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certificate_holder_mock.go
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certificate_holder_mock.go
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package cryptkit
// Code generated by http://github.com/gojuno/minimock (dev). DO NOT EDIT.
import (
"sync"
mm_atomic "sync/atomic"
mm_time "time"
"github.com/gojuno/minimock/v3"
)
// CertificateHolderMock implements CertificateHolder
type CertificateHolderMock struct {
t minimock.Tester
funcGetPublicKey func() (s1 SigningKeyHolder)
inspectFuncGetPublicKey func()
afterGetPublicKeyCounter uint64
beforeGetPublicKeyCounter uint64
GetPublicKeyMock mCertificateHolderMockGetPublicKey
funcIsValidForHostAddress func(HostAddress string) (b1 bool)
inspectFuncIsValidForHostAddress func(HostAddress string)
afterIsValidForHostAddressCounter uint64
beforeIsValidForHostAddressCounter uint64
IsValidForHostAddressMock mCertificateHolderMockIsValidForHostAddress
}
// NewCertificateHolderMock returns a mock for CertificateHolder
func NewCertificateHolderMock(t minimock.Tester) *CertificateHolderMock {
m := &CertificateHolderMock{t: t}
if controller, ok := t.(minimock.MockController); ok {
controller.RegisterMocker(m)
}
m.GetPublicKeyMock = mCertificateHolderMockGetPublicKey{mock: m}
m.IsValidForHostAddressMock = mCertificateHolderMockIsValidForHostAddress{mock: m}
m.IsValidForHostAddressMock.callArgs = []*CertificateHolderMockIsValidForHostAddressParams{}
return m
}
type mCertificateHolderMockGetPublicKey struct {
mock *CertificateHolderMock
defaultExpectation *CertificateHolderMockGetPublicKeyExpectation
expectations []*CertificateHolderMockGetPublicKeyExpectation
}
// CertificateHolderMockGetPublicKeyExpectation specifies expectation struct of the CertificateHolder.GetPublicKey
type CertificateHolderMockGetPublicKeyExpectation struct {
mock *CertificateHolderMock
results *CertificateHolderMockGetPublicKeyResults
Counter uint64
}
// CertificateHolderMockGetPublicKeyResults contains results of the CertificateHolder.GetPublicKey
type CertificateHolderMockGetPublicKeyResults struct {
s1 SigningKeyHolder
}
// Expect sets up expected params for CertificateHolder.GetPublicKey
func (mmGetPublicKey *mCertificateHolderMockGetPublicKey) Expect() *mCertificateHolderMockGetPublicKey {
if mmGetPublicKey.mock.funcGetPublicKey != nil {
mmGetPublicKey.mock.t.Fatalf("CertificateHolderMock.GetPublicKey mock is already set by Set")
}
if mmGetPublicKey.defaultExpectation == nil {
mmGetPublicKey.defaultExpectation = &CertificateHolderMockGetPublicKeyExpectation{}
}
return mmGetPublicKey
}
// Inspect accepts an inspector function that has same arguments as the CertificateHolder.GetPublicKey
func (mmGetPublicKey *mCertificateHolderMockGetPublicKey) Inspect(f func()) *mCertificateHolderMockGetPublicKey {
if mmGetPublicKey.mock.inspectFuncGetPublicKey != nil {
mmGetPublicKey.mock.t.Fatalf("Inspect function is already set for CertificateHolderMock.GetPublicKey")
}
mmGetPublicKey.mock.inspectFuncGetPublicKey = f
return mmGetPublicKey
}
// Return sets up results that will be returned by CertificateHolder.GetPublicKey
func (mmGetPublicKey *mCertificateHolderMockGetPublicKey) Return(s1 SigningKeyHolder) *CertificateHolderMock {
if mmGetPublicKey.mock.funcGetPublicKey != nil {
mmGetPublicKey.mock.t.Fatalf("CertificateHolderMock.GetPublicKey mock is already set by Set")
}
if mmGetPublicKey.defaultExpectation == nil {
mmGetPublicKey.defaultExpectation = &CertificateHolderMockGetPublicKeyExpectation{mock: mmGetPublicKey.mock}
}
mmGetPublicKey.defaultExpectation.results = &CertificateHolderMockGetPublicKeyResults{s1}
return mmGetPublicKey.mock
}
//Set uses given function f to mock the CertificateHolder.GetPublicKey method
func (mmGetPublicKey *mCertificateHolderMockGetPublicKey) Set(f func() (s1 SigningKeyHolder)) *CertificateHolderMock {
if mmGetPublicKey.defaultExpectation != nil {
mmGetPublicKey.mock.t.Fatalf("Default expectation is already set for the CertificateHolder.GetPublicKey method")
}
if len(mmGetPublicKey.expectations) > 0 {
mmGetPublicKey.mock.t.Fatalf("Some expectations are already set for the CertificateHolder.GetPublicKey method")
}
mmGetPublicKey.mock.funcGetPublicKey = f
return mmGetPublicKey.mock
}
// GetPublicKey implements CertificateHolder
func (mmGetPublicKey *CertificateHolderMock) GetPublicKey() (s1 SigningKeyHolder) {
mm_atomic.AddUint64(&mmGetPublicKey.beforeGetPublicKeyCounter, 1)
defer mm_atomic.AddUint64(&mmGetPublicKey.afterGetPublicKeyCounter, 1)
if mmGetPublicKey.inspectFuncGetPublicKey != nil {
mmGetPublicKey.inspectFuncGetPublicKey()
}
if mmGetPublicKey.GetPublicKeyMock.defaultExpectation != nil {
mm_atomic.AddUint64(&mmGetPublicKey.GetPublicKeyMock.defaultExpectation.Counter, 1)
mm_results := mmGetPublicKey.GetPublicKeyMock.defaultExpectation.results
if mm_results == nil {
mmGetPublicKey.t.Fatal("No results are set for the CertificateHolderMock.GetPublicKey")
}
return (*mm_results).s1
}
if mmGetPublicKey.funcGetPublicKey != nil {
return mmGetPublicKey.funcGetPublicKey()
}
mmGetPublicKey.t.Fatalf("Unexpected call to CertificateHolderMock.GetPublicKey.")
return
}
// GetPublicKeyAfterCounter returns a count of finished CertificateHolderMock.GetPublicKey invocations
func (mmGetPublicKey *CertificateHolderMock) GetPublicKeyAfterCounter() uint64 {
return mm_atomic.LoadUint64(&mmGetPublicKey.afterGetPublicKeyCounter)
}
// GetPublicKeyBeforeCounter returns a count of CertificateHolderMock.GetPublicKey invocations
func (mmGetPublicKey *CertificateHolderMock) GetPublicKeyBeforeCounter() uint64 {
return mm_atomic.LoadUint64(&mmGetPublicKey.beforeGetPublicKeyCounter)
}
// MinimockGetPublicKeyDone returns true if the count of the GetPublicKey invocations corresponds
// the number of defined expectations
func (m *CertificateHolderMock) MinimockGetPublicKeyDone() bool {
for _, e := range m.GetPublicKeyMock.expectations {
if mm_atomic.LoadUint64(&e.Counter) < 1 {
return false
}
}
// if default expectation was set then invocations count should be greater than zero
if m.GetPublicKeyMock.defaultExpectation != nil && mm_atomic.LoadUint64(&m.afterGetPublicKeyCounter) < 1 {
return false
}
// if func was set then invocations count should be greater than zero
if m.funcGetPublicKey != nil && mm_atomic.LoadUint64(&m.afterGetPublicKeyCounter) < 1 {
return false
}
return true
}
// MinimockGetPublicKeyInspect logs each unmet expectation
func (m *CertificateHolderMock) MinimockGetPublicKeyInspect() {
for _, e := range m.GetPublicKeyMock.expectations {
if mm_atomic.LoadUint64(&e.Counter) < 1 {
m.t.Error("Expected call to CertificateHolderMock.GetPublicKey")
}
}
// if default expectation was set then invocations count should be greater than zero
if m.GetPublicKeyMock.defaultExpectation != nil && mm_atomic.LoadUint64(&m.afterGetPublicKeyCounter) < 1 {
m.t.Error("Expected call to CertificateHolderMock.GetPublicKey")
}
// if func was set then invocations count should be greater than zero
if m.funcGetPublicKey != nil && mm_atomic.LoadUint64(&m.afterGetPublicKeyCounter) < 1 {
m.t.Error("Expected call to CertificateHolderMock.GetPublicKey")
}
}
type mCertificateHolderMockIsValidForHostAddress struct {
mock *CertificateHolderMock
defaultExpectation *CertificateHolderMockIsValidForHostAddressExpectation
expectations []*CertificateHolderMockIsValidForHostAddressExpectation
callArgs []*CertificateHolderMockIsValidForHostAddressParams
mutex sync.RWMutex
}
// CertificateHolderMockIsValidForHostAddressExpectation specifies expectation struct of the CertificateHolder.IsValidForHostAddress
type CertificateHolderMockIsValidForHostAddressExpectation struct {
mock *CertificateHolderMock
params *CertificateHolderMockIsValidForHostAddressParams
results *CertificateHolderMockIsValidForHostAddressResults
Counter uint64
}
// CertificateHolderMockIsValidForHostAddressParams contains parameters of the CertificateHolder.IsValidForHostAddress
type CertificateHolderMockIsValidForHostAddressParams struct {
HostAddress string
}
// CertificateHolderMockIsValidForHostAddressResults contains results of the CertificateHolder.IsValidForHostAddress
type CertificateHolderMockIsValidForHostAddressResults struct {
b1 bool
}
// Expect sets up expected params for CertificateHolder.IsValidForHostAddress
func (mmIsValidForHostAddress *mCertificateHolderMockIsValidForHostAddress) Expect(HostAddress string) *mCertificateHolderMockIsValidForHostAddress {
if mmIsValidForHostAddress.mock.funcIsValidForHostAddress != nil {
mmIsValidForHostAddress.mock.t.Fatalf("CertificateHolderMock.IsValidForHostAddress mock is already set by Set")
}
if mmIsValidForHostAddress.defaultExpectation == nil {
mmIsValidForHostAddress.defaultExpectation = &CertificateHolderMockIsValidForHostAddressExpectation{}
}
mmIsValidForHostAddress.defaultExpectation.params = &CertificateHolderMockIsValidForHostAddressParams{HostAddress}
for _, e := range mmIsValidForHostAddress.expectations {
if minimock.Equal(e.params, mmIsValidForHostAddress.defaultExpectation.params) {
mmIsValidForHostAddress.mock.t.Fatalf("Expectation set by When has same params: %#v", *mmIsValidForHostAddress.defaultExpectation.params)
}
}
return mmIsValidForHostAddress
}
// Inspect accepts an inspector function that has same arguments as the CertificateHolder.IsValidForHostAddress
func (mmIsValidForHostAddress *mCertificateHolderMockIsValidForHostAddress) Inspect(f func(HostAddress string)) *mCertificateHolderMockIsValidForHostAddress {
if mmIsValidForHostAddress.mock.inspectFuncIsValidForHostAddress != nil {
mmIsValidForHostAddress.mock.t.Fatalf("Inspect function is already set for CertificateHolderMock.IsValidForHostAddress")
}
mmIsValidForHostAddress.mock.inspectFuncIsValidForHostAddress = f
return mmIsValidForHostAddress
}
// Return sets up results that will be returned by CertificateHolder.IsValidForHostAddress
func (mmIsValidForHostAddress *mCertificateHolderMockIsValidForHostAddress) Return(b1 bool) *CertificateHolderMock {
if mmIsValidForHostAddress.mock.funcIsValidForHostAddress != nil {
mmIsValidForHostAddress.mock.t.Fatalf("CertificateHolderMock.IsValidForHostAddress mock is already set by Set")
}
if mmIsValidForHostAddress.defaultExpectation == nil {
mmIsValidForHostAddress.defaultExpectation = &CertificateHolderMockIsValidForHostAddressExpectation{mock: mmIsValidForHostAddress.mock}
}
mmIsValidForHostAddress.defaultExpectation.results = &CertificateHolderMockIsValidForHostAddressResults{b1}
return mmIsValidForHostAddress.mock
}
//Set uses given function f to mock the CertificateHolder.IsValidForHostAddress method
func (mmIsValidForHostAddress *mCertificateHolderMockIsValidForHostAddress) Set(f func(HostAddress string) (b1 bool)) *CertificateHolderMock {
if mmIsValidForHostAddress.defaultExpectation != nil {
mmIsValidForHostAddress.mock.t.Fatalf("Default expectation is already set for the CertificateHolder.IsValidForHostAddress method")
}
if len(mmIsValidForHostAddress.expectations) > 0 {
mmIsValidForHostAddress.mock.t.Fatalf("Some expectations are already set for the CertificateHolder.IsValidForHostAddress method")
}
mmIsValidForHostAddress.mock.funcIsValidForHostAddress = f
return mmIsValidForHostAddress.mock
}
// When sets expectation for the CertificateHolder.IsValidForHostAddress which will trigger the result defined by the following
// Then helper
func (mmIsValidForHostAddress *mCertificateHolderMockIsValidForHostAddress) When(HostAddress string) *CertificateHolderMockIsValidForHostAddressExpectation {
if mmIsValidForHostAddress.mock.funcIsValidForHostAddress != nil {
mmIsValidForHostAddress.mock.t.Fatalf("CertificateHolderMock.IsValidForHostAddress mock is already set by Set")
}
expectation := &CertificateHolderMockIsValidForHostAddressExpectation{
mock: mmIsValidForHostAddress.mock,
params: &CertificateHolderMockIsValidForHostAddressParams{HostAddress},
}
mmIsValidForHostAddress.expectations = append(mmIsValidForHostAddress.expectations, expectation)
return expectation
}
// Then sets up CertificateHolder.IsValidForHostAddress return parameters for the expectation previously defined by the When method
func (e *CertificateHolderMockIsValidForHostAddressExpectation) Then(b1 bool) *CertificateHolderMock {
e.results = &CertificateHolderMockIsValidForHostAddressResults{b1}
return e.mock
}
// IsValidForHostAddress implements CertificateHolder
func (mmIsValidForHostAddress *CertificateHolderMock) IsValidForHostAddress(HostAddress string) (b1 bool) {
mm_atomic.AddUint64(&mmIsValidForHostAddress.beforeIsValidForHostAddressCounter, 1)
defer mm_atomic.AddUint64(&mmIsValidForHostAddress.afterIsValidForHostAddressCounter, 1)
if mmIsValidForHostAddress.inspectFuncIsValidForHostAddress != nil {
mmIsValidForHostAddress.inspectFuncIsValidForHostAddress(HostAddress)
}
mm_params := &CertificateHolderMockIsValidForHostAddressParams{HostAddress}
// Record call args
mmIsValidForHostAddress.IsValidForHostAddressMock.mutex.Lock()
mmIsValidForHostAddress.IsValidForHostAddressMock.callArgs = append(mmIsValidForHostAddress.IsValidForHostAddressMock.callArgs, mm_params)
mmIsValidForHostAddress.IsValidForHostAddressMock.mutex.Unlock()
for _, e := range mmIsValidForHostAddress.IsValidForHostAddressMock.expectations {
if minimock.Equal(e.params, mm_params) {
mm_atomic.AddUint64(&e.Counter, 1)
return e.results.b1
}
}
if mmIsValidForHostAddress.IsValidForHostAddressMock.defaultExpectation != nil {
mm_atomic.AddUint64(&mmIsValidForHostAddress.IsValidForHostAddressMock.defaultExpectation.Counter, 1)
mm_want := mmIsValidForHostAddress.IsValidForHostAddressMock.defaultExpectation.params
mm_got := CertificateHolderMockIsValidForHostAddressParams{HostAddress}
if mm_want != nil && !minimock.Equal(*mm_want, mm_got) {
mmIsValidForHostAddress.t.Errorf("CertificateHolderMock.IsValidForHostAddress got unexpected parameters, want: %#v, got: %#v%s\n", *mm_want, mm_got, minimock.Diff(*mm_want, mm_got))
}
mm_results := mmIsValidForHostAddress.IsValidForHostAddressMock.defaultExpectation.results
if mm_results == nil {
mmIsValidForHostAddress.t.Fatal("No results are set for the CertificateHolderMock.IsValidForHostAddress")
}
return (*mm_results).b1
}
if mmIsValidForHostAddress.funcIsValidForHostAddress != nil {
return mmIsValidForHostAddress.funcIsValidForHostAddress(HostAddress)
}
mmIsValidForHostAddress.t.Fatalf("Unexpected call to CertificateHolderMock.IsValidForHostAddress. %v", HostAddress)
return
}
// IsValidForHostAddressAfterCounter returns a count of finished CertificateHolderMock.IsValidForHostAddress invocations
func (mmIsValidForHostAddress *CertificateHolderMock) IsValidForHostAddressAfterCounter() uint64 {
return mm_atomic.LoadUint64(&mmIsValidForHostAddress.afterIsValidForHostAddressCounter)
}
// IsValidForHostAddressBeforeCounter returns a count of CertificateHolderMock.IsValidForHostAddress invocations
func (mmIsValidForHostAddress *CertificateHolderMock) IsValidForHostAddressBeforeCounter() uint64 {
return mm_atomic.LoadUint64(&mmIsValidForHostAddress.beforeIsValidForHostAddressCounter)
}
// Calls returns a list of arguments used in each call to CertificateHolderMock.IsValidForHostAddress.
// The list is in the same order as the calls were made (i.e. recent calls have a higher index)
func (mmIsValidForHostAddress *mCertificateHolderMockIsValidForHostAddress) Calls() []*CertificateHolderMockIsValidForHostAddressParams {
mmIsValidForHostAddress.mutex.RLock()
argCopy := make([]*CertificateHolderMockIsValidForHostAddressParams, len(mmIsValidForHostAddress.callArgs))
copy(argCopy, mmIsValidForHostAddress.callArgs)
mmIsValidForHostAddress.mutex.RUnlock()
return argCopy
}
// MinimockIsValidForHostAddressDone returns true if the count of the IsValidForHostAddress invocations corresponds
// the number of defined expectations
func (m *CertificateHolderMock) MinimockIsValidForHostAddressDone() bool {
for _, e := range m.IsValidForHostAddressMock.expectations {
if mm_atomic.LoadUint64(&e.Counter) < 1 {
return false
}
}
// if default expectation was set then invocations count should be greater than zero
if m.IsValidForHostAddressMock.defaultExpectation != nil && mm_atomic.LoadUint64(&m.afterIsValidForHostAddressCounter) < 1 {
return false
}
// if func was set then invocations count should be greater than zero
if m.funcIsValidForHostAddress != nil && mm_atomic.LoadUint64(&m.afterIsValidForHostAddressCounter) < 1 {
return false
}
return true
}
// MinimockIsValidForHostAddressInspect logs each unmet expectation
func (m *CertificateHolderMock) MinimockIsValidForHostAddressInspect() {
for _, e := range m.IsValidForHostAddressMock.expectations {
if mm_atomic.LoadUint64(&e.Counter) < 1 {
m.t.Errorf("Expected call to CertificateHolderMock.IsValidForHostAddress with params: %#v", *e.params)
}
}
// if default expectation was set then invocations count should be greater than zero
if m.IsValidForHostAddressMock.defaultExpectation != nil && mm_atomic.LoadUint64(&m.afterIsValidForHostAddressCounter) < 1 {
if m.IsValidForHostAddressMock.defaultExpectation.params == nil {
m.t.Error("Expected call to CertificateHolderMock.IsValidForHostAddress")
} else {
m.t.Errorf("Expected call to CertificateHolderMock.IsValidForHostAddress with params: %#v", *m.IsValidForHostAddressMock.defaultExpectation.params)
}
}
// if func was set then invocations count should be greater than zero
if m.funcIsValidForHostAddress != nil && mm_atomic.LoadUint64(&m.afterIsValidForHostAddressCounter) < 1 {
m.t.Error("Expected call to CertificateHolderMock.IsValidForHostAddress")
}
}
// MinimockFinish checks that all mocked methods have been called the expected number of times
func (m *CertificateHolderMock) MinimockFinish() {
if !m.minimockDone() {
m.MinimockGetPublicKeyInspect()
m.MinimockIsValidForHostAddressInspect()
m.t.FailNow()
}
}
// MinimockWait waits for all mocked methods to be called the expected number of times
func (m *CertificateHolderMock) MinimockWait(timeout mm_time.Duration) {
timeoutCh := mm_time.After(timeout)
for {
if m.minimockDone() {
return
}
select {
case <-timeoutCh:
m.MinimockFinish()
return
case <-mm_time.After(10 * mm_time.Millisecond):
}
}
}
func (m *CertificateHolderMock) minimockDone() bool {
done := true
return done &&
m.MinimockGetPublicKeyDone() &&
m.MinimockIsValidForHostAddressDone()
}