syncthing/lib/protocol/mocks/connection.go

// Code generated by counterfeiter. DO NOT EDIT.
package mocks

import (
	"context"
	"net"
	"sync"
	"time"

	"github.com/syncthing/syncthing/lib/protocol"
)

type Connection struct {
	CloseStub        func(error)
	closeMutex       sync.RWMutex
	closeArgsForCall []struct {
		arg1 error
	}
	ClosedStub        func() <-chan struct{}
	closedMutex       sync.RWMutex
	closedArgsForCall []struct {
	}
	closedReturns struct {
		result1 <-chan struct{}
	}
	closedReturnsOnCall map[int]struct {
		result1 <-chan struct{}
	}
	ClusterConfigStub        func(*protocol.ClusterConfig, map[string]string)
	clusterConfigMutex       sync.RWMutex
	clusterConfigArgsForCall []struct {
		arg1 *protocol.ClusterConfig
		arg2 map[string]string
	}
	ConnectionIDStub        func() string
	connectionIDMutex       sync.RWMutex
	connectionIDArgsForCall []struct {
	}
	connectionIDReturns struct {
		result1 string
	}
	connectionIDReturnsOnCall map[int]struct {
		result1 string
	}
	CryptoStub        func() string
	cryptoMutex       sync.RWMutex
	cryptoArgsForCall []struct {
	}
	cryptoReturns struct {
		result1 string
	}
	cryptoReturnsOnCall map[int]struct {
		result1 string
	}
	DeviceIDStub        func() protocol.DeviceID
	deviceIDMutex       sync.RWMutex
	deviceIDArgsForCall []struct {
	}
	deviceIDReturns struct {
		result1 protocol.DeviceID
	}
	deviceIDReturnsOnCall map[int]struct {
		result1 protocol.DeviceID
	}
	DownloadProgressStub        func(context.Context, *protocol.DownloadProgress)
	downloadProgressMutex       sync.RWMutex
	downloadProgressArgsForCall []struct {
		arg1 context.Context
		arg2 *protocol.DownloadProgress
	}
	EstablishedAtStub        func() time.Time
	establishedAtMutex       sync.RWMutex
	establishedAtArgsForCall []struct {
	}
	establishedAtReturns struct {
		result1 time.Time
	}
	establishedAtReturnsOnCall map[int]struct {
		result1 time.Time
	}
	IndexStub        func(context.Context, *protocol.Index) error
	indexMutex       sync.RWMutex
	indexArgsForCall []struct {
		arg1 context.Context
		arg2 *protocol.Index
	}
	indexReturns struct {
		result1 error
	}
	indexReturnsOnCall map[int]struct {
		result1 error
	}
	IndexUpdateStub        func(context.Context, *protocol.IndexUpdate) error
	indexUpdateMutex       sync.RWMutex
	indexUpdateArgsForCall []struct {
		arg1 context.Context
		arg2 *protocol.IndexUpdate
	}
	indexUpdateReturns struct {
		result1 error
	}
	indexUpdateReturnsOnCall map[int]struct {
		result1 error
	}
	IsLocalStub        func() bool
	isLocalMutex       sync.RWMutex
	isLocalArgsForCall []struct {
	}
	isLocalReturns struct {
		result1 bool
	}
	isLocalReturnsOnCall map[int]struct {
		result1 bool
	}
	PriorityStub        func() int
	priorityMutex       sync.RWMutex
	priorityArgsForCall []struct {
	}
	priorityReturns struct {
		result1 int
	}
	priorityReturnsOnCall map[int]struct {
		result1 int
	}
	RemoteAddrStub        func() net.Addr
	remoteAddrMutex       sync.RWMutex
	remoteAddrArgsForCall []struct {
	}
	remoteAddrReturns struct {
		result1 net.Addr
	}
	remoteAddrReturnsOnCall map[int]struct {
		result1 net.Addr
	}
	RequestStub        func(context.Context, *protocol.Request) ([]byte, error)
	requestMutex       sync.RWMutex
	requestArgsForCall []struct {
		arg1 context.Context
		arg2 *protocol.Request
	}
	requestReturns struct {
		result1 []byte
		result2 error
	}
	requestReturnsOnCall map[int]struct {
		result1 []byte
		result2 error
	}
	StartStub        func()
	startMutex       sync.RWMutex
	startArgsForCall []struct {
	}
	StatisticsStub        func() protocol.Statistics
	statisticsMutex       sync.RWMutex
	statisticsArgsForCall []struct {
	}
	statisticsReturns struct {
		result1 protocol.Statistics
	}
	statisticsReturnsOnCall map[int]struct {
		result1 protocol.Statistics
	}
	StringStub        func() string
	stringMutex       sync.RWMutex
	stringArgsForCall []struct {
	}
	stringReturns struct {
		result1 string
	}
	stringReturnsOnCall map[int]struct {
		result1 string
	}
	TransportStub        func() string
	transportMutex       sync.RWMutex
	transportArgsForCall []struct {
	}
	transportReturns struct {
		result1 string
	}
	transportReturnsOnCall map[int]struct {
		result1 string
	}
	TypeStub        func() string
	typeMutex       sync.RWMutex
	typeArgsForCall []struct {
	}
	typeReturns struct {
		result1 string
	}
	typeReturnsOnCall map[int]struct {
		result1 string
	}
	invocations      map[string][][]interface{}
	invocationsMutex sync.RWMutex
}

func (fake *Connection) Close(arg1 error) {
	fake.closeMutex.Lock()
	fake.closeArgsForCall = append(fake.closeArgsForCall, struct {
		arg1 error
	}{arg1})
	stub := fake.CloseStub
	fake.recordInvocation("Close", []interface{}{arg1})
	fake.closeMutex.Unlock()
	if stub != nil {
		fake.CloseStub(arg1)
	}
}

func (fake *Connection) CloseCallCount() int {
	fake.closeMutex.RLock()
	defer fake.closeMutex.RUnlock()
	return len(fake.closeArgsForCall)
}

func (fake *Connection) CloseCalls(stub func(error)) {
	fake.closeMutex.Lock()
	defer fake.closeMutex.Unlock()
	fake.CloseStub = stub
}

func (fake *Connection) CloseArgsForCall(i int) error {
	fake.closeMutex.RLock()
	defer fake.closeMutex.RUnlock()
	argsForCall := fake.closeArgsForCall[i]
	return argsForCall.arg1
}

func (fake *Connection) Closed() <-chan struct{} {
	fake.closedMutex.Lock()
	ret, specificReturn := fake.closedReturnsOnCall[len(fake.closedArgsForCall)]
	fake.closedArgsForCall = append(fake.closedArgsForCall, struct {
	}{})
	stub := fake.ClosedStub
	fakeReturns := fake.closedReturns
	fake.recordInvocation("Closed", []interface{}{})
	fake.closedMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) ClosedCallCount() int {
	fake.closedMutex.RLock()
	defer fake.closedMutex.RUnlock()
	return len(fake.closedArgsForCall)
}

func (fake *Connection) ClosedCalls(stub func() <-chan struct{}) {
	fake.closedMutex.Lock()
	defer fake.closedMutex.Unlock()
	fake.ClosedStub = stub
}

func (fake *Connection) ClosedReturns(result1 <-chan struct{}) {
	fake.closedMutex.Lock()
	defer fake.closedMutex.Unlock()
	fake.ClosedStub = nil
	fake.closedReturns = struct {
		result1 <-chan struct{}
	}{result1}
}

func (fake *Connection) ClosedReturnsOnCall(i int, result1 <-chan struct{}) {
	fake.closedMutex.Lock()
	defer fake.closedMutex.Unlock()
	fake.ClosedStub = nil
	if fake.closedReturnsOnCall == nil {
		fake.closedReturnsOnCall = make(map[int]struct {
			result1 <-chan struct{}
		})
	}
	fake.closedReturnsOnCall[i] = struct {
		result1 <-chan struct{}
	}{result1}
}

func (fake *Connection) ClusterConfig(arg1 *protocol.ClusterConfig, arg2 map[string]string) {
	fake.clusterConfigMutex.Lock()
	fake.clusterConfigArgsForCall = append(fake.clusterConfigArgsForCall, struct {
		arg1 *protocol.ClusterConfig
		arg2 map[string]string
	}{arg1, arg2})
	stub := fake.ClusterConfigStub
	fake.recordInvocation("ClusterConfig", []interface{}{arg1, arg2})
	fake.clusterConfigMutex.Unlock()
	if stub != nil {
		fake.ClusterConfigStub(arg1, arg2)
	}
}

func (fake *Connection) ClusterConfigCallCount() int {
	fake.clusterConfigMutex.RLock()
	defer fake.clusterConfigMutex.RUnlock()
	return len(fake.clusterConfigArgsForCall)
}

func (fake *Connection) ClusterConfigCalls(stub func(*protocol.ClusterConfig, map[string]string)) {
	fake.clusterConfigMutex.Lock()
	defer fake.clusterConfigMutex.Unlock()
	fake.ClusterConfigStub = stub
}

func (fake *Connection) ClusterConfigArgsForCall(i int) (*protocol.ClusterConfig, map[string]string) {
	fake.clusterConfigMutex.RLock()
	defer fake.clusterConfigMutex.RUnlock()
	argsForCall := fake.clusterConfigArgsForCall[i]
	return argsForCall.arg1, argsForCall.arg2
}

func (fake *Connection) ConnectionID() string {
	fake.connectionIDMutex.Lock()
	ret, specificReturn := fake.connectionIDReturnsOnCall[len(fake.connectionIDArgsForCall)]
	fake.connectionIDArgsForCall = append(fake.connectionIDArgsForCall, struct {
	}{})
	stub := fake.ConnectionIDStub
	fakeReturns := fake.connectionIDReturns
	fake.recordInvocation("ConnectionID", []interface{}{})
	fake.connectionIDMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) ConnectionIDCallCount() int {
	fake.connectionIDMutex.RLock()
	defer fake.connectionIDMutex.RUnlock()
	return len(fake.connectionIDArgsForCall)
}

func (fake *Connection) ConnectionIDCalls(stub func() string) {
	fake.connectionIDMutex.Lock()
	defer fake.connectionIDMutex.Unlock()
	fake.ConnectionIDStub = stub
}

func (fake *Connection) ConnectionIDReturns(result1 string) {
	fake.connectionIDMutex.Lock()
	defer fake.connectionIDMutex.Unlock()
	fake.ConnectionIDStub = nil
	fake.connectionIDReturns = struct {
		result1 string
	}{result1}
}

func (fake *Connection) ConnectionIDReturnsOnCall(i int, result1 string) {
	fake.connectionIDMutex.Lock()
	defer fake.connectionIDMutex.Unlock()
	fake.ConnectionIDStub = nil
	if fake.connectionIDReturnsOnCall == nil {
		fake.connectionIDReturnsOnCall = make(map[int]struct {
			result1 string
		})
	}
	fake.connectionIDReturnsOnCall[i] = struct {
		result1 string
	}{result1}
}

func (fake *Connection) Crypto() string {
	fake.cryptoMutex.Lock()
	ret, specificReturn := fake.cryptoReturnsOnCall[len(fake.cryptoArgsForCall)]
	fake.cryptoArgsForCall = append(fake.cryptoArgsForCall, struct {
	}{})
	stub := fake.CryptoStub
	fakeReturns := fake.cryptoReturns
	fake.recordInvocation("Crypto", []interface{}{})
	fake.cryptoMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) CryptoCallCount() int {
	fake.cryptoMutex.RLock()
	defer fake.cryptoMutex.RUnlock()
	return len(fake.cryptoArgsForCall)
}

func (fake *Connection) CryptoCalls(stub func() string) {
	fake.cryptoMutex.Lock()
	defer fake.cryptoMutex.Unlock()
	fake.CryptoStub = stub
}

func (fake *Connection) CryptoReturns(result1 string) {
	fake.cryptoMutex.Lock()
	defer fake.cryptoMutex.Unlock()
	fake.CryptoStub = nil
	fake.cryptoReturns = struct {
		result1 string
	}{result1}
}

func (fake *Connection) CryptoReturnsOnCall(i int, result1 string) {
	fake.cryptoMutex.Lock()
	defer fake.cryptoMutex.Unlock()
	fake.CryptoStub = nil
	if fake.cryptoReturnsOnCall == nil {
		fake.cryptoReturnsOnCall = make(map[int]struct {
			result1 string
		})
	}
	fake.cryptoReturnsOnCall[i] = struct {
		result1 string
	}{result1}
}

func (fake *Connection) DeviceID() protocol.DeviceID {
	fake.deviceIDMutex.Lock()
	ret, specificReturn := fake.deviceIDReturnsOnCall[len(fake.deviceIDArgsForCall)]
	fake.deviceIDArgsForCall = append(fake.deviceIDArgsForCall, struct {
	}{})
	stub := fake.DeviceIDStub
	fakeReturns := fake.deviceIDReturns
	fake.recordInvocation("DeviceID", []interface{}{})
	fake.deviceIDMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) DeviceIDCallCount() int {
	fake.deviceIDMutex.RLock()
	defer fake.deviceIDMutex.RUnlock()
	return len(fake.deviceIDArgsForCall)
}

func (fake *Connection) DeviceIDCalls(stub func() protocol.DeviceID) {
	fake.deviceIDMutex.Lock()
	defer fake.deviceIDMutex.Unlock()
	fake.DeviceIDStub = stub
}

func (fake *Connection) DeviceIDReturns(result1 protocol.DeviceID) {
	fake.deviceIDMutex.Lock()
	defer fake.deviceIDMutex.Unlock()
	fake.DeviceIDStub = nil
	fake.deviceIDReturns = struct {
		result1 protocol.DeviceID
	}{result1}
}

func (fake *Connection) DeviceIDReturnsOnCall(i int, result1 protocol.DeviceID) {
	fake.deviceIDMutex.Lock()
	defer fake.deviceIDMutex.Unlock()
	fake.DeviceIDStub = nil
	if fake.deviceIDReturnsOnCall == nil {
		fake.deviceIDReturnsOnCall = make(map[int]struct {
			result1 protocol.DeviceID
		})
	}
	fake.deviceIDReturnsOnCall[i] = struct {
		result1 protocol.DeviceID
	}{result1}
}

func (fake *Connection) DownloadProgress(arg1 context.Context, arg2 *protocol.DownloadProgress) {
	fake.downloadProgressMutex.Lock()
	fake.downloadProgressArgsForCall = append(fake.downloadProgressArgsForCall, struct {
		arg1 context.Context
		arg2 *protocol.DownloadProgress
	}{arg1, arg2})
	stub := fake.DownloadProgressStub
	fake.recordInvocation("DownloadProgress", []interface{}{arg1, arg2})
	fake.downloadProgressMutex.Unlock()
	if stub != nil {
		fake.DownloadProgressStub(arg1, arg2)
	}
}

func (fake *Connection) DownloadProgressCallCount() int {
	fake.downloadProgressMutex.RLock()
	defer fake.downloadProgressMutex.RUnlock()
	return len(fake.downloadProgressArgsForCall)
}

func (fake *Connection) DownloadProgressCalls(stub func(context.Context, *protocol.DownloadProgress)) {
	fake.downloadProgressMutex.Lock()
	defer fake.downloadProgressMutex.Unlock()
	fake.DownloadProgressStub = stub
}

func (fake *Connection) DownloadProgressArgsForCall(i int) (context.Context, *protocol.DownloadProgress) {
	fake.downloadProgressMutex.RLock()
	defer fake.downloadProgressMutex.RUnlock()
	argsForCall := fake.downloadProgressArgsForCall[i]
	return argsForCall.arg1, argsForCall.arg2
}

func (fake *Connection) EstablishedAt() time.Time {
	fake.establishedAtMutex.Lock()
	ret, specificReturn := fake.establishedAtReturnsOnCall[len(fake.establishedAtArgsForCall)]
	fake.establishedAtArgsForCall = append(fake.establishedAtArgsForCall, struct {
	}{})
	stub := fake.EstablishedAtStub
	fakeReturns := fake.establishedAtReturns
	fake.recordInvocation("EstablishedAt", []interface{}{})
	fake.establishedAtMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) EstablishedAtCallCount() int {
	fake.establishedAtMutex.RLock()
	defer fake.establishedAtMutex.RUnlock()
	return len(fake.establishedAtArgsForCall)
}

func (fake *Connection) EstablishedAtCalls(stub func() time.Time) {
	fake.establishedAtMutex.Lock()
	defer fake.establishedAtMutex.Unlock()
	fake.EstablishedAtStub = stub
}

func (fake *Connection) EstablishedAtReturns(result1 time.Time) {
	fake.establishedAtMutex.Lock()
	defer fake.establishedAtMutex.Unlock()
	fake.EstablishedAtStub = nil
	fake.establishedAtReturns = struct {
		result1 time.Time
	}{result1}
}

func (fake *Connection) EstablishedAtReturnsOnCall(i int, result1 time.Time) {
	fake.establishedAtMutex.Lock()
	defer fake.establishedAtMutex.Unlock()
	fake.EstablishedAtStub = nil
	if fake.establishedAtReturnsOnCall == nil {
		fake.establishedAtReturnsOnCall = make(map[int]struct {
			result1 time.Time
		})
	}
	fake.establishedAtReturnsOnCall[i] = struct {
		result1 time.Time
	}{result1}
}

func (fake *Connection) Index(arg1 context.Context, arg2 *protocol.Index) error {
	fake.indexMutex.Lock()
	ret, specificReturn := fake.indexReturnsOnCall[len(fake.indexArgsForCall)]
	fake.indexArgsForCall = append(fake.indexArgsForCall, struct {
		arg1 context.Context
		arg2 *protocol.Index
	}{arg1, arg2})
	stub := fake.IndexStub
	fakeReturns := fake.indexReturns
	fake.recordInvocation("Index", []interface{}{arg1, arg2})
	fake.indexMutex.Unlock()
	if stub != nil {
		return stub(arg1, arg2)
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) IndexCallCount() int {
	fake.indexMutex.RLock()
	defer fake.indexMutex.RUnlock()
	return len(fake.indexArgsForCall)
}

func (fake *Connection) IndexCalls(stub func(context.Context, *protocol.Index) error) {
	fake.indexMutex.Lock()
	defer fake.indexMutex.Unlock()
	fake.IndexStub = stub
}

func (fake *Connection) IndexArgsForCall(i int) (context.Context, *protocol.Index) {
	fake.indexMutex.RLock()
	defer fake.indexMutex.RUnlock()
	argsForCall := fake.indexArgsForCall[i]
	return argsForCall.arg1, argsForCall.arg2
}

func (fake *Connection) IndexReturns(result1 error) {
	fake.indexMutex.Lock()
	defer fake.indexMutex.Unlock()
	fake.IndexStub = nil
	fake.indexReturns = struct {
		result1 error
	}{result1}
}

func (fake *Connection) IndexReturnsOnCall(i int, result1 error) {
	fake.indexMutex.Lock()
	defer fake.indexMutex.Unlock()
	fake.IndexStub = nil
	if fake.indexReturnsOnCall == nil {
		fake.indexReturnsOnCall = make(map[int]struct {
			result1 error
		})
	}
	fake.indexReturnsOnCall[i] = struct {
		result1 error
	}{result1}
}

func (fake *Connection) IndexUpdate(arg1 context.Context, arg2 *protocol.IndexUpdate) error {
	fake.indexUpdateMutex.Lock()
	ret, specificReturn := fake.indexUpdateReturnsOnCall[len(fake.indexUpdateArgsForCall)]
	fake.indexUpdateArgsForCall = append(fake.indexUpdateArgsForCall, struct {
		arg1 context.Context
		arg2 *protocol.IndexUpdate
	}{arg1, arg2})
	stub := fake.IndexUpdateStub
	fakeReturns := fake.indexUpdateReturns
	fake.recordInvocation("IndexUpdate", []interface{}{arg1, arg2})
	fake.indexUpdateMutex.Unlock()
	if stub != nil {
		return stub(arg1, arg2)
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) IndexUpdateCallCount() int {
	fake.indexUpdateMutex.RLock()
	defer fake.indexUpdateMutex.RUnlock()
	return len(fake.indexUpdateArgsForCall)
}

func (fake *Connection) IndexUpdateCalls(stub func(context.Context, *protocol.IndexUpdate) error) {
	fake.indexUpdateMutex.Lock()
	defer fake.indexUpdateMutex.Unlock()
	fake.IndexUpdateStub = stub
}

func (fake *Connection) IndexUpdateArgsForCall(i int) (context.Context, *protocol.IndexUpdate) {
	fake.indexUpdateMutex.RLock()
	defer fake.indexUpdateMutex.RUnlock()
	argsForCall := fake.indexUpdateArgsForCall[i]
	return argsForCall.arg1, argsForCall.arg2
}

func (fake *Connection) IndexUpdateReturns(result1 error) {
	fake.indexUpdateMutex.Lock()
	defer fake.indexUpdateMutex.Unlock()
	fake.IndexUpdateStub = nil
	fake.indexUpdateReturns = struct {
		result1 error
	}{result1}
}

func (fake *Connection) IndexUpdateReturnsOnCall(i int, result1 error) {
	fake.indexUpdateMutex.Lock()
	defer fake.indexUpdateMutex.Unlock()
	fake.IndexUpdateStub = nil
	if fake.indexUpdateReturnsOnCall == nil {
		fake.indexUpdateReturnsOnCall = make(map[int]struct {
			result1 error
		})
	}
	fake.indexUpdateReturnsOnCall[i] = struct {
		result1 error
	}{result1}
}

func (fake *Connection) IsLocal() bool {
	fake.isLocalMutex.Lock()
	ret, specificReturn := fake.isLocalReturnsOnCall[len(fake.isLocalArgsForCall)]
	fake.isLocalArgsForCall = append(fake.isLocalArgsForCall, struct {
	}{})
	stub := fake.IsLocalStub
	fakeReturns := fake.isLocalReturns
	fake.recordInvocation("IsLocal", []interface{}{})
	fake.isLocalMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) IsLocalCallCount() int {
	fake.isLocalMutex.RLock()
	defer fake.isLocalMutex.RUnlock()
	return len(fake.isLocalArgsForCall)
}

func (fake *Connection) IsLocalCalls(stub func() bool) {
	fake.isLocalMutex.Lock()
	defer fake.isLocalMutex.Unlock()
	fake.IsLocalStub = stub
}

func (fake *Connection) IsLocalReturns(result1 bool) {
	fake.isLocalMutex.Lock()
	defer fake.isLocalMutex.Unlock()
	fake.IsLocalStub = nil
	fake.isLocalReturns = struct {
		result1 bool
	}{result1}
}

func (fake *Connection) IsLocalReturnsOnCall(i int, result1 bool) {
	fake.isLocalMutex.Lock()
	defer fake.isLocalMutex.Unlock()
	fake.IsLocalStub = nil
	if fake.isLocalReturnsOnCall == nil {
		fake.isLocalReturnsOnCall = make(map[int]struct {
			result1 bool
		})
	}
	fake.isLocalReturnsOnCall[i] = struct {
		result1 bool
	}{result1}
}

func (fake *Connection) Priority() int {
	fake.priorityMutex.Lock()
	ret, specificReturn := fake.priorityReturnsOnCall[len(fake.priorityArgsForCall)]
	fake.priorityArgsForCall = append(fake.priorityArgsForCall, struct {
	}{})
	stub := fake.PriorityStub
	fakeReturns := fake.priorityReturns
	fake.recordInvocation("Priority", []interface{}{})
	fake.priorityMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) PriorityCallCount() int {
	fake.priorityMutex.RLock()
	defer fake.priorityMutex.RUnlock()
	return len(fake.priorityArgsForCall)
}

func (fake *Connection) PriorityCalls(stub func() int) {
	fake.priorityMutex.Lock()
	defer fake.priorityMutex.Unlock()
	fake.PriorityStub = stub
}

func (fake *Connection) PriorityReturns(result1 int) {
	fake.priorityMutex.Lock()
	defer fake.priorityMutex.Unlock()
	fake.PriorityStub = nil
	fake.priorityReturns = struct {
		result1 int
	}{result1}
}

func (fake *Connection) PriorityReturnsOnCall(i int, result1 int) {
	fake.priorityMutex.Lock()
	defer fake.priorityMutex.Unlock()
	fake.PriorityStub = nil
	if fake.priorityReturnsOnCall == nil {
		fake.priorityReturnsOnCall = make(map[int]struct {
			result1 int
		})
	}
	fake.priorityReturnsOnCall[i] = struct {
		result1 int
	}{result1}
}

func (fake *Connection) RemoteAddr() net.Addr {
	fake.remoteAddrMutex.Lock()
	ret, specificReturn := fake.remoteAddrReturnsOnCall[len(fake.remoteAddrArgsForCall)]
	fake.remoteAddrArgsForCall = append(fake.remoteAddrArgsForCall, struct {
	}{})
	stub := fake.RemoteAddrStub
	fakeReturns := fake.remoteAddrReturns
	fake.recordInvocation("RemoteAddr", []interface{}{})
	fake.remoteAddrMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) RemoteAddrCallCount() int {
	fake.remoteAddrMutex.RLock()
	defer fake.remoteAddrMutex.RUnlock()
	return len(fake.remoteAddrArgsForCall)
}

func (fake *Connection) RemoteAddrCalls(stub func() net.Addr) {
	fake.remoteAddrMutex.Lock()
	defer fake.remoteAddrMutex.Unlock()
	fake.RemoteAddrStub = stub
}

func (fake *Connection) RemoteAddrReturns(result1 net.Addr) {
	fake.remoteAddrMutex.Lock()
	defer fake.remoteAddrMutex.Unlock()
	fake.RemoteAddrStub = nil
	fake.remoteAddrReturns = struct {
		result1 net.Addr
	}{result1}
}

func (fake *Connection) RemoteAddrReturnsOnCall(i int, result1 net.Addr) {
	fake.remoteAddrMutex.Lock()
	defer fake.remoteAddrMutex.Unlock()
	fake.RemoteAddrStub = nil
	if fake.remoteAddrReturnsOnCall == nil {
		fake.remoteAddrReturnsOnCall = make(map[int]struct {
			result1 net.Addr
		})
	}
	fake.remoteAddrReturnsOnCall[i] = struct {
		result1 net.Addr
	}{result1}
}

func (fake *Connection) Request(arg1 context.Context, arg2 *protocol.Request) ([]byte, error) {
	fake.requestMutex.Lock()
	ret, specificReturn := fake.requestReturnsOnCall[len(fake.requestArgsForCall)]
	fake.requestArgsForCall = append(fake.requestArgsForCall, struct {
		arg1 context.Context
		arg2 *protocol.Request
	}{arg1, arg2})
	stub := fake.RequestStub
	fakeReturns := fake.requestReturns
	fake.recordInvocation("Request", []interface{}{arg1, arg2})
	fake.requestMutex.Unlock()
	if stub != nil {
		return stub(arg1, arg2)
	}
	if specificReturn {
		return ret.result1, ret.result2
	}
	return fakeReturns.result1, fakeReturns.result2
}

func (fake *Connection) RequestCallCount() int {
	fake.requestMutex.RLock()
	defer fake.requestMutex.RUnlock()
	return len(fake.requestArgsForCall)
}

func (fake *Connection) RequestCalls(stub func(context.Context, *protocol.Request) ([]byte, error)) {
	fake.requestMutex.Lock()
	defer fake.requestMutex.Unlock()
	fake.RequestStub = stub
}

func (fake *Connection) RequestArgsForCall(i int) (context.Context, *protocol.Request) {
	fake.requestMutex.RLock()
	defer fake.requestMutex.RUnlock()
	argsForCall := fake.requestArgsForCall[i]
	return argsForCall.arg1, argsForCall.arg2
}

func (fake *Connection) RequestReturns(result1 []byte, result2 error) {
	fake.requestMutex.Lock()
	defer fake.requestMutex.Unlock()
	fake.RequestStub = nil
	fake.requestReturns = struct {
		result1 []byte
		result2 error
	}{result1, result2}
}

func (fake *Connection) RequestReturnsOnCall(i int, result1 []byte, result2 error) {
	fake.requestMutex.Lock()
	defer fake.requestMutex.Unlock()
	fake.RequestStub = nil
	if fake.requestReturnsOnCall == nil {
		fake.requestReturnsOnCall = make(map[int]struct {
			result1 []byte
			result2 error
		})
	}
	fake.requestReturnsOnCall[i] = struct {
		result1 []byte
		result2 error
	}{result1, result2}
}

func (fake *Connection) Start() {
	fake.startMutex.Lock()
	fake.startArgsForCall = append(fake.startArgsForCall, struct {
	}{})
	stub := fake.StartStub
	fake.recordInvocation("Start", []interface{}{})
	fake.startMutex.Unlock()
	if stub != nil {
		fake.StartStub()
	}
}

func (fake *Connection) StartCallCount() int {
	fake.startMutex.RLock()
	defer fake.startMutex.RUnlock()
	return len(fake.startArgsForCall)
}

func (fake *Connection) StartCalls(stub func()) {
	fake.startMutex.Lock()
	defer fake.startMutex.Unlock()
	fake.StartStub = stub
}

func (fake *Connection) Statistics() protocol.Statistics {
	fake.statisticsMutex.Lock()
	ret, specificReturn := fake.statisticsReturnsOnCall[len(fake.statisticsArgsForCall)]
	fake.statisticsArgsForCall = append(fake.statisticsArgsForCall, struct {
	}{})
	stub := fake.StatisticsStub
	fakeReturns := fake.statisticsReturns
	fake.recordInvocation("Statistics", []interface{}{})
	fake.statisticsMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) StatisticsCallCount() int {
	fake.statisticsMutex.RLock()
	defer fake.statisticsMutex.RUnlock()
	return len(fake.statisticsArgsForCall)
}

func (fake *Connection) StatisticsCalls(stub func() protocol.Statistics) {
	fake.statisticsMutex.Lock()
	defer fake.statisticsMutex.Unlock()
	fake.StatisticsStub = stub
}

func (fake *Connection) StatisticsReturns(result1 protocol.Statistics) {
	fake.statisticsMutex.Lock()
	defer fake.statisticsMutex.Unlock()
	fake.StatisticsStub = nil
	fake.statisticsReturns = struct {
		result1 protocol.Statistics
	}{result1}
}

func (fake *Connection) StatisticsReturnsOnCall(i int, result1 protocol.Statistics) {
	fake.statisticsMutex.Lock()
	defer fake.statisticsMutex.Unlock()
	fake.StatisticsStub = nil
	if fake.statisticsReturnsOnCall == nil {
		fake.statisticsReturnsOnCall = make(map[int]struct {
			result1 protocol.Statistics
		})
	}
	fake.statisticsReturnsOnCall[i] = struct {
		result1 protocol.Statistics
	}{result1}
}

func (fake *Connection) String() string {
	fake.stringMutex.Lock()
	ret, specificReturn := fake.stringReturnsOnCall[len(fake.stringArgsForCall)]
	fake.stringArgsForCall = append(fake.stringArgsForCall, struct {
	}{})
	stub := fake.StringStub
	fakeReturns := fake.stringReturns
	fake.recordInvocation("String", []interface{}{})
	fake.stringMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) StringCallCount() int {
	fake.stringMutex.RLock()
	defer fake.stringMutex.RUnlock()
	return len(fake.stringArgsForCall)
}

func (fake *Connection) StringCalls(stub func() string) {
	fake.stringMutex.Lock()
	defer fake.stringMutex.Unlock()
	fake.StringStub = stub
}

func (fake *Connection) StringReturns(result1 string) {
	fake.stringMutex.Lock()
	defer fake.stringMutex.Unlock()
	fake.StringStub = nil
	fake.stringReturns = struct {
		result1 string
	}{result1}
}

func (fake *Connection) StringReturnsOnCall(i int, result1 string) {
	fake.stringMutex.Lock()
	defer fake.stringMutex.Unlock()
	fake.StringStub = nil
	if fake.stringReturnsOnCall == nil {
		fake.stringReturnsOnCall = make(map[int]struct {
			result1 string
		})
	}
	fake.stringReturnsOnCall[i] = struct {
		result1 string
	}{result1}
}

func (fake *Connection) Transport() string {
	fake.transportMutex.Lock()
	ret, specificReturn := fake.transportReturnsOnCall[len(fake.transportArgsForCall)]
	fake.transportArgsForCall = append(fake.transportArgsForCall, struct {
	}{})
	stub := fake.TransportStub
	fakeReturns := fake.transportReturns
	fake.recordInvocation("Transport", []interface{}{})
	fake.transportMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) TransportCallCount() int {
	fake.transportMutex.RLock()
	defer fake.transportMutex.RUnlock()
	return len(fake.transportArgsForCall)
}

func (fake *Connection) TransportCalls(stub func() string) {
	fake.transportMutex.Lock()
	defer fake.transportMutex.Unlock()
	fake.TransportStub = stub
}

func (fake *Connection) TransportReturns(result1 string) {
	fake.transportMutex.Lock()
	defer fake.transportMutex.Unlock()
	fake.TransportStub = nil
	fake.transportReturns = struct {
		result1 string
	}{result1}
}

func (fake *Connection) TransportReturnsOnCall(i int, result1 string) {
	fake.transportMutex.Lock()
	defer fake.transportMutex.Unlock()
	fake.TransportStub = nil
	if fake.transportReturnsOnCall == nil {
		fake.transportReturnsOnCall = make(map[int]struct {
			result1 string
		})
	}
	fake.transportReturnsOnCall[i] = struct {
		result1 string
	}{result1}
}

func (fake *Connection) Type() string {
	fake.typeMutex.Lock()
	ret, specificReturn := fake.typeReturnsOnCall[len(fake.typeArgsForCall)]
	fake.typeArgsForCall = append(fake.typeArgsForCall, struct {
	}{})
	stub := fake.TypeStub
	fakeReturns := fake.typeReturns
	fake.recordInvocation("Type", []interface{}{})
	fake.typeMutex.Unlock()
	if stub != nil {
		return stub()
	}
	if specificReturn {
		return ret.result1
	}
	return fakeReturns.result1
}

func (fake *Connection) TypeCallCount() int {
	fake.typeMutex.RLock()
	defer fake.typeMutex.RUnlock()
	return len(fake.typeArgsForCall)
}

func (fake *Connection) TypeCalls(stub func() string) {
	fake.typeMutex.Lock()
	defer fake.typeMutex.Unlock()
	fake.TypeStub = stub
}

func (fake *Connection) TypeReturns(result1 string) {
	fake.typeMutex.Lock()
	defer fake.typeMutex.Unlock()
	fake.TypeStub = nil
	fake.typeReturns = struct {
		result1 string
	}{result1}
}

func (fake *Connection) TypeReturnsOnCall(i int, result1 string) {
	fake.typeMutex.Lock()
	defer fake.typeMutex.Unlock()
	fake.TypeStub = nil
	if fake.typeReturnsOnCall == nil {
		fake.typeReturnsOnCall = make(map[int]struct {
			result1 string
		})
	}
	fake.typeReturnsOnCall[i] = struct {
		result1 string
	}{result1}
}

func (fake *Connection) Invocations() map[string][][]interface{} {
	fake.invocationsMutex.RLock()
	defer fake.invocationsMutex.RUnlock()
	copiedInvocations := map[string][][]interface{}{}
	for key, value := range fake.invocations {
		copiedInvocations[key] = value
	}
	return copiedInvocations
}

func (fake *Connection) recordInvocation(key string, args []interface{}) {
	fake.invocationsMutex.Lock()
	defer fake.invocationsMutex.Unlock()
	if fake.invocations == nil {
		fake.invocations = map[string][][]interface{}{}
	}
	if fake.invocations[key] == nil {
		fake.invocations[key] = [][]interface{}{}
	}
	fake.invocations[key] = append(fake.invocations[key], args)
}

var _ protocol.Connection = new(Connection)