mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-11-14 12:15:18 +00:00
444 lines
12 KiB
Go
444 lines
12 KiB
Go
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// Copyright 2019 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package metamorphic
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import (
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"fmt"
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"io"
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"os"
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"path"
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"sort"
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"strings"
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"github.com/cockroachdb/errors"
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"github.com/cockroachdb/pebble"
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"github.com/cockroachdb/pebble/vfs"
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"github.com/cockroachdb/pebble/vfs/errorfs"
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)
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type test struct {
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// The list of ops to execute. The ops refer to slots in the batches, iters,
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// and snapshots slices.
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ops []op
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opsWaitOn [][]int // op index -> op indexes
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opsDone []chan struct{} // op index -> done channel
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idx int
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dir string
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opts *pebble.Options
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testOpts *TestOptions
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writeOpts *pebble.WriteOptions
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tmpDir string
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// The DBs the test is run on.
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dbs []*pebble.DB
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// The slots for the batches, iterators, and snapshots. These are read and
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// written by the ops to pass state from one op to another.
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batches []*pebble.Batch
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iters []*retryableIter
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snapshots []readerCloser
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}
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func newTest(ops []op) *test {
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return &test{
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ops: ops,
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}
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}
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func (t *test) init(h *history, dir string, testOpts *TestOptions, numInstances int) error {
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t.dir = dir
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t.testOpts = testOpts
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t.writeOpts = pebble.NoSync
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if testOpts.strictFS {
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t.writeOpts = pebble.Sync
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}
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t.opts = testOpts.Opts.EnsureDefaults()
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t.opts.Logger = h
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lel := pebble.MakeLoggingEventListener(t.opts.Logger)
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t.opts.EventListener = &lel
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t.opts.DebugCheck = func(db *pebble.DB) error {
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// Wrap the ordinary DebugCheckLevels with retrying
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// of injected errors.
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return withRetries(func() error {
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return pebble.DebugCheckLevels(db)
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})
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}
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if numInstances < 1 {
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numInstances = 1
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}
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t.opsWaitOn, t.opsDone = computeSynchronizationPoints(t.ops)
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defer t.opts.Cache.Unref()
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// If an error occurs and we were using an in-memory FS, attempt to clone to
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// on-disk in order to allow post-mortem debugging. Note that always using
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// the on-disk FS isn't desirable because there is a large performance
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// difference between in-memory and on-disk which causes different code paths
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// and timings to be exercised.
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maybeExit := func(err error) {
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if err == nil || errors.Is(err, errorfs.ErrInjected) || errors.Is(err, pebble.ErrCancelledCompaction) {
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return
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}
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t.maybeSaveData()
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fmt.Fprintln(os.Stderr, err)
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os.Exit(1)
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}
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// Exit early on any error from a background operation.
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t.opts.EventListener.BackgroundError = func(err error) {
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t.opts.Logger.Infof("background error: %s", err)
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maybeExit(err)
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}
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t.opts.EventListener.CompactionEnd = func(info pebble.CompactionInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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t.opts.EventListener.FlushEnd = func(info pebble.FlushInfo) {
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t.opts.Logger.Infof("%s", info)
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if info.Err != nil && !strings.Contains(info.Err.Error(), "pebble: empty table") {
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maybeExit(info.Err)
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}
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}
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t.opts.EventListener.ManifestCreated = func(info pebble.ManifestCreateInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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t.opts.EventListener.ManifestDeleted = func(info pebble.ManifestDeleteInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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t.opts.EventListener.TableDeleted = func(info pebble.TableDeleteInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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t.opts.EventListener.TableIngested = func(info pebble.TableIngestInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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t.opts.EventListener.WALCreated = func(info pebble.WALCreateInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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t.opts.EventListener.WALDeleted = func(info pebble.WALDeleteInfo) {
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t.opts.Logger.Infof("%s", info)
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maybeExit(info.Err)
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}
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for i := range t.testOpts.CustomOpts {
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if err := t.testOpts.CustomOpts[i].Open(t.opts); err != nil {
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return err
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}
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}
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t.dbs = make([]*pebble.DB, numInstances)
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for i := range t.dbs {
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var db *pebble.DB
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var err error
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if len(t.dbs) > 1 {
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dir = path.Join(t.dir, fmt.Sprintf("db%d", i+1))
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}
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err = withRetries(func() error {
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db, err = pebble.Open(dir, t.opts)
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return err
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})
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if err != nil {
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return err
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}
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t.dbs[i] = db
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h.log.Printf("// db%d.Open() %v", i+1, err)
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if t.testOpts.sharedStorageEnabled {
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err = withRetries(func() error {
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return db.SetCreatorID(uint64(i + 1))
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})
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if err != nil {
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return err
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}
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h.log.Printf("// db%d.SetCreatorID() %v", i+1, err)
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}
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}
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var err error
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t.tmpDir = t.opts.FS.PathJoin(t.dir, "tmp")
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if err = t.opts.FS.MkdirAll(t.tmpDir, 0755); err != nil {
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return err
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}
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if t.testOpts.strictFS {
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// Sync the whole directory path for the tmpDir, since restartDB() is executed during
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// the test. That would reset MemFS to the synced state, which would make an unsynced
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// directory disappear in the middle of the test. It is the responsibility of the test
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// (not Pebble) to ensure that it can write the ssts that it will subsequently ingest
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// into Pebble.
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for {
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f, err := t.opts.FS.OpenDir(dir)
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if err != nil {
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return err
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}
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if err = f.Sync(); err != nil {
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return err
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}
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if err = f.Close(); err != nil {
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return err
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}
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if len(dir) == 1 {
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break
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}
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dir = t.opts.FS.PathDir(dir)
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// TODO(sbhola): PathDir returns ".", which OpenDir() complains about. Fix.
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if len(dir) == 1 {
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dir = "/"
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}
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}
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}
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return nil
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}
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func (t *test) isFMV(dbID objID, fmv pebble.FormatMajorVersion) bool {
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db := t.getDB(dbID)
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return db.FormatMajorVersion() >= fmv
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}
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func (t *test) restartDB(dbID objID) error {
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db := t.getDB(dbID)
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if !t.testOpts.strictFS {
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return nil
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}
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t.opts.Cache.Ref()
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// The fs isn't necessarily a MemFS.
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fs, ok := vfs.Root(t.opts.FS).(*vfs.MemFS)
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if ok {
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fs.SetIgnoreSyncs(true)
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}
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if err := db.Close(); err != nil {
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return err
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}
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// Release any resources held by custom options. This may be used, for
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// example, by the encryption-at-rest custom option (within the Cockroach
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// repository) to close the file registry.
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for i := range t.testOpts.CustomOpts {
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if err := t.testOpts.CustomOpts[i].Close(t.opts); err != nil {
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return err
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}
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}
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if ok {
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fs.ResetToSyncedState()
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fs.SetIgnoreSyncs(false)
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}
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// TODO(jackson): Audit errorRate and ensure custom options' hooks semantics
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// are well defined within the context of retries.
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err := withRetries(func() (err error) {
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// Reacquire any resources required by custom options. This may be used, for
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// example, by the encryption-at-rest custom option (within the Cockroach
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// repository) to reopen the file registry.
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for i := range t.testOpts.CustomOpts {
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if err := t.testOpts.CustomOpts[i].Open(t.opts); err != nil {
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return err
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}
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}
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dir := t.dir
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if len(t.dbs) > 1 {
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dir = path.Join(dir, fmt.Sprintf("db%d", dbID.slot()))
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}
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t.dbs[dbID.slot()-1], err = pebble.Open(dir, t.opts)
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if err != nil {
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return err
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}
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return err
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})
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t.opts.Cache.Unref()
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return err
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}
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// If an in-memory FS is being used, save the contents to disk.
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func (t *test) maybeSaveData() {
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rootFS := vfs.Root(t.opts.FS)
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if rootFS == vfs.Default {
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return
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}
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_ = os.RemoveAll(t.dir)
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if _, err := vfs.Clone(rootFS, vfs.Default, t.dir, t.dir); err != nil {
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t.opts.Logger.Infof("unable to clone: %s: %v", t.dir, err)
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}
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}
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func (t *test) step(h *history) bool {
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if t.idx >= len(t.ops) {
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return false
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}
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t.ops[t.idx].run(t, h.recorder(-1 /* thread */, t.idx))
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t.idx++
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return true
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}
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func (t *test) setBatch(id objID, b *pebble.Batch) {
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if id.tag() != batchTag {
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panic(fmt.Sprintf("invalid batch ID: %s", id))
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}
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t.batches[id.slot()] = b
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}
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func (t *test) setIter(id objID, i *pebble.Iterator) {
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if id.tag() != iterTag {
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panic(fmt.Sprintf("invalid iter ID: %s", id))
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}
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t.iters[id.slot()] = &retryableIter{
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iter: i,
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lastKey: nil,
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}
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}
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type readerCloser interface {
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pebble.Reader
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io.Closer
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}
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func (t *test) setSnapshot(id objID, s readerCloser) {
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if id.tag() != snapTag {
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panic(fmt.Sprintf("invalid snapshot ID: %s", id))
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}
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t.snapshots[id.slot()] = s
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}
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func (t *test) clearObj(id objID) {
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switch id.tag() {
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case dbTag:
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t.dbs[id.slot()-1] = nil
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case batchTag:
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t.batches[id.slot()] = nil
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case iterTag:
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t.iters[id.slot()] = nil
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case snapTag:
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t.snapshots[id.slot()] = nil
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}
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}
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func (t *test) getBatch(id objID) *pebble.Batch {
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if id.tag() != batchTag {
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panic(fmt.Sprintf("invalid batch ID: %s", id))
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}
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return t.batches[id.slot()]
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}
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func (t *test) getCloser(id objID) io.Closer {
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switch id.tag() {
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case dbTag:
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return t.dbs[id.slot()-1]
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case batchTag:
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return t.batches[id.slot()]
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case iterTag:
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return t.iters[id.slot()]
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case snapTag:
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return t.snapshots[id.slot()]
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}
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panic(fmt.Sprintf("cannot close ID: %s", id))
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}
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func (t *test) getIter(id objID) *retryableIter {
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if id.tag() != iterTag {
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panic(fmt.Sprintf("invalid iter ID: %s", id))
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}
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return t.iters[id.slot()]
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}
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func (t *test) getReader(id objID) pebble.Reader {
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switch id.tag() {
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case dbTag:
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return t.dbs[id.slot()-1]
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case batchTag:
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return t.batches[id.slot()]
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case snapTag:
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return t.snapshots[id.slot()]
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}
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panic(fmt.Sprintf("invalid reader ID: %s", id))
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}
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func (t *test) getWriter(id objID) pebble.Writer {
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switch id.tag() {
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case dbTag:
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return t.dbs[id.slot()-1]
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case batchTag:
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return t.batches[id.slot()]
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}
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panic(fmt.Sprintf("invalid writer ID: %s", id))
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}
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func (t *test) getDB(id objID) *pebble.DB {
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switch id.tag() {
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case dbTag:
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return t.dbs[id.slot()-1]
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default:
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panic(fmt.Sprintf("invalid writer tag: %v", id.tag()))
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}
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}
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// Compute the synchronization points between operations. When operating
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// with more than 1 thread, operations must synchronize access to shared
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// objects. Compute two slices the same length as ops.
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//
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// opsWaitOn: the value v at index i indicates that operation i must wait
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// for the operation at index v to finish before it may run. NB: v < i
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//
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// opsDone: the channel at index i must be closed when the operation at index i
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// completes. This slice is sparse. Operations that are never used as
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// synchronization points may have a nil channel.
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func computeSynchronizationPoints(ops []op) (opsWaitOn [][]int, opsDone []chan struct{}) {
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opsDone = make([]chan struct{}, len(ops)) // operation index -> done channel
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opsWaitOn = make([][]int, len(ops)) // operation index -> operation index
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lastOpReference := make(map[objID]int) // objID -> operation index
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for i, o := range ops {
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// Find the last operation that involved the same receiver object. We at
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// least need to wait on that operation.
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receiver := o.receiver()
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waitIndex, ok := lastOpReference[receiver]
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lastOpReference[receiver] = i
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if !ok {
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// Only valid for i=0. For all other operations, the receiver should
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// have been referenced by some other operation before it's used as
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// a receiver.
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if i != 0 && receiver.tag() != dbTag {
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panic(fmt.Sprintf("op %s on receiver %s; first reference of %s", ops[i].String(), receiver, receiver))
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}
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// The initOp is a little special. We do want to store the objects it's
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// syncing on, in `lastOpReference`.
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if i != 0 {
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continue
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}
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}
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// The last operation that referenced `receiver` is the one at index
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// `waitIndex`. All operations with the same receiver are performed on
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// the same thread. We only need to synchronize on the operation at
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// `waitIndex` if `receiver` isn't also the receiver on that operation
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// too.
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if ops[waitIndex].receiver() != receiver {
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opsWaitOn[i] = append(opsWaitOn[i], waitIndex)
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}
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// In additional to synchronizing on the operation's receiver operation,
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// we may need to synchronize on additional objects. For example,
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// batch0.Commit() must synchronize its receiver, batch0, but also on
|
||
|
// the DB since it mutates database state.
|
||
|
for _, syncObjID := range o.syncObjs() {
|
||
|
if vi, vok := lastOpReference[syncObjID]; vok {
|
||
|
opsWaitOn[i] = append(opsWaitOn[i], vi)
|
||
|
}
|
||
|
lastOpReference[syncObjID] = i
|
||
|
}
|
||
|
|
||
|
waitIndexes := opsWaitOn[i]
|
||
|
sort.Ints(waitIndexes)
|
||
|
for _, waitIndex := range waitIndexes {
|
||
|
// If this is the first operation that must wait on the operation at
|
||
|
// `waitIndex`, then there will be no channel for the operation yet.
|
||
|
// Create one.
|
||
|
if opsDone[waitIndex] == nil {
|
||
|
opsDone[waitIndex] = make(chan struct{})
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
return opsWaitOn, opsDone
|
||
|
}
|