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prometheus/storage/local/persistence.go

1185 lines
36 KiB

// Copyright 2014 The Prometheus Authors
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package local
import (
"bufio"
"encoding/binary"
"fmt"
"io"
"os"
"path"
"path/filepath"
"sync"
"sync/atomic"
"time"
"github.com/golang/glog"
"github.com/prometheus/client_golang/prometheus"
clientmodel "github.com/prometheus/client_golang/model"
"github.com/prometheus/prometheus/storage/local/codable"
"github.com/prometheus/prometheus/storage/local/flock"
"github.com/prometheus/prometheus/storage/local/index"
"github.com/prometheus/prometheus/storage/metric"
)
const (
seriesFileSuffix = ".db"
seriesTempFileSuffix = ".db.tmp"
seriesDirNameLen = 2 // How many bytes of the fingerprint in dir name.
headsFileName = "heads.db"
headsTempFileName = "heads.db.tmp"
headsFormatVersion = 1
headsMagicString = "PrometheusHeads"
dirtyFileName = "DIRTY"
fileBufSize = 1 << 16 // 64kiB.
chunkHeaderLen = 17
chunkHeaderTypeOffset = 0
chunkHeaderFirstTimeOffset = 1
chunkHeaderLastTimeOffset = 9
indexingMaxBatchSize = 1024 * 1024
indexingBatchTimeout = 500 * time.Millisecond // Commit batch when idle for that long.
indexingQueueCapacity = 1024 * 16
)
var fpLen = len(clientmodel.Fingerprint(0).String()) // Length of a fingerprint as string.
const (
flagHeadChunkPersisted byte = 1 << iota
// Add more flags here like:
// flagFoo
// flagBar
)
type indexingOpType byte
const (
add indexingOpType = iota
remove
)
type indexingOp struct {
fingerprint clientmodel.Fingerprint
metric clientmodel.Metric
opType indexingOpType
}
// A Persistence is used by a Storage implementation to store samples
// persistently across restarts. The methods are only goroutine-safe if
// explicitly marked as such below. The chunk-related methods PersistChunk,
// dropChunks, loadChunks, and loadChunkDescs can be called concurrently with
// each other if each call refers to a different fingerprint.
type persistence struct {
basePath string
chunkLen int
archivedFingerprintToMetrics *index.FingerprintMetricIndex
archivedFingerprintToTimeRange *index.FingerprintTimeRangeIndex
labelPairToFingerprints *index.LabelPairFingerprintIndex
labelNameToLabelValues *index.LabelNameLabelValuesIndex
indexingQueue chan indexingOp
indexingStopped chan struct{}
indexingFlush chan chan int
indexingQueueLength prometheus.Gauge
indexingQueueCapacity prometheus.Metric
indexingBatchSizes prometheus.Summary
indexingBatchLatency prometheus.Summary
checkpointDuration prometheus.Gauge
dirtyMtx sync.Mutex // Protects dirty and becameDirty.
dirty bool // true if persistence was started in dirty state.
becameDirty bool // true if an inconsistency came up during runtime.
dirtyFileName string // The file used for locking and to mark dirty state.
fLock flock.Releaser // The file lock to protect against concurrent usage.
}
// newPersistence returns a newly allocated persistence backed by local disk storage, ready to use.
func newPersistence(basePath string, chunkLen int, dirty bool) (*persistence, error) {
if err := os.MkdirAll(basePath, 0700); err != nil {
return nil, err
}
dirtyPath := filepath.Join(basePath, dirtyFileName)
fLock, dirtyfileExisted, err := flock.New(dirtyPath)
if err != nil {
glog.Errorf("Could not lock %s, Prometheus already running?", dirtyPath)
return nil, err
}
if dirtyfileExisted {
dirty = true
}
archivedFingerprintToMetrics, err := index.NewFingerprintMetricIndex(basePath)
if err != nil {
return nil, err
}
archivedFingerprintToTimeRange, err := index.NewFingerprintTimeRangeIndex(basePath)
if err != nil {
return nil, err
}
p := &persistence{
basePath: basePath,
chunkLen: chunkLen,
archivedFingerprintToMetrics: archivedFingerprintToMetrics,
archivedFingerprintToTimeRange: archivedFingerprintToTimeRange,
indexingQueue: make(chan indexingOp, indexingQueueCapacity),
indexingStopped: make(chan struct{}),
indexingFlush: make(chan chan int),
indexingQueueLength: prometheus.NewGauge(prometheus.GaugeOpts{
Namespace: namespace,
Subsystem: subsystem,
Name: "indexing_queue_length",
Help: "The number of metrics waiting to be indexed.",
}),
indexingQueueCapacity: prometheus.MustNewConstMetric(
prometheus.NewDesc(
prometheus.BuildFQName(namespace, subsystem, "indexing_queue_capacity"),
"The capacity of the indexing queue.",
nil, nil,
),
prometheus.GaugeValue,
float64(indexingQueueCapacity),
),
indexingBatchSizes: prometheus.NewSummary(
prometheus.SummaryOpts{
Namespace: namespace,
Subsystem: subsystem,
Name: "indexing_batch_sizes",
Help: "Quantiles for indexing batch sizes (number of metrics per batch).",
},
),
indexingBatchLatency: prometheus.NewSummary(
prometheus.SummaryOpts{
Namespace: namespace,
Subsystem: subsystem,
Name: "indexing_batch_latency_milliseconds",
Help: "Quantiles for batch indexing latencies in milliseconds.",
},
),
checkpointDuration: prometheus.NewGauge(prometheus.GaugeOpts{
Namespace: namespace,
Subsystem: subsystem,
Name: "checkpoint_duration_milliseconds",
Help: "The duration (in milliseconds) it took to checkpoint in-memory metrics and head chunks.",
}),
dirty: dirty,
dirtyFileName: dirtyPath,
fLock: fLock,
}
if p.dirty {
// Blow away the label indexes. We'll rebuild them later.
if err := index.DeleteLabelPairFingerprintIndex(basePath); err != nil {
return nil, err
}
if err := index.DeleteLabelNameLabelValuesIndex(basePath); err != nil {
return nil, err
}
}
labelPairToFingerprints, err := index.NewLabelPairFingerprintIndex(basePath)
if err != nil {
return nil, err
}
labelNameToLabelValues, err := index.NewLabelNameLabelValuesIndex(basePath)
if err != nil {
return nil, err
}
p.labelPairToFingerprints = labelPairToFingerprints
p.labelNameToLabelValues = labelNameToLabelValues
go p.processIndexingQueue()
return p, nil
}
// Describe implements prometheus.Collector.
func (p *persistence) Describe(ch chan<- *prometheus.Desc) {
ch <- p.indexingQueueLength.Desc()
ch <- p.indexingQueueCapacity.Desc()
p.indexingBatchSizes.Describe(ch)
p.indexingBatchLatency.Describe(ch)
ch <- p.checkpointDuration.Desc()
}
// Collect implements prometheus.Collector.
func (p *persistence) Collect(ch chan<- prometheus.Metric) {
p.indexingQueueLength.Set(float64(len(p.indexingQueue)))
ch <- p.indexingQueueLength
ch <- p.indexingQueueCapacity
p.indexingBatchSizes.Collect(ch)
p.indexingBatchLatency.Collect(ch)
ch <- p.checkpointDuration
}
// isDirty returns the dirty flag in a goroutine-safe way.
func (p *persistence) isDirty() bool {
p.dirtyMtx.Lock()
defer p.dirtyMtx.Unlock()
return p.dirty
}
// setDirty sets the dirty flag in a goroutine-safe way. Once the dirty flag was
// set to true with this method, it cannot be set to false again. (If we became
// dirty during our runtime, there is no way back. If we were dirty from the
// start, a clean-up might make us clean again.)
func (p *persistence) setDirty(dirty bool) {
p.dirtyMtx.Lock()
defer p.dirtyMtx.Unlock()
if p.becameDirty {
return
}
p.dirty = dirty
if dirty {
p.becameDirty = true
glog.Error("The storage is now inconsistent. Restart Prometheus ASAP to initiate recovery.")
}
}
// getFingerprintsForLabelPair returns the fingerprints for the given label
// pair. This method is goroutine-safe but take into account that metrics queued
// for indexing with IndexMetric might not have made it into the index
// yet. (Same applies correspondingly to UnindexMetric.)
func (p *persistence) getFingerprintsForLabelPair(lp metric.LabelPair) (clientmodel.Fingerprints, error) {
fps, _, err := p.labelPairToFingerprints.Lookup(lp)
if err != nil {
return nil, err
}
return fps, nil
}
// getLabelValuesForLabelName returns the label values for the given label
// name. This method is goroutine-safe but take into account that metrics queued
// for indexing with IndexMetric might not have made it into the index
// yet. (Same applies correspondingly to UnindexMetric.)
func (p *persistence) getLabelValuesForLabelName(ln clientmodel.LabelName) (clientmodel.LabelValues, error) {
lvs, _, err := p.labelNameToLabelValues.Lookup(ln)
if err != nil {
return nil, err
}
return lvs, nil
}
// persistChunk persists a single chunk of a series. It is the caller's
// responsibility to not modify the chunk concurrently and to not persist or
// drop anything for the same fingerprint concurrently. It returns the
// (zero-based) index of the persisted chunk within the series file. In case of
// an error, the returned index is -1 (to avoid the misconception that the chunk
// was written at position 0).
func (p *persistence) persistChunk(fp clientmodel.Fingerprint, c chunk) (int, error) {
// 1. Open chunk file.
f, err := p.openChunkFileForWriting(fp)
if err != nil {
return -1, err
}
defer f.Close()
b := bufio.NewWriterSize(f, chunkHeaderLen+p.chunkLen)
// 2. Write the header (chunk type and first/last times).
err = writeChunkHeader(b, c)
if err != nil {
return -1, err
}
// 3. Write chunk into file.
err = c.marshal(b)
if err != nil {
return -1, err
}
// 4. Determine index within the file.
b.Flush()
offset, err := f.Seek(0, os.SEEK_CUR)
if err != nil {
return -1, err
}
index, err := p.chunkIndexForOffset(offset)
if err != nil {
return -1, err
}
return index - 1, err
}
// loadChunks loads a group of chunks of a timeseries by their index. The chunk
// with the earliest time will have index 0, the following ones will have
// incrementally larger indexes. The indexOffset denotes the offset to be added to
// each index in indexes. It is the caller's responsibility to not persist or
// drop anything for the same fingerprint concurrently.
func (p *persistence) loadChunks(fp clientmodel.Fingerprint, indexes []int, indexOffset int) ([]chunk, error) {
f, err := p.openChunkFileForReading(fp)
if err != nil {
return nil, err
}
defer f.Close()
chunks := make([]chunk, 0, len(indexes))
typeBuf := make([]byte, 1)
for _, idx := range indexes {
_, err := f.Seek(p.offsetForChunkIndex(idx+indexOffset), os.SEEK_SET)
if err != nil {
return nil, err
}
n, err := f.Read(typeBuf)
if err != nil {
return nil, err
}
if n != 1 {
panic("read returned != 1 bytes")
}
_, err = f.Seek(chunkHeaderLen-1, os.SEEK_CUR)
if err != nil {
return nil, err
}
chunk := chunkForType(typeBuf[0])
chunk.unmarshal(f)
chunks = append(chunks, chunk)
}
return chunks, nil
}
// loadChunkDescs loads chunkDescs for a series up until a given time. It is
// the caller's responsibility to not persist or drop anything for the same
// fingerprint concurrently.
func (p *persistence) loadChunkDescs(fp clientmodel.Fingerprint, beforeTime clientmodel.Timestamp) ([]*chunkDesc, error) {
f, err := p.openChunkFileForReading(fp)
if os.IsNotExist(err) {
return nil, nil
}
if err != nil {
return nil, err
}
defer f.Close()
fi, err := f.Stat()
if err != nil {
return nil, err
}
totalChunkLen := chunkHeaderLen + p.chunkLen
if fi.Size()%int64(totalChunkLen) != 0 {
p.setDirty(true)
return nil, fmt.Errorf(
"size of series file for fingerprint %v is %d, which is not a multiple of the chunk length %d",
fp, fi.Size(), totalChunkLen,
)
}
numChunks := int(fi.Size()) / totalChunkLen
cds := make([]*chunkDesc, 0, numChunks)
for i := 0; i < numChunks; i++ {
_, err := f.Seek(p.offsetForChunkIndex(i)+chunkHeaderFirstTimeOffset, os.SEEK_SET)
if err != nil {
return nil, err
}
chunkTimesBuf := make([]byte, 16)
_, err = io.ReadAtLeast(f, chunkTimesBuf, 16)
if err != nil {
return nil, err
}
cd := &chunkDesc{
chunkFirstTime: clientmodel.Timestamp(binary.LittleEndian.Uint64(chunkTimesBuf)),
chunkLastTime: clientmodel.Timestamp(binary.LittleEndian.Uint64(chunkTimesBuf[8:])),
}
if !cd.chunkLastTime.Before(beforeTime) {
// From here on, we have chunkDescs in memory already.
break
}
cds = append(cds, cd)
}
chunkDescOps.WithLabelValues(load).Add(float64(len(cds)))
numMemChunkDescs.Add(float64(len(cds)))
return cds, nil
}
// checkpointSeriesMapAndHeads persists the fingerprint to memory-series mapping
// and all open (non-full) head chunks. Do not call concurrently with
// loadSeriesMapAndHeads.
//
// Description of the file format:
//
// (1) Magic string (const headsMagicString).
//
// (2) Varint-encoded format version (const headsFormatVersion).
//
// (3) Number of series in checkpoint as big-endian uint64.
//
// (4) Repeated once per series:
//
// (4.1) A flag byte, see flag constants above.
//
// (4.2) The fingerprint as big-endian uint64.
//
// (4.3) The metric as defined by codable.Metric.
//
// (4.4) The varint-encoded chunkDescsOffset.
//
// (4.5) The varint-encoded savedFirstTime.
//
// (4.6) The varint-encoded number of chunk descriptors.
//
// (4.7) Repeated once per chunk descriptor, oldest to most recent:
//
// (4.7.1) The varint-encoded first time.
//
// (4.7.2) The varint-encoded last time.
//
// (4.8) Exception to 4.7: If the most recent chunk is a non-persisted head chunk,
// the following is persisted instead of the most recent chunk descriptor:
//
// (4.8.1) A byte defining the chunk type.
//
// (4.8.2) The head chunk itself, marshaled with the marshal() method.
//
func (p *persistence) checkpointSeriesMapAndHeads(fingerprintToSeries *seriesMap, fpLocker *fingerprintLocker) (err error) {
glog.Info("Checkpointing in-memory metrics and head chunks...")
begin := time.Now()
f, err := os.OpenFile(p.headsTempFileName(), os.O_WRONLY|os.O_TRUNC|os.O_CREATE, 0640)
if err != nil {
return
}
defer func() {
closeErr := f.Close()
if err != nil {
return
}
err = closeErr
if err != nil {
return
}
err = os.Rename(p.headsTempFileName(), p.headsFileName())
duration := time.Since(begin)
p.checkpointDuration.Set(float64(duration) / float64(time.Millisecond))
glog.Infof("Done checkpointing in-memory metrics and head chunks in %v.", duration)
}()
w := bufio.NewWriterSize(f, fileBufSize)
if _, err = w.WriteString(headsMagicString); err != nil {
return
}
var numberOfSeriesOffset int
if numberOfSeriesOffset, err = codable.EncodeVarint(w, headsFormatVersion); err != nil {
return
}
numberOfSeriesOffset += len(headsMagicString)
numberOfSeriesInHeader := uint64(fingerprintToSeries.length())
// We have to write the number of series as uint64 because we might need
// to overwrite it later, and a varint might change byte width then.
if err = codable.EncodeUint64(w, numberOfSeriesInHeader); err != nil {
return
}
iter := fingerprintToSeries.iter()
defer func() {
// Consume the iterator in any case to not leak goroutines.
for range iter {
}
}()
var realNumberOfSeries uint64
for m := range iter {
func() { // Wrapped in function to use defer for unlocking the fp.
fpLocker.Lock(m.fp)
defer fpLocker.Unlock(m.fp)
if len(m.series.chunkDescs) == 0 {
// This series was completely purged or archived in the meantime. Ignore.
return
}
realNumberOfSeries++
var seriesFlags byte
if m.series.headChunkPersisted {
seriesFlags |= flagHeadChunkPersisted
}
if err = w.WriteByte(seriesFlags); err != nil {
return
}
if err = codable.EncodeUint64(w, uint64(m.fp)); err != nil {
return
}
var buf []byte
buf, err = codable.Metric(m.series.metric).MarshalBinary()
if err != nil {
return
}
w.Write(buf)
if _, err = codable.EncodeVarint(w, int64(m.series.chunkDescsOffset)); err != nil {
return
}
if _, err = codable.EncodeVarint(w, int64(m.series.savedFirstTime)); err != nil {
return
}
if _, err = codable.EncodeVarint(w, int64(len(m.series.chunkDescs))); err != nil {
return
}
for i, chunkDesc := range m.series.chunkDescs {
if m.series.headChunkPersisted || i < len(m.series.chunkDescs)-1 {
if _, err = codable.EncodeVarint(w, int64(chunkDesc.firstTime())); err != nil {
return
}
if _, err = codable.EncodeVarint(w, int64(chunkDesc.lastTime())); err != nil {
return
}
} else {
// This is the non-persisted head chunk. Fully marshal it.
if err = w.WriteByte(chunkType(chunkDesc.chunk)); err != nil {
return
}
if err = chunkDesc.chunk.marshal(w); err != nil {
return
}
}
}
}()
if err != nil {
return
}
}
if err = w.Flush(); err != nil {
return
}
if realNumberOfSeries != numberOfSeriesInHeader {
// The number of series has changed in the meantime.
// Rewrite it in the header.
if _, err = f.Seek(int64(numberOfSeriesOffset), os.SEEK_SET); err != nil {
return
}
if err = codable.EncodeUint64(f, realNumberOfSeries); err != nil {
return
}
}
return
}
// loadSeriesMapAndHeads loads the fingerprint to memory-series mapping and all
// open (non-full) head chunks. If recoverable corruption is detected, or if the
// dirty flag was set from the beginning, crash recovery is run, which might
// take a while. If an unrecoverable error is encountered, it is returned. Call
// this method during start-up while nothing else is running in storage
// land. This method is utterly goroutine-unsafe.
func (p *persistence) loadSeriesMapAndHeads() (sm *seriesMap, err error) {
var chunksTotal, chunkDescsTotal int64
fingerprintToSeries := make(map[clientmodel.Fingerprint]*memorySeries)
sm = &seriesMap{m: fingerprintToSeries}
defer func() {
if sm != nil && p.dirty {
glog.Warning("Persistence layer appears dirty.")
err = p.recoverFromCrash(fingerprintToSeries)
if err != nil {
sm = nil
}
}
if err == nil {
atomic.AddInt64(&numMemChunks, chunksTotal)
numMemChunkDescs.Add(float64(chunkDescsTotal))
}
}()
f, err := os.Open(p.headsFileName())
if os.IsNotExist(err) {
return sm, nil
}
if err != nil {
glog.Warning("Could not open heads file:", err)
p.dirty = true
return
}
defer f.Close()
r := bufio.NewReaderSize(f, fileBufSize)
buf := make([]byte, len(headsMagicString))
if _, err := io.ReadFull(r, buf); err != nil {
glog.Warning("Could not read from heads file:", err)
p.dirty = true
return sm, nil
}
magic := string(buf)
if magic != headsMagicString {
glog.Warningf(
"unexpected magic string, want %q, got %q",
headsMagicString, magic,
)
p.dirty = true
return
}
if version, err := binary.ReadVarint(r); version != headsFormatVersion || err != nil {
glog.Warningf("unknown heads format version, want %d", headsFormatVersion)
p.dirty = true
return sm, nil
}
numSeries, err := codable.DecodeUint64(r)
if err != nil {
glog.Warning("Could not decode number of series:", err)
p.dirty = true
return sm, nil
}
for ; numSeries > 0; numSeries-- {
seriesFlags, err := r.ReadByte()
if err != nil {
glog.Warning("Could not read series flags:", err)
p.dirty = true
return sm, nil
}
headChunkPersisted := seriesFlags&flagHeadChunkPersisted != 0
fp, err := codable.DecodeUint64(r)
if err != nil {
glog.Warning("Could not decode fingerprint:", err)
p.dirty = true
return sm, nil
}
var metric codable.Metric
if err := metric.UnmarshalFromReader(r); err != nil {
glog.Warning("Could not decode metric:", err)
p.dirty = true
return sm, nil
}
chunkDescsOffset, err := binary.ReadVarint(r)
if err != nil {
glog.Warning("Could not decode chunk descriptor offset:", err)
p.dirty = true
return sm, nil
}
savedFirstTime, err := binary.ReadVarint(r)
if err != nil {
glog.Warning("Could not decode saved first time:", err)
p.dirty = true
return sm, nil
}
numChunkDescs, err := binary.ReadVarint(r)
if err != nil {
glog.Warning("Could not decode number of chunk descriptors:", err)
p.dirty = true
return sm, nil
}
chunkDescs := make([]*chunkDesc, numChunkDescs)
chunkDescsTotal += numChunkDescs
for i := int64(0); i < numChunkDescs; i++ {
if headChunkPersisted || i < numChunkDescs-1 {
firstTime, err := binary.ReadVarint(r)
if err != nil {
glog.Warning("Could not decode first time:", err)
p.dirty = true
return sm, nil
}
lastTime, err := binary.ReadVarint(r)
if err != nil {
glog.Warning("Could not decode last time:", err)
p.dirty = true
return sm, nil
}
chunkDescs[i] = &chunkDesc{
chunkFirstTime: clientmodel.Timestamp(firstTime),
chunkLastTime: clientmodel.Timestamp(lastTime),
}
} else {
// Non-persisted head chunk.
chunksTotal++
chunkType, err := r.ReadByte()
if err != nil {
glog.Warning("Could not decode chunk type:", err)
p.dirty = true
return sm, nil
}
chunk := chunkForType(chunkType)
if err := chunk.unmarshal(r); err != nil {
glog.Warning("Could not decode chunk type:", err)
p.dirty = true
return sm, nil
}
chunkDescs[i] = newChunkDesc(chunk)
}
}
fingerprintToSeries[clientmodel.Fingerprint(fp)] = &memorySeries{
metric: clientmodel.Metric(metric),
chunkDescs: chunkDescs,
chunkDescsOffset: int(chunkDescsOffset),
savedFirstTime: clientmodel.Timestamp(savedFirstTime),
headChunkPersisted: headChunkPersisted,
}
}
return sm, nil
}
// dropChunks deletes all chunks from a series whose last sample time is before
// beforeTime. It returns the timestamp of the first sample in the oldest chunk
// _not_ dropped, the number of deleted chunks, and true if all chunks of the
// series have been deleted (in which case the returned timestamp will be 0 and
// must be ignored). It is the caller's responsibility to make sure nothing is
// persisted or loaded for the same fingerprint concurrently.
func (p *persistence) dropChunks(fp clientmodel.Fingerprint, beforeTime clientmodel.Timestamp) (
firstTimeNotDropped clientmodel.Timestamp,
numDropped int,
allDropped bool,
err error,
) {
defer func() {
if err != nil {
p.setDirty(true)
}
}()
f, err := p.openChunkFileForReading(fp)
if os.IsNotExist(err) {
return 0, 0, true, nil
}
if err != nil {
return 0, 0, false, err
}
defer f.Close()
// Find the first chunk that should be kept.
var i int
var firstTime clientmodel.Timestamp
for ; ; i++ {
_, err := f.Seek(p.offsetForChunkIndex(i)+chunkHeaderFirstTimeOffset, os.SEEK_SET)
if err != nil {
return 0, 0, false, err
}
timeBuf := make([]byte, 16)
_, err = io.ReadAtLeast(f, timeBuf, 16)
if err == io.EOF {
// We ran into the end of the file without finding any chunks that should
// be kept. Remove the whole file.
chunkOps.WithLabelValues(purge).Add(float64(i))
if err := os.Remove(f.Name()); err != nil {
return 0, 0, true, err
}
return 0, i, true, nil
}
if err != nil {
return 0, 0, false, err
}
lastTime := clientmodel.Timestamp(binary.LittleEndian.Uint64(timeBuf[8:]))
if !lastTime.Before(beforeTime) {
firstTime = clientmodel.Timestamp(binary.LittleEndian.Uint64(timeBuf))
chunkOps.WithLabelValues(purge).Add(float64(i))
break
}
}
// We've found the first chunk that should be kept. Seek backwards to the
// beginning of its header and start copying everything from there into a new
// file.
_, err = f.Seek(-(chunkHeaderFirstTimeOffset + 16), os.SEEK_CUR)
if err != nil {
return 0, 0, false, err
}
temp, err := os.OpenFile(p.tempFileNameForFingerprint(fp), os.O_WRONLY|os.O_CREATE, 0640)
if err != nil {
return 0, 0, false, err
}
defer temp.Close()
if _, err := io.Copy(temp, f); err != nil {
return 0, 0, false, err
}
if err := os.Rename(p.tempFileNameForFingerprint(fp), p.fileNameForFingerprint(fp)); err != nil {
return 0, 0, false, err
}
return firstTime, i, false, nil
}
// indexMetric queues the given metric for addition to the indexes needed by
// getFingerprintsForLabelPair, getLabelValuesForLabelName, and
// getFingerprintsModifiedBefore. If the queue is full, this method blocks
// until the metric can be queued. This method is goroutine-safe.
func (p *persistence) indexMetric(fp clientmodel.Fingerprint, m clientmodel.Metric) {
p.indexingQueue <- indexingOp{fp, m, add}
}
// unindexMetric queues references to the given metric for removal from the
// indexes used for getFingerprintsForLabelPair, getLabelValuesForLabelName, and
// getFingerprintsModifiedBefore. The index of fingerprints to archived metrics
// is not affected by this removal. (In fact, never call this method for an
// archived metric. To drop an archived metric, call dropArchivedFingerprint.)
// If the queue is full, this method blocks until the metric can be queued. This
// method is goroutine-safe.
func (p *persistence) unindexMetric(fp clientmodel.Fingerprint, m clientmodel.Metric) {
p.indexingQueue <- indexingOp{fp, m, remove}
}
// waitForIndexing waits until all items in the indexing queue are processed. If
// queue processing is currently on hold (to gather more ops for batching), this
// method will trigger an immediate start of processing. This method is
// goroutine-safe.
func (p *persistence) waitForIndexing() {
wait := make(chan int)
for {
p.indexingFlush <- wait
if <-wait == 0 {
break
}
}
}
// archiveMetric persists the mapping of the given fingerprint to the given
// metric, together with the first and last timestamp of the series belonging to
// the metric. The caller must have locked the fingerprint.
func (p *persistence) archiveMetric(
fp clientmodel.Fingerprint, m clientmodel.Metric, first, last clientmodel.Timestamp,
) error {
if err := p.archivedFingerprintToMetrics.Put(codable.Fingerprint(fp), codable.Metric(m)); err != nil {
p.setDirty(true)
return err
}
if err := p.archivedFingerprintToTimeRange.Put(codable.Fingerprint(fp), codable.TimeRange{First: first, Last: last}); err != nil {
p.setDirty(true)
return err
}
return nil
}
// hasArchivedMetric returns whether the archived metric for the given
// fingerprint exists and if yes, what the first and last timestamp in the
// corresponding series is. This method is goroutine-safe.
func (p *persistence) hasArchivedMetric(fp clientmodel.Fingerprint) (
hasMetric bool, firstTime, lastTime clientmodel.Timestamp, err error,
) {
firstTime, lastTime, hasMetric, err = p.archivedFingerprintToTimeRange.Lookup(fp)
return
}
// updateArchivedTimeRange updates an archived time range. The caller must make
// sure that the fingerprint is currently archived (the time range will
// otherwise be added without the corresponding metric in the archive).
func (p *persistence) updateArchivedTimeRange(
fp clientmodel.Fingerprint, first, last clientmodel.Timestamp,
) error {
return p.archivedFingerprintToTimeRange.Put(codable.Fingerprint(fp), codable.TimeRange{First: first, Last: last})
}
// getFingerprintsModifiedBefore returns the fingerprints of archived timeseries
// that have live samples before the provided timestamp. This method is
// goroutine-safe.
func (p *persistence) getFingerprintsModifiedBefore(beforeTime clientmodel.Timestamp) ([]clientmodel.Fingerprint, error) {
var fp codable.Fingerprint
var tr codable.TimeRange
fps := []clientmodel.Fingerprint{}
p.archivedFingerprintToTimeRange.ForEach(func(kv index.KeyValueAccessor) error {
if err := kv.Value(&tr); err != nil {
return err
}
if tr.First.Before(beforeTime) {
if err := kv.Key(&fp); err != nil {
return err
}
fps = append(fps, clientmodel.Fingerprint(fp))
}
return nil
})
return fps, nil
}
// getArchivedMetric retrieves the archived metric with the given
// fingerprint. This method is goroutine-safe.
func (p *persistence) getArchivedMetric(fp clientmodel.Fingerprint) (clientmodel.Metric, error) {
metric, _, err := p.archivedFingerprintToMetrics.Lookup(fp)
return metric, err
}
// dropArchivedMetric deletes an archived fingerprint and its corresponding
// metric entirely. It also queues the metric for un-indexing (no need to call
// unindexMetric for the deleted metric.) The caller must have locked the
// fingerprint.
func (p *persistence) dropArchivedMetric(fp clientmodel.Fingerprint) (err error) {
defer func() {
if err != nil {
p.setDirty(true)
}
}()
metric, err := p.getArchivedMetric(fp)
if err != nil || metric == nil {
return err
}
deleted, err := p.archivedFingerprintToMetrics.Delete(codable.Fingerprint(fp))
if err != nil {
return err
}
if !deleted {
glog.Errorf("Tried to delete non-archived fingerprint %s from archivedFingerprintToMetrics index. This should never happen.", fp)
}
deleted, err = p.archivedFingerprintToTimeRange.Delete(codable.Fingerprint(fp))
if err != nil {
return err
}
if !deleted {
glog.Errorf("Tried to delete non-archived fingerprint %s from archivedFingerprintToTimeRange index. This should never happen.", fp)
}
p.unindexMetric(fp, metric)
return nil
}
// unarchiveMetric deletes an archived fingerprint and its metric, but (in
// contrast to dropArchivedMetric) does not un-index the metric. If a metric
// was actually deleted, the method returns true and the first time of the
// deleted metric. The caller must have locked the fingerprint.
func (p *persistence) unarchiveMetric(fp clientmodel.Fingerprint) (
deletedAnything bool,
firstDeletedTime clientmodel.Timestamp,
err error,
) {
defer func() {
if err != nil {
p.setDirty(true)
}
}()
firstTime, _, has, err := p.archivedFingerprintToTimeRange.Lookup(fp)
if err != nil || !has {
return false, firstTime, err
}
deleted, err := p.archivedFingerprintToMetrics.Delete(codable.Fingerprint(fp))
if err != nil {
return false, firstTime, err
}
if !deleted {
glog.Errorf("Tried to delete non-archived fingerprint %s from archivedFingerprintToMetrics index. This should never happen.", fp)
}
deleted, err = p.archivedFingerprintToTimeRange.Delete(codable.Fingerprint(fp))
if err != nil {
return false, firstTime, err
}
if !deleted {
glog.Errorf("Tried to delete non-archived fingerprint %s from archivedFingerprintToTimeRange index. This should never happen.", fp)
}
return true, firstTime, nil
}
// close flushes the indexing queue and other buffered data and releases any
// held resources. It also removes the dirty marker file if successful and if
// the persistence is currently not marked as dirty.
func (p *persistence) close() error {
close(p.indexingQueue)
<-p.indexingStopped
var lastError, dirtyFileRemoveError error
if err := p.archivedFingerprintToMetrics.Close(); err != nil {
lastError = err
glog.Error("Error closing archivedFingerprintToMetric index DB: ", err)
}
if err := p.archivedFingerprintToTimeRange.Close(); err != nil {
lastError = err
glog.Error("Error closing archivedFingerprintToTimeRange index DB: ", err)
}
if err := p.labelPairToFingerprints.Close(); err != nil {
lastError = err
glog.Error("Error closing labelPairToFingerprints index DB: ", err)
}
if err := p.labelNameToLabelValues.Close(); err != nil {
lastError = err
glog.Error("Error closing labelNameToLabelValues index DB: ", err)
}
if lastError == nil && !p.isDirty() {
dirtyFileRemoveError = os.Remove(p.dirtyFileName)
}
if err := p.fLock.Release(); err != nil {
lastError = err
glog.Error("Error releasing file lock: ", err)
}
if dirtyFileRemoveError != nil {
// On Windows, removing the dirty file before unlocking is not
// possible. So remove it here if it failed above.
lastError = os.Remove(p.dirtyFileName)
}
return lastError
}
func (p *persistence) dirNameForFingerprint(fp clientmodel.Fingerprint) string {
fpStr := fp.String()
return path.Join(p.basePath, fpStr[0:seriesDirNameLen])
}
func (p *persistence) fileNameForFingerprint(fp clientmodel.Fingerprint) string {
fpStr := fp.String()
return path.Join(p.basePath, fpStr[0:seriesDirNameLen], fpStr[seriesDirNameLen:]+seriesFileSuffix)
}
func (p *persistence) tempFileNameForFingerprint(fp clientmodel.Fingerprint) string {
fpStr := fp.String()
return path.Join(p.basePath, fpStr[0:seriesDirNameLen], fpStr[seriesDirNameLen:]+seriesTempFileSuffix)
}
func (p *persistence) openChunkFileForWriting(fp clientmodel.Fingerprint) (*os.File, error) {
if err := os.MkdirAll(p.dirNameForFingerprint(fp), 0700); err != nil {
return nil, err
}
return os.OpenFile(p.fileNameForFingerprint(fp), os.O_WRONLY|os.O_APPEND|os.O_CREATE, 0640)
// NOTE: Although the file was opened for append,
// f.Seek(0, os.SEEK_CUR)
// would now return '0, nil', so we cannot check for a consistent file length right now.
// However, the chunkIndexForOffset method is doing that check, so a wrong file length
// would still be detected.
}
func (p *persistence) openChunkFileForReading(fp clientmodel.Fingerprint) (*os.File, error) {
return os.Open(p.fileNameForFingerprint(fp))
}
func writeChunkHeader(w io.Writer, c chunk) error {
header := make([]byte, chunkHeaderLen)
header[chunkHeaderTypeOffset] = chunkType(c)
binary.LittleEndian.PutUint64(header[chunkHeaderFirstTimeOffset:], uint64(c.firstTime()))
binary.LittleEndian.PutUint64(header[chunkHeaderLastTimeOffset:], uint64(c.lastTime()))
_, err := w.Write(header)
return err
}
func (p *persistence) offsetForChunkIndex(i int) int64 {
return int64(i * (chunkHeaderLen + p.chunkLen))
}
func (p *persistence) chunkIndexForOffset(offset int64) (int, error) {
if int(offset)%(chunkHeaderLen+p.chunkLen) != 0 {
return -1, fmt.Errorf(
"offset %d is not a multiple of on-disk chunk length %d",
offset, chunkHeaderLen+p.chunkLen,
)
}
return int(offset) / (chunkHeaderLen + p.chunkLen), nil
}
func (p *persistence) headsFileName() string {
return path.Join(p.basePath, headsFileName)
}
func (p *persistence) headsTempFileName() string {
return path.Join(p.basePath, headsTempFileName)
}
func (p *persistence) processIndexingQueue() {
batchSize := 0
nameToValues := index.LabelNameLabelValuesMapping{}
pairToFPs := index.LabelPairFingerprintsMapping{}
batchTimeout := time.NewTimer(indexingBatchTimeout)
defer batchTimeout.Stop()
commitBatch := func() {
p.indexingBatchSizes.Observe(float64(batchSize))
defer func(begin time.Time) {
p.indexingBatchLatency.Observe(float64(time.Since(begin) / time.Millisecond))
}(time.Now())
if err := p.labelPairToFingerprints.IndexBatch(pairToFPs); err != nil {
glog.Error("Error indexing label pair to fingerprints batch: ", err)
}
if err := p.labelNameToLabelValues.IndexBatch(nameToValues); err != nil {
glog.Error("Error indexing label name to label values batch: ", err)
}
batchSize = 0
nameToValues = index.LabelNameLabelValuesMapping{}
pairToFPs = index.LabelPairFingerprintsMapping{}
batchTimeout.Reset(indexingBatchTimeout)
}
var flush chan chan int
loop:
for {
// Only process flush requests if the queue is currently empty.
if len(p.indexingQueue) == 0 {
flush = p.indexingFlush
} else {
flush = nil
}
select {
case <-batchTimeout.C:
// Only commit if we have something to commit _and_
// nothing is waiting in the queue to be picked up. That
// prevents a death spiral if the LookupSet calls below
// are slow for some reason.
if batchSize > 0 && len(p.indexingQueue) == 0 {
commitBatch()
} else {
batchTimeout.Reset(indexingBatchTimeout)
}
case r := <-flush:
if batchSize > 0 {
commitBatch()
}
r <- len(p.indexingQueue)
case op, ok := <-p.indexingQueue:
if !ok {
if batchSize > 0 {
commitBatch()
}
break loop
}
batchSize++
for ln, lv := range op.metric {
lp := metric.LabelPair{Name: ln, Value: lv}
baseFPs, ok := pairToFPs[lp]
if !ok {
var err error
baseFPs, _, err = p.labelPairToFingerprints.LookupSet(lp)
if err != nil {
glog.Errorf("Error looking up label pair %v: %s", lp, err)
continue
}
pairToFPs[lp] = baseFPs
}
baseValues, ok := nameToValues[ln]
if !ok {
var err error
baseValues, _, err = p.labelNameToLabelValues.LookupSet(ln)
if err != nil {
glog.Errorf("Error looking up label name %v: %s", ln, err)
continue
}
nameToValues[ln] = baseValues
}
switch op.opType {
case add:
baseFPs[op.fingerprint] = struct{}{}
baseValues[lv] = struct{}{}
case remove:
delete(baseFPs, op.fingerprint)
if len(baseFPs) == 0 {
delete(baseValues, lv)
}
default:
panic("unknown op type")
}
}
if batchSize >= indexingMaxBatchSize {
commitBatch()
}
}
}
close(p.indexingStopped)
}