// Code generated by counterfeiter. DO NOT EDIT. package mock import ( "sync" "github.com/hyperledger/fabric/core/container/ccintf" ) type Runtime struct { BuildStub func(string) (*ccintf.ChaincodeServerInfo, error) buildMutex sync.RWMutex buildArgsForCall []struct { arg1 string } buildReturns struct { result1 *ccintf.ChaincodeServerInfo result2 error } buildReturnsOnCall map[int]struct { result1 *ccintf.ChaincodeServerInfo result2 error } StartStub func(string, *ccintf.PeerConnection) error startMutex sync.RWMutex startArgsForCall []struct { arg1 string arg2 *ccintf.PeerConnection } startReturns struct { result1 error } startReturnsOnCall map[int]struct { result1 error } StopStub func(string) error stopMutex sync.RWMutex stopArgsForCall []struct { arg1 string } stopReturns struct { result1 error } stopReturnsOnCall map[int]struct { result1 error } WaitStub func(string) (int, error) waitMutex sync.RWMutex waitArgsForCall []struct { arg1 string } waitReturns struct { result1 int result2 error } waitReturnsOnCall map[int]struct { result1 int result2 error } invocations map[string][][]interface{} invocationsMutex sync.RWMutex } func (fake *Runtime) Build(arg1 string) (*ccintf.ChaincodeServerInfo, error) { fake.buildMutex.Lock() ret, specificReturn := fake.buildReturnsOnCall[len(fake.buildArgsForCall)] fake.buildArgsForCall = append(fake.buildArgsForCall, struct { arg1 string }{arg1}) fake.recordInvocation("Build", []interface{}{arg1}) fake.buildMutex.Unlock() if fake.BuildStub != nil { return fake.BuildStub(arg1) } if specificReturn { return ret.result1, ret.result2 } fakeReturns := fake.buildReturns return fakeReturns.result1, fakeReturns.result2 } func (fake *Runtime) BuildCallCount() int { fake.buildMutex.RLock() defer fake.buildMutex.RUnlock() return len(fake.buildArgsForCall) } func (fake *Runtime) BuildCalls(stub func(string) (*ccintf.ChaincodeServerInfo, error)) { fake.buildMutex.Lock() defer fake.buildMutex.Unlock() fake.BuildStub = stub } func (fake *Runtime) BuildArgsForCall(i int) string { fake.buildMutex.RLock() defer fake.buildMutex.RUnlock() argsForCall := fake.buildArgsForCall[i] return argsForCall.arg1 } func (fake *Runtime) BuildReturns(result1 *ccintf.ChaincodeServerInfo, result2 error) { fake.buildMutex.Lock() defer fake.buildMutex.Unlock() fake.BuildStub = nil fake.buildReturns = struct { result1 *ccintf.ChaincodeServerInfo result2 error }{result1, result2} } func (fake *Runtime) BuildReturnsOnCall(i int, result1 *ccintf.ChaincodeServerInfo, result2 error) { fake.buildMutex.Lock() defer fake.buildMutex.Unlock() fake.BuildStub = nil if fake.buildReturnsOnCall == nil { fake.buildReturnsOnCall = make(map[int]struct { result1 *ccintf.ChaincodeServerInfo result2 error }) } fake.buildReturnsOnCall[i] = struct { result1 *ccintf.ChaincodeServerInfo result2 error }{result1, result2} } func (fake *Runtime) Start(arg1 string, arg2 *ccintf.PeerConnection) error { fake.startMutex.Lock() ret, specificReturn := fake.startReturnsOnCall[len(fake.startArgsForCall)] fake.startArgsForCall = append(fake.startArgsForCall, struct { arg1 string arg2 *ccintf.PeerConnection }{arg1, arg2}) fake.recordInvocation("Start", []interface{}{arg1, arg2}) fake.startMutex.Unlock() if fake.StartStub != nil { return fake.StartStub(arg1, arg2) } if specificReturn { return ret.result1 } fakeReturns := fake.startReturns return fakeReturns.result1 } func (fake *Runtime) StartCallCount() int { fake.startMutex.RLock() defer fake.startMutex.RUnlock() return len(fake.startArgsForCall) } func (fake *Runtime) StartCalls(stub func(string, *ccintf.PeerConnection) error) { fake.startMutex.Lock() defer fake.startMutex.Unlock() fake.StartStub = stub } func (fake *Runtime) StartArgsForCall(i int) (string, *ccintf.PeerConnection) { fake.startMutex.RLock() defer fake.startMutex.RUnlock() argsForCall := fake.startArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Runtime) StartReturns(result1 error) { fake.startMutex.Lock() defer fake.startMutex.Unlock() fake.StartStub = nil fake.startReturns = struct { result1 error }{result1} } func (fake *Runtime) StartReturnsOnCall(i int, result1 error) { fake.startMutex.Lock() defer fake.startMutex.Unlock() fake.StartStub = nil if fake.startReturnsOnCall == nil { fake.startReturnsOnCall = make(map[int]struct { result1 error }) } fake.startReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Runtime) Stop(arg1 string) error { fake.stopMutex.Lock() ret, specificReturn := fake.stopReturnsOnCall[len(fake.stopArgsForCall)] fake.stopArgsForCall = append(fake.stopArgsForCall, struct { arg1 string }{arg1}) fake.recordInvocation("Stop", []interface{}{arg1}) fake.stopMutex.Unlock() if fake.StopStub != nil { return fake.StopStub(arg1) } if specificReturn { return ret.result1 } fakeReturns := fake.stopReturns return fakeReturns.result1 } func (fake *Runtime) StopCallCount() int { fake.stopMutex.RLock() defer fake.stopMutex.RUnlock() return len(fake.stopArgsForCall) } func (fake *Runtime) StopCalls(stub func(string) error) { fake.stopMutex.Lock() defer fake.stopMutex.Unlock() fake.StopStub = stub } func (fake *Runtime) StopArgsForCall(i int) string { fake.stopMutex.RLock() defer fake.stopMutex.RUnlock() argsForCall := fake.stopArgsForCall[i] return argsForCall.arg1 } func (fake *Runtime) StopReturns(result1 error) { fake.stopMutex.Lock() defer fake.stopMutex.Unlock() fake.StopStub = nil fake.stopReturns = struct { result1 error }{result1} } func (fake *Runtime) StopReturnsOnCall(i int, result1 error) { fake.stopMutex.Lock() defer fake.stopMutex.Unlock() fake.StopStub = nil if fake.stopReturnsOnCall == nil { fake.stopReturnsOnCall = make(map[int]struct { result1 error }) } fake.stopReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Runtime) Wait(arg1 string) (int, error) { fake.waitMutex.Lock() ret, specificReturn := fake.waitReturnsOnCall[len(fake.waitArgsForCall)] fake.waitArgsForCall = append(fake.waitArgsForCall, struct { arg1 string }{arg1}) fake.recordInvocation("Wait", []interface{}{arg1}) fake.waitMutex.Unlock() if fake.WaitStub != nil { return fake.WaitStub(arg1) } if specificReturn { return ret.result1, ret.result2 } fakeReturns := fake.waitReturns return fakeReturns.result1, fakeReturns.result2 } func (fake *Runtime) WaitCallCount() int { fake.waitMutex.RLock() defer fake.waitMutex.RUnlock() return len(fake.waitArgsForCall) } func (fake *Runtime) WaitCalls(stub func(string) (int, error)) { fake.waitMutex.Lock() defer fake.waitMutex.Unlock() fake.WaitStub = stub } func (fake *Runtime) WaitArgsForCall(i int) string { fake.waitMutex.RLock() defer fake.waitMutex.RUnlock() argsForCall := fake.waitArgsForCall[i] return argsForCall.arg1 } func (fake *Runtime) WaitReturns(result1 int, result2 error) { fake.waitMutex.Lock() defer fake.waitMutex.Unlock() fake.WaitStub = nil fake.waitReturns = struct { result1 int result2 error }{result1, result2} } func (fake *Runtime) WaitReturnsOnCall(i int, result1 int, result2 error) { fake.waitMutex.Lock() defer fake.waitMutex.Unlock() fake.WaitStub = nil if fake.waitReturnsOnCall == nil { fake.waitReturnsOnCall = make(map[int]struct { result1 int result2 error }) } fake.waitReturnsOnCall[i] = struct { result1 int result2 error }{result1, result2} } func (fake *Runtime) Invocations() map[string][][]interface{} { fake.invocationsMutex.RLock() defer fake.invocationsMutex.RUnlock() fake.buildMutex.RLock() defer fake.buildMutex.RUnlock() fake.startMutex.RLock() defer fake.startMutex.RUnlock() fake.stopMutex.RLock() defer fake.stopMutex.RUnlock() fake.waitMutex.RLock() defer fake.waitMutex.RUnlock() copiedInvocations := map[string][][]interface{}{} for key, value := range fake.invocations { copiedInvocations[key] = value } return copiedInvocations } func (fake *Runtime) 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) }