mirror of
https://github.com/prometheus/prometheus.git
synced 2024-12-30 07:59:40 -08:00
a73f061d3c
An design question was open for me in the beginning was whether to serialize other types to disk, but Protocol Buffers quickly won out, which allows us to drop support for other types. This is a good start to cleaning up a lot of cruft in the storage stack and can let us eventually decouple the various moving parts into separate subsystems for easier reasoning. This commit is not strictly required, but it is a start to making the rest a lot more enjoyable to interact with.
672 lines
18 KiB
Go
672 lines
18 KiB
Go
// Copyright 2013 Prometheus Team
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package metric
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import (
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"fmt"
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"log"
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"sort"
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"time"
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dto "github.com/prometheus/prometheus/model/generated"
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"github.com/prometheus/prometheus/coding"
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"github.com/prometheus/prometheus/coding/indexable"
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"github.com/prometheus/prometheus/model"
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"github.com/prometheus/prometheus/stats"
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"github.com/prometheus/prometheus/storage/raw/leveldb"
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"sync"
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)
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type chunk model.Values
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// TruncateBefore returns a subslice of the original such that extraneous
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// samples in the collection that occur before the provided time are
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// dropped. The original slice is not mutated. It works with the assumption
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// that consumers of these values could want preceding values if none would
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// exist prior to the defined time.
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func (c chunk) TruncateBefore(t time.Time) chunk {
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index := sort.Search(len(c), func(i int) bool {
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timestamp := c[i].Timestamp
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return !timestamp.Before(t)
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})
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switch index {
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case 0:
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return c
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case len(c):
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return c[len(c)-1:]
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default:
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return c[index-1:]
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}
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}
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type tieredStorageState uint
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const (
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tieredStorageStarting tieredStorageState = iota
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tieredStorageServing
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tieredStorageDraining
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tieredStorageStopping
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)
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const (
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// Ignore timeseries in queries that are more stale than this limit.
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stalenessLimit = time.Minute * 5
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// Size of the watermarks cache (used in determining timeseries freshness).
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wmCacheSizeBytes = 5 * 1024 * 1024
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)
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// TieredStorage both persists samples and generates materialized views for
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// queries.
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type TieredStorage struct {
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// mu is purely used for state transitions.
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mu sync.RWMutex
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// BUG(matt): This introduces a Law of Demeter violation. Ugh.
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DiskStorage *LevelDBMetricPersistence
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appendToDiskQueue chan model.Samples
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memoryArena *memorySeriesStorage
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memoryTTL time.Duration
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flushMemoryInterval time.Duration
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viewQueue chan viewJob
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draining chan chan<- bool
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state tieredStorageState
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memorySemaphore chan bool
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diskSemaphore chan bool
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wmCache *WatermarkCache
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}
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// viewJob encapsulates a request to extract sample values from the datastore.
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type viewJob struct {
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builder ViewRequestBuilder
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output chan View
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abort chan bool
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err chan error
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stats *stats.TimerGroup
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}
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const (
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tieredDiskSemaphores = 1
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tieredMemorySemaphores = 5
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)
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func NewTieredStorage(appendToDiskQueueDepth, viewQueueDepth uint, flushMemoryInterval, memoryTTL time.Duration, root string) (*TieredStorage, error) {
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diskStorage, err := NewLevelDBMetricPersistence(root)
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if err != nil {
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return nil, err
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}
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wmCache := NewWatermarkCache(wmCacheSizeBytes)
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memOptions := MemorySeriesOptions{WatermarkCache: wmCache}
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s := &TieredStorage{
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appendToDiskQueue: make(chan model.Samples, appendToDiskQueueDepth),
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DiskStorage: diskStorage,
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draining: make(chan chan<- bool),
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flushMemoryInterval: flushMemoryInterval,
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memoryArena: NewMemorySeriesStorage(memOptions),
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memoryTTL: memoryTTL,
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viewQueue: make(chan viewJob, viewQueueDepth),
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diskSemaphore: make(chan bool, tieredDiskSemaphores),
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memorySemaphore: make(chan bool, tieredMemorySemaphores),
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wmCache: wmCache,
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}
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for i := 0; i < tieredDiskSemaphores; i++ {
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s.diskSemaphore <- true
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}
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for i := 0; i < tieredMemorySemaphores; i++ {
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s.memorySemaphore <- true
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}
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return s, nil
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}
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// Enqueues Samples for storage.
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func (t *TieredStorage) AppendSamples(samples model.Samples) (err error) {
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t.mu.RLock()
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defer t.mu.RUnlock()
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if t.state != tieredStorageServing {
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return fmt.Errorf("Storage is not serving.")
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}
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t.memoryArena.AppendSamples(samples)
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return
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}
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// Stops the storage subsystem, flushing all pending operations.
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func (t *TieredStorage) Drain(drained chan<- bool) {
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t.mu.Lock()
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defer t.mu.Unlock()
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t.drain(drained)
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}
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func (t *TieredStorage) drain(drained chan<- bool) {
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if t.state >= tieredStorageDraining {
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panic("Illegal State: Supplemental drain requested.")
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}
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log.Println("Triggering drain...")
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t.draining <- (drained)
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}
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// Enqueues a ViewRequestBuilder for materialization, subject to a timeout.
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func (t *TieredStorage) MakeView(builder ViewRequestBuilder, deadline time.Duration, queryStats *stats.TimerGroup) (View, error) {
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t.mu.RLock()
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defer t.mu.RUnlock()
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if t.state != tieredStorageServing {
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return nil, fmt.Errorf("Storage is not serving")
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}
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// The result channel needs a one-element buffer in case we have timed out in
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// MakeView, but the view rendering still completes afterwards and writes to
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// the channel.
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result := make(chan View, 1)
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// The abort channel needs a one-element buffer in case the view rendering
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// has already exited and doesn't consume from the channel anymore.
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abortChan := make(chan bool, 1)
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errChan := make(chan error)
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queryStats.GetTimer(stats.ViewQueueTime).Start()
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t.viewQueue <- viewJob{
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builder: builder,
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output: result,
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abort: abortChan,
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err: errChan,
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stats: queryStats,
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}
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select {
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case view := <-result:
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return view, nil
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case err := <-errChan:
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return nil, err
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case <-time.After(deadline):
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abortChan <- true
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return nil, fmt.Errorf("MakeView timed out after %s.", deadline)
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}
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}
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// Starts serving requests.
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func (t *TieredStorage) Serve(started chan<- bool) {
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t.mu.Lock()
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if t.state != tieredStorageStarting {
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panic("Illegal State: Attempted to restart TieredStorage.")
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}
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t.state = tieredStorageServing
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t.mu.Unlock()
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flushMemoryTicker := time.NewTicker(t.flushMemoryInterval)
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defer flushMemoryTicker.Stop()
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queueReportTicker := time.NewTicker(time.Second)
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defer queueReportTicker.Stop()
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go func() {
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for _ = range queueReportTicker.C {
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t.reportQueues()
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}
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}()
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started <- true
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for {
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select {
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case <-flushMemoryTicker.C:
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t.flushMemory(t.memoryTTL)
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case viewRequest := <-t.viewQueue:
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viewRequest.stats.GetTimer(stats.ViewQueueTime).Stop()
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<-t.memorySemaphore
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go t.renderView(viewRequest)
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case drainingDone := <-t.draining:
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t.Flush()
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drainingDone <- true
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return
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}
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}
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}
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func (t *TieredStorage) reportQueues() {
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queueSizes.Set(map[string]string{"queue": "append_to_disk", "facet": "occupancy"}, float64(len(t.appendToDiskQueue)))
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queueSizes.Set(map[string]string{"queue": "append_to_disk", "facet": "capacity"}, float64(cap(t.appendToDiskQueue)))
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queueSizes.Set(map[string]string{"queue": "view_generation", "facet": "occupancy"}, float64(len(t.viewQueue)))
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queueSizes.Set(map[string]string{"queue": "view_generation", "facet": "capacity"}, float64(cap(t.viewQueue)))
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}
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func (t *TieredStorage) Flush() {
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t.flushMemory(0)
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}
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func (t *TieredStorage) flushMemory(ttl time.Duration) {
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t.memoryArena.RLock()
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defer t.memoryArena.RUnlock()
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cutOff := time.Now().Add(-1 * ttl)
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log.Println("Flushing...")
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for _, stream := range t.memoryArena.fingerprintToSeries {
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finder := func(i int) bool {
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return stream.values[i].Timestamp.After(cutOff)
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}
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stream.Lock()
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i := sort.Search(len(stream.values), finder)
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toArchive := stream.values[:i]
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toKeep := stream.values[i:]
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queued := make(model.Samples, 0, len(toArchive))
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for _, value := range toArchive {
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queued = append(queued, model.Sample{
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Metric: stream.metric,
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Timestamp: value.Timestamp,
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Value: value.Value,
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})
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}
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t.appendToDiskQueue <- queued
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stream.values = toKeep
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stream.Unlock()
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}
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queueLength := len(t.appendToDiskQueue)
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if queueLength > 0 {
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log.Printf("Writing %d samples ...", queueLength)
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samples := model.Samples{}
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for i := 0; i < queueLength; i++ {
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chunk := <-t.appendToDiskQueue
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samples = append(samples, chunk...)
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}
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t.DiskStorage.AppendSamples(samples)
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}
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log.Println("Done flushing...")
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}
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func (t *TieredStorage) Close() {
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t.mu.Lock()
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defer t.mu.Unlock()
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if t.state == tieredStorageStopping {
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panic("Illegal State: Attempted to restop TieredStorage.")
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}
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drained := make(chan bool)
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t.drain(drained)
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<-drained
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t.memoryArena.Close()
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t.DiskStorage.Close()
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// BUG(matt): There is a probability that pending items may hang here and not
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// get flushed.
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close(t.appendToDiskQueue)
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close(t.viewQueue)
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t.wmCache.Clear()
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t.state = tieredStorageStopping
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}
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func (t *TieredStorage) seriesTooOld(f *model.Fingerprint, i time.Time) (bool, error) {
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// BUG(julius): Make this configurable by query layer.
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i = i.Add(-stalenessLimit)
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wm, ok := t.wmCache.Get(f)
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if !ok {
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value := &dto.MetricHighWatermark{}
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present, err := t.DiskStorage.MetricHighWatermarks.Get(f.ToDTO(), value)
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if err != nil {
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return false, err
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}
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if present {
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wmTime := time.Unix(*value.Timestamp, 0).UTC()
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t.wmCache.Set(f, &Watermarks{High: wmTime})
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return wmTime.Before(i), nil
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}
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return true, nil
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}
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return wm.High.Before(i), nil
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}
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func (t *TieredStorage) renderView(viewJob viewJob) {
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// Telemetry.
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var err error
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begin := time.Now()
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defer func() {
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t.memorySemaphore <- true
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duration := time.Since(begin)
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recordOutcome(duration, err, map[string]string{operation: renderView, result: success}, map[string]string{operation: renderView, result: failure})
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}()
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scanJobsTimer := viewJob.stats.GetTimer(stats.ViewScanJobsTime).Start()
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scans := viewJob.builder.ScanJobs()
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scanJobsTimer.Stop()
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view := newView()
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var iterator leveldb.Iterator = nil
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var diskFrontier *diskFrontier = nil
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var diskPresent = true
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extractionTimer := viewJob.stats.GetTimer(stats.ViewDataExtractionTime).Start()
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for _, scanJob := range scans {
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old, err := t.seriesTooOld(scanJob.fingerprint, *scanJob.operations[0].CurrentTime())
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if err != nil {
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log.Printf("Error getting watermark from cache for %s: %s", scanJob.fingerprint, err)
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continue
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}
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if old {
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continue
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}
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var seriesFrontier *seriesFrontier = nil
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var seriesPresent = true
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standingOps := scanJob.operations
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memValues := t.memoryArena.CloneSamples(scanJob.fingerprint)
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for len(standingOps) > 0 {
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// Abort the view rendering if the caller (MakeView) has timed out.
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if len(viewJob.abort) > 0 {
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return
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}
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// Load data value chunk(s) around the first standing op's current time.
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targetTime := *standingOps[0].CurrentTime()
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currentChunk := chunk{}
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// If we aimed before the oldest value in memory, load more data from disk.
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if (len(memValues) == 0 || memValues.FirstTimeAfter(targetTime)) && diskPresent && seriesPresent {
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diskPrepareTimer := viewJob.stats.GetTimer(stats.ViewDiskPreparationTime).Start()
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// Conditionalize disk access.
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if diskFrontier == nil && diskPresent {
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if iterator == nil {
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<-t.diskSemaphore
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defer func() {
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t.diskSemaphore <- true
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}()
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// Get a single iterator that will be used for all data extraction
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// below.
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iterator = t.DiskStorage.MetricSamples.NewIterator(true)
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defer iterator.Close()
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}
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diskFrontier, diskPresent, err = newDiskFrontier(iterator)
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if err != nil {
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panic(err)
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}
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if !diskPresent {
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seriesPresent = false
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}
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}
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if seriesFrontier == nil && diskPresent {
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seriesFrontier, seriesPresent, err = newSeriesFrontier(scanJob.fingerprint, diskFrontier, iterator)
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if err != nil {
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panic(err)
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}
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}
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diskPrepareTimer.Stop()
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if diskPresent && seriesPresent {
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diskTimer := viewJob.stats.GetTimer(stats.ViewDiskExtractionTime).Start()
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diskValues := t.loadChunkAroundTime(iterator, seriesFrontier, scanJob.fingerprint, targetTime)
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diskTimer.Stop()
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// If we aimed past the newest value on disk, combine it with the next value from memory.
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if len(memValues) > 0 && diskValues.LastTimeBefore(targetTime) {
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latestDiskValue := diskValues[len(diskValues)-1:]
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currentChunk = append(chunk(latestDiskValue), chunk(memValues)...)
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} else {
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currentChunk = chunk(diskValues)
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}
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} else {
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currentChunk = chunk(memValues)
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}
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} else {
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currentChunk = chunk(memValues)
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}
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// There's no data at all for this fingerprint, so stop processing ops for it.
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if len(currentChunk) == 0 {
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break
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}
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currentChunk = currentChunk.TruncateBefore(targetTime)
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lastChunkTime := currentChunk[len(currentChunk)-1].Timestamp
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if lastChunkTime.After(targetTime) {
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targetTime = lastChunkTime
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}
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// For each op, extract all needed data from the current chunk.
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out := model.Values{}
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for _, op := range standingOps {
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if op.CurrentTime().After(targetTime) {
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break
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}
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currentChunk = currentChunk.TruncateBefore(*(op.CurrentTime()))
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for op.CurrentTime() != nil && !op.CurrentTime().After(targetTime) {
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out = op.ExtractSamples(model.Values(currentChunk))
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// Append the extracted samples to the materialized view.
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view.appendSamples(scanJob.fingerprint, out)
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}
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}
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// Throw away standing ops which are finished.
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filteredOps := ops{}
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for _, op := range standingOps {
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if op.CurrentTime() != nil {
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filteredOps = append(filteredOps, op)
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}
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}
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standingOps = filteredOps
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// Sort ops by start time again, since they might be slightly off now.
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// For example, consider a current chunk of values and two interval ops
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// with different interval lengths. Their states after the cycle above
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// could be:
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//
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// (C = current op time)
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//
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// Chunk: [ X X X X X ]
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// Op 1: [ X X C . . . ]
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// Op 2: [ X X C . . .]
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//
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// Op 2 now has an earlier current time than Op 1.
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sort.Sort(startsAtSort{standingOps})
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}
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}
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extractionTimer.Stop()
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viewJob.output <- view
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return
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}
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func (t *TieredStorage) loadChunkAroundTime(iterator leveldb.Iterator, frontier *seriesFrontier, fingerprint *model.Fingerprint, ts time.Time) (chunk model.Values) {
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var (
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targetKey = &dto.SampleKey{
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Fingerprint: fingerprint.ToDTO(),
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}
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foundKey model.SampleKey
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foundValues model.Values
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)
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// Limit the target key to be within the series' keyspace.
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if ts.After(frontier.lastSupertime) {
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targetKey.Timestamp = indexable.EncodeTime(frontier.lastSupertime)
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} else {
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targetKey.Timestamp = indexable.EncodeTime(ts)
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}
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// Try seeking to target key.
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rawKey := coding.NewPBEncoder(targetKey).MustEncode()
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iterator.Seek(rawKey)
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foundKey, err := extractSampleKey(iterator)
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if err != nil {
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panic(err)
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}
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// Figure out if we need to rewind by one block.
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// Imagine the following supertime blocks with time ranges:
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//
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// Block 1: ft 1000 - lt 1009 <data>
|
|
// Block 1: ft 1010 - lt 1019 <data>
|
|
//
|
|
// If we are aiming to find time 1005, we would first seek to the block with
|
|
// supertime 1010, then need to rewind by one block by virtue of LevelDB
|
|
// iterator seek behavior.
|
|
//
|
|
// Only do the rewind if there is another chunk before this one.
|
|
rewound := false
|
|
firstTime := foundKey.FirstTimestamp
|
|
if ts.Before(firstTime) && !frontier.firstSupertime.After(ts) {
|
|
iterator.Previous()
|
|
rewound = true
|
|
}
|
|
|
|
foundValues, err = extractSampleValues(iterator)
|
|
if err != nil {
|
|
return
|
|
}
|
|
|
|
// If we rewound, but the target time is still past the current block, return
|
|
// the last value of the current (rewound) block and the entire next block.
|
|
if rewound {
|
|
foundKey, err = extractSampleKey(iterator)
|
|
if err != nil {
|
|
return
|
|
}
|
|
currentChunkLastTime := foundKey.LastTimestamp
|
|
|
|
if ts.After(currentChunkLastTime) {
|
|
sampleCount := len(foundValues)
|
|
chunk = append(chunk, foundValues[sampleCount-1])
|
|
// We know there's a next block since we have rewound from it.
|
|
iterator.Next()
|
|
|
|
foundValues, err = extractSampleValues(iterator)
|
|
if err != nil {
|
|
return
|
|
}
|
|
}
|
|
}
|
|
|
|
// Now append all the samples of the currently seeked block to the output.
|
|
chunk = append(chunk, foundValues...)
|
|
|
|
return
|
|
}
|
|
|
|
// Get all label values that are associated with the provided label name.
|
|
func (t *TieredStorage) GetAllValuesForLabel(labelName model.LabelName) (model.LabelValues, error) {
|
|
t.mu.RLock()
|
|
defer t.mu.RUnlock()
|
|
|
|
if t.state != tieredStorageServing {
|
|
panic("Illegal State: Attempted to query non-running TieredStorage.")
|
|
}
|
|
|
|
diskValues, err := t.DiskStorage.GetAllValuesForLabel(labelName)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
memoryValues, err := t.memoryArena.GetAllValuesForLabel(labelName)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
valueSet := map[model.LabelValue]bool{}
|
|
values := model.LabelValues{}
|
|
for _, value := range append(diskValues, memoryValues...) {
|
|
if !valueSet[value] {
|
|
values = append(values, value)
|
|
valueSet[value] = true
|
|
}
|
|
}
|
|
|
|
return values, nil
|
|
}
|
|
|
|
// Get all of the metric fingerprints that are associated with the provided
|
|
// label set.
|
|
func (t *TieredStorage) GetFingerprintsForLabelSet(labelSet model.LabelSet) (model.Fingerprints, error) {
|
|
t.mu.RLock()
|
|
defer t.mu.RUnlock()
|
|
|
|
if t.state != tieredStorageServing {
|
|
panic("Illegal State: Attempted to query non-running TieredStorage.")
|
|
}
|
|
|
|
memFingerprints, err := t.memoryArena.GetFingerprintsForLabelSet(labelSet)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
diskFingerprints, err := t.DiskStorage.GetFingerprintsForLabelSet(labelSet)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
fingerprintSet := map[model.Fingerprint]bool{}
|
|
for _, fingerprint := range append(memFingerprints, diskFingerprints...) {
|
|
fingerprintSet[*fingerprint] = true
|
|
}
|
|
fingerprints := model.Fingerprints{}
|
|
for fingerprint := range fingerprintSet {
|
|
fpCopy := fingerprint
|
|
fingerprints = append(fingerprints, &fpCopy)
|
|
}
|
|
|
|
return fingerprints, nil
|
|
}
|
|
|
|
// Get the metric associated with the provided fingerprint.
|
|
func (t *TieredStorage) GetMetricForFingerprint(f *model.Fingerprint) (model.Metric, error) {
|
|
t.mu.RLock()
|
|
defer t.mu.RUnlock()
|
|
|
|
if t.state != tieredStorageServing {
|
|
panic("Illegal State: Attempted to query non-running TieredStorage.")
|
|
}
|
|
|
|
m, err := t.memoryArena.GetMetricForFingerprint(f)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
if m == nil {
|
|
m, err = t.DiskStorage.GetMetricForFingerprint(f)
|
|
}
|
|
return m, err
|
|
}
|