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48fae12b89
* Fix unsequential m-map files Signed-off-by: Ganesh Vernekar <cs15btech11018@iith.ac.in> * Fix review comments Signed-off-by: Ganesh Vernekar <cs15btech11018@iith.ac.in>
374 lines
12 KiB
Go
374 lines
12 KiB
Go
// Copyright 2020 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 chunks
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import (
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"encoding/binary"
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"io/ioutil"
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"math/rand"
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"os"
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"testing"
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"github.com/prometheus/prometheus/tsdb/chunkenc"
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"github.com/prometheus/prometheus/util/testutil"
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)
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func TestHeadReadWriter_WriteChunk_Chunk_IterateChunks(t *testing.T) {
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hrw, close := testHeadReadWriter(t)
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defer func() {
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testutil.Ok(t, hrw.Close())
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close()
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}()
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expectedBytes := []byte{}
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nextChunkOffset := uint64(HeadChunkFileHeaderSize)
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chkCRC32 := newCRC32()
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type expectedDataType struct {
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seriesRef, chunkRef uint64
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mint, maxt int64
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numSamples uint16
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chunk chunkenc.Chunk
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}
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expectedData := []expectedDataType{}
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var buf [MaxHeadChunkMetaSize]byte
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totalChunks := 0
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var firstFileName string
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for hrw.curFileSequence < 3 || hrw.chkWriter.Buffered() == 0 {
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addChunks := func(numChunks int) {
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for i := 0; i < numChunks; i++ {
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seriesRef, chkRef, mint, maxt, chunk := createChunk(t, totalChunks, hrw)
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totalChunks++
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expectedData = append(expectedData, expectedDataType{
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seriesRef: seriesRef,
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mint: mint,
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maxt: maxt,
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chunkRef: chkRef,
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chunk: chunk,
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numSamples: uint16(chunk.NumSamples()),
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})
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if hrw.curFileSequence != 1 {
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// We are checking for bytes written only for the first file.
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continue
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}
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// Calculating expected bytes written on disk for first file.
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firstFileName = hrw.curFile.Name()
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testutil.Equals(t, chunkRef(1, nextChunkOffset), chkRef)
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bytesWritten := 0
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chkCRC32.Reset()
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binary.BigEndian.PutUint64(buf[bytesWritten:], seriesRef)
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bytesWritten += SeriesRefSize
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binary.BigEndian.PutUint64(buf[bytesWritten:], uint64(mint))
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bytesWritten += MintMaxtSize
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binary.BigEndian.PutUint64(buf[bytesWritten:], uint64(maxt))
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bytesWritten += MintMaxtSize
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buf[bytesWritten] = byte(chunk.Encoding())
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bytesWritten += ChunkEncodingSize
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n := binary.PutUvarint(buf[bytesWritten:], uint64(len(chunk.Bytes())))
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bytesWritten += n
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expectedBytes = append(expectedBytes, buf[:bytesWritten]...)
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_, err := chkCRC32.Write(buf[:bytesWritten])
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testutil.Ok(t, err)
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expectedBytes = append(expectedBytes, chunk.Bytes()...)
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_, err = chkCRC32.Write(chunk.Bytes())
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testutil.Ok(t, err)
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expectedBytes = append(expectedBytes, chkCRC32.Sum(nil)...)
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// += seriesRef, mint, maxt, encoding, chunk data len, chunk data, CRC.
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nextChunkOffset += SeriesRefSize + 2*MintMaxtSize + ChunkEncodingSize + uint64(n) + uint64(len(chunk.Bytes())) + CRCSize
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}
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}
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addChunks(100)
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hrw.CutNewFile()
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addChunks(10) // For chunks in in-memory buffer.
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}
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// Checking on-disk bytes for the first file.
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testutil.Assert(t, len(hrw.mmappedChunkFiles) == 3 && len(hrw.closers) == 3, "expected 3 mmapped files, got %d", len(hrw.mmappedChunkFiles))
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actualBytes, err := ioutil.ReadFile(firstFileName)
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testutil.Ok(t, err)
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// Check header of the segment file.
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testutil.Equals(t, MagicHeadChunks, int(binary.BigEndian.Uint32(actualBytes[0:MagicChunksSize])))
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testutil.Equals(t, chunksFormatV1, int(actualBytes[MagicChunksSize]))
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// Remaining chunk data.
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fileEnd := HeadChunkFileHeaderSize + len(expectedBytes)
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testutil.Equals(t, expectedBytes, actualBytes[HeadChunkFileHeaderSize:fileEnd])
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// Test for the next chunk header to be all 0s. That marks the end of the file.
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for _, b := range actualBytes[fileEnd : fileEnd+MaxHeadChunkMetaSize] {
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testutil.Equals(t, byte(0), b)
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}
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// Testing reading of chunks.
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for _, exp := range expectedData {
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actChunk, err := hrw.Chunk(exp.chunkRef)
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testutil.Ok(t, err)
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testutil.Equals(t, exp.chunk.Bytes(), actChunk.Bytes())
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}
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// Testing IterateAllChunks method.
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dir := hrw.dir.Name()
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testutil.Ok(t, hrw.Close())
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hrw, err = NewChunkDiskMapper(dir, chunkenc.NewPool())
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testutil.Ok(t, err)
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idx := 0
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err = hrw.IterateAllChunks(func(seriesRef, chunkRef uint64, mint, maxt int64, numSamples uint16) error {
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t.Helper()
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expData := expectedData[idx]
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testutil.Equals(t, expData.seriesRef, seriesRef)
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testutil.Equals(t, expData.chunkRef, chunkRef)
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testutil.Equals(t, expData.maxt, maxt)
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testutil.Equals(t, expData.maxt, maxt)
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testutil.Equals(t, expData.numSamples, numSamples)
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actChunk, err := hrw.Chunk(expData.chunkRef)
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testutil.Ok(t, err)
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testutil.Equals(t, expData.chunk.Bytes(), actChunk.Bytes())
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idx++
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return nil
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})
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testutil.Ok(t, err)
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testutil.Equals(t, len(expectedData), idx)
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}
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// TestHeadReadWriter_Truncate tests
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// * If truncation is happening properly based on the time passed.
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// * The active file is not deleted even if the passed time makes it eligible to be deleted.
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// * Empty current file does not lead to creation of another file after truncation.
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// * Non-empty current file leads to creation of another file after truncation.
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func TestHeadReadWriter_Truncate(t *testing.T) {
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hrw, close := testHeadReadWriter(t)
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defer func() {
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testutil.Ok(t, hrw.Close())
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close()
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}()
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timeRange := 0
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fileTimeStep := 100
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totalFiles := 7
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startIndexAfter1stTruncation, startIndexAfter2ndTruncation := 3, 6
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filesDeletedAfter1stTruncation, filesDeletedAfter2ndTruncation := 2, 5
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var timeToTruncate, timeToTruncateAfterRestart int64
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addChunk := func() int {
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mint := timeRange + 1 // Just after the the new file cut.
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maxt := timeRange + fileTimeStep - 1 // Just before the next file.
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// Write a chunks to set maxt for the segment.
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_, err := hrw.WriteChunk(1, int64(mint), int64(maxt), randomChunk(t))
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testutil.Ok(t, err)
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timeRange += fileTimeStep
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return mint
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}
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cutFile := func(i int) {
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testutil.Ok(t, hrw.CutNewFile())
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mint := addChunk()
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if i == startIndexAfter1stTruncation {
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timeToTruncate = int64(mint)
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} else if i == startIndexAfter2ndTruncation {
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timeToTruncateAfterRestart = int64(mint)
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}
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}
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// Cut segments.
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for i := 1; i <= totalFiles; i++ {
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cutFile(i)
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}
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// Verifying the files.
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verifyFiles := func(remainingFiles, startIndex int) {
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t.Helper()
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files, err := ioutil.ReadDir(hrw.dir.Name())
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testutil.Ok(t, err)
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testutil.Equals(t, remainingFiles, len(files), "files on disk")
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testutil.Equals(t, remainingFiles, len(hrw.mmappedChunkFiles), "hrw.mmappedChunkFiles")
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testutil.Equals(t, remainingFiles, len(hrw.closers), "closers")
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for i := 1; i <= totalFiles; i++ {
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_, ok := hrw.mmappedChunkFiles[i]
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if i < startIndex {
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testutil.Equals(t, false, ok)
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} else {
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testutil.Equals(t, true, ok)
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}
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}
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}
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// Verify the number of segments.
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verifyFiles(totalFiles, 1)
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// Truncating files.
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testutil.Ok(t, hrw.Truncate(timeToTruncate))
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totalFiles++ // Truncation creates a new file as the last file is not empty.
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verifyFiles(totalFiles-filesDeletedAfter1stTruncation, startIndexAfter1stTruncation)
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addChunk() // Add a chunk so that new file is not truncated.
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dir := hrw.dir.Name()
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testutil.Ok(t, hrw.Close())
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// Restarted.
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var err error
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hrw, err = NewChunkDiskMapper(dir, chunkenc.NewPool())
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testutil.Ok(t, err)
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testutil.Assert(t, !hrw.fileMaxtSet, "")
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testutil.Ok(t, hrw.IterateAllChunks(func(_, _ uint64, _, _ int64, _ uint16) error { return nil }))
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testutil.Assert(t, hrw.fileMaxtSet, "")
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// Truncating files after restart. As the last file was empty, this creates no new files.
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testutil.Ok(t, hrw.Truncate(timeToTruncateAfterRestart))
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verifyFiles(totalFiles-filesDeletedAfter2ndTruncation, startIndexAfter2ndTruncation)
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// First chunk after restart creates a new file.
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addChunk()
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totalFiles++
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// Truncating till current time should not delete the current active file.
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testutil.Ok(t, hrw.Truncate(int64(timeRange+fileTimeStep)))
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verifyFiles(2, totalFiles) // One file is the active file and one was newly created.
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}
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// TestHeadReadWriter_Truncate_NoUnsequentialFiles tests
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// that truncation leaves no unsequential files on disk, mainly under the following case
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// * There is an empty file in between the sequence while the truncation
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// deletes files only upto a sequence before that (i.e. stops deleting
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// after it has found a file that is not deletable).
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// This tests https://github.com/prometheus/prometheus/issues/7412 where
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// the truncation used to check all the files for deletion and end up
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// deleting empty files in between and breaking the sequence.
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func TestHeadReadWriter_Truncate_NoUnsequentialFiles(t *testing.T) {
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hrw, close := testHeadReadWriter(t)
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defer func() {
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testutil.Ok(t, hrw.Close())
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close()
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}()
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timeRange := 0
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addChunk := func() {
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step := 100
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mint, maxt := timeRange+1, timeRange+step-1
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_, err := hrw.WriteChunk(1, int64(mint), int64(maxt), randomChunk(t))
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testutil.Ok(t, err)
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timeRange += step
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}
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emptyFile := func() {
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testutil.Ok(t, hrw.CutNewFile())
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}
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nonEmptyFile := func() {
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emptyFile()
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addChunk()
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}
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addChunk() // 1. Created with the first chunk.
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nonEmptyFile() // 2.
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nonEmptyFile() // 3.
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emptyFile() // 4.
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nonEmptyFile() // 5.
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emptyFile() // 6.
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// Verifying the files.
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verifyFiles := func(remainingFiles []int) {
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t.Helper()
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files, err := ioutil.ReadDir(hrw.dir.Name())
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testutil.Ok(t, err)
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testutil.Equals(t, len(remainingFiles), len(files), "files on disk")
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testutil.Equals(t, len(remainingFiles), len(hrw.mmappedChunkFiles), "hrw.mmappedChunkFiles")
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testutil.Equals(t, len(remainingFiles), len(hrw.closers), "closers")
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for _, i := range remainingFiles {
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_, ok := hrw.mmappedChunkFiles[i]
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testutil.Equals(t, true, ok)
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}
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}
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verifyFiles([]int{1, 2, 3, 4, 5, 6})
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// Truncating files till 2. It should not delete anything after 3 (inclusive)
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// though files 4 and 6 are empty.
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file2Maxt := hrw.mmappedChunkFiles[2].maxt
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testutil.Ok(t, hrw.Truncate(file2Maxt+1))
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// As 6 was empty, it should not create another file.
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verifyFiles([]int{3, 4, 5, 6})
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addChunk()
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// Truncate creates another file as 6 is not empty now.
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testutil.Ok(t, hrw.Truncate(file2Maxt+1))
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verifyFiles([]int{3, 4, 5, 6, 7})
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dir := hrw.dir.Name()
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testutil.Ok(t, hrw.Close())
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// Restarting checks for unsequential files.
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var err error
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hrw, err = NewChunkDiskMapper(dir, chunkenc.NewPool())
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testutil.Ok(t, err)
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verifyFiles([]int{3, 4, 5, 6, 7})
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}
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func testHeadReadWriter(t *testing.T) (hrw *ChunkDiskMapper, close func()) {
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tmpdir, err := ioutil.TempDir("", "data")
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testutil.Ok(t, err)
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hrw, err = NewChunkDiskMapper(tmpdir, chunkenc.NewPool())
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testutil.Ok(t, err)
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testutil.Assert(t, !hrw.fileMaxtSet, "")
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testutil.Ok(t, hrw.IterateAllChunks(func(_, _ uint64, _, _ int64, _ uint16) error { return nil }))
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testutil.Assert(t, hrw.fileMaxtSet, "")
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return hrw, func() {
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testutil.Ok(t, os.RemoveAll(tmpdir))
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}
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}
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func randomChunk(t *testing.T) chunkenc.Chunk {
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chunk := chunkenc.NewXORChunk()
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len := rand.Int() % 120
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app, err := chunk.Appender()
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testutil.Ok(t, err)
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for i := 0; i < len; i++ {
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app.Append(rand.Int63(), rand.Float64())
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}
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return chunk
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}
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func createChunk(t *testing.T, idx int, hrw *ChunkDiskMapper) (seriesRef uint64, chunkRef uint64, mint, maxt int64, chunk chunkenc.Chunk) {
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var err error
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seriesRef = uint64(rand.Int63())
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mint = int64((idx)*1000 + 1)
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maxt = int64((idx + 1) * 1000)
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chunk = randomChunk(t)
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chunkRef, err = hrw.WriteChunk(seriesRef, mint, maxt, chunk)
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testutil.Ok(t, err)
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return
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}
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