Browse Source

mount: optional limit for the number of concurrent writers

pull/1596/head
Chris Lu 4 years ago
parent
commit
8826601be1
  1. 2
      weed/command/mount.go
  2. 1
      weed/command/mount_std.go
  3. 24
      weed/filesys/dirty_page.go
  4. 8
      weed/filesys/wfs.go

2
weed/command/mount.go

@ -14,6 +14,7 @@ type MountOptions struct {
replication *string
ttlSec *int
chunkSizeLimitMB *int
concurrentWriters *int
cacheDir *string
cacheSizeMB *int64
dataCenter *string
@ -42,6 +43,7 @@ func init() {
mountOptions.replication = cmdMount.Flag.String("replication", "", "replication(e.g. 000, 001) to create to files. If empty, let filer decide.")
mountOptions.ttlSec = cmdMount.Flag.Int("ttl", 0, "file ttl in seconds")
mountOptions.chunkSizeLimitMB = cmdMount.Flag.Int("chunkSizeLimitMB", 2, "local write buffer size, also chunk large files")
mountOptions.concurrentWriters = cmdMount.Flag.Int("concurrentWriters", 0, "limit concurrent goroutine writers if not 0")
mountOptions.cacheDir = cmdMount.Flag.String("cacheDir", os.TempDir(), "local cache directory for file chunks and meta data")
mountOptions.cacheSizeMB = cmdMount.Flag.Int64("cacheCapacityMB", 1000, "local file chunk cache capacity in MB (0 will disable cache)")
mountOptions.dataCenter = cmdMount.Flag.String("dataCenter", "", "prefer to write to the data center")

1
weed/command/mount_std.go

@ -175,6 +175,7 @@ func RunMount(option *MountOptions, umask os.FileMode) bool {
Replication: *option.replication,
TtlSec: int32(*option.ttlSec),
ChunkSizeLimit: int64(chunkSizeLimitMB) * 1024 * 1024,
ConcurrentWriters: *option.concurrentWriters,
CacheDir: *option.cacheDir,
CacheSizeMB: *option.cacheSizeMB,
DataCenter: *option.dataCenter,

24
weed/filesys/dirty_page.go

@ -9,12 +9,6 @@ import (
"github.com/chrislusf/seaweedfs/weed/glog"
"github.com/chrislusf/seaweedfs/weed/pb/filer_pb"
"github.com/chrislusf/seaweedfs/weed/util"
)
var (
concurrentWriterLimit = runtime.NumCPU()
concurrentWriters = util.NewLimitedConcurrentExecutor(4 * concurrentWriterLimit)
)
type ContinuousDirtyPages struct {
@ -33,7 +27,7 @@ func newDirtyPages(file *File) *ContinuousDirtyPages {
dirtyPages := &ContinuousDirtyPages{
intervals: &ContinuousIntervals{},
f: file,
chunkSaveErrChan: make(chan error, concurrentWriterLimit),
chunkSaveErrChan: make(chan error, runtime.NumCPU()),
}
go func() {
for t := range dirtyPages.chunkSaveErrChan {
@ -100,14 +94,18 @@ func (pages *ContinuousDirtyPages) saveExistingLargestPageToStorage() (hasSavedD
func (pages *ContinuousDirtyPages) saveToStorage(reader io.Reader, offset int64, size int64) {
errChanSize := pages.f.wfs.option.ConcurrentWriters
if errChanSize == 0 {
errChanSize = runtime.NumCPU()
}
if pages.chunkSaveErrChanClosed {
pages.chunkSaveErrChan = make(chan error, concurrentWriterLimit)
pages.chunkSaveErrChan = make(chan error, errChanSize)
pages.chunkSaveErrChanClosed = false
}
mtime := time.Now().UnixNano()
pages.writeWaitGroup.Add(1)
go func() {
writer := func() {
defer pages.writeWaitGroup.Done()
reader = io.LimitReader(reader, size)
@ -121,7 +119,13 @@ func (pages *ContinuousDirtyPages) saveToStorage(reader io.Reader, offset int64,
pages.collection, pages.replication = collection, replication
pages.f.addChunks([]*filer_pb.FileChunk{chunk})
glog.V(3).Infof("%s saveToStorage [%d,%d)", pages.f.fullpath(), offset, offset+size)
}()
}
if pages.f.wfs.concurrentWriters != nil {
pages.f.wfs.concurrentWriters.Execute(writer)
} else {
go writer()
}
}
func max(x, y int64) int64 {

8
weed/filesys/wfs.go

@ -31,6 +31,7 @@ type Option struct {
Replication string
TtlSec int32
ChunkSizeLimit int64
ConcurrentWriters int
CacheDir string
CacheSizeMB int64
DataCenter string
@ -68,6 +69,9 @@ type WFS struct {
chunkCache *chunk_cache.TieredChunkCache
metaCache *meta_cache.MetaCache
signature int32
// throttle writers
concurrentWriters *util.LimitedConcurrentExecutor
}
type statsCache struct {
filer_pb.StatisticsResponse
@ -110,6 +114,10 @@ func NewSeaweedFileSystem(option *Option) *WFS {
wfs.root = &Dir{name: wfs.option.FilerMountRootPath, wfs: wfs, entry: entry}
wfs.fsNodeCache = newFsCache(wfs.root)
if wfs.option.ConcurrentWriters > 0 {
wfs.concurrentWriters = util.NewLimitedConcurrentExecutor(wfs.option.ConcurrentWriters)
}
return wfs
}

Loading…
Cancel
Save