VictoriaMetrics/lib/persistentqueue/fastqueue.go

190 lines
5.1 KiB
Go

package persistentqueue
import (
"sync"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fasttime"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)
// FastQueue is fast persistent queue, which prefers sending data via memory.
//
// It falls back to sending data via file when readers don't catch up with writers.
type FastQueue struct {
// my protects the state of FastQueue.
mu sync.Mutex
// cond is used for notifying blocked readers when new data has been added
// or when MustClose is called.
cond sync.Cond
// pq is file-based queue
pq *queue
// ch is in-memory queue
ch chan *bytesutil.ByteBuffer
pendingInmemoryBytes uint64
lastInmemoryBlockReadTime uint64
mustStop bool
}
// MustOpenFastQueue opens persistent queue at the given path.
//
// It holds up to maxInmemoryBlocks in memory before falling back to file-based persistence.
//
// if maxPendingBytes is 0, then the queue size is unlimited.
// Otherwise its size is limited by maxPendingBytes. The oldest data is dropped when the queue
// reaches maxPendingSize.
func MustOpenFastQueue(path, name string, maxInmemoryBlocks, maxPendingBytes int) *FastQueue {
pq := mustOpen(path, name, maxPendingBytes)
fq := &FastQueue{
pq: pq,
ch: make(chan *bytesutil.ByteBuffer, maxInmemoryBlocks),
}
fq.cond.L = &fq.mu
fq.lastInmemoryBlockReadTime = fasttime.UnixTimestamp()
pendingBytes := fq.GetPendingBytes()
logger.Infof("opened fast persistent queue at %q with maxInmemoryBlocks=%d, it contains %d pending bytes", path, maxInmemoryBlocks, pendingBytes)
return fq
}
// UnblockAllReaders unblocks all the readers.
func (fq *FastQueue) UnblockAllReaders() {
fq.mu.Lock()
defer fq.mu.Unlock()
// Unblock blocked readers
fq.mustStop = true
fq.cond.Broadcast()
}
// MustClose unblocks all the readers.
//
// It is expected no new writers during and after the call.
func (fq *FastQueue) MustClose() {
fq.UnblockAllReaders()
fq.mu.Lock()
defer fq.mu.Unlock()
// flush blocks from fq.ch to fq.pq, so they can be persisted
fq.flushInmemoryBlocksToFileLocked()
// Close fq.pq
fq.pq.MustClose()
logger.Infof("closed fast persistent queue at %q", fq.pq.dir)
}
func (fq *FastQueue) flushInmemoryBlocksToFileIfNeededLocked() {
if len(fq.ch) == 0 {
return
}
if fasttime.UnixTimestamp() < fq.lastInmemoryBlockReadTime+5 {
return
}
fq.flushInmemoryBlocksToFileLocked()
}
func (fq *FastQueue) flushInmemoryBlocksToFileLocked() {
// fq.mu must be locked by the caller.
for len(fq.ch) > 0 {
bb := <-fq.ch
fq.pq.MustWriteBlock(bb.B)
fq.pendingInmemoryBytes -= uint64(len(bb.B))
fq.lastInmemoryBlockReadTime = fasttime.UnixTimestamp()
blockBufPool.Put(bb)
}
// Unblock all the potentially blocked readers, so they could proceed with reading file-based queue.
fq.cond.Broadcast()
}
// GetPendingBytes returns the number of pending bytes in the fq.
func (fq *FastQueue) GetPendingBytes() uint64 {
fq.mu.Lock()
defer fq.mu.Unlock()
n := fq.pendingInmemoryBytes
n += fq.pq.GetPendingBytes()
return n
}
// GetInmemoryQueueLen returns the length of inmemory queue.
func (fq *FastQueue) GetInmemoryQueueLen() int {
fq.mu.Lock()
defer fq.mu.Unlock()
return len(fq.ch)
}
// MustWriteBlock writes block to fq.
func (fq *FastQueue) MustWriteBlock(block []byte) {
fq.mu.Lock()
defer fq.mu.Unlock()
fq.flushInmemoryBlocksToFileIfNeededLocked()
if n := fq.pq.GetPendingBytes(); n > 0 {
// The file-based queue isn't drained yet. This means that in-memory queue cannot be used yet.
// So put the block to file-based queue.
if len(fq.ch) > 0 {
logger.Panicf("BUG: the in-memory queue must be empty when the file-based queue is non-empty; it contains %d pending bytes", n)
}
fq.pq.MustWriteBlock(block)
return
}
if len(fq.ch) == cap(fq.ch) {
// There is no space in the in-memory queue. Put the data to file-based queue.
fq.flushInmemoryBlocksToFileLocked()
fq.pq.MustWriteBlock(block)
return
}
// There is enough space in the in-memory queue.
bb := blockBufPool.Get()
bb.B = append(bb.B[:0], block...)
fq.ch <- bb
fq.pendingInmemoryBytes += uint64(len(block))
// Notify potentially blocked reader.
// See https://github.com/VictoriaMetrics/VictoriaMetrics/pull/484 for the context.
fq.cond.Signal()
}
// MustReadBlock reads the next block from fq to dst and returns it.
func (fq *FastQueue) MustReadBlock(dst []byte) ([]byte, bool) {
fq.mu.Lock()
defer fq.mu.Unlock()
for {
if fq.mustStop {
return dst, false
}
if len(fq.ch) > 0 {
if n := fq.pq.GetPendingBytes(); n > 0 {
logger.Panicf("BUG: the file-based queue must be empty when the inmemory queue is non-empty; it contains %d pending bytes", n)
}
bb := <-fq.ch
fq.pendingInmemoryBytes -= uint64(len(bb.B))
fq.lastInmemoryBlockReadTime = fasttime.UnixTimestamp()
dst = append(dst, bb.B...)
blockBufPool.Put(bb)
return dst, true
}
if n := fq.pq.GetPendingBytes(); n > 0 {
data, ok := fq.pq.MustReadBlockNonblocking(dst)
if ok {
return data, true
}
dst = data
continue
}
// There are no blocks. Wait for new block.
fq.pq.ResetIfEmpty()
fq.cond.Wait()
}
}