// Code generated by counterfeiter. DO NOT EDIT. package mocks import ( "sync" "time" mspa "github.com/hyperledger/fabric-protos-go/msp" "github.com/hyperledger/fabric/msp" ) type Identity struct { AnonymousStub func() bool anonymousMutex sync.RWMutex anonymousArgsForCall []struct { } anonymousReturns struct { result1 bool } anonymousReturnsOnCall map[int]struct { result1 bool } ExpiresAtStub func() time.Time expiresAtMutex sync.RWMutex expiresAtArgsForCall []struct { } expiresAtReturns struct { result1 time.Time } expiresAtReturnsOnCall map[int]struct { result1 time.Time } GetIdentifierStub func() *msp.IdentityIdentifier getIdentifierMutex sync.RWMutex getIdentifierArgsForCall []struct { } getIdentifierReturns struct { result1 *msp.IdentityIdentifier } getIdentifierReturnsOnCall map[int]struct { result1 *msp.IdentityIdentifier } GetMSPIdentifierStub func() string getMSPIdentifierMutex sync.RWMutex getMSPIdentifierArgsForCall []struct { } getMSPIdentifierReturns struct { result1 string } getMSPIdentifierReturnsOnCall map[int]struct { result1 string } GetOrganizationalUnitsStub func() []*msp.OUIdentifier getOrganizationalUnitsMutex sync.RWMutex getOrganizationalUnitsArgsForCall []struct { } getOrganizationalUnitsReturns struct { result1 []*msp.OUIdentifier } getOrganizationalUnitsReturnsOnCall map[int]struct { result1 []*msp.OUIdentifier } SatisfiesPrincipalStub func(*mspa.MSPPrincipal) error satisfiesPrincipalMutex sync.RWMutex satisfiesPrincipalArgsForCall []struct { arg1 *mspa.MSPPrincipal } satisfiesPrincipalReturns struct { result1 error } satisfiesPrincipalReturnsOnCall map[int]struct { result1 error } SerializeStub func() ([]byte, error) serializeMutex sync.RWMutex serializeArgsForCall []struct { } serializeReturns struct { result1 []byte result2 error } serializeReturnsOnCall map[int]struct { result1 []byte result2 error } ValidateStub func() error validateMutex sync.RWMutex validateArgsForCall []struct { } validateReturns struct { result1 error } validateReturnsOnCall map[int]struct { result1 error } VerifyStub func([]byte, []byte) error verifyMutex sync.RWMutex verifyArgsForCall []struct { arg1 []byte arg2 []byte } verifyReturns struct { result1 error } verifyReturnsOnCall map[int]struct { result1 error } invocations map[string][][]interface{} invocationsMutex sync.RWMutex } func (fake *Identity) Anonymous() bool { fake.anonymousMutex.Lock() ret, specificReturn := fake.anonymousReturnsOnCall[len(fake.anonymousArgsForCall)] fake.anonymousArgsForCall = append(fake.anonymousArgsForCall, struct { }{}) fake.recordInvocation("Anonymous", []interface{}{}) fake.anonymousMutex.Unlock() if fake.AnonymousStub != nil { return fake.AnonymousStub() } if specificReturn { return ret.result1 } fakeReturns := fake.anonymousReturns return fakeReturns.result1 } func (fake *Identity) AnonymousCallCount() int { fake.anonymousMutex.RLock() defer fake.anonymousMutex.RUnlock() return len(fake.anonymousArgsForCall) } func (fake *Identity) AnonymousCalls(stub func() bool) { fake.anonymousMutex.Lock() defer fake.anonymousMutex.Unlock() fake.AnonymousStub = stub } func (fake *Identity) AnonymousReturns(result1 bool) { fake.anonymousMutex.Lock() defer fake.anonymousMutex.Unlock() fake.AnonymousStub = nil fake.anonymousReturns = struct { result1 bool }{result1} } func (fake *Identity) AnonymousReturnsOnCall(i int, result1 bool) { fake.anonymousMutex.Lock() defer fake.anonymousMutex.Unlock() fake.AnonymousStub = nil if fake.anonymousReturnsOnCall == nil { fake.anonymousReturnsOnCall = make(map[int]struct { result1 bool }) } fake.anonymousReturnsOnCall[i] = struct { result1 bool }{result1} } func (fake *Identity) ExpiresAt() time.Time { fake.expiresAtMutex.Lock() ret, specificReturn := fake.expiresAtReturnsOnCall[len(fake.expiresAtArgsForCall)] fake.expiresAtArgsForCall = append(fake.expiresAtArgsForCall, struct { }{}) fake.recordInvocation("ExpiresAt", []interface{}{}) fake.expiresAtMutex.Unlock() if fake.ExpiresAtStub != nil { return fake.ExpiresAtStub() } if specificReturn { return ret.result1 } fakeReturns := fake.expiresAtReturns return fakeReturns.result1 } func (fake *Identity) ExpiresAtCallCount() int { fake.expiresAtMutex.RLock() defer fake.expiresAtMutex.RUnlock() return len(fake.expiresAtArgsForCall) } func (fake *Identity) ExpiresAtCalls(stub func() time.Time) { fake.expiresAtMutex.Lock() defer fake.expiresAtMutex.Unlock() fake.ExpiresAtStub = stub } func (fake *Identity) ExpiresAtReturns(result1 time.Time) { fake.expiresAtMutex.Lock() defer fake.expiresAtMutex.Unlock() fake.ExpiresAtStub = nil fake.expiresAtReturns = struct { result1 time.Time }{result1} } func (fake *Identity) ExpiresAtReturnsOnCall(i int, result1 time.Time) { fake.expiresAtMutex.Lock() defer fake.expiresAtMutex.Unlock() fake.ExpiresAtStub = nil if fake.expiresAtReturnsOnCall == nil { fake.expiresAtReturnsOnCall = make(map[int]struct { result1 time.Time }) } fake.expiresAtReturnsOnCall[i] = struct { result1 time.Time }{result1} } func (fake *Identity) GetIdentifier() *msp.IdentityIdentifier { fake.getIdentifierMutex.Lock() ret, specificReturn := fake.getIdentifierReturnsOnCall[len(fake.getIdentifierArgsForCall)] fake.getIdentifierArgsForCall = append(fake.getIdentifierArgsForCall, struct { }{}) fake.recordInvocation("GetIdentifier", []interface{}{}) fake.getIdentifierMutex.Unlock() if fake.GetIdentifierStub != nil { return fake.GetIdentifierStub() } if specificReturn { return ret.result1 } fakeReturns := fake.getIdentifierReturns return fakeReturns.result1 } func (fake *Identity) GetIdentifierCallCount() int { fake.getIdentifierMutex.RLock() defer fake.getIdentifierMutex.RUnlock() return len(fake.getIdentifierArgsForCall) } func (fake *Identity) GetIdentifierCalls(stub func() *msp.IdentityIdentifier) { fake.getIdentifierMutex.Lock() defer fake.getIdentifierMutex.Unlock() fake.GetIdentifierStub = stub } func (fake *Identity) GetIdentifierReturns(result1 *msp.IdentityIdentifier) { fake.getIdentifierMutex.Lock() defer fake.getIdentifierMutex.Unlock() fake.GetIdentifierStub = nil fake.getIdentifierReturns = struct { result1 *msp.IdentityIdentifier }{result1} } func (fake *Identity) GetIdentifierReturnsOnCall(i int, result1 *msp.IdentityIdentifier) { fake.getIdentifierMutex.Lock() defer fake.getIdentifierMutex.Unlock() fake.GetIdentifierStub = nil if fake.getIdentifierReturnsOnCall == nil { fake.getIdentifierReturnsOnCall = make(map[int]struct { result1 *msp.IdentityIdentifier }) } fake.getIdentifierReturnsOnCall[i] = struct { result1 *msp.IdentityIdentifier }{result1} } func (fake *Identity) GetMSPIdentifier() string { fake.getMSPIdentifierMutex.Lock() ret, specificReturn := fake.getMSPIdentifierReturnsOnCall[len(fake.getMSPIdentifierArgsForCall)] fake.getMSPIdentifierArgsForCall = append(fake.getMSPIdentifierArgsForCall, struct { }{}) fake.recordInvocation("GetMSPIdentifier", []interface{}{}) fake.getMSPIdentifierMutex.Unlock() if fake.GetMSPIdentifierStub != nil { return fake.GetMSPIdentifierStub() } if specificReturn { return ret.result1 } fakeReturns := fake.getMSPIdentifierReturns return fakeReturns.result1 } func (fake *Identity) GetMSPIdentifierCallCount() int { fake.getMSPIdentifierMutex.RLock() defer fake.getMSPIdentifierMutex.RUnlock() return len(fake.getMSPIdentifierArgsForCall) } func (fake *Identity) GetMSPIdentifierCalls(stub func() string) { fake.getMSPIdentifierMutex.Lock() defer fake.getMSPIdentifierMutex.Unlock() fake.GetMSPIdentifierStub = stub } func (fake *Identity) GetMSPIdentifierReturns(result1 string) { fake.getMSPIdentifierMutex.Lock() defer fake.getMSPIdentifierMutex.Unlock() fake.GetMSPIdentifierStub = nil fake.getMSPIdentifierReturns = struct { result1 string }{result1} } func (fake *Identity) GetMSPIdentifierReturnsOnCall(i int, result1 string) { fake.getMSPIdentifierMutex.Lock() defer fake.getMSPIdentifierMutex.Unlock() fake.GetMSPIdentifierStub = nil if fake.getMSPIdentifierReturnsOnCall == nil { fake.getMSPIdentifierReturnsOnCall = make(map[int]struct { result1 string }) } fake.getMSPIdentifierReturnsOnCall[i] = struct { result1 string }{result1} } func (fake *Identity) GetOrganizationalUnits() []*msp.OUIdentifier { fake.getOrganizationalUnitsMutex.Lock() ret, specificReturn := fake.getOrganizationalUnitsReturnsOnCall[len(fake.getOrganizationalUnitsArgsForCall)] fake.getOrganizationalUnitsArgsForCall = append(fake.getOrganizationalUnitsArgsForCall, struct { }{}) fake.recordInvocation("GetOrganizationalUnits", []interface{}{}) fake.getOrganizationalUnitsMutex.Unlock() if fake.GetOrganizationalUnitsStub != nil { return fake.GetOrganizationalUnitsStub() } if specificReturn { return ret.result1 } fakeReturns := fake.getOrganizationalUnitsReturns return fakeReturns.result1 } func (fake *Identity) GetOrganizationalUnitsCallCount() int { fake.getOrganizationalUnitsMutex.RLock() defer fake.getOrganizationalUnitsMutex.RUnlock() return len(fake.getOrganizationalUnitsArgsForCall) } func (fake *Identity) GetOrganizationalUnitsCalls(stub func() []*msp.OUIdentifier) { fake.getOrganizationalUnitsMutex.Lock() defer fake.getOrganizationalUnitsMutex.Unlock() fake.GetOrganizationalUnitsStub = stub } func (fake *Identity) GetOrganizationalUnitsReturns(result1 []*msp.OUIdentifier) { fake.getOrganizationalUnitsMutex.Lock() defer fake.getOrganizationalUnitsMutex.Unlock() fake.GetOrganizationalUnitsStub = nil fake.getOrganizationalUnitsReturns = struct { result1 []*msp.OUIdentifier }{result1} } func (fake *Identity) GetOrganizationalUnitsReturnsOnCall(i int, result1 []*msp.OUIdentifier) { fake.getOrganizationalUnitsMutex.Lock() defer fake.getOrganizationalUnitsMutex.Unlock() fake.GetOrganizationalUnitsStub = nil if fake.getOrganizationalUnitsReturnsOnCall == nil { fake.getOrganizationalUnitsReturnsOnCall = make(map[int]struct { result1 []*msp.OUIdentifier }) } fake.getOrganizationalUnitsReturnsOnCall[i] = struct { result1 []*msp.OUIdentifier }{result1} } func (fake *Identity) SatisfiesPrincipal(arg1 *mspa.MSPPrincipal) error { fake.satisfiesPrincipalMutex.Lock() ret, specificReturn := fake.satisfiesPrincipalReturnsOnCall[len(fake.satisfiesPrincipalArgsForCall)] fake.satisfiesPrincipalArgsForCall = append(fake.satisfiesPrincipalArgsForCall, struct { arg1 *mspa.MSPPrincipal }{arg1}) fake.recordInvocation("SatisfiesPrincipal", []interface{}{arg1}) fake.satisfiesPrincipalMutex.Unlock() if fake.SatisfiesPrincipalStub != nil { return fake.SatisfiesPrincipalStub(arg1) } if specificReturn { return ret.result1 } fakeReturns := fake.satisfiesPrincipalReturns return fakeReturns.result1 } func (fake *Identity) SatisfiesPrincipalCallCount() int { fake.satisfiesPrincipalMutex.RLock() defer fake.satisfiesPrincipalMutex.RUnlock() return len(fake.satisfiesPrincipalArgsForCall) } func (fake *Identity) SatisfiesPrincipalCalls(stub func(*mspa.MSPPrincipal) error) { fake.satisfiesPrincipalMutex.Lock() defer fake.satisfiesPrincipalMutex.Unlock() fake.SatisfiesPrincipalStub = stub } func (fake *Identity) SatisfiesPrincipalArgsForCall(i int) *mspa.MSPPrincipal { fake.satisfiesPrincipalMutex.RLock() defer fake.satisfiesPrincipalMutex.RUnlock() argsForCall := fake.satisfiesPrincipalArgsForCall[i] return argsForCall.arg1 } func (fake *Identity) SatisfiesPrincipalReturns(result1 error) { fake.satisfiesPrincipalMutex.Lock() defer fake.satisfiesPrincipalMutex.Unlock() fake.SatisfiesPrincipalStub = nil fake.satisfiesPrincipalReturns = struct { result1 error }{result1} } func (fake *Identity) SatisfiesPrincipalReturnsOnCall(i int, result1 error) { fake.satisfiesPrincipalMutex.Lock() defer fake.satisfiesPrincipalMutex.Unlock() fake.SatisfiesPrincipalStub = nil if fake.satisfiesPrincipalReturnsOnCall == nil { fake.satisfiesPrincipalReturnsOnCall = make(map[int]struct { result1 error }) } fake.satisfiesPrincipalReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Identity) Serialize() ([]byte, error) { fake.serializeMutex.Lock() ret, specificReturn := fake.serializeReturnsOnCall[len(fake.serializeArgsForCall)] fake.serializeArgsForCall = append(fake.serializeArgsForCall, struct { }{}) fake.recordInvocation("Serialize", []interface{}{}) fake.serializeMutex.Unlock() if fake.SerializeStub != nil { return fake.SerializeStub() } if specificReturn { return ret.result1, ret.result2 } fakeReturns := fake.serializeReturns return fakeReturns.result1, fakeReturns.result2 } func (fake *Identity) SerializeCallCount() int { fake.serializeMutex.RLock() defer fake.serializeMutex.RUnlock() return len(fake.serializeArgsForCall) } func (fake *Identity) SerializeCalls(stub func() ([]byte, error)) { fake.serializeMutex.Lock() defer fake.serializeMutex.Unlock() fake.SerializeStub = stub } func (fake *Identity) SerializeReturns(result1 []byte, result2 error) { fake.serializeMutex.Lock() defer fake.serializeMutex.Unlock() fake.SerializeStub = nil fake.serializeReturns = struct { result1 []byte result2 error }{result1, result2} } func (fake *Identity) SerializeReturnsOnCall(i int, result1 []byte, result2 error) { fake.serializeMutex.Lock() defer fake.serializeMutex.Unlock() fake.SerializeStub = nil if fake.serializeReturnsOnCall == nil { fake.serializeReturnsOnCall = make(map[int]struct { result1 []byte result2 error }) } fake.serializeReturnsOnCall[i] = struct { result1 []byte result2 error }{result1, result2} } func (fake *Identity) Validate() error { fake.validateMutex.Lock() ret, specificReturn := fake.validateReturnsOnCall[len(fake.validateArgsForCall)] fake.validateArgsForCall = append(fake.validateArgsForCall, struct { }{}) fake.recordInvocation("Validate", []interface{}{}) fake.validateMutex.Unlock() if fake.ValidateStub != nil { return fake.ValidateStub() } if specificReturn { return ret.result1 } fakeReturns := fake.validateReturns return fakeReturns.result1 } func (fake *Identity) ValidateCallCount() int { fake.validateMutex.RLock() defer fake.validateMutex.RUnlock() return len(fake.validateArgsForCall) } func (fake *Identity) ValidateCalls(stub func() error) { fake.validateMutex.Lock() defer fake.validateMutex.Unlock() fake.ValidateStub = stub } func (fake *Identity) ValidateReturns(result1 error) { fake.validateMutex.Lock() defer fake.validateMutex.Unlock() fake.ValidateStub = nil fake.validateReturns = struct { result1 error }{result1} } func (fake *Identity) ValidateReturnsOnCall(i int, result1 error) { fake.validateMutex.Lock() defer fake.validateMutex.Unlock() fake.ValidateStub = nil if fake.validateReturnsOnCall == nil { fake.validateReturnsOnCall = make(map[int]struct { result1 error }) } fake.validateReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Identity) Verify(arg1 []byte, arg2 []byte) error { var arg1Copy []byte if arg1 != nil { arg1Copy = make([]byte, len(arg1)) copy(arg1Copy, arg1) } var arg2Copy []byte if arg2 != nil { arg2Copy = make([]byte, len(arg2)) copy(arg2Copy, arg2) } fake.verifyMutex.Lock() ret, specificReturn := fake.verifyReturnsOnCall[len(fake.verifyArgsForCall)] fake.verifyArgsForCall = append(fake.verifyArgsForCall, struct { arg1 []byte arg2 []byte }{arg1Copy, arg2Copy}) fake.recordInvocation("Verify", []interface{}{arg1Copy, arg2Copy}) fake.verifyMutex.Unlock() if fake.VerifyStub != nil { return fake.VerifyStub(arg1, arg2) } if specificReturn { return ret.result1 } fakeReturns := fake.verifyReturns return fakeReturns.result1 } func (fake *Identity) VerifyCallCount() int { fake.verifyMutex.RLock() defer fake.verifyMutex.RUnlock() return len(fake.verifyArgsForCall) } func (fake *Identity) VerifyCalls(stub func([]byte, []byte) error) { fake.verifyMutex.Lock() defer fake.verifyMutex.Unlock() fake.VerifyStub = stub } func (fake *Identity) VerifyArgsForCall(i int) ([]byte, []byte) { fake.verifyMutex.RLock() defer fake.verifyMutex.RUnlock() argsForCall := fake.verifyArgsForCall[i] return argsForCall.arg1, argsForCall.arg2 } func (fake *Identity) VerifyReturns(result1 error) { fake.verifyMutex.Lock() defer fake.verifyMutex.Unlock() fake.VerifyStub = nil fake.verifyReturns = struct { result1 error }{result1} } func (fake *Identity) VerifyReturnsOnCall(i int, result1 error) { fake.verifyMutex.Lock() defer fake.verifyMutex.Unlock() fake.VerifyStub = nil if fake.verifyReturnsOnCall == nil { fake.verifyReturnsOnCall = make(map[int]struct { result1 error }) } fake.verifyReturnsOnCall[i] = struct { result1 error }{result1} } func (fake *Identity) Invocations() map[string][][]interface{} { fake.invocationsMutex.RLock() defer fake.invocationsMutex.RUnlock() fake.anonymousMutex.RLock() defer fake.anonymousMutex.RUnlock() fake.expiresAtMutex.RLock() defer fake.expiresAtMutex.RUnlock() fake.getIdentifierMutex.RLock() defer fake.getIdentifierMutex.RUnlock() fake.getMSPIdentifierMutex.RLock() defer fake.getMSPIdentifierMutex.RUnlock() fake.getOrganizationalUnitsMutex.RLock() defer fake.getOrganizationalUnitsMutex.RUnlock() fake.satisfiesPrincipalMutex.RLock() defer fake.satisfiesPrincipalMutex.RUnlock() fake.serializeMutex.RLock() defer fake.serializeMutex.RUnlock() fake.validateMutex.RLock() defer fake.validateMutex.RUnlock() fake.verifyMutex.RLock() defer fake.verifyMutex.RUnlock() copiedInvocations := map[string][][]interface{}{} for key, value := range fake.invocations { copiedInvocations[key] = value } return copiedInvocations } func (fake *Identity) 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) }