/
registry.go
221 lines (200 loc) · 5.66 KB
/
registry.go
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// Code generated by counterfeiter. DO NOT EDIT.
package fake
import (
"sync"
chaincode_test "github.com/hyperledger/fabric/core/chaincode"
)
type Registry struct {
RegisterStub func(*chaincode_test.Handler) error
registerMutex sync.RWMutex
registerArgsForCall []struct {
arg1 *chaincode_test.Handler
}
registerReturns struct {
result1 error
}
registerReturnsOnCall map[int]struct {
result1 error
}
ReadyStub func(cname string)
readyMutex sync.RWMutex
readyArgsForCall []struct {
cname string
}
FailedStub func(cname string, err error)
failedMutex sync.RWMutex
failedArgsForCall []struct {
cname string
err error
}
DeregisterStub func(cname string) error
deregisterMutex sync.RWMutex
deregisterArgsForCall []struct {
cname string
}
deregisterReturns struct {
result1 error
}
deregisterReturnsOnCall map[int]struct {
result1 error
}
invocations map[string][][]interface{}
invocationsMutex sync.RWMutex
}
func (fake *Registry) Register(arg1 *chaincode_test.Handler) error {
fake.registerMutex.Lock()
ret, specificReturn := fake.registerReturnsOnCall[len(fake.registerArgsForCall)]
fake.registerArgsForCall = append(fake.registerArgsForCall, struct {
arg1 *chaincode_test.Handler
}{arg1})
fake.recordInvocation("Register", []interface{}{arg1})
fake.registerMutex.Unlock()
if fake.RegisterStub != nil {
return fake.RegisterStub(arg1)
}
if specificReturn {
return ret.result1
}
return fake.registerReturns.result1
}
func (fake *Registry) RegisterCallCount() int {
fake.registerMutex.RLock()
defer fake.registerMutex.RUnlock()
return len(fake.registerArgsForCall)
}
func (fake *Registry) RegisterArgsForCall(i int) *chaincode_test.Handler {
fake.registerMutex.RLock()
defer fake.registerMutex.RUnlock()
return fake.registerArgsForCall[i].arg1
}
func (fake *Registry) RegisterReturns(result1 error) {
fake.RegisterStub = nil
fake.registerReturns = struct {
result1 error
}{result1}
}
func (fake *Registry) RegisterReturnsOnCall(i int, result1 error) {
fake.RegisterStub = nil
if fake.registerReturnsOnCall == nil {
fake.registerReturnsOnCall = make(map[int]struct {
result1 error
})
}
fake.registerReturnsOnCall[i] = struct {
result1 error
}{result1}
}
func (fake *Registry) Ready(cname string) {
fake.readyMutex.Lock()
fake.readyArgsForCall = append(fake.readyArgsForCall, struct {
cname string
}{cname})
fake.recordInvocation("Ready", []interface{}{cname})
fake.readyMutex.Unlock()
if fake.ReadyStub != nil {
fake.ReadyStub(cname)
}
}
func (fake *Registry) ReadyCallCount() int {
fake.readyMutex.RLock()
defer fake.readyMutex.RUnlock()
return len(fake.readyArgsForCall)
}
func (fake *Registry) ReadyArgsForCall(i int) string {
fake.readyMutex.RLock()
defer fake.readyMutex.RUnlock()
return fake.readyArgsForCall[i].cname
}
func (fake *Registry) Failed(cname string, err error) {
fake.failedMutex.Lock()
fake.failedArgsForCall = append(fake.failedArgsForCall, struct {
cname string
err error
}{cname, err})
fake.recordInvocation("Failed", []interface{}{cname, err})
fake.failedMutex.Unlock()
if fake.FailedStub != nil {
fake.FailedStub(cname, err)
}
}
func (fake *Registry) FailedCallCount() int {
fake.failedMutex.RLock()
defer fake.failedMutex.RUnlock()
return len(fake.failedArgsForCall)
}
func (fake *Registry) FailedArgsForCall(i int) (string, error) {
fake.failedMutex.RLock()
defer fake.failedMutex.RUnlock()
return fake.failedArgsForCall[i].cname, fake.failedArgsForCall[i].err
}
func (fake *Registry) Deregister(cname string) error {
fake.deregisterMutex.Lock()
ret, specificReturn := fake.deregisterReturnsOnCall[len(fake.deregisterArgsForCall)]
fake.deregisterArgsForCall = append(fake.deregisterArgsForCall, struct {
cname string
}{cname})
fake.recordInvocation("Deregister", []interface{}{cname})
fake.deregisterMutex.Unlock()
if fake.DeregisterStub != nil {
return fake.DeregisterStub(cname)
}
if specificReturn {
return ret.result1
}
return fake.deregisterReturns.result1
}
func (fake *Registry) DeregisterCallCount() int {
fake.deregisterMutex.RLock()
defer fake.deregisterMutex.RUnlock()
return len(fake.deregisterArgsForCall)
}
func (fake *Registry) DeregisterArgsForCall(i int) string {
fake.deregisterMutex.RLock()
defer fake.deregisterMutex.RUnlock()
return fake.deregisterArgsForCall[i].cname
}
func (fake *Registry) DeregisterReturns(result1 error) {
fake.DeregisterStub = nil
fake.deregisterReturns = struct {
result1 error
}{result1}
}
func (fake *Registry) DeregisterReturnsOnCall(i int, result1 error) {
fake.DeregisterStub = nil
if fake.deregisterReturnsOnCall == nil {
fake.deregisterReturnsOnCall = make(map[int]struct {
result1 error
})
}
fake.deregisterReturnsOnCall[i] = struct {
result1 error
}{result1}
}
func (fake *Registry) Invocations() map[string][][]interface{} {
fake.invocationsMutex.RLock()
defer fake.invocationsMutex.RUnlock()
fake.registerMutex.RLock()
defer fake.registerMutex.RUnlock()
fake.readyMutex.RLock()
defer fake.readyMutex.RUnlock()
fake.failedMutex.RLock()
defer fake.failedMutex.RUnlock()
fake.deregisterMutex.RLock()
defer fake.deregisterMutex.RUnlock()
copiedInvocations := map[string][][]interface{}{}
for key, value := range fake.invocations {
copiedInvocations[key] = value
}
return copiedInvocations
}
func (fake *Registry) 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)
}