vendor/go.etcd.io/etcd/raft/tracker/inflights.go - ofagent-go - Gitiles

 // Copyright 2019 The etcd Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package tracker

 // Inflights limits the number of MsgApp (represented by the largest index
 // contained within) sent to followers but not yet acknowledged by them. Callers
 // use Full() to check whether more messages can be sent, call Add() whenever
 // they are sending a new append, and release "quota" via FreeLE() whenever an
 // ack is received.
 type Inflights struct {
 	// the starting index in the buffer
 	start int
 	// number of inflights in the buffer
 	count int

 	// the size of the buffer
 	size int

 	// buffer contains the index of the last entry
 	// inside one message.
 	buffer []uint64
 }

 // NewInflights sets up an Inflights that allows up to 'size' inflight messages.
 func NewInflights(size int) *Inflights {
 	return &Inflights{
 		size: size,
 	}
 }

 // Clone returns an *Inflights that is identical to but shares no memory with
 // the receiver.
 func (in *Inflights) Clone() *Inflights {
 	ins := *in
 	ins.buffer = append([]uint64(nil), in.buffer...)
 	return &ins
 }

 // Add notifies the Inflights that a new message with the given index is being
 // dispatched. Full() must be called prior to Add() to verify that there is room
 // for one more message, and consecutive calls to add Add() must provide a
 // monotonic sequence of indexes.
 func (in *Inflights) Add(inflight uint64) {
 	if in.Full() {
 		panic("cannot add into a Full inflights")
 	}
 	next := in.start + in.count
 	size := in.size
 	if next >= size {
 		next -= size
 	}
 	if next >= len(in.buffer) {
 		in.grow()
 	}
 	in.buffer[next] = inflight
 	in.count++
 }

 // grow the inflight buffer by doubling up to inflights.size. We grow on demand
 // instead of preallocating to inflights.size to handle systems which have
 // thousands of Raft groups per process.
 func (in *Inflights) grow() {
 	newSize := len(in.buffer) * 2
 	if newSize == 0 {
 		newSize = 1
 	} else if newSize > in.size {
 		newSize = in.size
 	}
 	newBuffer := make([]uint64, newSize)
 	copy(newBuffer, in.buffer)
 	in.buffer = newBuffer
 }

 // FreeLE frees the inflights smaller or equal to the given `to` flight.
 func (in *Inflights) FreeLE(to uint64) {
 	if in.count == 0 || to < in.buffer[in.start] {
 		// out of the left side of the window
 		return
 	}

 	idx := in.start
 	var i int
 	for i = 0; i < in.count; i++ {
 		if to < in.buffer[idx] { // found the first large inflight
 			break
 		}

 		// increase index and maybe rotate
 		size := in.size
 		if idx++; idx >= size {
 			idx -= size
 		}
 	}
 	// free i inflights and set new start index
 	in.count -= i
 	in.start = idx
 	if in.count == 0 {
 		// inflights is empty, reset the start index so that we don't grow the
 		// buffer unnecessarily.
 		in.start = 0
 	}
 }

 // FreeFirstOne releases the first inflight. This is a no-op if nothing is
 // inflight.
 func (in *Inflights) FreeFirstOne() { in.FreeLE(in.buffer[in.start]) }

 // Full returns true if no more messages can be sent at the moment.
 func (in *Inflights) Full() bool {
 	return in.count == in.size
 }

 // Count returns the number of inflight messages.
 func (in *Inflights) Count() int { return in.count }

 // reset frees all inflights.
 func (in *Inflights) reset() {
 	in.count = 0
 	in.start = 0
 }
	// Copyright 2019 The etcd Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package tracker

	// Inflights limits the number of MsgApp (represented by the largest index
	// contained within) sent to followers but not yet acknowledged by them. Callers
	// use Full() to check whether more messages can be sent, call Add() whenever
	// they are sending a new append, and release "quota" via FreeLE() whenever an
	// ack is received.
	type Inflights struct {
	// the starting index in the buffer
	start int
	// number of inflights in the buffer
	count int

	// the size of the buffer
	size int

	// buffer contains the index of the last entry
	// inside one message.
	buffer []uint64
	}

	// NewInflights sets up an Inflights that allows up to 'size' inflight messages.
	func NewInflights(size int) *Inflights {
	return &Inflights{
	size: size,
	}
	}

	// Clone returns an *Inflights that is identical to but shares no memory with
	// the receiver.
	func (in Inflights) Clone() Inflights {
	ins := *in
	ins.buffer = append([]uint64(nil), in.buffer...)
	return &ins
	}

	// Add notifies the Inflights that a new message with the given index is being
	// dispatched. Full() must be called prior to Add() to verify that there is room
	// for one more message, and consecutive calls to add Add() must provide a
	// monotonic sequence of indexes.
	func (in *Inflights) Add(inflight uint64) {
	if in.Full() {
	panic("cannot add into a Full inflights")
	}
	next := in.start + in.count
	size := in.size
	if next >= size {
	next -= size
	}
	if next >= len(in.buffer) {
	in.grow()
	}
	in.buffer[next] = inflight
	in.count++
	}

	// grow the inflight buffer by doubling up to inflights.size. We grow on demand
	// instead of preallocating to inflights.size to handle systems which have
	// thousands of Raft groups per process.
	func (in *Inflights) grow() {
	newSize := len(in.buffer) * 2
	if newSize == 0 {
	newSize = 1
	} else if newSize > in.size {
	newSize = in.size
	}
	newBuffer := make([]uint64, newSize)
	copy(newBuffer, in.buffer)
	in.buffer = newBuffer
	}

	// FreeLE frees the inflights smaller or equal to the given `to` flight.
	func (in *Inflights) FreeLE(to uint64) {
	if in.count == 0 \|\| to < in.buffer[in.start] {
	// out of the left side of the window
	return
	}

	idx := in.start
	var i int
	for i = 0; i < in.count; i++ {
	if to < in.buffer[idx] { // found the first large inflight
	break
	}

	// increase index and maybe rotate
	size := in.size
	if idx++; idx >= size {
	idx -= size
	}
	}
	// free i inflights and set new start index
	in.count -= i
	in.start = idx
	if in.count == 0 {
	// inflights is empty, reset the start index so that we don't grow the
	// buffer unnecessarily.
	in.start = 0
	}
	}

	// FreeFirstOne releases the first inflight. This is a no-op if nothing is
	// inflight.
	func (in *Inflights) FreeFirstOne() { in.FreeLE(in.buffer[in.start]) }

	// Full returns true if no more messages can be sent at the moment.
	func (in *Inflights) Full() bool {
	return in.count == in.size
	}

	// Count returns the number of inflight messages.
	func (in *Inflights) Count() int { return in.count }

	// reset frees all inflights.
	func (in *Inflights) reset() {
	in.count = 0
	in.start = 0
	}