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revocation.go
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revocation.go
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// Code generated by counterfeiter. DO NOT EDIT.
package mock
import (
"crypto/ecdsa"
"sync"
"github.com/hyperledger/fabric/bccsp"
"github.com/hyperledger/fabric/bccsp/idemix/handlers"
)
type Revocation struct {
NewKeyStub func() (*ecdsa.PrivateKey, error)
newKeyMutex sync.RWMutex
newKeyArgsForCall []struct{}
newKeyReturns struct {
result1 *ecdsa.PrivateKey
result2 error
}
newKeyReturnsOnCall map[int]struct {
result1 *ecdsa.PrivateKey
result2 error
}
SignStub func(key *ecdsa.PrivateKey, unrevokedHandles [][]byte, epoch int, alg bccsp.RevocationAlgorithm) ([]byte, error)
signMutex sync.RWMutex
signArgsForCall []struct {
key *ecdsa.PrivateKey
unrevokedHandles [][]byte
epoch int
alg bccsp.RevocationAlgorithm
}
signReturns struct {
result1 []byte
result2 error
}
signReturnsOnCall map[int]struct {
result1 []byte
result2 error
}
VerifyStub func(pk *ecdsa.PublicKey, cri []byte, epoch int, alg bccsp.RevocationAlgorithm) error
verifyMutex sync.RWMutex
verifyArgsForCall []struct {
pk *ecdsa.PublicKey
cri []byte
epoch int
alg bccsp.RevocationAlgorithm
}
verifyReturns struct {
result1 error
}
verifyReturnsOnCall map[int]struct {
result1 error
}
invocations map[string][][]interface{}
invocationsMutex sync.RWMutex
}
func (fake *Revocation) NewKey() (*ecdsa.PrivateKey, error) {
fake.newKeyMutex.Lock()
ret, specificReturn := fake.newKeyReturnsOnCall[len(fake.newKeyArgsForCall)]
fake.newKeyArgsForCall = append(fake.newKeyArgsForCall, struct{}{})
fake.recordInvocation("NewKey", []interface{}{})
fake.newKeyMutex.Unlock()
if fake.NewKeyStub != nil {
return fake.NewKeyStub()
}
if specificReturn {
return ret.result1, ret.result2
}
return fake.newKeyReturns.result1, fake.newKeyReturns.result2
}
func (fake *Revocation) NewKeyCallCount() int {
fake.newKeyMutex.RLock()
defer fake.newKeyMutex.RUnlock()
return len(fake.newKeyArgsForCall)
}
func (fake *Revocation) NewKeyReturns(result1 *ecdsa.PrivateKey, result2 error) {
fake.NewKeyStub = nil
fake.newKeyReturns = struct {
result1 *ecdsa.PrivateKey
result2 error
}{result1, result2}
}
func (fake *Revocation) NewKeyReturnsOnCall(i int, result1 *ecdsa.PrivateKey, result2 error) {
fake.NewKeyStub = nil
if fake.newKeyReturnsOnCall == nil {
fake.newKeyReturnsOnCall = make(map[int]struct {
result1 *ecdsa.PrivateKey
result2 error
})
}
fake.newKeyReturnsOnCall[i] = struct {
result1 *ecdsa.PrivateKey
result2 error
}{result1, result2}
}
func (fake *Revocation) Sign(key *ecdsa.PrivateKey, unrevokedHandles [][]byte, epoch int, alg bccsp.RevocationAlgorithm) ([]byte, error) {
var unrevokedHandlesCopy [][]byte
if unrevokedHandles != nil {
unrevokedHandlesCopy = make([][]byte, len(unrevokedHandles))
copy(unrevokedHandlesCopy, unrevokedHandles)
}
fake.signMutex.Lock()
ret, specificReturn := fake.signReturnsOnCall[len(fake.signArgsForCall)]
fake.signArgsForCall = append(fake.signArgsForCall, struct {
key *ecdsa.PrivateKey
unrevokedHandles [][]byte
epoch int
alg bccsp.RevocationAlgorithm
}{key, unrevokedHandlesCopy, epoch, alg})
fake.recordInvocation("Sign", []interface{}{key, unrevokedHandlesCopy, epoch, alg})
fake.signMutex.Unlock()
if fake.SignStub != nil {
return fake.SignStub(key, unrevokedHandles, epoch, alg)
}
if specificReturn {
return ret.result1, ret.result2
}
return fake.signReturns.result1, fake.signReturns.result2
}
func (fake *Revocation) SignCallCount() int {
fake.signMutex.RLock()
defer fake.signMutex.RUnlock()
return len(fake.signArgsForCall)
}
func (fake *Revocation) SignArgsForCall(i int) (*ecdsa.PrivateKey, [][]byte, int, bccsp.RevocationAlgorithm) {
fake.signMutex.RLock()
defer fake.signMutex.RUnlock()
return fake.signArgsForCall[i].key, fake.signArgsForCall[i].unrevokedHandles, fake.signArgsForCall[i].epoch, fake.signArgsForCall[i].alg
}
func (fake *Revocation) SignReturns(result1 []byte, result2 error) {
fake.SignStub = nil
fake.signReturns = struct {
result1 []byte
result2 error
}{result1, result2}
}
func (fake *Revocation) SignReturnsOnCall(i int, result1 []byte, result2 error) {
fake.SignStub = nil
if fake.signReturnsOnCall == nil {
fake.signReturnsOnCall = make(map[int]struct {
result1 []byte
result2 error
})
}
fake.signReturnsOnCall[i] = struct {
result1 []byte
result2 error
}{result1, result2}
}
func (fake *Revocation) Verify(pk *ecdsa.PublicKey, cri []byte, epoch int, alg bccsp.RevocationAlgorithm) error {
var criCopy []byte
if cri != nil {
criCopy = make([]byte, len(cri))
copy(criCopy, cri)
}
fake.verifyMutex.Lock()
ret, specificReturn := fake.verifyReturnsOnCall[len(fake.verifyArgsForCall)]
fake.verifyArgsForCall = append(fake.verifyArgsForCall, struct {
pk *ecdsa.PublicKey
cri []byte
epoch int
alg bccsp.RevocationAlgorithm
}{pk, criCopy, epoch, alg})
fake.recordInvocation("Verify", []interface{}{pk, criCopy, epoch, alg})
fake.verifyMutex.Unlock()
if fake.VerifyStub != nil {
return fake.VerifyStub(pk, cri, epoch, alg)
}
if specificReturn {
return ret.result1
}
return fake.verifyReturns.result1
}
func (fake *Revocation) VerifyCallCount() int {
fake.verifyMutex.RLock()
defer fake.verifyMutex.RUnlock()
return len(fake.verifyArgsForCall)
}
func (fake *Revocation) VerifyArgsForCall(i int) (*ecdsa.PublicKey, []byte, int, bccsp.RevocationAlgorithm) {
fake.verifyMutex.RLock()
defer fake.verifyMutex.RUnlock()
return fake.verifyArgsForCall[i].pk, fake.verifyArgsForCall[i].cri, fake.verifyArgsForCall[i].epoch, fake.verifyArgsForCall[i].alg
}
func (fake *Revocation) VerifyReturns(result1 error) {
fake.VerifyStub = nil
fake.verifyReturns = struct {
result1 error
}{result1}
}
func (fake *Revocation) VerifyReturnsOnCall(i int, result1 error) {
fake.VerifyStub = nil
if fake.verifyReturnsOnCall == nil {
fake.verifyReturnsOnCall = make(map[int]struct {
result1 error
})
}
fake.verifyReturnsOnCall[i] = struct {
result1 error
}{result1}
}
func (fake *Revocation) Invocations() map[string][][]interface{} {
fake.invocationsMutex.RLock()
defer fake.invocationsMutex.RUnlock()
fake.newKeyMutex.RLock()
defer fake.newKeyMutex.RUnlock()
fake.signMutex.RLock()
defer fake.signMutex.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 *Revocation) 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 _ handlers.Revocation = new(Revocation)