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ab80ced756
This is a followup to https://github.com/prometheus/prometheus/pull/2011. This publishes more of the methods and other names of the chunk code and moves the chunk code to its own package. There's some unavoidable ugliness: the chunk and chunkDesc metrics are used by both packages, so I had to move them to the chunk package. That isn't great, but I don't see how to do it better without a larger redesign of everything. Same for the evict requests and some other types.
365 lines
10 KiB
Go
365 lines
10 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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"encoding/binary"
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"fmt"
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"io"
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"math"
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"github.com/prometheus/common/model"
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)
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// The 21-byte header of a delta-encoded chunk looks like:
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//
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// - time delta bytes: 1 bytes
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// - value delta bytes: 1 bytes
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// - is integer: 1 byte
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// - base time: 8 bytes
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// - base value: 8 bytes
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// - used buf bytes: 2 bytes
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const (
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deltaHeaderBytes = 21
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deltaHeaderTimeBytesOffset = 0
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deltaHeaderValueBytesOffset = 1
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deltaHeaderIsIntOffset = 2
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deltaHeaderBaseTimeOffset = 3
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deltaHeaderBaseValueOffset = 11
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deltaHeaderBufLenOffset = 19
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)
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// A deltaEncodedChunk adaptively stores sample timestamps and values with a
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// delta encoding of various types (int, float) and bit widths. However, once 8
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// bytes would be needed to encode a delta value, a fall-back to the absolute
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// numbers happens (so that timestamps are saved directly as int64 and values as
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// float64). It implements the chunk interface.
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type deltaEncodedChunk []byte
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// newDeltaEncodedChunk returns a newly allocated deltaEncodedChunk.
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func newDeltaEncodedChunk(tb, vb deltaBytes, isInt bool, length int) *deltaEncodedChunk {
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if tb < 1 {
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panic("need at least 1 time delta byte")
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}
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if length < deltaHeaderBytes+16 {
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panic(fmt.Errorf(
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"chunk length %d bytes is insufficient, need at least %d",
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length, deltaHeaderBytes+16,
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))
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}
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c := make(deltaEncodedChunk, deltaHeaderIsIntOffset+1, length)
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c[deltaHeaderTimeBytesOffset] = byte(tb)
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c[deltaHeaderValueBytesOffset] = byte(vb)
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if vb < d8 && isInt { // Only use int for fewer than 8 value delta bytes.
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c[deltaHeaderIsIntOffset] = 1
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} else {
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c[deltaHeaderIsIntOffset] = 0
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}
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return &c
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}
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// add implements chunk.
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func (c deltaEncodedChunk) Add(s model.SamplePair) ([]Chunk, error) {
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// TODO(beorn7): Since we return &c, this method might cause an unnecessary allocation.
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if c.len() == 0 {
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c = c[:deltaHeaderBytes]
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binary.LittleEndian.PutUint64(c[deltaHeaderBaseTimeOffset:], uint64(s.Timestamp))
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binary.LittleEndian.PutUint64(c[deltaHeaderBaseValueOffset:], math.Float64bits(float64(s.Value)))
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}
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remainingBytes := cap(c) - len(c)
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sampleSize := c.sampleSize()
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// Do we generally have space for another sample in this chunk? If not,
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// overflow into a new one.
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if remainingBytes < sampleSize {
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return addToOverflowChunk(&c, s)
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}
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baseValue := c.baseValue()
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dt := s.Timestamp - c.baseTime()
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if dt < 0 {
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return nil, fmt.Errorf("time delta is less than zero: %v", dt)
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}
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dv := s.Value - baseValue
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tb := c.timeBytes()
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vb := c.valueBytes()
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isInt := c.isInt()
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// If the new sample is incompatible with the current encoding, reencode the
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// existing chunk data into new chunk(s).
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ntb, nvb, nInt := tb, vb, isInt
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if isInt && !isInt64(dv) {
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// int->float.
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nvb = d4
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nInt = false
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} else if !isInt && vb == d4 && baseValue+model.SampleValue(float32(dv)) != s.Value {
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// float32->float64.
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nvb = d8
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} else {
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if tb < d8 {
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// Maybe more bytes for timestamp.
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ntb = max(tb, bytesNeededForUnsignedTimestampDelta(dt))
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}
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if c.isInt() && vb < d8 {
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// Maybe more bytes for sample value.
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nvb = max(vb, bytesNeededForIntegerSampleValueDelta(dv))
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}
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}
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if tb != ntb || vb != nvb || isInt != nInt {
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if len(c)*2 < cap(c) {
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return transcodeAndAdd(newDeltaEncodedChunk(ntb, nvb, nInt, cap(c)), &c, s)
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}
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// Chunk is already half full. Better create a new one and save the transcoding efforts.
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return addToOverflowChunk(&c, s)
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}
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offset := len(c)
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c = c[:offset+sampleSize]
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switch tb {
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case d1:
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c[offset] = byte(dt)
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case d2:
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binary.LittleEndian.PutUint16(c[offset:], uint16(dt))
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case d4:
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binary.LittleEndian.PutUint32(c[offset:], uint32(dt))
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case d8:
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// Store the absolute value (no delta) in case of d8.
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binary.LittleEndian.PutUint64(c[offset:], uint64(s.Timestamp))
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default:
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return nil, fmt.Errorf("invalid number of bytes for time delta: %d", tb)
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}
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offset += int(tb)
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if c.isInt() {
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switch vb {
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case d0:
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// No-op. Constant value is stored as base value.
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case d1:
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c[offset] = byte(int8(dv))
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case d2:
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binary.LittleEndian.PutUint16(c[offset:], uint16(int16(dv)))
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case d4:
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binary.LittleEndian.PutUint32(c[offset:], uint32(int32(dv)))
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// d8 must not happen. Those samples are encoded as float64.
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default:
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return nil, fmt.Errorf("invalid number of bytes for integer delta: %d", vb)
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}
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} else {
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switch vb {
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case d4:
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binary.LittleEndian.PutUint32(c[offset:], math.Float32bits(float32(dv)))
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case d8:
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// Store the absolute value (no delta) in case of d8.
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binary.LittleEndian.PutUint64(c[offset:], math.Float64bits(float64(s.Value)))
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default:
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return nil, fmt.Errorf("invalid number of bytes for floating point delta: %d", vb)
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}
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}
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return []Chunk{&c}, nil
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}
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// clone implements chunk.
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func (c deltaEncodedChunk) Clone() Chunk {
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clone := make(deltaEncodedChunk, len(c), cap(c))
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copy(clone, c)
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return &clone
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}
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// FirstTime implements chunk.
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func (c deltaEncodedChunk) FirstTime() model.Time {
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return c.baseTime()
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}
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// NewIterator implements chunk.
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func (c *deltaEncodedChunk) NewIterator() Iterator {
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return newIndexAccessingChunkIterator(c.len(), &deltaEncodedIndexAccessor{
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c: *c,
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baseT: c.baseTime(),
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baseV: c.baseValue(),
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tBytes: c.timeBytes(),
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vBytes: c.valueBytes(),
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isInt: c.isInt(),
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})
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}
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// marshal implements chunk.
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func (c deltaEncodedChunk) Marshal(w io.Writer) error {
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if len(c) > math.MaxUint16 {
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panic("chunk buffer length would overflow a 16 bit uint.")
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}
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binary.LittleEndian.PutUint16(c[deltaHeaderBufLenOffset:], uint16(len(c)))
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n, err := w.Write(c[:cap(c)])
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if err != nil {
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return err
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}
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if n != cap(c) {
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return fmt.Errorf("wanted to write %d bytes, wrote %d", cap(c), n)
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}
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return nil
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}
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// MarshalToBuf implements chunk.
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func (c deltaEncodedChunk) MarshalToBuf(buf []byte) error {
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if len(c) > math.MaxUint16 {
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panic("chunk buffer length would overflow a 16 bit uint")
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}
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binary.LittleEndian.PutUint16(c[deltaHeaderBufLenOffset:], uint16(len(c)))
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n := copy(buf, c)
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if n != len(c) {
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return fmt.Errorf("wanted to copy %d bytes to buffer, copied %d", len(c), n)
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}
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return nil
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}
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// unmarshal implements chunk.
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func (c *deltaEncodedChunk) Unmarshal(r io.Reader) error {
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*c = (*c)[:cap(*c)]
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if _, err := io.ReadFull(r, *c); err != nil {
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return err
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}
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l := binary.LittleEndian.Uint16((*c)[deltaHeaderBufLenOffset:])
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if int(l) > cap(*c) {
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return fmt.Errorf("chunk length exceeded during unmarshaling: %d", l)
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}
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if int(l) < deltaHeaderBytes {
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return fmt.Errorf("chunk length less than header size: %d < %d", l, deltaHeaderBytes)
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}
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*c = (*c)[:l]
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return nil
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}
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// unmarshalFromBuf implements chunk.
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func (c *deltaEncodedChunk) UnmarshalFromBuf(buf []byte) error {
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*c = (*c)[:cap(*c)]
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copy(*c, buf)
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l := binary.LittleEndian.Uint16((*c)[deltaHeaderBufLenOffset:])
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if int(l) > cap(*c) {
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return fmt.Errorf("chunk length exceeded during unmarshaling: %d", l)
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}
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if int(l) < deltaHeaderBytes {
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return fmt.Errorf("chunk length less than header size: %d < %d", l, deltaHeaderBytes)
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}
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*c = (*c)[:l]
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return nil
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}
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// encoding implements chunk.
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func (c deltaEncodedChunk) Encoding() Encoding { return Delta }
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func (c deltaEncodedChunk) timeBytes() deltaBytes {
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return deltaBytes(c[deltaHeaderTimeBytesOffset])
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}
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func (c deltaEncodedChunk) valueBytes() deltaBytes {
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return deltaBytes(c[deltaHeaderValueBytesOffset])
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}
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func (c deltaEncodedChunk) isInt() bool {
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return c[deltaHeaderIsIntOffset] == 1
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}
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func (c deltaEncodedChunk) baseTime() model.Time {
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return model.Time(binary.LittleEndian.Uint64(c[deltaHeaderBaseTimeOffset:]))
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}
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func (c deltaEncodedChunk) baseValue() model.SampleValue {
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return model.SampleValue(math.Float64frombits(binary.LittleEndian.Uint64(c[deltaHeaderBaseValueOffset:])))
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}
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func (c deltaEncodedChunk) sampleSize() int {
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return int(c.timeBytes() + c.valueBytes())
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}
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func (c deltaEncodedChunk) len() int {
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if len(c) < deltaHeaderBytes {
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return 0
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}
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return (len(c) - deltaHeaderBytes) / c.sampleSize()
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}
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// deltaEncodedIndexAccessor implements indexAccessor.
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type deltaEncodedIndexAccessor struct {
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c deltaEncodedChunk
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baseT model.Time
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baseV model.SampleValue
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tBytes, vBytes deltaBytes
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isInt bool
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lastErr error
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}
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func (acc *deltaEncodedIndexAccessor) err() error {
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return acc.lastErr
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}
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func (acc *deltaEncodedIndexAccessor) timestampAtIndex(idx int) model.Time {
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offset := deltaHeaderBytes + idx*int(acc.tBytes+acc.vBytes)
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switch acc.tBytes {
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case d1:
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return acc.baseT + model.Time(uint8(acc.c[offset]))
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case d2:
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return acc.baseT + model.Time(binary.LittleEndian.Uint16(acc.c[offset:]))
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case d4:
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return acc.baseT + model.Time(binary.LittleEndian.Uint32(acc.c[offset:]))
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case d8:
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// Take absolute value for d8.
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return model.Time(binary.LittleEndian.Uint64(acc.c[offset:]))
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default:
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acc.lastErr = fmt.Errorf("invalid number of bytes for time delta: %d", acc.tBytes)
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return model.Earliest
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}
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}
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func (acc *deltaEncodedIndexAccessor) sampleValueAtIndex(idx int) model.SampleValue {
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offset := deltaHeaderBytes + idx*int(acc.tBytes+acc.vBytes) + int(acc.tBytes)
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if acc.isInt {
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switch acc.vBytes {
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case d0:
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return acc.baseV
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case d1:
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return acc.baseV + model.SampleValue(int8(acc.c[offset]))
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case d2:
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return acc.baseV + model.SampleValue(int16(binary.LittleEndian.Uint16(acc.c[offset:])))
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case d4:
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return acc.baseV + model.SampleValue(int32(binary.LittleEndian.Uint32(acc.c[offset:])))
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// No d8 for ints.
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default:
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acc.lastErr = fmt.Errorf("invalid number of bytes for integer delta: %d", acc.vBytes)
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return 0
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}
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} else {
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switch acc.vBytes {
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case d4:
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return acc.baseV + model.SampleValue(math.Float32frombits(binary.LittleEndian.Uint32(acc.c[offset:])))
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case d8:
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// Take absolute value for d8.
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return model.SampleValue(math.Float64frombits(binary.LittleEndian.Uint64(acc.c[offset:])))
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default:
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acc.lastErr = fmt.Errorf("invalid number of bytes for floating point delta: %d", acc.vBytes)
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return 0
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}
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}
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}
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