483 lines
15 KiB
Go
483 lines
15 KiB
Go
// Copyright 2014 The Prometheus Authors
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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 chunk
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import (
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"container/list"
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"errors"
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"fmt"
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"io"
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"sort"
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"sync"
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"sync/atomic"
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"github.com/prometheus/common/model"
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"github.com/prometheus/prometheus/storage/metric"
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)
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// ChunkLen is the length of a chunk in bytes.
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const ChunkLen = 1024
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// DefaultEncoding can be changed via a flag.
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var DefaultEncoding = DoubleDelta
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var errChunkBoundsExceeded = errors.New("attempted access outside of chunk boundaries")
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// EvictRequest is a request to evict a chunk from memory.
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type EvictRequest struct {
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Desc *Desc
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Evict bool
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}
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// Encoding defines which encoding we are using, delta, doubledelta, or varbit
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type Encoding byte
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// String implements flag.Value.
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func (e Encoding) String() string {
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return fmt.Sprintf("%d", e)
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}
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// Set implements flag.Value.
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func (e *Encoding) Set(s string) error {
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switch s {
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case "0":
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*e = Delta
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case "1":
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*e = DoubleDelta
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case "2":
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*e = Varbit
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default:
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return fmt.Errorf("invalid chunk encoding: %s", s)
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}
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return nil
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}
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const (
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// Delta encoding
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Delta Encoding = iota
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// DoubleDelta encoding
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DoubleDelta
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// Varbit encoding
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Varbit
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)
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// Desc contains meta-data for a chunk. Pay special attention to the
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// documented requirements for calling its methods concurrently (WRT pinning and
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// locking). The doc comments spell out the requirements for each method, but
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// here is an overview and general explanation:
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//
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// Everything that changes the pinning of the underlying chunk or deals with its
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// eviction is protected by a mutex. This affects the following methods: Pin,
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// Unpin, RefCount, IsEvicted, MaybeEvict. These methods can be called at any
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// time without further prerequisites.
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//
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// Another group of methods acts on (or sets) the underlying chunk. These
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// methods involve no locking. They may only be called if the caller has pinned
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// the chunk (to guarantee the chunk is not evicted concurrently). Also, the
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// caller must make sure nobody else will call these methods concurrently,
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// either by holding the sole reference to the Desc (usually during loading
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// or creation) or by locking the fingerprint of the series the Desc
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// belongs to. The affected methods are: Add, MaybePopulateLastTime, SetChunk.
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//
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// Finally, there are the special cases FirstTime and LastTime. LastTime requires
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// to have locked the fingerprint of the series but the chunk does not need to
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// be pinned. That's because the ChunkLastTime field in Desc gets populated
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// upon completion of the chunk (when it is still pinned, and which happens
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// while the series's fingerprint is locked). Once that has happened, calling
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// LastTime does not require the chunk to be loaded anymore. Before that has
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// happened, the chunk is pinned anyway. The ChunkFirstTime field in Desc
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// is populated upon creation of a Desc, so it is alway safe to call
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// FirstTime. The FirstTime method is arguably not needed and only there for
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// consistency with LastTime.
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type Desc struct {
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sync.Mutex // Protects pinning.
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C Chunk // nil if chunk is evicted.
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rCnt int
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ChunkFirstTime model.Time // Populated at creation. Immutable.
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ChunkLastTime model.Time // Populated on closing of the chunk, model.Earliest if unset.
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// EvictListElement is nil if the chunk is not in the evict list.
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// EvictListElement is _not_ protected by the Desc mutex.
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// It must only be touched by the evict list handler in MemorySeriesStorage.
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EvictListElement *list.Element
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}
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// NewDesc creates a new Desc pointing to the provided chunk. The provided chunk
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// is assumed to be not persisted yet. Therefore, the refCount of the new
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// Desc is 1 (preventing eviction prior to persisting).
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func NewDesc(c Chunk, firstTime model.Time) *Desc {
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Ops.WithLabelValues(CreateAndPin).Inc()
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atomic.AddInt64(&NumMemChunks, 1)
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NumMemDescs.Inc()
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return &Desc{
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C: c,
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rCnt: 1,
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ChunkFirstTime: firstTime,
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ChunkLastTime: model.Earliest,
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}
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}
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// Add adds a sample pair to the underlying chunk. For safe concurrent access,
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// The chunk must be pinned, and the caller must have locked the fingerprint of
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// the series.
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func (d *Desc) Add(s model.SamplePair) ([]Chunk, error) {
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return d.C.Add(s)
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}
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// Pin increments the refCount by one. Upon increment from 0 to 1, this
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// Desc is removed from the evict list. To enable the latter, the
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// evictRequests channel has to be provided. This method can be called
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// concurrently at any time.
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func (d *Desc) Pin(evictRequests chan<- EvictRequest) {
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d.Lock()
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defer d.Unlock()
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if d.rCnt == 0 {
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// Remove ourselves from the evict list.
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evictRequests <- EvictRequest{d, false}
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}
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d.rCnt++
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}
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// Unpin decrements the refCount by one. Upon decrement from 1 to 0, this
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// Desc is added to the evict list. To enable the latter, the evictRequests
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// channel has to be provided. This method can be called concurrently at any
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// time.
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func (d *Desc) Unpin(evictRequests chan<- EvictRequest) {
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d.Lock()
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defer d.Unlock()
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if d.rCnt == 0 {
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panic("cannot unpin already unpinned chunk")
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}
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d.rCnt--
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if d.rCnt == 0 {
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// Add ourselves to the back of the evict list.
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evictRequests <- EvictRequest{d, true}
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}
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}
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// RefCount returns the number of pins. This method can be called concurrently
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// at any time.
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func (d *Desc) RefCount() int {
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d.Lock()
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defer d.Unlock()
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return d.rCnt
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}
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// FirstTime returns the timestamp of the first sample in the chunk. This method
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// can be called concurrently at any time. It only returns the immutable
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// d.ChunkFirstTime without any locking. Arguably, this method is
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// useless. However, it provides consistency with the LastTime method.
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func (d *Desc) FirstTime() model.Time {
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return d.ChunkFirstTime
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}
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// LastTime returns the timestamp of the last sample in the chunk. For safe
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// concurrent access, this method requires the fingerprint of the time series to
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// be locked.
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func (d *Desc) LastTime() (model.Time, error) {
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if d.ChunkLastTime != model.Earliest || d.C == nil {
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return d.ChunkLastTime, nil
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}
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return d.C.NewIterator().LastTimestamp()
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}
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// MaybePopulateLastTime populates the ChunkLastTime from the underlying chunk
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// if it has not yet happened. Call this method directly after having added the
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// last sample to a chunk or after closing a head chunk due to age. For safe
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// concurrent access, the chunk must be pinned, and the caller must have locked
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// the fingerprint of the series.
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func (d *Desc) MaybePopulateLastTime() error {
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if d.ChunkLastTime == model.Earliest && d.C != nil {
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t, err := d.C.NewIterator().LastTimestamp()
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if err != nil {
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return err
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}
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d.ChunkLastTime = t
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}
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return nil
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}
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// IsEvicted returns whether the chunk is evicted. For safe concurrent access,
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// the caller must have locked the fingerprint of the series.
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func (d *Desc) IsEvicted() bool {
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// Locking required here because we do not want the caller to force
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// pinning the chunk first, so it could be evicted while this method is
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// called.
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d.Lock()
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defer d.Unlock()
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return d.C == nil
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}
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// SetChunk sets the underlying chunk. The caller must have locked the
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// fingerprint of the series and must have "pre-pinned" the chunk (i.e. first
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// call Pin and then set the chunk).
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func (d *Desc) SetChunk(c Chunk) {
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if d.C != nil {
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panic("chunk already set")
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}
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d.C = c
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}
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// MaybeEvict evicts the chunk if the refCount is 0. It returns whether the chunk
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// is now evicted, which includes the case that the chunk was evicted even
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// before this method was called. It can be called concurrently at any time.
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func (d *Desc) MaybeEvict() bool {
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d.Lock()
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defer d.Unlock()
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if d.C == nil {
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return true
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}
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if d.rCnt != 0 {
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return false
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}
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if d.ChunkLastTime == model.Earliest {
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// This must never happen.
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panic("ChunkLastTime not populated for evicted chunk")
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}
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d.C = nil
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return true
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}
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// Chunk is the interface for all chunks. Chunks are generally not
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// goroutine-safe.
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type Chunk interface {
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// add adds a SamplePair to the chunks, performs any necessary
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// re-encoding, and adds any necessary overflow chunks. It returns the
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// new version of the original chunk, followed by overflow chunks, if
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// any. The first chunk returned might be the same as the original one
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// or a newly allocated version. In any case, take the returned chunk as
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// the relevant one and discard the original chunk.
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Add(sample model.SamplePair) ([]Chunk, error)
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Clone() Chunk
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FirstTime() model.Time
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NewIterator() Iterator
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Marshal(io.Writer) error
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MarshalToBuf([]byte) error
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Unmarshal(io.Reader) error
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UnmarshalFromBuf([]byte) error
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Encoding() Encoding
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Utilization() float64
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}
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// Iterator enables efficient access to the content of a chunk. It is
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// generally not safe to use an Iterator concurrently with or after chunk
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// mutation.
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type Iterator interface {
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// Gets the last timestamp in the chunk.
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LastTimestamp() (model.Time, error)
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// Whether a given timestamp is contained between first and last value
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// in the chunk.
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Contains(model.Time) (bool, error)
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// Scans the next value in the chunk. Directly after the iterator has
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// been created, the next value is the first value in the
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// chunk. Otherwise, it is the value following the last value scanned or
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// found (by one of the Find... methods). Returns false if either the
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// end of the chunk is reached or an error has occurred.
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Scan() bool
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// Finds the most recent value at or before the provided time. Returns
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// false if either the chunk contains no value at or before the provided
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// time, or an error has occurred.
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FindAtOrBefore(model.Time) bool
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// Finds the oldest value at or after the provided time. Returns false
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// if either the chunk contains no value at or after the provided time,
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// or an error has occurred.
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FindAtOrAfter(model.Time) bool
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// Returns the last value scanned (by the scan method) or found (by one
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// of the find... methods). It returns model.ZeroSamplePair before any of
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// those methods were called.
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Value() model.SamplePair
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// Returns the last error encountered. In general, an error signals data
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// corruption in the chunk and requires quarantining.
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Err() error
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}
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// RangeValues is a utility function that retrieves all values within the given
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// range from an Iterator.
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func RangeValues(it Iterator, in metric.Interval) ([]model.SamplePair, error) {
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result := []model.SamplePair{}
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if !it.FindAtOrAfter(in.OldestInclusive) {
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return result, it.Err()
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}
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for !it.Value().Timestamp.After(in.NewestInclusive) {
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result = append(result, it.Value())
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if !it.Scan() {
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break
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}
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}
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return result, it.Err()
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}
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// addToOverflowChunk is a utility function that creates a new chunk as overflow
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// chunk, adds the provided sample to it, and returns a chunk slice containing
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// the provided old chunk followed by the new overflow chunk.
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func addToOverflowChunk(c Chunk, s model.SamplePair) ([]Chunk, error) {
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overflowChunks, err := New().Add(s)
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if err != nil {
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return nil, err
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}
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return []Chunk{c, overflowChunks[0]}, nil
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}
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// transcodeAndAdd is a utility function that transcodes the dst chunk into the
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// provided src chunk (plus the necessary overflow chunks) and then adds the
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// provided sample. It returns the new chunks (transcoded plus overflow) with
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// the new sample at the end.
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func transcodeAndAdd(dst Chunk, src Chunk, s model.SamplePair) ([]Chunk, error) {
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Ops.WithLabelValues(Transcode).Inc()
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var (
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head = dst
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body, NewChunks []Chunk
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err error
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)
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it := src.NewIterator()
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for it.Scan() {
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if NewChunks, err = head.Add(it.Value()); err != nil {
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return nil, err
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}
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body = append(body, NewChunks[:len(NewChunks)-1]...)
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head = NewChunks[len(NewChunks)-1]
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}
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if it.Err() != nil {
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return nil, it.Err()
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}
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if NewChunks, err = head.Add(s); err != nil {
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return nil, err
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}
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return append(body, NewChunks...), nil
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}
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// New creates a new chunk according to the encoding set by the
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// DefaultEncoding flag.
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func New() Chunk {
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chunk, err := NewForEncoding(DefaultEncoding)
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if err != nil {
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panic(err)
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}
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return chunk
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}
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// NewForEncoding allows configuring what chunk type you want
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func NewForEncoding(encoding Encoding) (Chunk, error) {
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switch encoding {
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case Delta:
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return newDeltaEncodedChunk(d1, d0, true, ChunkLen), nil
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case DoubleDelta:
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return newDoubleDeltaEncodedChunk(d1, d0, true, ChunkLen), nil
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case Varbit:
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return newVarbitChunk(varbitZeroEncoding), nil
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default:
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return nil, fmt.Errorf("unknown chunk encoding: %v", encoding)
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}
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}
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// indexAccessor allows accesses to samples by index.
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type indexAccessor interface {
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timestampAtIndex(int) model.Time
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sampleValueAtIndex(int) model.SampleValue
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err() error
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}
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// indexAccessingChunkIterator is a chunk iterator for chunks for which an
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// indexAccessor implementation exists.
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type indexAccessingChunkIterator struct {
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len int
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pos int
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lastValue model.SamplePair
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acc indexAccessor
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}
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func newIndexAccessingChunkIterator(len int, acc indexAccessor) *indexAccessingChunkIterator {
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return &indexAccessingChunkIterator{
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len: len,
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pos: -1,
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lastValue: model.ZeroSamplePair,
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acc: acc,
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}
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}
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// lastTimestamp implements Iterator.
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func (it *indexAccessingChunkIterator) LastTimestamp() (model.Time, error) {
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return it.acc.timestampAtIndex(it.len - 1), it.acc.err()
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}
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// contains implements Iterator.
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func (it *indexAccessingChunkIterator) Contains(t model.Time) (bool, error) {
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return !t.Before(it.acc.timestampAtIndex(0)) &&
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!t.After(it.acc.timestampAtIndex(it.len-1)), it.acc.err()
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}
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// scan implements Iterator.
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func (it *indexAccessingChunkIterator) Scan() bool {
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it.pos++
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if it.pos >= it.len {
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return false
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}
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it.lastValue = model.SamplePair{
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Timestamp: it.acc.timestampAtIndex(it.pos),
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Value: it.acc.sampleValueAtIndex(it.pos),
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}
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return it.acc.err() == nil
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}
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// findAtOrBefore implements Iterator.
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func (it *indexAccessingChunkIterator) FindAtOrBefore(t model.Time) bool {
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i := sort.Search(it.len, func(i int) bool {
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return it.acc.timestampAtIndex(i).After(t)
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})
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if i == 0 || it.acc.err() != nil {
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return false
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}
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it.pos = i - 1
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it.lastValue = model.SamplePair{
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Timestamp: it.acc.timestampAtIndex(i - 1),
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Value: it.acc.sampleValueAtIndex(i - 1),
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}
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return true
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}
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// findAtOrAfter implements Iterator.
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func (it *indexAccessingChunkIterator) FindAtOrAfter(t model.Time) bool {
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i := sort.Search(it.len, func(i int) bool {
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return !it.acc.timestampAtIndex(i).Before(t)
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})
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if i == it.len || it.acc.err() != nil {
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return false
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}
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it.pos = i
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it.lastValue = model.SamplePair{
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Timestamp: it.acc.timestampAtIndex(i),
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Value: it.acc.sampleValueAtIndex(i),
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}
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return true
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}
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// value implements Iterator.
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func (it *indexAccessingChunkIterator) Value() model.SamplePair {
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return it.lastValue
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}
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// err implements Iterator.
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func (it *indexAccessingChunkIterator) Err() error {
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return it.acc.err()
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}
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