, error) {
// TODO(radu): implement this if needed.
panic("unimplemented")
}