// Code generated by counterfeiter. DO NOT EDIT. package mocks import ( "context" "net" "sync" "time" "github.com/syncthing/syncthing/lib/db" "github.com/syncthing/syncthing/lib/model" "github.com/syncthing/syncthing/lib/protocol" "github.com/syncthing/syncthing/lib/stats" "github.com/syncthing/syncthing/lib/ur/contract" "github.com/syncthing/syncthing/lib/versioner" ) type Model struct { AddConnectionStub func(protocol.Connection, protocol.Hello) addConnectionMutex sync.RWMutex addConnectionArgsForCall []struct { arg1 protocol.Connection arg2 protocol.Hello } AvailabilityStub func(string, protocol.FileInfo, protocol.BlockInfo) []model.Availability availabilityMutex sync.RWMutex availabilityArgsForCall []struct { arg1 string arg2 protocol.FileInfo arg3 protocol.BlockInfo } availabilityReturns struct { result1 []model.Availability } availabilityReturnsOnCall map[int]struct { result1 []model.Availability } BringToFrontStub func(string, string) bringToFrontMutex sync.RWMutex bringToFrontArgsForCall []struct { arg1 string arg2 string } ClosedStub func(protocol.Connection, error) closedMutex sync.RWMutex closedArgsForCall []struct { arg1 protocol.Connection arg2 error } ClusterConfigStub func(protocol.DeviceID, protocol.ClusterConfig) error clusterConfigMutex sync.RWMutex clusterConfigArgsForCall []struct { arg1 protocol.DeviceID arg2 protocol.ClusterConfig } clusterConfigReturns struct { result1 error } clusterConfigReturnsOnCall map[int]struct { result1 error } CompletionStub func(protocol.DeviceID, string) model.FolderCompletion completionMutex sync.RWMutex completionArgsForCall []struct { arg1 protocol.DeviceID arg2 string } completionReturns struct { result1 model.FolderCompletion } completionReturnsOnCall map[int]struct { result1 model.FolderCompletion } ConnectionStub func(protocol.DeviceID) (protocol.Connection, bool) connectionMutex sync.RWMutex connectionArgsForCall []struct { arg1 protocol.DeviceID } connectionReturns struct { result1 protocol.Connection result2 bool } connectionReturnsOnCall map[int]struct { result1 protocol.Connection result2 bool } ConnectionStatsStub func() map[string]interface{} connectionStatsMutex sync.RWMutex connectionStatsArgsForCall []struct { } connectionStatsReturns struct { result1 map[string]interface{} } connectionStatsReturnsOnCall map[int]struct { result1 map[string]interface{} } CurrentFolderFileStub func(string, string) (protocol.FileInfo, bool) currentFolderFileMutex sync.RWMutex currentFolderFileArgsForCall []struct { arg1 string arg2 string } currentFolderFileReturns struct { result1 protocol.FileInfo result2 bool } currentFolderFileReturnsOnCall map[int]struct { result1 protocol.FileInfo result2 bool } CurrentGlobalFileStub func(string, string) (protocol.FileInfo, bool) currentGlobalFileMutex sync.RWMutex currentGlobalFileArgsForCall []struct { arg1 string arg2 string } currentGlobalFileReturns struct { result1 protocol.FileInfo result2 bool } currentGlobalFileReturnsOnCall map[int]struct { result1 protocol.FileInfo result2 bool } CurrentIgnoresStub func(string) ([]string, []string, error) currentIgnoresMutex sync.RWMutex currentIgnoresArgsForCall []struct { arg1 string } currentIgnoresReturns struct { result1 []string result2 []string result3 error } currentIgnoresReturnsOnCall map[int]struct { result1 []string result2 []string result3 error } DBSnapshotStub func(string) (*db.Snapshot, error) dBSnapshotMutex sync.RWMutex dBSnapshotArgsForCall []struct { arg1 string } dBSnapshotReturns struct { result1 *db.Snapshot result2 error } dBSnapshotReturnsOnCall map[int]struct { result1 *db.Snapshot result2 error } DelayScanStub func(string, time.Duration) delayScanMutex sync.RWMutex delayScanArgsForCall []struct { arg1 string arg2 time.Duration } DeviceStatisticsStub func() (map[protocol.DeviceID]stats.DeviceStatistics, error) deviceStatisticsMutex sync.RWMutex deviceStatisticsArgsForCall []struct { } deviceStatisticsReturns struct { result1 map[protocol.DeviceID]stats.DeviceStatistics result2 error } deviceStatisticsReturnsOnCall map[int]struct { result1 map[protocol.DeviceID]stats.DeviceStatistics result2 error } DownloadProgressStub func(protocol.DeviceID, string, []protocol.FileDownloadProgressUpdate) error downloadProgressMutex sync.RWMutex downloadProgressArgsForCall []struct { arg1 protocol.DeviceID arg2 string arg3 []protocol.FileDownloadProgressUpdate } downloadProgressReturns struct { result1 error } downloadProgressReturnsOnCall map[int]struct { result1 error } FolderErrorsStub func(string) ([]model.FileError, error) folderErrorsMutex sync.RWMutex folderErrorsArgsForCall []struct { arg1 string } folderErrorsReturns struct { result1 []model.FileError result2 error } folderErrorsReturnsOnCall map[int]struct { result1 []model.FileError result2 error } FolderProgressBytesCompletedStub func(string) int64 folderProgressBytesCompletedMutex sync.RWMutex folderProgressBytesCompletedArgsForCall []struct { arg1 string } folderProgressBytesCompletedReturns struct { result1 int64 } folderProgressBytesCompletedReturnsOnCall map[int]struct { result1 int64 } FolderStatisticsStub func() (map[string]stats.FolderStatistics, error) folderStatisticsMutex sync.RWMutex folderStatisticsArgsForCall []struct { } folderStatisticsReturns struct { result1 map[string]stats.FolderStatistics result2 error } folderStatisticsReturnsOnCall map[int]struct { result1 map[string]stats.FolderStatistics result2 error } GetFolderVersionsStub func(string) (map[string][]versioner.FileVersion, error) getFolderVersionsMutex sync.RWMutex getFolderVersionsArgsForCall []struct { arg1 string } getFolderVersionsReturns struct { result1 map[string][]versioner.FileVersion result2 error } getFolderVersionsReturnsOnCall map[int]struct { result1 map[string][]versioner.FileVersion result2 error } GetHelloStub func(protocol.DeviceID) protocol.HelloIntf getHelloMutex sync.RWMutex getHelloArgsForCall []struct { arg1 protocol.DeviceID } getHelloReturns struct { result1 protocol.HelloIntf } getHelloReturnsOnCall map[int]struct { result1 protocol.HelloIntf } GlobalDirectoryTreeStub func(string, string, int, bool) ([]*model.TreeEntry, error) globalDirectoryTreeMutex sync.RWMutex globalDirectoryTreeArgsForCall []struct { arg1 string arg2 string arg3 int arg4 bool } globalDirectoryTreeReturns struct { result1 []*model.TreeEntry result2 error } globalDirectoryTreeReturnsOnCall map[int]struct { result1 []*model.TreeEntry result2 error } IndexStub func(protocol.DeviceID, string, []protocol.FileInfo) error indexMutex sync.RWMutex indexArgsForCall []struct { arg1 protocol.DeviceID arg2 string arg3 []protocol.FileInfo } indexReturns struct { result1 error } indexReturnsOnCall map[int]struct { result1 error } IndexUpdateStub func(protocol.DeviceID, string, []protocol.FileInfo) error indexUpdateMutex sync.RWMutex indexUpdateArgsForCall []struct { arg1 protocol.DeviceID arg2 string arg3 []protocol.FileInfo } indexUpdateReturns struct { result1 error } indexUpdateReturnsOnCall map[int]struct { result1 error } LoadIgnoresStub func(string) ([]string, []string, error) loadIgnoresMutex sync.RWMutex loadIgnoresArgsForCall []struct { arg1 string } loadIgnoresReturns struct { result1 []string result2 []string result3 error } loadIgnoresReturnsOnCall map[int]struct { result1 []string result2 []string result3 error } LocalChangedFolderFilesStub func(string, int, int) ([]db.FileInfoTruncated, error) localChangedFolderFilesMutex sync.RWMutex localChangedFolderFilesArgsForCall []struct { arg1 string arg2 int arg3 int } localChangedFolderFilesReturns struct { result1 []db.FileInfoTruncated result2 error } localChangedFolderFilesReturnsOnCall map[int]struct { result1 []db.FileInfoTruncated result2 error } NeedFolderFilesStub func(string, int, int) ([]db.FileInfoTruncated, []db.FileInfoTruncated, []db.FileInfoTruncated, error) needFolderFilesMutex sync.RWMutex needFolderFilesArgsForCall []struct { arg1 string arg2 int arg3 int } needFolderFilesReturns struct { result1 []db.FileInfoTruncated result2 []db.FileInfoTruncated result3 []db.FileInfoTruncated result4 error } needFolderFilesReturnsOnCall map[int]struct { result1 []db.FileInfoTruncated result2 []db.FileInfoTruncated result3 []db.FileInfoTruncated result4 error } NumConnectionsStub func() int numConnectionsMutex sync.RWMutex numConnectionsArgsForCall []struct { } numConnectionsReturns struct { result1 int } numConnectionsReturnsOnCall map[int]struct { result1 int } OnHelloStub func(protocol.DeviceID, net.Addr, protocol.Hello) error onHelloMutex sync.RWMutex onHelloArgsForCall []struct { arg1 protocol.DeviceID arg2 net.Addr arg3 protocol.Hello } onHelloReturns struct { result1 error } onHelloReturnsOnCall map[int]struct { result1 error } OverrideStub func(string) overrideMutex sync.RWMutex overrideArgsForCall []struct { arg1 string } PendingDevicesStub func() (map[protocol.DeviceID]db.ObservedDevice, error) pendingDevicesMutex sync.RWMutex pendingDevicesArgsForCall []struct { } pendingDevicesReturns struct { result1 map[protocol.DeviceID]db.ObservedDevice result2 error } pendingDevicesReturnsOnCall map[int]struct { result1 map[protocol.DeviceID]db.ObservedDevice result2 error } PendingFoldersStub func(protocol.DeviceID) (map[string]db.PendingFolder, error) pendingFoldersMutex sync.RWMutex pendingFoldersArgsForCall []struct { arg1 protocol.DeviceID } pendingFoldersReturns struct { result1 map[string]db.PendingFolder result2 error } pendingFoldersReturnsOnCall map[int]struct { result1 map[string]db.PendingFolder result2 error } RemoteNeedFolderFilesStub func(string, protocol.DeviceID, int, int) ([]db.FileInfoTruncated, error) remoteNeedFolderFilesMutex sync.RWMutex remoteNeedFolderFilesArgsForCall []struct { arg1 string arg2 protocol.DeviceID arg3 int arg4 int } remoteNeedFolderFilesReturns struct { result1 []db.FileInfoTruncated result2 error } remoteNeedFolderFilesReturnsOnCall map[int]struct { result1 []db.FileInfoTruncated result2 error } RequestStub func(protocol.DeviceID, string, string, int32, int32, int64, []byte, uint32, bool) (protocol.RequestResponse, error) requestMutex sync.RWMutex requestArgsForCall []struct { arg1 protocol.DeviceID arg2 string arg3 string arg4 int32 arg5 int32 arg6 int64 arg7 []byte arg8 uint32 arg9 bool } requestReturns struct { result1 protocol.RequestResponse result2 error } requestReturnsOnCall map[int]struct { result1 protocol.RequestResponse result2 error } ResetFolderStub func(string) resetFolderMutex sync.RWMutex resetFolderArgsForCall []struct { arg1 string } RestoreFolderVersionsStub func(string, map[string]time.Time) (map[string]error, error) restoreFolderVersionsMutex sync.RWMutex restoreFolderVersionsArgsForCall []struct { arg1 string arg2 map[string]time.Time } restoreFolderVersionsReturns struct { result1 map[string]error result2 error } restoreFolderVersionsReturnsOnCall map[int]struct { result1 map[string]error result2 error } RevertStub func(string) revertMutex sync.RWMutex revertArgsForCall []struct { arg1 string } ScanFolderStub func(string) error scanFolderMutex sync.RWMutex scanFolderArgsForCall []struct { arg1 string } scanFolderReturns struct { result1 error } scanFolderReturnsOnCall map[int]struct { result1 error } ScanFolderSubdirsStub func(string, []string) error scanFolderSubdirsMutex sync.RWMutex scanFolderSubdirsArgsForCall []struct { arg1 string arg2 []string } scanFolderSubdirsReturns struct { result1 error } scanFolderSubdirsReturnsOnCall map[int]struct { result1 error } ScanFoldersStub func() map[string]error scanFoldersMutex sync.RWMutex scanFoldersArgsForCall []struct { } scanFoldersReturns struct { result1 map[string]error } scanFoldersReturnsOnCall map[int]struct { result1 map[string]error } ServeStub func(context.Context) error serveMutex sync.RWMutex serveArgsForCall []struct { arg1 context.Context } serveReturns struct { result1 error } serveReturnsOnCall map[int]struct { result1 error } SetIgnoresStub func(string, []string) error setIgnoresMutex sync.RWMutex setIgnoresArgsForCall []struct { arg1 string arg2 []string } setIgnoresReturns struct { result1 error } setIgnoresReturnsOnCall map[int]struct { result1 error } StartDeadlockDetectorStub func(time.Duration) startDeadlockDetectorMutex sync.RWMutex startDeadlockDetectorArgsForCall []struct { arg1 time.Duration } StateStub func(string) (string, time.Time, error) stateMutex sync.RWMutex stateArgsForCall []struct { arg1 string } stateReturns struct { result1 string result2 time.Time result3 error } stateReturnsOnCall map[int]struct { result1 string result2 time.Time result3 error } UsageReportingStatsStub func(*contract.Report, int, bool) usageReportingStatsMutex sync.RWMutex usageReportingStatsArgsForCall []struct { arg1 *contract.Report arg2 int arg3 bool } WatchErrorStub func(string) error watchErrorMutex sync.RWMutex watchErrorArgsForCall []struct { arg1 string } watchErrorReturns struct { result1 error } watchErrorReturnsOnCall map[int]struct { result1 error } invocations map[string][][]interface{} invocationsMutex sync.RWMutex } func (fake *Model) AddConnection(arg1 protocol.Connection, arg2 protocol.Hello) { fake.addConnectionMutex.Lock() fake.addConnectionArgsForCall = append(fake.addConnectionArgsForCall, struct { arg1 protocol.Connection arg2 protocol.Hello }{arg1, arg2}) stub := fake.AddConnectionStub fake.recordInvocation("AddConnection", []interface{}{arg1, arg2}) fake.addConnectionMutex.Unlock() if stub != nil { fake.AddConnectionStub(arg1, arg2) } } func (fake *Model) AddConnectionCallCount() int { fake.addConnectionMutex.RLock() defer fake.addConnectionMutex.RUnlock() return len(fake.addConnectionArgsForCall) } func (fake *Model) AddConnectionCalls(stub func(protocol.Connection, protocol.Hello)) { fake.addConnectionMutex.Lock() defer fake.addConnectionMutex.Unlock() fake.AddConnectionStub = stub } func (fake *Model) AddConnectionArgsForCall(i int) (protocol.Connection, protocol.Hello) { fake.addConnectionMutex.RLock() defer fake.addConnectionMutex.RUnlock() argsForCall := fake.addConnectionArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) Availability(arg1 string, arg2 protocol.FileInfo, arg3 protocol.BlockInfo) []model.Availability { fake.availabilityMutex.Lock() ret, specificReturn := fake.availabilityReturnsOnCall[len(fake.availabilityArgsForCall)] fake.availabilityArgsForCall = append(fake.availabilityArgsForCall, struct { arg1 string arg2 protocol.FileInfo arg3 protocol.BlockInfo }{arg1, arg2, arg3}) stub := fake.AvailabilityStub fakeReturns := fake.availabilityReturns fake.recordInvocation("Availability", []interface{}{arg1, arg2, arg3}) fake.availabilityMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) AvailabilityCallCount() int { fake.availabilityMutex.RLock() defer fake.availabilityMutex.RUnlock() return len(fake.availabilityArgsForCall) } func (fake *Model) AvailabilityCalls(stub func(string, protocol.FileInfo, protocol.BlockInfo) []model.Availability) { fake.availabilityMutex.Lock() defer fake.availabilityMutex.Unlock() fake.AvailabilityStub = stub } func (fake *Model) AvailabilityArgsForCall(i int) (string, protocol.FileInfo, protocol.BlockInfo) { fake.availabilityMutex.RLock() defer fake.availabilityMutex.RUnlock() argsForCall := fake.availabilityArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) AvailabilityReturns(result1 []model.Availability) { fake.availabilityMutex.Lock() defer fake.availabilityMutex.Unlock() fake.AvailabilityStub = nil fake.availabilityReturns = struct { result1 []model.Availability }{result1} } func (fake *Model) AvailabilityReturnsOnCall(i int, result1 []model.Availability) { fake.availabilityMutex.Lock() defer fake.availabilityMutex.Unlock() fake.AvailabilityStub = nil if fake.availabilityReturnsOnCall == nil { fake.availabilityReturnsOnCall = make(map[int]struct { result1 []model.Availability }) } fake.availabilityReturnsOnCall[i] = struct { result1 []model.Availability }{result1} } func (fake *Model) BringToFront(arg1 string, arg2 string) { fake.bringToFrontMutex.Lock() fake.bringToFrontArgsForCall = append(fake.bringToFrontArgsForCall, struct { arg1 string arg2 string }{arg1, arg2}) stub := fake.BringToFrontStub fake.recordInvocation("BringToFront", []interface{}{arg1, arg2}) fake.bringToFrontMutex.Unlock() if stub != nil { fake.BringToFrontStub(arg1, arg2) } } func (fake *Model) BringToFrontCallCount() int { fake.bringToFrontMutex.RLock() defer fake.bringToFrontMutex.RUnlock() return len(fake.bringToFrontArgsForCall) } func (fake *Model) BringToFrontCalls(stub func(string, string)) { fake.bringToFrontMutex.Lock() defer fake.bringToFrontMutex.Unlock() fake.BringToFrontStub = stub } func (fake *Model) BringToFrontArgsForCall(i int) (string, string) { fake.bringToFrontMutex.RLock() defer fake.bringToFrontMutex.RUnlock() argsForCall := fake.bringToFrontArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) Closed(arg1 protocol.Connection, arg2 error) { fake.closedMutex.Lock() fake.closedArgsForCall = append(fake.closedArgsForCall, struct { arg1 protocol.Connection arg2 error }{arg1, arg2}) stub := fake.ClosedStub fake.recordInvocation("Closed", []interface{}{arg1, arg2}) fake.closedMutex.Unlock() if stub != nil { fake.ClosedStub(arg1, arg2) } } func (fake *Model) ClosedCallCount() int { fake.closedMutex.RLock() defer fake.closedMutex.RUnlock() return len(fake.closedArgsForCall) } func (fake *Model) ClosedCalls(stub func(protocol.Connection, error)) { fake.closedMutex.Lock() defer fake.closedMutex.Unlock() fake.ClosedStub = stub } func (fake *Model) ClosedArgsForCall(i int) (protocol.Connection, error) { fake.closedMutex.RLock() defer fake.closedMutex.RUnlock() argsForCall := fake.closedArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) ClusterConfig(arg1 protocol.DeviceID, arg2 protocol.ClusterConfig) error { fake.clusterConfigMutex.Lock() ret, specificReturn := fake.clusterConfigReturnsOnCall[len(fake.clusterConfigArgsForCall)] fake.clusterConfigArgsForCall = append(fake.clusterConfigArgsForCall, struct { arg1 protocol.DeviceID arg2 protocol.ClusterConfig }{arg1, arg2}) stub := fake.ClusterConfigStub fakeReturns := fake.clusterConfigReturns fake.recordInvocation("ClusterConfig", []interface{}{arg1, arg2}) fake.clusterConfigMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) ClusterConfigCallCount() int { fake.clusterConfigMutex.RLock() defer fake.clusterConfigMutex.RUnlock() return len(fake.clusterConfigArgsForCall) } func (fake *Model) ClusterConfigCalls(stub func(protocol.DeviceID, protocol.ClusterConfig) error) { fake.clusterConfigMutex.Lock() defer fake.clusterConfigMutex.Unlock() fake.ClusterConfigStub = stub } func (fake *Model) ClusterConfigArgsForCall(i int) (protocol.DeviceID, protocol.ClusterConfig) { fake.clusterConfigMutex.RLock() defer fake.clusterConfigMutex.RUnlock() argsForCall := fake.clusterConfigArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) ClusterConfigReturns(result1 error) { fake.clusterConfigMutex.Lock() defer fake.clusterConfigMutex.Unlock() fake.ClusterConfigStub = nil fake.clusterConfigReturns = struct { result1 error }{result1} } func (fake *Model) ClusterConfigReturnsOnCall(i int, result1 error) { fake.clusterConfigMutex.Lock() defer fake.clusterConfigMutex.Unlock() fake.ClusterConfigStub = nil if fake.clusterConfigReturnsOnCall == nil { fake.clusterConfigReturnsOnCall = make(map[int]struct { result1 error }) } fake.clusterConfigReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) Completion(arg1 protocol.DeviceID, arg2 string) model.FolderCompletion { fake.completionMutex.Lock() ret, specificReturn := fake.completionReturnsOnCall[len(fake.completionArgsForCall)] fake.completionArgsForCall = append(fake.completionArgsForCall, struct { arg1 protocol.DeviceID arg2 string }{arg1, arg2}) stub := fake.CompletionStub fakeReturns := fake.completionReturns fake.recordInvocation("Completion", []interface{}{arg1, arg2}) fake.completionMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) CompletionCallCount() int { fake.completionMutex.RLock() defer fake.completionMutex.RUnlock() return len(fake.completionArgsForCall) } func (fake *Model) CompletionCalls(stub func(protocol.DeviceID, string) model.FolderCompletion) { fake.completionMutex.Lock() defer fake.completionMutex.Unlock() fake.CompletionStub = stub } func (fake *Model) CompletionArgsForCall(i int) (protocol.DeviceID, string) { fake.completionMutex.RLock() defer fake.completionMutex.RUnlock() argsForCall := fake.completionArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) CompletionReturns(result1 model.FolderCompletion) { fake.completionMutex.Lock() defer fake.completionMutex.Unlock() fake.CompletionStub = nil fake.completionReturns = struct { result1 model.FolderCompletion }{result1} } func (fake *Model) CompletionReturnsOnCall(i int, result1 model.FolderCompletion) { fake.completionMutex.Lock() defer fake.completionMutex.Unlock() fake.CompletionStub = nil if fake.completionReturnsOnCall == nil { fake.completionReturnsOnCall = make(map[int]struct { result1 model.FolderCompletion }) } fake.completionReturnsOnCall[i] = struct { result1 model.FolderCompletion }{result1} } func (fake *Model) Connection(arg1 protocol.DeviceID) (protocol.Connection, bool) { fake.connectionMutex.Lock() ret, specificReturn := fake.connectionReturnsOnCall[len(fake.connectionArgsForCall)] fake.connectionArgsForCall = append(fake.connectionArgsForCall, struct { arg1 protocol.DeviceID }{arg1}) stub := fake.ConnectionStub fakeReturns := fake.connectionReturns fake.recordInvocation("Connection", []interface{}{arg1}) fake.connectionMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) ConnectionCallCount() int { fake.connectionMutex.RLock() defer fake.connectionMutex.RUnlock() return len(fake.connectionArgsForCall) } func (fake *Model) ConnectionCalls(stub func(protocol.DeviceID) (protocol.Connection, bool)) { fake.connectionMutex.Lock() defer fake.connectionMutex.Unlock() fake.ConnectionStub = stub } func (fake *Model) ConnectionArgsForCall(i int) protocol.DeviceID { fake.connectionMutex.RLock() defer fake.connectionMutex.RUnlock() argsForCall := fake.connectionArgsForCall[i] return argsForCall.arg1 } func (fake *Model) ConnectionReturns(result1 protocol.Connection, result2 bool) { fake.connectionMutex.Lock() defer fake.connectionMutex.Unlock() fake.ConnectionStub = nil fake.connectionReturns = struct { result1 protocol.Connection result2 bool }{result1, result2} } func (fake *Model) ConnectionReturnsOnCall(i int, result1 protocol.Connection, result2 bool) { fake.connectionMutex.Lock() defer fake.connectionMutex.Unlock() fake.ConnectionStub = nil if fake.connectionReturnsOnCall == nil { fake.connectionReturnsOnCall = make(map[int]struct { result1 protocol.Connection result2 bool }) } fake.connectionReturnsOnCall[i] = struct { result1 protocol.Connection result2 bool }{result1, result2} } func (fake *Model) ConnectionStats() map[string]interface{} { fake.connectionStatsMutex.Lock() ret, specificReturn := fake.connectionStatsReturnsOnCall[len(fake.connectionStatsArgsForCall)] fake.connectionStatsArgsForCall = append(fake.connectionStatsArgsForCall, struct { }{}) stub := fake.ConnectionStatsStub fakeReturns := fake.connectionStatsReturns fake.recordInvocation("ConnectionStats", []interface{}{}) fake.connectionStatsMutex.Unlock() if stub != nil { return stub() } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) ConnectionStatsCallCount() int { fake.connectionStatsMutex.RLock() defer fake.connectionStatsMutex.RUnlock() return len(fake.connectionStatsArgsForCall) } func (fake *Model) ConnectionStatsCalls(stub func() map[string]interface{}) { fake.connectionStatsMutex.Lock() defer fake.connectionStatsMutex.Unlock() fake.ConnectionStatsStub = stub } func (fake *Model) ConnectionStatsReturns(result1 map[string]interface{}) { fake.connectionStatsMutex.Lock() defer fake.connectionStatsMutex.Unlock() fake.ConnectionStatsStub = nil fake.connectionStatsReturns = struct { result1 map[string]interface{} }{result1} } func (fake *Model) ConnectionStatsReturnsOnCall(i int, result1 map[string]interface{}) { fake.connectionStatsMutex.Lock() defer fake.connectionStatsMutex.Unlock() fake.ConnectionStatsStub = nil if fake.connectionStatsReturnsOnCall == nil { fake.connectionStatsReturnsOnCall = make(map[int]struct { result1 map[string]interface{} }) } fake.connectionStatsReturnsOnCall[i] = struct { result1 map[string]interface{} }{result1} } func (fake *Model) CurrentFolderFile(arg1 string, arg2 string) (protocol.FileInfo, bool) { fake.currentFolderFileMutex.Lock() ret, specificReturn := fake.currentFolderFileReturnsOnCall[len(fake.currentFolderFileArgsForCall)] fake.currentFolderFileArgsForCall = append(fake.currentFolderFileArgsForCall, struct { arg1 string arg2 string }{arg1, arg2}) stub := fake.CurrentFolderFileStub fakeReturns := fake.currentFolderFileReturns fake.recordInvocation("CurrentFolderFile", []interface{}{arg1, arg2}) fake.currentFolderFileMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) CurrentFolderFileCallCount() int { fake.currentFolderFileMutex.RLock() defer fake.currentFolderFileMutex.RUnlock() return len(fake.currentFolderFileArgsForCall) } func (fake *Model) CurrentFolderFileCalls(stub func(string, string) (protocol.FileInfo, bool)) { fake.currentFolderFileMutex.Lock() defer fake.currentFolderFileMutex.Unlock() fake.CurrentFolderFileStub = stub } func (fake *Model) CurrentFolderFileArgsForCall(i int) (string, string) { fake.currentFolderFileMutex.RLock() defer fake.currentFolderFileMutex.RUnlock() argsForCall := fake.currentFolderFileArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) CurrentFolderFileReturns(result1 protocol.FileInfo, result2 bool) { fake.currentFolderFileMutex.Lock() defer fake.currentFolderFileMutex.Unlock() fake.CurrentFolderFileStub = nil fake.currentFolderFileReturns = struct { result1 protocol.FileInfo result2 bool }{result1, result2} } func (fake *Model) CurrentFolderFileReturnsOnCall(i int, result1 protocol.FileInfo, result2 bool) { fake.currentFolderFileMutex.Lock() defer fake.currentFolderFileMutex.Unlock() fake.CurrentFolderFileStub = nil if fake.currentFolderFileReturnsOnCall == nil { fake.currentFolderFileReturnsOnCall = make(map[int]struct { result1 protocol.FileInfo result2 bool }) } fake.currentFolderFileReturnsOnCall[i] = struct { result1 protocol.FileInfo result2 bool }{result1, result2} } func (fake *Model) CurrentGlobalFile(arg1 string, arg2 string) (protocol.FileInfo, bool) { fake.currentGlobalFileMutex.Lock() ret, specificReturn := fake.currentGlobalFileReturnsOnCall[len(fake.currentGlobalFileArgsForCall)] fake.currentGlobalFileArgsForCall = append(fake.currentGlobalFileArgsForCall, struct { arg1 string arg2 string }{arg1, arg2}) stub := fake.CurrentGlobalFileStub fakeReturns := fake.currentGlobalFileReturns fake.recordInvocation("CurrentGlobalFile", []interface{}{arg1, arg2}) fake.currentGlobalFileMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) CurrentGlobalFileCallCount() int { fake.currentGlobalFileMutex.RLock() defer fake.currentGlobalFileMutex.RUnlock() return len(fake.currentGlobalFileArgsForCall) } func (fake *Model) CurrentGlobalFileCalls(stub func(string, string) (protocol.FileInfo, bool)) { fake.currentGlobalFileMutex.Lock() defer fake.currentGlobalFileMutex.Unlock() fake.CurrentGlobalFileStub = stub } func (fake *Model) CurrentGlobalFileArgsForCall(i int) (string, string) { fake.currentGlobalFileMutex.RLock() defer fake.currentGlobalFileMutex.RUnlock() argsForCall := fake.currentGlobalFileArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) CurrentGlobalFileReturns(result1 protocol.FileInfo, result2 bool) { fake.currentGlobalFileMutex.Lock() defer fake.currentGlobalFileMutex.Unlock() fake.CurrentGlobalFileStub = nil fake.currentGlobalFileReturns = struct { result1 protocol.FileInfo result2 bool }{result1, result2} } func (fake *Model) CurrentGlobalFileReturnsOnCall(i int, result1 protocol.FileInfo, result2 bool) { fake.currentGlobalFileMutex.Lock() defer fake.currentGlobalFileMutex.Unlock() fake.CurrentGlobalFileStub = nil if fake.currentGlobalFileReturnsOnCall == nil { fake.currentGlobalFileReturnsOnCall = make(map[int]struct { result1 protocol.FileInfo result2 bool }) } fake.currentGlobalFileReturnsOnCall[i] = struct { result1 protocol.FileInfo result2 bool }{result1, result2} } func (fake *Model) CurrentIgnores(arg1 string) ([]string, []string, error) { fake.currentIgnoresMutex.Lock() ret, specificReturn := fake.currentIgnoresReturnsOnCall[len(fake.currentIgnoresArgsForCall)] fake.currentIgnoresArgsForCall = append(fake.currentIgnoresArgsForCall, struct { arg1 string }{arg1}) stub := fake.CurrentIgnoresStub fakeReturns := fake.currentIgnoresReturns fake.recordInvocation("CurrentIgnores", []interface{}{arg1}) fake.currentIgnoresMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2, ret.result3 } return fakeReturns.result1, fakeReturns.result2, fakeReturns.result3 } func (fake *Model) CurrentIgnoresCallCount() int { fake.currentIgnoresMutex.RLock() defer fake.currentIgnoresMutex.RUnlock() return len(fake.currentIgnoresArgsForCall) } func (fake *Model) CurrentIgnoresCalls(stub func(string) ([]string, []string, error)) { fake.currentIgnoresMutex.Lock() defer fake.currentIgnoresMutex.Unlock() fake.CurrentIgnoresStub = stub } func (fake *Model) CurrentIgnoresArgsForCall(i int) string { fake.currentIgnoresMutex.RLock() defer fake.currentIgnoresMutex.RUnlock() argsForCall := fake.currentIgnoresArgsForCall[i] return argsForCall.arg1 } func (fake *Model) CurrentIgnoresReturns(result1 []string, result2 []string, result3 error) { fake.currentIgnoresMutex.Lock() defer fake.currentIgnoresMutex.Unlock() fake.CurrentIgnoresStub = nil fake.currentIgnoresReturns = struct { result1 []string result2 []string result3 error }{result1, result2, result3} } func (fake *Model) CurrentIgnoresReturnsOnCall(i int, result1 []string, result2 []string, result3 error) { fake.currentIgnoresMutex.Lock() defer fake.currentIgnoresMutex.Unlock() fake.CurrentIgnoresStub = nil if fake.currentIgnoresReturnsOnCall == nil { fake.currentIgnoresReturnsOnCall = make(map[int]struct { result1 []string result2 []string result3 error }) } fake.currentIgnoresReturnsOnCall[i] = struct { result1 []string result2 []string result3 error }{result1, result2, result3} } func (fake *Model) DBSnapshot(arg1 string) (*db.Snapshot, error) { fake.dBSnapshotMutex.Lock() ret, specificReturn := fake.dBSnapshotReturnsOnCall[len(fake.dBSnapshotArgsForCall)] fake.dBSnapshotArgsForCall = append(fake.dBSnapshotArgsForCall, struct { arg1 string }{arg1}) stub := fake.DBSnapshotStub fakeReturns := fake.dBSnapshotReturns fake.recordInvocation("DBSnapshot", []interface{}{arg1}) fake.dBSnapshotMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) DBSnapshotCallCount() int { fake.dBSnapshotMutex.RLock() defer fake.dBSnapshotMutex.RUnlock() return len(fake.dBSnapshotArgsForCall) } func (fake *Model) DBSnapshotCalls(stub func(string) (*db.Snapshot, error)) { fake.dBSnapshotMutex.Lock() defer fake.dBSnapshotMutex.Unlock() fake.DBSnapshotStub = stub } func (fake *Model) DBSnapshotArgsForCall(i int) string { fake.dBSnapshotMutex.RLock() defer fake.dBSnapshotMutex.RUnlock() argsForCall := fake.dBSnapshotArgsForCall[i] return argsForCall.arg1 } func (fake *Model) DBSnapshotReturns(result1 *db.Snapshot, result2 error) { fake.dBSnapshotMutex.Lock() defer fake.dBSnapshotMutex.Unlock() fake.DBSnapshotStub = nil fake.dBSnapshotReturns = struct { result1 *db.Snapshot result2 error }{result1, result2} } func (fake *Model) DBSnapshotReturnsOnCall(i int, result1 *db.Snapshot, result2 error) { fake.dBSnapshotMutex.Lock() defer fake.dBSnapshotMutex.Unlock() fake.DBSnapshotStub = nil if fake.dBSnapshotReturnsOnCall == nil { fake.dBSnapshotReturnsOnCall = make(map[int]struct { result1 *db.Snapshot result2 error }) } fake.dBSnapshotReturnsOnCall[i] = struct { result1 *db.Snapshot result2 error }{result1, result2} } func (fake *Model) DelayScan(arg1 string, arg2 time.Duration) { fake.delayScanMutex.Lock() fake.delayScanArgsForCall = append(fake.delayScanArgsForCall, struct { arg1 string arg2 time.Duration }{arg1, arg2}) stub := fake.DelayScanStub fake.recordInvocation("DelayScan", []interface{}{arg1, arg2}) fake.delayScanMutex.Unlock() if stub != nil { fake.DelayScanStub(arg1, arg2) } } func (fake *Model) DelayScanCallCount() int { fake.delayScanMutex.RLock() defer fake.delayScanMutex.RUnlock() return len(fake.delayScanArgsForCall) } func (fake *Model) DelayScanCalls(stub func(string, time.Duration)) { fake.delayScanMutex.Lock() defer fake.delayScanMutex.Unlock() fake.DelayScanStub = stub } func (fake *Model) DelayScanArgsForCall(i int) (string, time.Duration) { fake.delayScanMutex.RLock() defer fake.delayScanMutex.RUnlock() argsForCall := fake.delayScanArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) DeviceStatistics() (map[protocol.DeviceID]stats.DeviceStatistics, error) { fake.deviceStatisticsMutex.Lock() ret, specificReturn := fake.deviceStatisticsReturnsOnCall[len(fake.deviceStatisticsArgsForCall)] fake.deviceStatisticsArgsForCall = append(fake.deviceStatisticsArgsForCall, struct { }{}) stub := fake.DeviceStatisticsStub fakeReturns := fake.deviceStatisticsReturns fake.recordInvocation("DeviceStatistics", []interface{}{}) fake.deviceStatisticsMutex.Unlock() if stub != nil { return stub() } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) DeviceStatisticsCallCount() int { fake.deviceStatisticsMutex.RLock() defer fake.deviceStatisticsMutex.RUnlock() return len(fake.deviceStatisticsArgsForCall) } func (fake *Model) DeviceStatisticsCalls(stub func() (map[protocol.DeviceID]stats.DeviceStatistics, error)) { fake.deviceStatisticsMutex.Lock() defer fake.deviceStatisticsMutex.Unlock() fake.DeviceStatisticsStub = stub } func (fake *Model) DeviceStatisticsReturns(result1 map[protocol.DeviceID]stats.DeviceStatistics, result2 error) { fake.deviceStatisticsMutex.Lock() defer fake.deviceStatisticsMutex.Unlock() fake.DeviceStatisticsStub = nil fake.deviceStatisticsReturns = struct { result1 map[protocol.DeviceID]stats.DeviceStatistics result2 error }{result1, result2} } func (fake *Model) DeviceStatisticsReturnsOnCall(i int, result1 map[protocol.DeviceID]stats.DeviceStatistics, result2 error) { fake.deviceStatisticsMutex.Lock() defer fake.deviceStatisticsMutex.Unlock() fake.DeviceStatisticsStub = nil if fake.deviceStatisticsReturnsOnCall == nil { fake.deviceStatisticsReturnsOnCall = make(map[int]struct { result1 map[protocol.DeviceID]stats.DeviceStatistics result2 error }) } fake.deviceStatisticsReturnsOnCall[i] = struct { result1 map[protocol.DeviceID]stats.DeviceStatistics result2 error }{result1, result2} } func (fake *Model) DownloadProgress(arg1 protocol.DeviceID, arg2 string, arg3 []protocol.FileDownloadProgressUpdate) error { var arg3Copy []protocol.FileDownloadProgressUpdate if arg3 != nil { arg3Copy = make([]protocol.FileDownloadProgressUpdate, len(arg3)) copy(arg3Copy, arg3) } fake.downloadProgressMutex.Lock() ret, specificReturn := fake.downloadProgressReturnsOnCall[len(fake.downloadProgressArgsForCall)] fake.downloadProgressArgsForCall = append(fake.downloadProgressArgsForCall, struct { arg1 protocol.DeviceID arg2 string arg3 []protocol.FileDownloadProgressUpdate }{arg1, arg2, arg3Copy}) stub := fake.DownloadProgressStub fakeReturns := fake.downloadProgressReturns fake.recordInvocation("DownloadProgress", []interface{}{arg1, arg2, arg3Copy}) fake.downloadProgressMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) DownloadProgressCallCount() int { fake.downloadProgressMutex.RLock() defer fake.downloadProgressMutex.RUnlock() return len(fake.downloadProgressArgsForCall) } func (fake *Model) DownloadProgressCalls(stub func(protocol.DeviceID, string, []protocol.FileDownloadProgressUpdate) error) { fake.downloadProgressMutex.Lock() defer fake.downloadProgressMutex.Unlock() fake.DownloadProgressStub = stub } func (fake *Model) DownloadProgressArgsForCall(i int) (protocol.DeviceID, string, []protocol.FileDownloadProgressUpdate) { fake.downloadProgressMutex.RLock() defer fake.downloadProgressMutex.RUnlock() argsForCall := fake.downloadProgressArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) DownloadProgressReturns(result1 error) { fake.downloadProgressMutex.Lock() defer fake.downloadProgressMutex.Unlock() fake.DownloadProgressStub = nil fake.downloadProgressReturns = struct { result1 error }{result1} } func (fake *Model) DownloadProgressReturnsOnCall(i int, result1 error) { fake.downloadProgressMutex.Lock() defer fake.downloadProgressMutex.Unlock() fake.DownloadProgressStub = nil if fake.downloadProgressReturnsOnCall == nil { fake.downloadProgressReturnsOnCall = make(map[int]struct { result1 error }) } fake.downloadProgressReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) FolderErrors(arg1 string) ([]model.FileError, error) { fake.folderErrorsMutex.Lock() ret, specificReturn := fake.folderErrorsReturnsOnCall[len(fake.folderErrorsArgsForCall)] fake.folderErrorsArgsForCall = append(fake.folderErrorsArgsForCall, struct { arg1 string }{arg1}) stub := fake.FolderErrorsStub fakeReturns := fake.folderErrorsReturns fake.recordInvocation("FolderErrors", []interface{}{arg1}) fake.folderErrorsMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) FolderErrorsCallCount() int { fake.folderErrorsMutex.RLock() defer fake.folderErrorsMutex.RUnlock() return len(fake.folderErrorsArgsForCall) } func (fake *Model) FolderErrorsCalls(stub func(string) ([]model.FileError, error)) { fake.folderErrorsMutex.Lock() defer fake.folderErrorsMutex.Unlock() fake.FolderErrorsStub = stub } func (fake *Model) FolderErrorsArgsForCall(i int) string { fake.folderErrorsMutex.RLock() defer fake.folderErrorsMutex.RUnlock() argsForCall := fake.folderErrorsArgsForCall[i] return argsForCall.arg1 } func (fake *Model) FolderErrorsReturns(result1 []model.FileError, result2 error) { fake.folderErrorsMutex.Lock() defer fake.folderErrorsMutex.Unlock() fake.FolderErrorsStub = nil fake.folderErrorsReturns = struct { result1 []model.FileError result2 error }{result1, result2} } func (fake *Model) FolderErrorsReturnsOnCall(i int, result1 []model.FileError, result2 error) { fake.folderErrorsMutex.Lock() defer fake.folderErrorsMutex.Unlock() fake.FolderErrorsStub = nil if fake.folderErrorsReturnsOnCall == nil { fake.folderErrorsReturnsOnCall = make(map[int]struct { result1 []model.FileError result2 error }) } fake.folderErrorsReturnsOnCall[i] = struct { result1 []model.FileError result2 error }{result1, result2} } func (fake *Model) FolderProgressBytesCompleted(arg1 string) int64 { fake.folderProgressBytesCompletedMutex.Lock() ret, specificReturn := fake.folderProgressBytesCompletedReturnsOnCall[len(fake.folderProgressBytesCompletedArgsForCall)] fake.folderProgressBytesCompletedArgsForCall = append(fake.folderProgressBytesCompletedArgsForCall, struct { arg1 string }{arg1}) stub := fake.FolderProgressBytesCompletedStub fakeReturns := fake.folderProgressBytesCompletedReturns fake.recordInvocation("FolderProgressBytesCompleted", []interface{}{arg1}) fake.folderProgressBytesCompletedMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) FolderProgressBytesCompletedCallCount() int { fake.folderProgressBytesCompletedMutex.RLock() defer fake.folderProgressBytesCompletedMutex.RUnlock() return len(fake.folderProgressBytesCompletedArgsForCall) } func (fake *Model) FolderProgressBytesCompletedCalls(stub func(string) int64) { fake.folderProgressBytesCompletedMutex.Lock() defer fake.folderProgressBytesCompletedMutex.Unlock() fake.FolderProgressBytesCompletedStub = stub } func (fake *Model) FolderProgressBytesCompletedArgsForCall(i int) string { fake.folderProgressBytesCompletedMutex.RLock() defer fake.folderProgressBytesCompletedMutex.RUnlock() argsForCall := fake.folderProgressBytesCompletedArgsForCall[i] return argsForCall.arg1 } func (fake *Model) FolderProgressBytesCompletedReturns(result1 int64) { fake.folderProgressBytesCompletedMutex.Lock() defer fake.folderProgressBytesCompletedMutex.Unlock() fake.FolderProgressBytesCompletedStub = nil fake.folderProgressBytesCompletedReturns = struct { result1 int64 }{result1} } func (fake *Model) FolderProgressBytesCompletedReturnsOnCall(i int, result1 int64) { fake.folderProgressBytesCompletedMutex.Lock() defer fake.folderProgressBytesCompletedMutex.Unlock() fake.FolderProgressBytesCompletedStub = nil if fake.folderProgressBytesCompletedReturnsOnCall == nil { fake.folderProgressBytesCompletedReturnsOnCall = make(map[int]struct { result1 int64 }) } fake.folderProgressBytesCompletedReturnsOnCall[i] = struct { result1 int64 }{result1} } func (fake *Model) FolderStatistics() (map[string]stats.FolderStatistics, error) { fake.folderStatisticsMutex.Lock() ret, specificReturn := fake.folderStatisticsReturnsOnCall[len(fake.folderStatisticsArgsForCall)] fake.folderStatisticsArgsForCall = append(fake.folderStatisticsArgsForCall, struct { }{}) stub := fake.FolderStatisticsStub fakeReturns := fake.folderStatisticsReturns fake.recordInvocation("FolderStatistics", []interface{}{}) fake.folderStatisticsMutex.Unlock() if stub != nil { return stub() } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) FolderStatisticsCallCount() int { fake.folderStatisticsMutex.RLock() defer fake.folderStatisticsMutex.RUnlock() return len(fake.folderStatisticsArgsForCall) } func (fake *Model) FolderStatisticsCalls(stub func() (map[string]stats.FolderStatistics, error)) { fake.folderStatisticsMutex.Lock() defer fake.folderStatisticsMutex.Unlock() fake.FolderStatisticsStub = stub } func (fake *Model) FolderStatisticsReturns(result1 map[string]stats.FolderStatistics, result2 error) { fake.folderStatisticsMutex.Lock() defer fake.folderStatisticsMutex.Unlock() fake.FolderStatisticsStub = nil fake.folderStatisticsReturns = struct { result1 map[string]stats.FolderStatistics result2 error }{result1, result2} } func (fake *Model) FolderStatisticsReturnsOnCall(i int, result1 map[string]stats.FolderStatistics, result2 error) { fake.folderStatisticsMutex.Lock() defer fake.folderStatisticsMutex.Unlock() fake.FolderStatisticsStub = nil if fake.folderStatisticsReturnsOnCall == nil { fake.folderStatisticsReturnsOnCall = make(map[int]struct { result1 map[string]stats.FolderStatistics result2 error }) } fake.folderStatisticsReturnsOnCall[i] = struct { result1 map[string]stats.FolderStatistics result2 error }{result1, result2} } func (fake *Model) GetFolderVersions(arg1 string) (map[string][]versioner.FileVersion, error) { fake.getFolderVersionsMutex.Lock() ret, specificReturn := fake.getFolderVersionsReturnsOnCall[len(fake.getFolderVersionsArgsForCall)] fake.getFolderVersionsArgsForCall = append(fake.getFolderVersionsArgsForCall, struct { arg1 string }{arg1}) stub := fake.GetFolderVersionsStub fakeReturns := fake.getFolderVersionsReturns fake.recordInvocation("GetFolderVersions", []interface{}{arg1}) fake.getFolderVersionsMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) GetFolderVersionsCallCount() int { fake.getFolderVersionsMutex.RLock() defer fake.getFolderVersionsMutex.RUnlock() return len(fake.getFolderVersionsArgsForCall) } func (fake *Model) GetFolderVersionsCalls(stub func(string) (map[string][]versioner.FileVersion, error)) { fake.getFolderVersionsMutex.Lock() defer fake.getFolderVersionsMutex.Unlock() fake.GetFolderVersionsStub = stub } func (fake *Model) GetFolderVersionsArgsForCall(i int) string { fake.getFolderVersionsMutex.RLock() defer fake.getFolderVersionsMutex.RUnlock() argsForCall := fake.getFolderVersionsArgsForCall[i] return argsForCall.arg1 } func (fake *Model) GetFolderVersionsReturns(result1 map[string][]versioner.FileVersion, result2 error) { fake.getFolderVersionsMutex.Lock() defer fake.getFolderVersionsMutex.Unlock() fake.GetFolderVersionsStub = nil fake.getFolderVersionsReturns = struct { result1 map[string][]versioner.FileVersion result2 error }{result1, result2} } func (fake *Model) GetFolderVersionsReturnsOnCall(i int, result1 map[string][]versioner.FileVersion, result2 error) { fake.getFolderVersionsMutex.Lock() defer fake.getFolderVersionsMutex.Unlock() fake.GetFolderVersionsStub = nil if fake.getFolderVersionsReturnsOnCall == nil { fake.getFolderVersionsReturnsOnCall = make(map[int]struct { result1 map[string][]versioner.FileVersion result2 error }) } fake.getFolderVersionsReturnsOnCall[i] = struct { result1 map[string][]versioner.FileVersion result2 error }{result1, result2} } func (fake *Model) GetHello(arg1 protocol.DeviceID) protocol.HelloIntf { fake.getHelloMutex.Lock() ret, specificReturn := fake.getHelloReturnsOnCall[len(fake.getHelloArgsForCall)] fake.getHelloArgsForCall = append(fake.getHelloArgsForCall, struct { arg1 protocol.DeviceID }{arg1}) stub := fake.GetHelloStub fakeReturns := fake.getHelloReturns fake.recordInvocation("GetHello", []interface{}{arg1}) fake.getHelloMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) GetHelloCallCount() int { fake.getHelloMutex.RLock() defer fake.getHelloMutex.RUnlock() return len(fake.getHelloArgsForCall) } func (fake *Model) GetHelloCalls(stub func(protocol.DeviceID) protocol.HelloIntf) { fake.getHelloMutex.Lock() defer fake.getHelloMutex.Unlock() fake.GetHelloStub = stub } func (fake *Model) GetHelloArgsForCall(i int) protocol.DeviceID { fake.getHelloMutex.RLock() defer fake.getHelloMutex.RUnlock() argsForCall := fake.getHelloArgsForCall[i] return argsForCall.arg1 } func (fake *Model) GetHelloReturns(result1 protocol.HelloIntf) { fake.getHelloMutex.Lock() defer fake.getHelloMutex.Unlock() fake.GetHelloStub = nil fake.getHelloReturns = struct { result1 protocol.HelloIntf }{result1} } func (fake *Model) GetHelloReturnsOnCall(i int, result1 protocol.HelloIntf) { fake.getHelloMutex.Lock() defer fake.getHelloMutex.Unlock() fake.GetHelloStub = nil if fake.getHelloReturnsOnCall == nil { fake.getHelloReturnsOnCall = make(map[int]struct { result1 protocol.HelloIntf }) } fake.getHelloReturnsOnCall[i] = struct { result1 protocol.HelloIntf }{result1} } func (fake *Model) GlobalDirectoryTree(arg1 string, arg2 string, arg3 int, arg4 bool) ([]*model.TreeEntry, error) { fake.globalDirectoryTreeMutex.Lock() ret, specificReturn := fake.globalDirectoryTreeReturnsOnCall[len(fake.globalDirectoryTreeArgsForCall)] fake.globalDirectoryTreeArgsForCall = append(fake.globalDirectoryTreeArgsForCall, struct { arg1 string arg2 string arg3 int arg4 bool }{arg1, arg2, arg3, arg4}) stub := fake.GlobalDirectoryTreeStub fakeReturns := fake.globalDirectoryTreeReturns fake.recordInvocation("GlobalDirectoryTree", []interface{}{arg1, arg2, arg3, arg4}) fake.globalDirectoryTreeMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3, arg4) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) GlobalDirectoryTreeCallCount() int { fake.globalDirectoryTreeMutex.RLock() defer fake.globalDirectoryTreeMutex.RUnlock() return len(fake.globalDirectoryTreeArgsForCall) } func (fake *Model) GlobalDirectoryTreeCalls(stub func(string, string, int, bool) ([]*model.TreeEntry, error)) { fake.globalDirectoryTreeMutex.Lock() defer fake.globalDirectoryTreeMutex.Unlock() fake.GlobalDirectoryTreeStub = stub } func (fake *Model) GlobalDirectoryTreeArgsForCall(i int) (string, string, int, bool) { fake.globalDirectoryTreeMutex.RLock() defer fake.globalDirectoryTreeMutex.RUnlock() argsForCall := fake.globalDirectoryTreeArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3, argsForCall.arg4 } func (fake *Model) GlobalDirectoryTreeReturns(result1 []*model.TreeEntry, result2 error) { fake.globalDirectoryTreeMutex.Lock() defer fake.globalDirectoryTreeMutex.Unlock() fake.GlobalDirectoryTreeStub = nil fake.globalDirectoryTreeReturns = struct { result1 []*model.TreeEntry result2 error }{result1, result2} } func (fake *Model) GlobalDirectoryTreeReturnsOnCall(i int, result1 []*model.TreeEntry, result2 error) { fake.globalDirectoryTreeMutex.Lock() defer fake.globalDirectoryTreeMutex.Unlock() fake.GlobalDirectoryTreeStub = nil if fake.globalDirectoryTreeReturnsOnCall == nil { fake.globalDirectoryTreeReturnsOnCall = make(map[int]struct { result1 []*model.TreeEntry result2 error }) } fake.globalDirectoryTreeReturnsOnCall[i] = struct { result1 []*model.TreeEntry result2 error }{result1, result2} } func (fake *Model) Index(arg1 protocol.DeviceID, arg2 string, arg3 []protocol.FileInfo) error { var arg3Copy []protocol.FileInfo if arg3 != nil { arg3Copy = make([]protocol.FileInfo, len(arg3)) copy(arg3Copy, arg3) } fake.indexMutex.Lock() ret, specificReturn := fake.indexReturnsOnCall[len(fake.indexArgsForCall)] fake.indexArgsForCall = append(fake.indexArgsForCall, struct { arg1 protocol.DeviceID arg2 string arg3 []protocol.FileInfo }{arg1, arg2, arg3Copy}) stub := fake.IndexStub fakeReturns := fake.indexReturns fake.recordInvocation("Index", []interface{}{arg1, arg2, arg3Copy}) fake.indexMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) IndexCallCount() int { fake.indexMutex.RLock() defer fake.indexMutex.RUnlock() return len(fake.indexArgsForCall) } func (fake *Model) IndexCalls(stub func(protocol.DeviceID, string, []protocol.FileInfo) error) { fake.indexMutex.Lock() defer fake.indexMutex.Unlock() fake.IndexStub = stub } func (fake *Model) IndexArgsForCall(i int) (protocol.DeviceID, string, []protocol.FileInfo) { fake.indexMutex.RLock() defer fake.indexMutex.RUnlock() argsForCall := fake.indexArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) IndexReturns(result1 error) { fake.indexMutex.Lock() defer fake.indexMutex.Unlock() fake.IndexStub = nil fake.indexReturns = struct { result1 error }{result1} } func (fake *Model) 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 *Model) IndexUpdate(arg1 protocol.DeviceID, arg2 string, arg3 []protocol.FileInfo) error { var arg3Copy []protocol.FileInfo if arg3 != nil { arg3Copy = make([]protocol.FileInfo, len(arg3)) copy(arg3Copy, arg3) } fake.indexUpdateMutex.Lock() ret, specificReturn := fake.indexUpdateReturnsOnCall[len(fake.indexUpdateArgsForCall)] fake.indexUpdateArgsForCall = append(fake.indexUpdateArgsForCall, struct { arg1 protocol.DeviceID arg2 string arg3 []protocol.FileInfo }{arg1, arg2, arg3Copy}) stub := fake.IndexUpdateStub fakeReturns := fake.indexUpdateReturns fake.recordInvocation("IndexUpdate", []interface{}{arg1, arg2, arg3Copy}) fake.indexUpdateMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) IndexUpdateCallCount() int { fake.indexUpdateMutex.RLock() defer fake.indexUpdateMutex.RUnlock() return len(fake.indexUpdateArgsForCall) } func (fake *Model) IndexUpdateCalls(stub func(protocol.DeviceID, string, []protocol.FileInfo) error) { fake.indexUpdateMutex.Lock() defer fake.indexUpdateMutex.Unlock() fake.IndexUpdateStub = stub } func (fake *Model) IndexUpdateArgsForCall(i int) (protocol.DeviceID, string, []protocol.FileInfo) { fake.indexUpdateMutex.RLock() defer fake.indexUpdateMutex.RUnlock() argsForCall := fake.indexUpdateArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) IndexUpdateReturns(result1 error) { fake.indexUpdateMutex.Lock() defer fake.indexUpdateMutex.Unlock() fake.IndexUpdateStub = nil fake.indexUpdateReturns = struct { result1 error }{result1} } func (fake *Model) 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 *Model) LoadIgnores(arg1 string) ([]string, []string, error) { fake.loadIgnoresMutex.Lock() ret, specificReturn := fake.loadIgnoresReturnsOnCall[len(fake.loadIgnoresArgsForCall)] fake.loadIgnoresArgsForCall = append(fake.loadIgnoresArgsForCall, struct { arg1 string }{arg1}) stub := fake.LoadIgnoresStub fakeReturns := fake.loadIgnoresReturns fake.recordInvocation("LoadIgnores", []interface{}{arg1}) fake.loadIgnoresMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2, ret.result3 } return fakeReturns.result1, fakeReturns.result2, fakeReturns.result3 } func (fake *Model) LoadIgnoresCallCount() int { fake.loadIgnoresMutex.RLock() defer fake.loadIgnoresMutex.RUnlock() return len(fake.loadIgnoresArgsForCall) } func (fake *Model) LoadIgnoresCalls(stub func(string) ([]string, []string, error)) { fake.loadIgnoresMutex.Lock() defer fake.loadIgnoresMutex.Unlock() fake.LoadIgnoresStub = stub } func (fake *Model) LoadIgnoresArgsForCall(i int) string { fake.loadIgnoresMutex.RLock() defer fake.loadIgnoresMutex.RUnlock() argsForCall := fake.loadIgnoresArgsForCall[i] return argsForCall.arg1 } func (fake *Model) LoadIgnoresReturns(result1 []string, result2 []string, result3 error) { fake.loadIgnoresMutex.Lock() defer fake.loadIgnoresMutex.Unlock() fake.LoadIgnoresStub = nil fake.loadIgnoresReturns = struct { result1 []string result2 []string result3 error }{result1, result2, result3} } func (fake *Model) LoadIgnoresReturnsOnCall(i int, result1 []string, result2 []string, result3 error) { fake.loadIgnoresMutex.Lock() defer fake.loadIgnoresMutex.Unlock() fake.LoadIgnoresStub = nil if fake.loadIgnoresReturnsOnCall == nil { fake.loadIgnoresReturnsOnCall = make(map[int]struct { result1 []string result2 []string result3 error }) } fake.loadIgnoresReturnsOnCall[i] = struct { result1 []string result2 []string result3 error }{result1, result2, result3} } func (fake *Model) LocalChangedFolderFiles(arg1 string, arg2 int, arg3 int) ([]db.FileInfoTruncated, error) { fake.localChangedFolderFilesMutex.Lock() ret, specificReturn := fake.localChangedFolderFilesReturnsOnCall[len(fake.localChangedFolderFilesArgsForCall)] fake.localChangedFolderFilesArgsForCall = append(fake.localChangedFolderFilesArgsForCall, struct { arg1 string arg2 int arg3 int }{arg1, arg2, arg3}) stub := fake.LocalChangedFolderFilesStub fakeReturns := fake.localChangedFolderFilesReturns fake.recordInvocation("LocalChangedFolderFiles", []interface{}{arg1, arg2, arg3}) fake.localChangedFolderFilesMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) LocalChangedFolderFilesCallCount() int { fake.localChangedFolderFilesMutex.RLock() defer fake.localChangedFolderFilesMutex.RUnlock() return len(fake.localChangedFolderFilesArgsForCall) } func (fake *Model) LocalChangedFolderFilesCalls(stub func(string, int, int) ([]db.FileInfoTruncated, error)) { fake.localChangedFolderFilesMutex.Lock() defer fake.localChangedFolderFilesMutex.Unlock() fake.LocalChangedFolderFilesStub = stub } func (fake *Model) LocalChangedFolderFilesArgsForCall(i int) (string, int, int) { fake.localChangedFolderFilesMutex.RLock() defer fake.localChangedFolderFilesMutex.RUnlock() argsForCall := fake.localChangedFolderFilesArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) LocalChangedFolderFilesReturns(result1 []db.FileInfoTruncated, result2 error) { fake.localChangedFolderFilesMutex.Lock() defer fake.localChangedFolderFilesMutex.Unlock() fake.LocalChangedFolderFilesStub = nil fake.localChangedFolderFilesReturns = struct { result1 []db.FileInfoTruncated result2 error }{result1, result2} } func (fake *Model) LocalChangedFolderFilesReturnsOnCall(i int, result1 []db.FileInfoTruncated, result2 error) { fake.localChangedFolderFilesMutex.Lock() defer fake.localChangedFolderFilesMutex.Unlock() fake.LocalChangedFolderFilesStub = nil if fake.localChangedFolderFilesReturnsOnCall == nil { fake.localChangedFolderFilesReturnsOnCall = make(map[int]struct { result1 []db.FileInfoTruncated result2 error }) } fake.localChangedFolderFilesReturnsOnCall[i] = struct { result1 []db.FileInfoTruncated result2 error }{result1, result2} } func (fake *Model) NeedFolderFiles(arg1 string, arg2 int, arg3 int) ([]db.FileInfoTruncated, []db.FileInfoTruncated, []db.FileInfoTruncated, error) { fake.needFolderFilesMutex.Lock() ret, specificReturn := fake.needFolderFilesReturnsOnCall[len(fake.needFolderFilesArgsForCall)] fake.needFolderFilesArgsForCall = append(fake.needFolderFilesArgsForCall, struct { arg1 string arg2 int arg3 int }{arg1, arg2, arg3}) stub := fake.NeedFolderFilesStub fakeReturns := fake.needFolderFilesReturns fake.recordInvocation("NeedFolderFiles", []interface{}{arg1, arg2, arg3}) fake.needFolderFilesMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1, ret.result2, ret.result3, ret.result4 } return fakeReturns.result1, fakeReturns.result2, fakeReturns.result3, fakeReturns.result4 } func (fake *Model) NeedFolderFilesCallCount() int { fake.needFolderFilesMutex.RLock() defer fake.needFolderFilesMutex.RUnlock() return len(fake.needFolderFilesArgsForCall) } func (fake *Model) NeedFolderFilesCalls(stub func(string, int, int) ([]db.FileInfoTruncated, []db.FileInfoTruncated, []db.FileInfoTruncated, error)) { fake.needFolderFilesMutex.Lock() defer fake.needFolderFilesMutex.Unlock() fake.NeedFolderFilesStub = stub } func (fake *Model) NeedFolderFilesArgsForCall(i int) (string, int, int) { fake.needFolderFilesMutex.RLock() defer fake.needFolderFilesMutex.RUnlock() argsForCall := fake.needFolderFilesArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) NeedFolderFilesReturns(result1 []db.FileInfoTruncated, result2 []db.FileInfoTruncated, result3 []db.FileInfoTruncated, result4 error) { fake.needFolderFilesMutex.Lock() defer fake.needFolderFilesMutex.Unlock() fake.NeedFolderFilesStub = nil fake.needFolderFilesReturns = struct { result1 []db.FileInfoTruncated result2 []db.FileInfoTruncated result3 []db.FileInfoTruncated result4 error }{result1, result2, result3, result4} } func (fake *Model) NeedFolderFilesReturnsOnCall(i int, result1 []db.FileInfoTruncated, result2 []db.FileInfoTruncated, result3 []db.FileInfoTruncated, result4 error) { fake.needFolderFilesMutex.Lock() defer fake.needFolderFilesMutex.Unlock() fake.NeedFolderFilesStub = nil if fake.needFolderFilesReturnsOnCall == nil { fake.needFolderFilesReturnsOnCall = make(map[int]struct { result1 []db.FileInfoTruncated result2 []db.FileInfoTruncated result3 []db.FileInfoTruncated result4 error }) } fake.needFolderFilesReturnsOnCall[i] = struct { result1 []db.FileInfoTruncated result2 []db.FileInfoTruncated result3 []db.FileInfoTruncated result4 error }{result1, result2, result3, result4} } func (fake *Model) NumConnections() int { fake.numConnectionsMutex.Lock() ret, specificReturn := fake.numConnectionsReturnsOnCall[len(fake.numConnectionsArgsForCall)] fake.numConnectionsArgsForCall = append(fake.numConnectionsArgsForCall, struct { }{}) stub := fake.NumConnectionsStub fakeReturns := fake.numConnectionsReturns fake.recordInvocation("NumConnections", []interface{}{}) fake.numConnectionsMutex.Unlock() if stub != nil { return stub() } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) NumConnectionsCallCount() int { fake.numConnectionsMutex.RLock() defer fake.numConnectionsMutex.RUnlock() return len(fake.numConnectionsArgsForCall) } func (fake *Model) NumConnectionsCalls(stub func() int) { fake.numConnectionsMutex.Lock() defer fake.numConnectionsMutex.Unlock() fake.NumConnectionsStub = stub } func (fake *Model) NumConnectionsReturns(result1 int) { fake.numConnectionsMutex.Lock() defer fake.numConnectionsMutex.Unlock() fake.NumConnectionsStub = nil fake.numConnectionsReturns = struct { result1 int }{result1} } func (fake *Model) NumConnectionsReturnsOnCall(i int, result1 int) { fake.numConnectionsMutex.Lock() defer fake.numConnectionsMutex.Unlock() fake.NumConnectionsStub = nil if fake.numConnectionsReturnsOnCall == nil { fake.numConnectionsReturnsOnCall = make(map[int]struct { result1 int }) } fake.numConnectionsReturnsOnCall[i] = struct { result1 int }{result1} } func (fake *Model) OnHello(arg1 protocol.DeviceID, arg2 net.Addr, arg3 protocol.Hello) error { fake.onHelloMutex.Lock() ret, specificReturn := fake.onHelloReturnsOnCall[len(fake.onHelloArgsForCall)] fake.onHelloArgsForCall = append(fake.onHelloArgsForCall, struct { arg1 protocol.DeviceID arg2 net.Addr arg3 protocol.Hello }{arg1, arg2, arg3}) stub := fake.OnHelloStub fakeReturns := fake.onHelloReturns fake.recordInvocation("OnHello", []interface{}{arg1, arg2, arg3}) fake.onHelloMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) OnHelloCallCount() int { fake.onHelloMutex.RLock() defer fake.onHelloMutex.RUnlock() return len(fake.onHelloArgsForCall) } func (fake *Model) OnHelloCalls(stub func(protocol.DeviceID, net.Addr, protocol.Hello) error) { fake.onHelloMutex.Lock() defer fake.onHelloMutex.Unlock() fake.OnHelloStub = stub } func (fake *Model) OnHelloArgsForCall(i int) (protocol.DeviceID, net.Addr, protocol.Hello) { fake.onHelloMutex.RLock() defer fake.onHelloMutex.RUnlock() argsForCall := fake.onHelloArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) OnHelloReturns(result1 error) { fake.onHelloMutex.Lock() defer fake.onHelloMutex.Unlock() fake.OnHelloStub = nil fake.onHelloReturns = struct { result1 error }{result1} } func (fake *Model) OnHelloReturnsOnCall(i int, result1 error) { fake.onHelloMutex.Lock() defer fake.onHelloMutex.Unlock() fake.OnHelloStub = nil if fake.onHelloReturnsOnCall == nil { fake.onHelloReturnsOnCall = make(map[int]struct { result1 error }) } fake.onHelloReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) Override(arg1 string) { fake.overrideMutex.Lock() fake.overrideArgsForCall = append(fake.overrideArgsForCall, struct { arg1 string }{arg1}) stub := fake.OverrideStub fake.recordInvocation("Override", []interface{}{arg1}) fake.overrideMutex.Unlock() if stub != nil { fake.OverrideStub(arg1) } } func (fake *Model) OverrideCallCount() int { fake.overrideMutex.RLock() defer fake.overrideMutex.RUnlock() return len(fake.overrideArgsForCall) } func (fake *Model) OverrideCalls(stub func(string)) { fake.overrideMutex.Lock() defer fake.overrideMutex.Unlock() fake.OverrideStub = stub } func (fake *Model) OverrideArgsForCall(i int) string { fake.overrideMutex.RLock() defer fake.overrideMutex.RUnlock() argsForCall := fake.overrideArgsForCall[i] return argsForCall.arg1 } func (fake *Model) PendingDevices() (map[protocol.DeviceID]db.ObservedDevice, error) { fake.pendingDevicesMutex.Lock() ret, specificReturn := fake.pendingDevicesReturnsOnCall[len(fake.pendingDevicesArgsForCall)] fake.pendingDevicesArgsForCall = append(fake.pendingDevicesArgsForCall, struct { }{}) stub := fake.PendingDevicesStub fakeReturns := fake.pendingDevicesReturns fake.recordInvocation("PendingDevices", []interface{}{}) fake.pendingDevicesMutex.Unlock() if stub != nil { return stub() } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) PendingDevicesCallCount() int { fake.pendingDevicesMutex.RLock() defer fake.pendingDevicesMutex.RUnlock() return len(fake.pendingDevicesArgsForCall) } func (fake *Model) PendingDevicesCalls(stub func() (map[protocol.DeviceID]db.ObservedDevice, error)) { fake.pendingDevicesMutex.Lock() defer fake.pendingDevicesMutex.Unlock() fake.PendingDevicesStub = stub } func (fake *Model) PendingDevicesReturns(result1 map[protocol.DeviceID]db.ObservedDevice, result2 error) { fake.pendingDevicesMutex.Lock() defer fake.pendingDevicesMutex.Unlock() fake.PendingDevicesStub = nil fake.pendingDevicesReturns = struct { result1 map[protocol.DeviceID]db.ObservedDevice result2 error }{result1, result2} } func (fake *Model) PendingDevicesReturnsOnCall(i int, result1 map[protocol.DeviceID]db.ObservedDevice, result2 error) { fake.pendingDevicesMutex.Lock() defer fake.pendingDevicesMutex.Unlock() fake.PendingDevicesStub = nil if fake.pendingDevicesReturnsOnCall == nil { fake.pendingDevicesReturnsOnCall = make(map[int]struct { result1 map[protocol.DeviceID]db.ObservedDevice result2 error }) } fake.pendingDevicesReturnsOnCall[i] = struct { result1 map[protocol.DeviceID]db.ObservedDevice result2 error }{result1, result2} } func (fake *Model) PendingFolders(arg1 protocol.DeviceID) (map[string]db.PendingFolder, error) { fake.pendingFoldersMutex.Lock() ret, specificReturn := fake.pendingFoldersReturnsOnCall[len(fake.pendingFoldersArgsForCall)] fake.pendingFoldersArgsForCall = append(fake.pendingFoldersArgsForCall, struct { arg1 protocol.DeviceID }{arg1}) stub := fake.PendingFoldersStub fakeReturns := fake.pendingFoldersReturns fake.recordInvocation("PendingFolders", []interface{}{arg1}) fake.pendingFoldersMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) PendingFoldersCallCount() int { fake.pendingFoldersMutex.RLock() defer fake.pendingFoldersMutex.RUnlock() return len(fake.pendingFoldersArgsForCall) } func (fake *Model) PendingFoldersCalls(stub func(protocol.DeviceID) (map[string]db.PendingFolder, error)) { fake.pendingFoldersMutex.Lock() defer fake.pendingFoldersMutex.Unlock() fake.PendingFoldersStub = stub } func (fake *Model) PendingFoldersArgsForCall(i int) protocol.DeviceID { fake.pendingFoldersMutex.RLock() defer fake.pendingFoldersMutex.RUnlock() argsForCall := fake.pendingFoldersArgsForCall[i] return argsForCall.arg1 } func (fake *Model) PendingFoldersReturns(result1 map[string]db.PendingFolder, result2 error) { fake.pendingFoldersMutex.Lock() defer fake.pendingFoldersMutex.Unlock() fake.PendingFoldersStub = nil fake.pendingFoldersReturns = struct { result1 map[string]db.PendingFolder result2 error }{result1, result2} } func (fake *Model) PendingFoldersReturnsOnCall(i int, result1 map[string]db.PendingFolder, result2 error) { fake.pendingFoldersMutex.Lock() defer fake.pendingFoldersMutex.Unlock() fake.PendingFoldersStub = nil if fake.pendingFoldersReturnsOnCall == nil { fake.pendingFoldersReturnsOnCall = make(map[int]struct { result1 map[string]db.PendingFolder result2 error }) } fake.pendingFoldersReturnsOnCall[i] = struct { result1 map[string]db.PendingFolder result2 error }{result1, result2} } func (fake *Model) RemoteNeedFolderFiles(arg1 string, arg2 protocol.DeviceID, arg3 int, arg4 int) ([]db.FileInfoTruncated, error) { fake.remoteNeedFolderFilesMutex.Lock() ret, specificReturn := fake.remoteNeedFolderFilesReturnsOnCall[len(fake.remoteNeedFolderFilesArgsForCall)] fake.remoteNeedFolderFilesArgsForCall = append(fake.remoteNeedFolderFilesArgsForCall, struct { arg1 string arg2 protocol.DeviceID arg3 int arg4 int }{arg1, arg2, arg3, arg4}) stub := fake.RemoteNeedFolderFilesStub fakeReturns := fake.remoteNeedFolderFilesReturns fake.recordInvocation("RemoteNeedFolderFiles", []interface{}{arg1, arg2, arg3, arg4}) fake.remoteNeedFolderFilesMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3, arg4) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) RemoteNeedFolderFilesCallCount() int { fake.remoteNeedFolderFilesMutex.RLock() defer fake.remoteNeedFolderFilesMutex.RUnlock() return len(fake.remoteNeedFolderFilesArgsForCall) } func (fake *Model) RemoteNeedFolderFilesCalls(stub func(string, protocol.DeviceID, int, int) ([]db.FileInfoTruncated, error)) { fake.remoteNeedFolderFilesMutex.Lock() defer fake.remoteNeedFolderFilesMutex.Unlock() fake.RemoteNeedFolderFilesStub = stub } func (fake *Model) RemoteNeedFolderFilesArgsForCall(i int) (string, protocol.DeviceID, int, int) { fake.remoteNeedFolderFilesMutex.RLock() defer fake.remoteNeedFolderFilesMutex.RUnlock() argsForCall := fake.remoteNeedFolderFilesArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3, argsForCall.arg4 } func (fake *Model) RemoteNeedFolderFilesReturns(result1 []db.FileInfoTruncated, result2 error) { fake.remoteNeedFolderFilesMutex.Lock() defer fake.remoteNeedFolderFilesMutex.Unlock() fake.RemoteNeedFolderFilesStub = nil fake.remoteNeedFolderFilesReturns = struct { result1 []db.FileInfoTruncated result2 error }{result1, result2} } func (fake *Model) RemoteNeedFolderFilesReturnsOnCall(i int, result1 []db.FileInfoTruncated, result2 error) { fake.remoteNeedFolderFilesMutex.Lock() defer fake.remoteNeedFolderFilesMutex.Unlock() fake.RemoteNeedFolderFilesStub = nil if fake.remoteNeedFolderFilesReturnsOnCall == nil { fake.remoteNeedFolderFilesReturnsOnCall = make(map[int]struct { result1 []db.FileInfoTruncated result2 error }) } fake.remoteNeedFolderFilesReturnsOnCall[i] = struct { result1 []db.FileInfoTruncated result2 error }{result1, result2} } func (fake *Model) Request(arg1 protocol.DeviceID, arg2 string, arg3 string, arg4 int32, arg5 int32, arg6 int64, arg7 []byte, arg8 uint32, arg9 bool) (protocol.RequestResponse, error) { var arg7Copy []byte if arg7 != nil { arg7Copy = make([]byte, len(arg7)) copy(arg7Copy, arg7) } fake.requestMutex.Lock() ret, specificReturn := fake.requestReturnsOnCall[len(fake.requestArgsForCall)] fake.requestArgsForCall = append(fake.requestArgsForCall, struct { arg1 protocol.DeviceID arg2 string arg3 string arg4 int32 arg5 int32 arg6 int64 arg7 []byte arg8 uint32 arg9 bool }{arg1, arg2, arg3, arg4, arg5, arg6, arg7Copy, arg8, arg9}) stub := fake.RequestStub fakeReturns := fake.requestReturns fake.recordInvocation("Request", []interface{}{arg1, arg2, arg3, arg4, arg5, arg6, arg7Copy, arg8, arg9}) fake.requestMutex.Unlock() if stub != nil { return stub(arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) RequestCallCount() int { fake.requestMutex.RLock() defer fake.requestMutex.RUnlock() return len(fake.requestArgsForCall) } func (fake *Model) RequestCalls(stub func(protocol.DeviceID, string, string, int32, int32, int64, []byte, uint32, bool) (protocol.RequestResponse, error)) { fake.requestMutex.Lock() defer fake.requestMutex.Unlock() fake.RequestStub = stub } func (fake *Model) RequestArgsForCall(i int) (protocol.DeviceID, string, string, int32, int32, int64, []byte, uint32, bool) { fake.requestMutex.RLock() defer fake.requestMutex.RUnlock() argsForCall := fake.requestArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3, argsForCall.arg4, argsForCall.arg5, argsForCall.arg6, argsForCall.arg7, argsForCall.arg8, argsForCall.arg9 } func (fake *Model) RequestReturns(result1 protocol.RequestResponse, result2 error) { fake.requestMutex.Lock() defer fake.requestMutex.Unlock() fake.RequestStub = nil fake.requestReturns = struct { result1 protocol.RequestResponse result2 error }{result1, result2} } func (fake *Model) RequestReturnsOnCall(i int, result1 protocol.RequestResponse, result2 error) { fake.requestMutex.Lock() defer fake.requestMutex.Unlock() fake.RequestStub = nil if fake.requestReturnsOnCall == nil { fake.requestReturnsOnCall = make(map[int]struct { result1 protocol.RequestResponse result2 error }) } fake.requestReturnsOnCall[i] = struct { result1 protocol.RequestResponse result2 error }{result1, result2} } func (fake *Model) ResetFolder(arg1 string) { fake.resetFolderMutex.Lock() fake.resetFolderArgsForCall = append(fake.resetFolderArgsForCall, struct { arg1 string }{arg1}) stub := fake.ResetFolderStub fake.recordInvocation("ResetFolder", []interface{}{arg1}) fake.resetFolderMutex.Unlock() if stub != nil { fake.ResetFolderStub(arg1) } } func (fake *Model) ResetFolderCallCount() int { fake.resetFolderMutex.RLock() defer fake.resetFolderMutex.RUnlock() return len(fake.resetFolderArgsForCall) } func (fake *Model) ResetFolderCalls(stub func(string)) { fake.resetFolderMutex.Lock() defer fake.resetFolderMutex.Unlock() fake.ResetFolderStub = stub } func (fake *Model) ResetFolderArgsForCall(i int) string { fake.resetFolderMutex.RLock() defer fake.resetFolderMutex.RUnlock() argsForCall := fake.resetFolderArgsForCall[i] return argsForCall.arg1 } func (fake *Model) RestoreFolderVersions(arg1 string, arg2 map[string]time.Time) (map[string]error, error) { fake.restoreFolderVersionsMutex.Lock() ret, specificReturn := fake.restoreFolderVersionsReturnsOnCall[len(fake.restoreFolderVersionsArgsForCall)] fake.restoreFolderVersionsArgsForCall = append(fake.restoreFolderVersionsArgsForCall, struct { arg1 string arg2 map[string]time.Time }{arg1, arg2}) stub := fake.RestoreFolderVersionsStub fakeReturns := fake.restoreFolderVersionsReturns fake.recordInvocation("RestoreFolderVersions", []interface{}{arg1, arg2}) fake.restoreFolderVersionsMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1, ret.result2 } return fakeReturns.result1, fakeReturns.result2 } func (fake *Model) RestoreFolderVersionsCallCount() int { fake.restoreFolderVersionsMutex.RLock() defer fake.restoreFolderVersionsMutex.RUnlock() return len(fake.restoreFolderVersionsArgsForCall) } func (fake *Model) RestoreFolderVersionsCalls(stub func(string, map[string]time.Time) (map[string]error, error)) { fake.restoreFolderVersionsMutex.Lock() defer fake.restoreFolderVersionsMutex.Unlock() fake.RestoreFolderVersionsStub = stub } func (fake *Model) RestoreFolderVersionsArgsForCall(i int) (string, map[string]time.Time) { fake.restoreFolderVersionsMutex.RLock() defer fake.restoreFolderVersionsMutex.RUnlock() argsForCall := fake.restoreFolderVersionsArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) RestoreFolderVersionsReturns(result1 map[string]error, result2 error) { fake.restoreFolderVersionsMutex.Lock() defer fake.restoreFolderVersionsMutex.Unlock() fake.RestoreFolderVersionsStub = nil fake.restoreFolderVersionsReturns = struct { result1 map[string]error result2 error }{result1, result2} } func (fake *Model) RestoreFolderVersionsReturnsOnCall(i int, result1 map[string]error, result2 error) { fake.restoreFolderVersionsMutex.Lock() defer fake.restoreFolderVersionsMutex.Unlock() fake.RestoreFolderVersionsStub = nil if fake.restoreFolderVersionsReturnsOnCall == nil { fake.restoreFolderVersionsReturnsOnCall = make(map[int]struct { result1 map[string]error result2 error }) } fake.restoreFolderVersionsReturnsOnCall[i] = struct { result1 map[string]error result2 error }{result1, result2} } func (fake *Model) Revert(arg1 string) { fake.revertMutex.Lock() fake.revertArgsForCall = append(fake.revertArgsForCall, struct { arg1 string }{arg1}) stub := fake.RevertStub fake.recordInvocation("Revert", []interface{}{arg1}) fake.revertMutex.Unlock() if stub != nil { fake.RevertStub(arg1) } } func (fake *Model) RevertCallCount() int { fake.revertMutex.RLock() defer fake.revertMutex.RUnlock() return len(fake.revertArgsForCall) } func (fake *Model) RevertCalls(stub func(string)) { fake.revertMutex.Lock() defer fake.revertMutex.Unlock() fake.RevertStub = stub } func (fake *Model) RevertArgsForCall(i int) string { fake.revertMutex.RLock() defer fake.revertMutex.RUnlock() argsForCall := fake.revertArgsForCall[i] return argsForCall.arg1 } func (fake *Model) ScanFolder(arg1 string) error { fake.scanFolderMutex.Lock() ret, specificReturn := fake.scanFolderReturnsOnCall[len(fake.scanFolderArgsForCall)] fake.scanFolderArgsForCall = append(fake.scanFolderArgsForCall, struct { arg1 string }{arg1}) stub := fake.ScanFolderStub fakeReturns := fake.scanFolderReturns fake.recordInvocation("ScanFolder", []interface{}{arg1}) fake.scanFolderMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) ScanFolderCallCount() int { fake.scanFolderMutex.RLock() defer fake.scanFolderMutex.RUnlock() return len(fake.scanFolderArgsForCall) } func (fake *Model) ScanFolderCalls(stub func(string) error) { fake.scanFolderMutex.Lock() defer fake.scanFolderMutex.Unlock() fake.ScanFolderStub = stub } func (fake *Model) ScanFolderArgsForCall(i int) string { fake.scanFolderMutex.RLock() defer fake.scanFolderMutex.RUnlock() argsForCall := fake.scanFolderArgsForCall[i] return argsForCall.arg1 } func (fake *Model) ScanFolderReturns(result1 error) { fake.scanFolderMutex.Lock() defer fake.scanFolderMutex.Unlock() fake.ScanFolderStub = nil fake.scanFolderReturns = struct { result1 error }{result1} } func (fake *Model) ScanFolderReturnsOnCall(i int, result1 error) { fake.scanFolderMutex.Lock() defer fake.scanFolderMutex.Unlock() fake.ScanFolderStub = nil if fake.scanFolderReturnsOnCall == nil { fake.scanFolderReturnsOnCall = make(map[int]struct { result1 error }) } fake.scanFolderReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) ScanFolderSubdirs(arg1 string, arg2 []string) error { var arg2Copy []string if arg2 != nil { arg2Copy = make([]string, len(arg2)) copy(arg2Copy, arg2) } fake.scanFolderSubdirsMutex.Lock() ret, specificReturn := fake.scanFolderSubdirsReturnsOnCall[len(fake.scanFolderSubdirsArgsForCall)] fake.scanFolderSubdirsArgsForCall = append(fake.scanFolderSubdirsArgsForCall, struct { arg1 string arg2 []string }{arg1, arg2Copy}) stub := fake.ScanFolderSubdirsStub fakeReturns := fake.scanFolderSubdirsReturns fake.recordInvocation("ScanFolderSubdirs", []interface{}{arg1, arg2Copy}) fake.scanFolderSubdirsMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) ScanFolderSubdirsCallCount() int { fake.scanFolderSubdirsMutex.RLock() defer fake.scanFolderSubdirsMutex.RUnlock() return len(fake.scanFolderSubdirsArgsForCall) } func (fake *Model) ScanFolderSubdirsCalls(stub func(string, []string) error) { fake.scanFolderSubdirsMutex.Lock() defer fake.scanFolderSubdirsMutex.Unlock() fake.ScanFolderSubdirsStub = stub } func (fake *Model) ScanFolderSubdirsArgsForCall(i int) (string, []string) { fake.scanFolderSubdirsMutex.RLock() defer fake.scanFolderSubdirsMutex.RUnlock() argsForCall := fake.scanFolderSubdirsArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) ScanFolderSubdirsReturns(result1 error) { fake.scanFolderSubdirsMutex.Lock() defer fake.scanFolderSubdirsMutex.Unlock() fake.ScanFolderSubdirsStub = nil fake.scanFolderSubdirsReturns = struct { result1 error }{result1} } func (fake *Model) ScanFolderSubdirsReturnsOnCall(i int, result1 error) { fake.scanFolderSubdirsMutex.Lock() defer fake.scanFolderSubdirsMutex.Unlock() fake.ScanFolderSubdirsStub = nil if fake.scanFolderSubdirsReturnsOnCall == nil { fake.scanFolderSubdirsReturnsOnCall = make(map[int]struct { result1 error }) } fake.scanFolderSubdirsReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) ScanFolders() map[string]error { fake.scanFoldersMutex.Lock() ret, specificReturn := fake.scanFoldersReturnsOnCall[len(fake.scanFoldersArgsForCall)] fake.scanFoldersArgsForCall = append(fake.scanFoldersArgsForCall, struct { }{}) stub := fake.ScanFoldersStub fakeReturns := fake.scanFoldersReturns fake.recordInvocation("ScanFolders", []interface{}{}) fake.scanFoldersMutex.Unlock() if stub != nil { return stub() } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) ScanFoldersCallCount() int { fake.scanFoldersMutex.RLock() defer fake.scanFoldersMutex.RUnlock() return len(fake.scanFoldersArgsForCall) } func (fake *Model) ScanFoldersCalls(stub func() map[string]error) { fake.scanFoldersMutex.Lock() defer fake.scanFoldersMutex.Unlock() fake.ScanFoldersStub = stub } func (fake *Model) ScanFoldersReturns(result1 map[string]error) { fake.scanFoldersMutex.Lock() defer fake.scanFoldersMutex.Unlock() fake.ScanFoldersStub = nil fake.scanFoldersReturns = struct { result1 map[string]error }{result1} } func (fake *Model) ScanFoldersReturnsOnCall(i int, result1 map[string]error) { fake.scanFoldersMutex.Lock() defer fake.scanFoldersMutex.Unlock() fake.ScanFoldersStub = nil if fake.scanFoldersReturnsOnCall == nil { fake.scanFoldersReturnsOnCall = make(map[int]struct { result1 map[string]error }) } fake.scanFoldersReturnsOnCall[i] = struct { result1 map[string]error }{result1} } func (fake *Model) Serve(arg1 context.Context) error { fake.serveMutex.Lock() ret, specificReturn := fake.serveReturnsOnCall[len(fake.serveArgsForCall)] fake.serveArgsForCall = append(fake.serveArgsForCall, struct { arg1 context.Context }{arg1}) stub := fake.ServeStub fakeReturns := fake.serveReturns fake.recordInvocation("Serve", []interface{}{arg1}) fake.serveMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) ServeCallCount() int { fake.serveMutex.RLock() defer fake.serveMutex.RUnlock() return len(fake.serveArgsForCall) } func (fake *Model) ServeCalls(stub func(context.Context) error) { fake.serveMutex.Lock() defer fake.serveMutex.Unlock() fake.ServeStub = stub } func (fake *Model) ServeArgsForCall(i int) context.Context { fake.serveMutex.RLock() defer fake.serveMutex.RUnlock() argsForCall := fake.serveArgsForCall[i] return argsForCall.arg1 } func (fake *Model) ServeReturns(result1 error) { fake.serveMutex.Lock() defer fake.serveMutex.Unlock() fake.ServeStub = nil fake.serveReturns = struct { result1 error }{result1} } func (fake *Model) ServeReturnsOnCall(i int, result1 error) { fake.serveMutex.Lock() defer fake.serveMutex.Unlock() fake.ServeStub = nil if fake.serveReturnsOnCall == nil { fake.serveReturnsOnCall = make(map[int]struct { result1 error }) } fake.serveReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) SetIgnores(arg1 string, arg2 []string) error { var arg2Copy []string if arg2 != nil { arg2Copy = make([]string, len(arg2)) copy(arg2Copy, arg2) } fake.setIgnoresMutex.Lock() ret, specificReturn := fake.setIgnoresReturnsOnCall[len(fake.setIgnoresArgsForCall)] fake.setIgnoresArgsForCall = append(fake.setIgnoresArgsForCall, struct { arg1 string arg2 []string }{arg1, arg2Copy}) stub := fake.SetIgnoresStub fakeReturns := fake.setIgnoresReturns fake.recordInvocation("SetIgnores", []interface{}{arg1, arg2Copy}) fake.setIgnoresMutex.Unlock() if stub != nil { return stub(arg1, arg2) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) SetIgnoresCallCount() int { fake.setIgnoresMutex.RLock() defer fake.setIgnoresMutex.RUnlock() return len(fake.setIgnoresArgsForCall) } func (fake *Model) SetIgnoresCalls(stub func(string, []string) error) { fake.setIgnoresMutex.Lock() defer fake.setIgnoresMutex.Unlock() fake.SetIgnoresStub = stub } func (fake *Model) SetIgnoresArgsForCall(i int) (string, []string) { fake.setIgnoresMutex.RLock() defer fake.setIgnoresMutex.RUnlock() argsForCall := fake.setIgnoresArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Model) SetIgnoresReturns(result1 error) { fake.setIgnoresMutex.Lock() defer fake.setIgnoresMutex.Unlock() fake.SetIgnoresStub = nil fake.setIgnoresReturns = struct { result1 error }{result1} } func (fake *Model) SetIgnoresReturnsOnCall(i int, result1 error) { fake.setIgnoresMutex.Lock() defer fake.setIgnoresMutex.Unlock() fake.SetIgnoresStub = nil if fake.setIgnoresReturnsOnCall == nil { fake.setIgnoresReturnsOnCall = make(map[int]struct { result1 error }) } fake.setIgnoresReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) StartDeadlockDetector(arg1 time.Duration) { fake.startDeadlockDetectorMutex.Lock() fake.startDeadlockDetectorArgsForCall = append(fake.startDeadlockDetectorArgsForCall, struct { arg1 time.Duration }{arg1}) stub := fake.StartDeadlockDetectorStub fake.recordInvocation("StartDeadlockDetector", []interface{}{arg1}) fake.startDeadlockDetectorMutex.Unlock() if stub != nil { fake.StartDeadlockDetectorStub(arg1) } } func (fake *Model) StartDeadlockDetectorCallCount() int { fake.startDeadlockDetectorMutex.RLock() defer fake.startDeadlockDetectorMutex.RUnlock() return len(fake.startDeadlockDetectorArgsForCall) } func (fake *Model) StartDeadlockDetectorCalls(stub func(time.Duration)) { fake.startDeadlockDetectorMutex.Lock() defer fake.startDeadlockDetectorMutex.Unlock() fake.StartDeadlockDetectorStub = stub } func (fake *Model) StartDeadlockDetectorArgsForCall(i int) time.Duration { fake.startDeadlockDetectorMutex.RLock() defer fake.startDeadlockDetectorMutex.RUnlock() argsForCall := fake.startDeadlockDetectorArgsForCall[i] return argsForCall.arg1 } func (fake *Model) State(arg1 string) (string, time.Time, error) { fake.stateMutex.Lock() ret, specificReturn := fake.stateReturnsOnCall[len(fake.stateArgsForCall)] fake.stateArgsForCall = append(fake.stateArgsForCall, struct { arg1 string }{arg1}) stub := fake.StateStub fakeReturns := fake.stateReturns fake.recordInvocation("State", []interface{}{arg1}) fake.stateMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1, ret.result2, ret.result3 } return fakeReturns.result1, fakeReturns.result2, fakeReturns.result3 } func (fake *Model) StateCallCount() int { fake.stateMutex.RLock() defer fake.stateMutex.RUnlock() return len(fake.stateArgsForCall) } func (fake *Model) StateCalls(stub func(string) (string, time.Time, error)) { fake.stateMutex.Lock() defer fake.stateMutex.Unlock() fake.StateStub = stub } func (fake *Model) StateArgsForCall(i int) string { fake.stateMutex.RLock() defer fake.stateMutex.RUnlock() argsForCall := fake.stateArgsForCall[i] return argsForCall.arg1 } func (fake *Model) StateReturns(result1 string, result2 time.Time, result3 error) { fake.stateMutex.Lock() defer fake.stateMutex.Unlock() fake.StateStub = nil fake.stateReturns = struct { result1 string result2 time.Time result3 error }{result1, result2, result3} } func (fake *Model) StateReturnsOnCall(i int, result1 string, result2 time.Time, result3 error) { fake.stateMutex.Lock() defer fake.stateMutex.Unlock() fake.StateStub = nil if fake.stateReturnsOnCall == nil { fake.stateReturnsOnCall = make(map[int]struct { result1 string result2 time.Time result3 error }) } fake.stateReturnsOnCall[i] = struct { result1 string result2 time.Time result3 error }{result1, result2, result3} } func (fake *Model) UsageReportingStats(arg1 *contract.Report, arg2 int, arg3 bool) { fake.usageReportingStatsMutex.Lock() fake.usageReportingStatsArgsForCall = append(fake.usageReportingStatsArgsForCall, struct { arg1 *contract.Report arg2 int arg3 bool }{arg1, arg2, arg3}) stub := fake.UsageReportingStatsStub fake.recordInvocation("UsageReportingStats", []interface{}{arg1, arg2, arg3}) fake.usageReportingStatsMutex.Unlock() if stub != nil { fake.UsageReportingStatsStub(arg1, arg2, arg3) } } func (fake *Model) UsageReportingStatsCallCount() int { fake.usageReportingStatsMutex.RLock() defer fake.usageReportingStatsMutex.RUnlock() return len(fake.usageReportingStatsArgsForCall) } func (fake *Model) UsageReportingStatsCalls(stub func(*contract.Report, int, bool)) { fake.usageReportingStatsMutex.Lock() defer fake.usageReportingStatsMutex.Unlock() fake.UsageReportingStatsStub = stub } func (fake *Model) UsageReportingStatsArgsForCall(i int) (*contract.Report, int, bool) { fake.usageReportingStatsMutex.RLock() defer fake.usageReportingStatsMutex.RUnlock() argsForCall := fake.usageReportingStatsArgsForCall[i] return argsForCall.arg1, argsForCall.arg2, argsForCall.arg3 } func (fake *Model) WatchError(arg1 string) error { fake.watchErrorMutex.Lock() ret, specificReturn := fake.watchErrorReturnsOnCall[len(fake.watchErrorArgsForCall)] fake.watchErrorArgsForCall = append(fake.watchErrorArgsForCall, struct { arg1 string }{arg1}) stub := fake.WatchErrorStub fakeReturns := fake.watchErrorReturns fake.recordInvocation("WatchError", []interface{}{arg1}) fake.watchErrorMutex.Unlock() if stub != nil { return stub(arg1) } if specificReturn { return ret.result1 } return fakeReturns.result1 } func (fake *Model) WatchErrorCallCount() int { fake.watchErrorMutex.RLock() defer fake.watchErrorMutex.RUnlock() return len(fake.watchErrorArgsForCall) } func (fake *Model) WatchErrorCalls(stub func(string) error) { fake.watchErrorMutex.Lock() defer fake.watchErrorMutex.Unlock() fake.WatchErrorStub = stub } func (fake *Model) WatchErrorArgsForCall(i int) string { fake.watchErrorMutex.RLock() defer fake.watchErrorMutex.RUnlock() argsForCall := fake.watchErrorArgsForCall[i] return argsForCall.arg1 } func (fake *Model) WatchErrorReturns(result1 error) { fake.watchErrorMutex.Lock() defer fake.watchErrorMutex.Unlock() fake.WatchErrorStub = nil fake.watchErrorReturns = struct { result1 error }{result1} } func (fake *Model) WatchErrorReturnsOnCall(i int, result1 error) { fake.watchErrorMutex.Lock() defer fake.watchErrorMutex.Unlock() fake.WatchErrorStub = nil if fake.watchErrorReturnsOnCall == nil { fake.watchErrorReturnsOnCall = make(map[int]struct { result1 error }) } fake.watchErrorReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Model) Invocations() map[string][][]interface{} { fake.invocationsMutex.RLock() defer fake.invocationsMutex.RUnlock() fake.addConnectionMutex.RLock() defer fake.addConnectionMutex.RUnlock() fake.availabilityMutex.RLock() defer fake.availabilityMutex.RUnlock() fake.bringToFrontMutex.RLock() defer fake.bringToFrontMutex.RUnlock() fake.closedMutex.RLock() defer fake.closedMutex.RUnlock() fake.clusterConfigMutex.RLock() defer fake.clusterConfigMutex.RUnlock() fake.completionMutex.RLock() defer fake.completionMutex.RUnlock() fake.connectionMutex.RLock() defer fake.connectionMutex.RUnlock() fake.connectionStatsMutex.RLock() defer fake.connectionStatsMutex.RUnlock() fake.currentFolderFileMutex.RLock() defer fake.currentFolderFileMutex.RUnlock() fake.currentGlobalFileMutex.RLock() defer fake.currentGlobalFileMutex.RUnlock() fake.currentIgnoresMutex.RLock() defer fake.currentIgnoresMutex.RUnlock() fake.dBSnapshotMutex.RLock() defer fake.dBSnapshotMutex.RUnlock() fake.delayScanMutex.RLock() defer fake.delayScanMutex.RUnlock() fake.deviceStatisticsMutex.RLock() defer fake.deviceStatisticsMutex.RUnlock() fake.downloadProgressMutex.RLock() defer fake.downloadProgressMutex.RUnlock() fake.folderErrorsMutex.RLock() defer fake.folderErrorsMutex.RUnlock() fake.folderProgressBytesCompletedMutex.RLock() defer fake.folderProgressBytesCompletedMutex.RUnlock() fake.folderStatisticsMutex.RLock() defer fake.folderStatisticsMutex.RUnlock() fake.getFolderVersionsMutex.RLock() defer fake.getFolderVersionsMutex.RUnlock() fake.getHelloMutex.RLock() defer fake.getHelloMutex.RUnlock() fake.globalDirectoryTreeMutex.RLock() defer fake.globalDirectoryTreeMutex.RUnlock() fake.indexMutex.RLock() defer fake.indexMutex.RUnlock() fake.indexUpdateMutex.RLock() defer fake.indexUpdateMutex.RUnlock() fake.loadIgnoresMutex.RLock() defer fake.loadIgnoresMutex.RUnlock() fake.localChangedFolderFilesMutex.RLock() defer fake.localChangedFolderFilesMutex.RUnlock() fake.needFolderFilesMutex.RLock() defer fake.needFolderFilesMutex.RUnlock() fake.numConnectionsMutex.RLock() defer fake.numConnectionsMutex.RUnlock() fake.onHelloMutex.RLock() defer fake.onHelloMutex.RUnlock() fake.overrideMutex.RLock() defer fake.overrideMutex.RUnlock() fake.pendingDevicesMutex.RLock() defer fake.pendingDevicesMutex.RUnlock() fake.pendingFoldersMutex.RLock() defer fake.pendingFoldersMutex.RUnlock() fake.remoteNeedFolderFilesMutex.RLock() defer fake.remoteNeedFolderFilesMutex.RUnlock() fake.requestMutex.RLock() defer fake.requestMutex.RUnlock() fake.resetFolderMutex.RLock() defer fake.resetFolderMutex.RUnlock() fake.restoreFolderVersionsMutex.RLock() defer fake.restoreFolderVersionsMutex.RUnlock() fake.revertMutex.RLock() defer fake.revertMutex.RUnlock() fake.scanFolderMutex.RLock() defer fake.scanFolderMutex.RUnlock() fake.scanFolderSubdirsMutex.RLock() defer fake.scanFolderSubdirsMutex.RUnlock() fake.scanFoldersMutex.RLock() defer fake.scanFoldersMutex.RUnlock() fake.serveMutex.RLock() defer fake.serveMutex.RUnlock() fake.setIgnoresMutex.RLock() defer fake.setIgnoresMutex.RUnlock() fake.startDeadlockDetectorMutex.RLock() defer fake.startDeadlockDetectorMutex.RUnlock() fake.stateMutex.RLock() defer fake.stateMutex.RUnlock() fake.usageReportingStatsMutex.RLock() defer fake.usageReportingStatsMutex.RUnlock() fake.watchErrorMutex.RLock() defer fake.watchErrorMutex.RUnlock() copiedInvocations := map[string][][]interface{}{} for key, value := range fake.invocations { copiedInvocations[key] = value } return copiedInvocations } func (fake *Model) 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 _ model.Model = new(Model)