VictoriaMetrics/lib/storage/part_header.go

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2019-05-22 21:16:55 +00:00
package storage
import (
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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"encoding/json"
"errors"
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"fmt"
"os"
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"path/filepath"
"strconv"
"strings"
"time"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/fs"
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils"
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)
// partHeader represents part header.
type partHeader struct {
// RowsCount is the total number of rows in the part.
RowsCount uint64
// BlocksCount is the total number of blocks in the part.
BlocksCount uint64
// MinTimestamp is the minimum timestamp in the part.
MinTimestamp int64
// MaxTimestamp is the maximum timestamp in the part.
MaxTimestamp int64
// MinDedupInterval is minimal dedup interval in milliseconds across all the blocks in the part.
MinDedupInterval int64
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}
// String returns string representation of ph.
func (ph *partHeader) String() string {
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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return fmt.Sprintf("partHeader{rowsCount=%d,blocksCount=%d,minTimestamp=%d,maxTimestamp=%d}", ph.RowsCount, ph.BlocksCount, ph.MinTimestamp, ph.MaxTimestamp)
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}
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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// Reset resets the ph.
func (ph *partHeader) Reset() {
ph.RowsCount = 0
ph.BlocksCount = 0
ph.MinTimestamp = (1 << 63) - 1
ph.MaxTimestamp = -1 << 63
ph.MinDedupInterval = 0
}
func (ph *partHeader) readMinDedupInterval(partPath string) error {
filePath := filepath.Join(partPath, "min_dedup_interval")
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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data, err := os.ReadFile(filePath)
if err != nil {
if errors.Is(err, os.ErrNotExist) {
// The minimum dedup interval may not exist for old parts.
ph.MinDedupInterval = 0
return nil
}
return fmt.Errorf("cannot read %q: %w", filePath, err)
}
dedupInterval, err := promutils.ParseDuration(string(data))
if err != nil {
return fmt.Errorf("cannot parse minimum dedup interval %q at %q: %w", data, filePath, err)
}
ph.MinDedupInterval = dedupInterval.Milliseconds()
return nil
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}
func fromUserReadableTimestamp(s string) (int64, error) {
t, err := time.Parse(userReadableTimeFormat, s)
if err != nil {
return 0, err
}
return timestampFromTime(t), nil
}
const userReadableTimeFormat = "20060102150405.000"
// ParseFromPath extracts ph info from the given path.
func (ph *partHeader) ParseFromPath(path string) error {
ph.Reset()
path = filepath.Clean(path)
// Extract encoded part name.
partName := filepath.Base(path)
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// PartName must have the following form:
// RowsCount_BlocksCount_MinTimestamp_MaxTimestamp_Garbage
a := strings.Split(partName, "_")
if len(a) != 5 {
return fmt.Errorf("unexpected number of substrings in the part name %q: got %d; want %d", partName, len(a), 5)
}
var err error
ph.RowsCount, err = strconv.ParseUint(a[0], 10, 64)
if err != nil {
return fmt.Errorf("cannot parse rowsCount from partName %q: %w", partName, err)
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}
ph.BlocksCount, err = strconv.ParseUint(a[1], 10, 64)
if err != nil {
return fmt.Errorf("cannot parse blocksCount from partName %q: %w", partName, err)
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}
ph.MinTimestamp, err = fromUserReadableTimestamp(a[2])
if err != nil {
return fmt.Errorf("cannot parse minTimestamp from partName %q: %w", partName, err)
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}
ph.MaxTimestamp, err = fromUserReadableTimestamp(a[3])
if err != nil {
return fmt.Errorf("cannot parse maxTimestamp from partName %q: %w", partName, err)
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}
if ph.MinTimestamp > ph.MaxTimestamp {
return fmt.Errorf("minTimestamp cannot exceed maxTimestamp; got %d vs %d", ph.MinTimestamp, ph.MaxTimestamp)
}
if ph.RowsCount <= 0 {
return fmt.Errorf("rowsCount must be greater than 0; got %d", ph.RowsCount)
}
if ph.BlocksCount <= 0 {
return fmt.Errorf("blocksCount must be greater than 0; got %d", ph.BlocksCount)
}
if ph.BlocksCount > ph.RowsCount {
return fmt.Errorf("blocksCount cannot be bigger than rowsCount; got blocksCount=%d, rowsCount=%d", ph.BlocksCount, ph.RowsCount)
}
if err := ph.readMinDedupInterval(path); err != nil {
return fmt.Errorf("cannot read min dedup interval: %w", err)
}
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return nil
}
func (ph *partHeader) MustReadMetadata(partPath string) {
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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ph.Reset()
metadataPath := filepath.Join(partPath, metadataFilename)
if !fs.IsPathExist(metadataPath) {
// This is a part created before v1.90.0.
lib/storage: add ability to use downsampling for the given series filter (#733) * lib/storage: add ability to use downsampling for the given series filter Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * docs: add information about downsampling filters Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * docs: fix MetricsQL filter Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * lib/storage/downsampling: treat missing downsampling filter as a bug Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * lib/storage/part_header: verify correctness of downsampling filters when opening partition Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * lib/storage/downsampling: save only appliable rules in part metadata Filter and save only rules which are appliable to partition based on MinTimestamp of stored data. Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * lib/storage/downsampling: update log messages for final dedup Properly specify a reason of re-running deduplication for partition. Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * lib/storage: consistently use MaxTimestamp to determine deduplication/downsampling rules Using MinTimestamp leads to applying downsampling to parts which are only partially covered by downsampling rule. For example, partition covers range [1000-2000]. At t=2100 and rule offset 500 data with t=2100-500 => 1600 must be downsampled. The range check against MinTimestamp evaluates to true even though partition contains range which must not be downsampled - [1600:2000]. Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> * Follow-up - Apply the first matching downsampling period if multiple filters match the given time series. This allows fine-tuning the downsampling config for the specific needs. - Take into account downsampling filters during search queries. - Reduce the difference between community and enterprise branches. This should simplify further maintenance of these branches. - Properly parse series filters with colons inside them. - Document the feature at docs/CHANGELOG.md. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/4960 --------- Signed-off-by: Zakhar Bessarab <z.bessarab@victoriametrics.com> Co-authored-by: Aliaksandr Valialkin <valyala@victoriametrics.com>
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// Fall back to reading the metadata from the partPath itself.
if err := ph.ParseFromPath(partPath); err != nil {
logger.Panicf("FATAL: cannot parse metadata from %q: %s", partPath, err)
}
} else {
metadata, err := os.ReadFile(metadataPath)
if err != nil {
logger.Panicf("FATAL: cannot read %q: %s", metadataPath, err)
}
if err := json.Unmarshal(metadata, ph); err != nil {
logger.Panicf("FATAL: cannot parse %q: %s", metadataPath, err)
}
}
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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// Perform various checks
if ph.MinTimestamp > ph.MaxTimestamp {
logger.Panicf("FATAL: minTimestamp cannot exceed maxTimestamp at %q; got %d vs %d", metadataPath, ph.MinTimestamp, ph.MaxTimestamp)
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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}
if ph.RowsCount <= 0 {
logger.Panicf("FATAL: rowsCount must be greater than 0 at %q; got %d", metadataPath, ph.RowsCount)
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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}
if ph.BlocksCount <= 0 {
logger.Panicf("FATAL: blocksCount must be greater than 0 at %q; got %d", metadataPath, ph.BlocksCount)
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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}
if ph.BlocksCount > ph.RowsCount {
logger.Panicf("FATAL: blocksCount cannot be bigger than rowsCount at %q; got blocksCount=%d, rowsCount=%d", metadataPath, ph.BlocksCount, ph.RowsCount)
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
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}
}
func (ph *partHeader) MustWriteMetadata(partPath string) {
all: add Windows build for VictoriaMetrics This commit changes background merge algorithm, so it becomes compatible with Windows file semantics. The previous algorithm for background merge: 1. Merge source parts into a destination part inside tmp directory. 2. Create a file in txn directory with instructions on how to atomically swap source parts with the destination part. 3. Perform instructions from the file. 4. Delete the file with instructions. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since the remaining files with instructions is replayed on the next restart, after that the remaining contents of the tmp directory is deleted. Unfortunately this algorithm doesn't work under Windows because it disallows removing and moving files, which are in use. So the new algorithm for background merge has been implemented: 1. Merge source parts into a destination part inside the partition directory itself. E.g. now the partition directory may contain both complete and incomplete parts. 2. Atomically update the parts.json file with the new list of parts after the merge, e.g. remove the source parts from the list and add the destination part to the list before storing it to parts.json file. 3. Remove the source parts from disk when they are no longer used. This algorithm guarantees that either source parts or destination part is visible in the partition after unclean shutdown at any step above, since incomplete partitions from step 1 or old source parts from step 3 are removed on the next startup by inspecting parts.json file. This algorithm should work under Windows, since it doesn't remove or move files in use. This algorithm has also the following benefits: - It should work better for NFS. - It fits object storage semantics. The new algorithm changes data storage format, so it is impossible to downgrade to the previous versions of VictoriaMetrics after upgrading to this algorithm. Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3236 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3821 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/70
2023-03-19 08:36:05 +00:00
metadata, err := json.Marshal(ph)
if err != nil {
logger.Panicf("BUG: cannot marshal partHeader metadata: %s", err)
}
metadataPath := filepath.Join(partPath, metadataFilename)
// There is no need in calling fs.MustWriteAtomic() here,
// since the file is created only once during part creating
// and the part directory is synced afterwards.
fs.MustWriteSync(metadataPath, metadata)
2019-05-22 21:16:55 +00:00
}