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// 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 tsdb
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import (
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"sync"
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)
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// isolationState holds the isolation information.
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type isolationState struct {
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// We will ignore all appends above the max, or that are incomplete.
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maxAppendID uint64
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incompleteAppends map[uint64]struct{}
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lowWatermark uint64 // Lowest of incompleteAppends/maxAppendID.
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isolation *isolation
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mint, maxt int64 // Time ranges of the read.
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// Doubly linked list of active reads.
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next *isolationState
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prev *isolationState
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}
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// Close closes the state.
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func (i *isolationState) Close() {
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i.isolation.readMtx.Lock()
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defer i.isolation.readMtx.Unlock()
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i.next.prev = i.prev
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i.prev.next = i.next
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}
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func (i *isolationState) IsolationDisabled() bool {
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return i.isolation.disabled
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}
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type isolationAppender struct {
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appendID uint64
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prev *isolationAppender
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next *isolationAppender
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}
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// isolation is the global isolation state.
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type isolation struct {
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// Mutex for accessing lastAppendID and appendsOpen.
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appendMtx sync.RWMutex
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// Which appends are currently in progress.
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appendsOpen map[uint64]*isolationAppender
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// New appenders with higher appendID are added to the end. First element keeps lastAppendId.
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// appendsOpenList.next points to the first element and appendsOpenList.prev points to the last element.
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// If there are no appenders, both point back to appendsOpenList.
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appendsOpenList *isolationAppender
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// Pool of reusable *isolationAppender to save on allocations.
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appendersPool sync.Pool
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// Mutex for accessing readsOpen.
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// If taking both appendMtx and readMtx, take appendMtx first.
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readMtx sync.RWMutex
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// All current in use isolationStates. This is a doubly-linked list.
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readsOpen *isolationState
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// If true, writes are not tracked while reads are still tracked.
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disabled bool
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}
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func newIsolation(disabled bool) *isolation {
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isoState := &isolationState{}
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isoState.next = isoState
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isoState.prev = isoState
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appender := &isolationAppender{}
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appender.next = appender
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appender.prev = appender
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return &isolation{
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appendsOpen: map[uint64]*isolationAppender{},
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appendsOpenList: appender,
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readsOpen: isoState,
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disabled: disabled,
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appendersPool: sync.Pool{New: func() interface{} { return &isolationAppender{} }},
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}
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}
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// lowWatermark returns the appendID below which we no longer need to track
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// which appends were from which appendID.
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func (i *isolation) lowWatermark() uint64 {
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if i.disabled {
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return 0
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}
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i.appendMtx.RLock() // Take appendMtx first.
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defer i.appendMtx.RUnlock()
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return i.lowWatermarkLocked()
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}
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func (i *isolation) lowWatermarkLocked() uint64 {
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if i.disabled {
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return 0
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}
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i.readMtx.RLock()
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defer i.readMtx.RUnlock()
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if i.readsOpen.prev != i.readsOpen {
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return i.readsOpen.prev.lowWatermark
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}
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// Lowest appendID from appenders, or lastAppendId.
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return i.appendsOpenList.next.appendID
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}
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// State returns an object used to control isolation
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// between a query and appends. Must be closed when complete.
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func (i *isolation) State(mint, maxt int64) *isolationState {
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i.appendMtx.RLock() // Take append mutex before read mutex.
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defer i.appendMtx.RUnlock()
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// We need to track the reads even when isolation is disabled.
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isoState := &isolationState{
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maxAppendID: i.appendsOpenList.appendID,
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lowWatermark: i.appendsOpenList.next.appendID, // Lowest appendID from appenders, or lastAppendId.
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incompleteAppends: make(map[uint64]struct{}, len(i.appendsOpen)),
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isolation: i,
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mint: mint,
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maxt: maxt,
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}
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for k := range i.appendsOpen {
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isoState.incompleteAppends[k] = struct{}{}
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}
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i.readMtx.Lock()
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defer i.readMtx.Unlock()
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isoState.prev = i.readsOpen
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isoState.next = i.readsOpen.next
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i.readsOpen.next.prev = isoState
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i.readsOpen.next = isoState
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return isoState
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}
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// TraverseOpenReads iterates through the open reads and runs the given
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// function on those states. The given function MUST NOT mutate the isolationState.
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// The iteration is stopped when the function returns false or once all reads have been iterated.
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func (i *isolation) TraverseOpenReads(f func(s *isolationState) bool) {
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i.readMtx.RLock()
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defer i.readMtx.RUnlock()
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s := i.readsOpen.next
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for s != i.readsOpen {
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if !f(s) {
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return
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}
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s = s.next
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}
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}
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// newAppendID increments the transaction counter and returns a new transaction
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// ID. The first ID returned is 1.
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// Also returns the low watermark, to keep lock/unlock operations down.
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func (i *isolation) newAppendID() (uint64, uint64) {
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if i.disabled {
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return 0, 0
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}
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i.appendMtx.Lock()
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defer i.appendMtx.Unlock()
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// Last used appendID is stored in head element.
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i.appendsOpenList.appendID++
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app := i.appendersPool.Get().(*isolationAppender)
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app.appendID = i.appendsOpenList.appendID
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app.prev = i.appendsOpenList.prev
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app.next = i.appendsOpenList
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i.appendsOpenList.prev.next = app
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i.appendsOpenList.prev = app
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i.appendsOpen[app.appendID] = app
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return app.appendID, i.lowWatermarkLocked()
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}
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func (i *isolation) lastAppendID() uint64 {
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if i.disabled {
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return 0
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}
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i.appendMtx.RLock()
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defer i.appendMtx.RUnlock()
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return i.appendsOpenList.appendID
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}
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func (i *isolation) closeAppend(appendID uint64) {
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if i.disabled {
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return
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}
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i.appendMtx.Lock()
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defer i.appendMtx.Unlock()
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app := i.appendsOpen[appendID]
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if app != nil {
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app.prev.next = app.next
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app.next.prev = app.prev
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delete(i.appendsOpen, appendID)
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// Clear all fields, and return to the pool.
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*app = isolationAppender{}
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i.appendersPool.Put(app)
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}
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}
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// The transactionID ring buffer.
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type txRing struct {
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txIDs []uint64
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txIDFirst int // Position of the first id in the ring.
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txIDCount int // How many ids in the ring.
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}
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func newTxRing(cap int) *txRing {
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return &txRing{
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txIDs: make([]uint64, cap),
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}
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}
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func (txr *txRing) add(appendID uint64) {
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if txr.txIDCount == len(txr.txIDs) {
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// Ring buffer is full, expand by doubling.
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newRing := make([]uint64, txr.txIDCount*2)
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idx := copy(newRing[:], txr.txIDs[txr.txIDFirst:])
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copy(newRing[idx:], txr.txIDs[:txr.txIDFirst])
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txr.txIDs = newRing
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txr.txIDFirst = 0
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}
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txr.txIDs[(txr.txIDFirst+txr.txIDCount)%len(txr.txIDs)] = appendID
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txr.txIDCount++
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}
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func (txr *txRing) cleanupAppendIDsBelow(bound uint64) {
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pos := txr.txIDFirst
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for txr.txIDCount > 0 {
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if txr.txIDs[pos] < bound {
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txr.txIDFirst++
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txr.txIDCount--
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} else {
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break
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}
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pos++
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if pos == len(txr.txIDs) {
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pos = 0
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}
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}
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txr.txIDFirst %= len(txr.txIDs)
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}
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func (txr *txRing) iterator() *txRingIterator {
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return &txRingIterator{
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pos: txr.txIDFirst,
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ids: txr.txIDs,
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}
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}
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// txRingIterator lets you iterate over the ring. It doesn't terminate,
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// it DOESN'T terminate.
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type txRingIterator struct {
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ids []uint64
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pos int
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}
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func (it *txRingIterator) At() uint64 {
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return it.ids[it.pos]
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}
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func (it *txRingIterator) Next() {
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it.pos++
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if it.pos == len(it.ids) {
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it.pos = 0
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}
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}
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