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fake_encryption_strategy.go
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fake_encryption_strategy.go
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// Code generated by counterfeiter. DO NOT EDIT.
package dbngfakes
import (
"sync"
"github.com/concourse/atc/dbng"
)
type FakeEncryptionStrategy struct {
EncryptStub func([]byte) (string, *string, error)
encryptMutex sync.RWMutex
encryptArgsForCall []struct {
arg1 []byte
}
encryptReturns struct {
result1 string
result2 *string
result3 error
}
encryptReturnsOnCall map[int]struct {
result1 string
result2 *string
result3 error
}
DecryptStub func(string, *string) ([]byte, error)
decryptMutex sync.RWMutex
decryptArgsForCall []struct {
arg1 string
arg2 *string
}
decryptReturns struct {
result1 []byte
result2 error
}
decryptReturnsOnCall map[int]struct {
result1 []byte
result2 error
}
invocations map[string][][]interface{}
invocationsMutex sync.RWMutex
}
func (fake *FakeEncryptionStrategy) Encrypt(arg1 []byte) (string, *string, error) {
var arg1Copy []byte
if arg1 != nil {
arg1Copy = make([]byte, len(arg1))
copy(arg1Copy, arg1)
}
fake.encryptMutex.Lock()
ret, specificReturn := fake.encryptReturnsOnCall[len(fake.encryptArgsForCall)]
fake.encryptArgsForCall = append(fake.encryptArgsForCall, struct {
arg1 []byte
}{arg1Copy})
fake.recordInvocation("Encrypt", []interface{}{arg1Copy})
fake.encryptMutex.Unlock()
if fake.EncryptStub != nil {
return fake.EncryptStub(arg1)
}
if specificReturn {
return ret.result1, ret.result2, ret.result3
}
return fake.encryptReturns.result1, fake.encryptReturns.result2, fake.encryptReturns.result3
}
func (fake *FakeEncryptionStrategy) EncryptCallCount() int {
fake.encryptMutex.RLock()
defer fake.encryptMutex.RUnlock()
return len(fake.encryptArgsForCall)
}
func (fake *FakeEncryptionStrategy) EncryptArgsForCall(i int) []byte {
fake.encryptMutex.RLock()
defer fake.encryptMutex.RUnlock()
return fake.encryptArgsForCall[i].arg1
}
func (fake *FakeEncryptionStrategy) EncryptReturns(result1 string, result2 *string, result3 error) {
fake.EncryptStub = nil
fake.encryptReturns = struct {
result1 string
result2 *string
result3 error
}{result1, result2, result3}
}
func (fake *FakeEncryptionStrategy) EncryptReturnsOnCall(i int, result1 string, result2 *string, result3 error) {
fake.EncryptStub = nil
if fake.encryptReturnsOnCall == nil {
fake.encryptReturnsOnCall = make(map[int]struct {
result1 string
result2 *string
result3 error
})
}
fake.encryptReturnsOnCall[i] = struct {
result1 string
result2 *string
result3 error
}{result1, result2, result3}
}
func (fake *FakeEncryptionStrategy) Decrypt(arg1 string, arg2 *string) ([]byte, error) {
fake.decryptMutex.Lock()
ret, specificReturn := fake.decryptReturnsOnCall[len(fake.decryptArgsForCall)]
fake.decryptArgsForCall = append(fake.decryptArgsForCall, struct {
arg1 string
arg2 *string
}{arg1, arg2})
fake.recordInvocation("Decrypt", []interface{}{arg1, arg2})
fake.decryptMutex.Unlock()
if fake.DecryptStub != nil {
return fake.DecryptStub(arg1, arg2)
}
if specificReturn {
return ret.result1, ret.result2
}
return fake.decryptReturns.result1, fake.decryptReturns.result2
}
func (fake *FakeEncryptionStrategy) DecryptCallCount() int {
fake.decryptMutex.RLock()
defer fake.decryptMutex.RUnlock()
return len(fake.decryptArgsForCall)
}
func (fake *FakeEncryptionStrategy) DecryptArgsForCall(i int) (string, *string) {
fake.decryptMutex.RLock()
defer fake.decryptMutex.RUnlock()
return fake.decryptArgsForCall[i].arg1, fake.decryptArgsForCall[i].arg2
}
func (fake *FakeEncryptionStrategy) DecryptReturns(result1 []byte, result2 error) {
fake.DecryptStub = nil
fake.decryptReturns = struct {
result1 []byte
result2 error
}{result1, result2}
}
func (fake *FakeEncryptionStrategy) DecryptReturnsOnCall(i int, result1 []byte, result2 error) {
fake.DecryptStub = nil
if fake.decryptReturnsOnCall == nil {
fake.decryptReturnsOnCall = make(map[int]struct {
result1 []byte
result2 error
})
}
fake.decryptReturnsOnCall[i] = struct {
result1 []byte
result2 error
}{result1, result2}
}
func (fake *FakeEncryptionStrategy) Invocations() map[string][][]interface{} {
fake.invocationsMutex.RLock()
defer fake.invocationsMutex.RUnlock()
fake.encryptMutex.RLock()
defer fake.encryptMutex.RUnlock()
fake.decryptMutex.RLock()
defer fake.decryptMutex.RUnlock()
copiedInvocations := map[string][][]interface{}{}
for key, value := range fake.invocations {
copiedInvocations[key] = value
}
return copiedInvocations
}
func (fake *FakeEncryptionStrategy) 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 _ dbng.EncryptionStrategy = new(FakeEncryptionStrategy)