generated from broadinstitute/golang-project-template
/
kubecfg.go
307 lines (254 loc) · 8.5 KB
/
kubecfg.go
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// Code generated by mockery v2.32.4. DO NOT EDIT.
package mocks
import (
kubecfg "github.com/broadinstitute/thelma/internal/thelma/clients/kubernetes/kubecfg"
mock "github.com/stretchr/testify/mock"
terra "github.com/broadinstitute/thelma/internal/thelma/state/api/terra"
)
// Kubeconfig is an autogenerated mock type for the Kubeconfig type
type Kubeconfig struct {
mock.Mock
}
type Kubeconfig_Expecter struct {
mock *mock.Mock
}
func (_m *Kubeconfig) EXPECT() *Kubeconfig_Expecter {
return &Kubeconfig_Expecter{mock: &_m.Mock}
}
// ConfigFile provides a mock function with given fields:
func (_m *Kubeconfig) ConfigFile() string {
ret := _m.Called()
var r0 string
if rf, ok := ret.Get(0).(func() string); ok {
r0 = rf()
} else {
r0 = ret.Get(0).(string)
}
return r0
}
// Kubeconfig_ConfigFile_Call is a *mock.Call that shadows Run/Return methods with type explicit version for method 'ConfigFile'
type Kubeconfig_ConfigFile_Call struct {
*mock.Call
}
// ConfigFile is a helper method to define mock.On call
func (_e *Kubeconfig_Expecter) ConfigFile() *Kubeconfig_ConfigFile_Call {
return &Kubeconfig_ConfigFile_Call{Call: _e.mock.On("ConfigFile")}
}
func (_c *Kubeconfig_ConfigFile_Call) Run(run func()) *Kubeconfig_ConfigFile_Call {
_c.Call.Run(func(args mock.Arguments) {
run()
})
return _c
}
func (_c *Kubeconfig_ConfigFile_Call) Return(_a0 string) *Kubeconfig_ConfigFile_Call {
_c.Call.Return(_a0)
return _c
}
func (_c *Kubeconfig_ConfigFile_Call) RunAndReturn(run func() string) *Kubeconfig_ConfigFile_Call {
_c.Call.Return(run)
return _c
}
// ForCluster provides a mock function with given fields: cluster
func (_m *Kubeconfig) ForCluster(cluster terra.Cluster) (kubecfg.Kubectx, error) {
ret := _m.Called(cluster)
var r0 kubecfg.Kubectx
var r1 error
if rf, ok := ret.Get(0).(func(terra.Cluster) (kubecfg.Kubectx, error)); ok {
return rf(cluster)
}
if rf, ok := ret.Get(0).(func(terra.Cluster) kubecfg.Kubectx); ok {
r0 = rf(cluster)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(kubecfg.Kubectx)
}
}
if rf, ok := ret.Get(1).(func(terra.Cluster) error); ok {
r1 = rf(cluster)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// Kubeconfig_ForCluster_Call is a *mock.Call that shadows Run/Return methods with type explicit version for method 'ForCluster'
type Kubeconfig_ForCluster_Call struct {
*mock.Call
}
// ForCluster is a helper method to define mock.On call
// - cluster terra.Cluster
func (_e *Kubeconfig_Expecter) ForCluster(cluster interface{}) *Kubeconfig_ForCluster_Call {
return &Kubeconfig_ForCluster_Call{Call: _e.mock.On("ForCluster", cluster)}
}
func (_c *Kubeconfig_ForCluster_Call) Run(run func(cluster terra.Cluster)) *Kubeconfig_ForCluster_Call {
_c.Call.Run(func(args mock.Arguments) {
run(args[0].(terra.Cluster))
})
return _c
}
func (_c *Kubeconfig_ForCluster_Call) Return(_a0 kubecfg.Kubectx, _a1 error) *Kubeconfig_ForCluster_Call {
_c.Call.Return(_a0, _a1)
return _c
}
func (_c *Kubeconfig_ForCluster_Call) RunAndReturn(run func(terra.Cluster) (kubecfg.Kubectx, error)) *Kubeconfig_ForCluster_Call {
_c.Call.Return(run)
return _c
}
// ForEnvironment provides a mock function with given fields: env
func (_m *Kubeconfig) ForEnvironment(env terra.Environment) ([]kubecfg.Kubectx, error) {
ret := _m.Called(env)
var r0 []kubecfg.Kubectx
var r1 error
if rf, ok := ret.Get(0).(func(terra.Environment) ([]kubecfg.Kubectx, error)); ok {
return rf(env)
}
if rf, ok := ret.Get(0).(func(terra.Environment) []kubecfg.Kubectx); ok {
r0 = rf(env)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).([]kubecfg.Kubectx)
}
}
if rf, ok := ret.Get(1).(func(terra.Environment) error); ok {
r1 = rf(env)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// Kubeconfig_ForEnvironment_Call is a *mock.Call that shadows Run/Return methods with type explicit version for method 'ForEnvironment'
type Kubeconfig_ForEnvironment_Call struct {
*mock.Call
}
// ForEnvironment is a helper method to define mock.On call
// - env terra.Environment
func (_e *Kubeconfig_Expecter) ForEnvironment(env interface{}) *Kubeconfig_ForEnvironment_Call {
return &Kubeconfig_ForEnvironment_Call{Call: _e.mock.On("ForEnvironment", env)}
}
func (_c *Kubeconfig_ForEnvironment_Call) Run(run func(env terra.Environment)) *Kubeconfig_ForEnvironment_Call {
_c.Call.Run(func(args mock.Arguments) {
run(args[0].(terra.Environment))
})
return _c
}
func (_c *Kubeconfig_ForEnvironment_Call) Return(_a0 []kubecfg.Kubectx, _a1 error) *Kubeconfig_ForEnvironment_Call {
_c.Call.Return(_a0, _a1)
return _c
}
func (_c *Kubeconfig_ForEnvironment_Call) RunAndReturn(run func(terra.Environment) ([]kubecfg.Kubectx, error)) *Kubeconfig_ForEnvironment_Call {
_c.Call.Return(run)
return _c
}
// ForRelease provides a mock function with given fields: _a0
func (_m *Kubeconfig) ForRelease(_a0 terra.Release) (kubecfg.Kubectx, error) {
ret := _m.Called(_a0)
var r0 kubecfg.Kubectx
var r1 error
if rf, ok := ret.Get(0).(func(terra.Release) (kubecfg.Kubectx, error)); ok {
return rf(_a0)
}
if rf, ok := ret.Get(0).(func(terra.Release) kubecfg.Kubectx); ok {
r0 = rf(_a0)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(kubecfg.Kubectx)
}
}
if rf, ok := ret.Get(1).(func(terra.Release) error); ok {
r1 = rf(_a0)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// Kubeconfig_ForRelease_Call is a *mock.Call that shadows Run/Return methods with type explicit version for method 'ForRelease'
type Kubeconfig_ForRelease_Call struct {
*mock.Call
}
// ForRelease is a helper method to define mock.On call
// - _a0 terra.Release
func (_e *Kubeconfig_Expecter) ForRelease(_a0 interface{}) *Kubeconfig_ForRelease_Call {
return &Kubeconfig_ForRelease_Call{Call: _e.mock.On("ForRelease", _a0)}
}
func (_c *Kubeconfig_ForRelease_Call) Run(run func(_a0 terra.Release)) *Kubeconfig_ForRelease_Call {
_c.Call.Run(func(args mock.Arguments) {
run(args[0].(terra.Release))
})
return _c
}
func (_c *Kubeconfig_ForRelease_Call) Return(_a0 kubecfg.Kubectx, _a1 error) *Kubeconfig_ForRelease_Call {
_c.Call.Return(_a0, _a1)
return _c
}
func (_c *Kubeconfig_ForRelease_Call) RunAndReturn(run func(terra.Release) (kubecfg.Kubectx, error)) *Kubeconfig_ForRelease_Call {
_c.Call.Return(run)
return _c
}
// ForReleases provides a mock function with given fields: releases
func (_m *Kubeconfig) ForReleases(releases ...terra.Release) ([]kubecfg.ReleaseKtx, error) {
_va := make([]interface{}, len(releases))
for _i := range releases {
_va[_i] = releases[_i]
}
var _ca []interface{}
_ca = append(_ca, _va...)
ret := _m.Called(_ca...)
var r0 []kubecfg.ReleaseKtx
var r1 error
if rf, ok := ret.Get(0).(func(...terra.Release) ([]kubecfg.ReleaseKtx, error)); ok {
return rf(releases...)
}
if rf, ok := ret.Get(0).(func(...terra.Release) []kubecfg.ReleaseKtx); ok {
r0 = rf(releases...)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).([]kubecfg.ReleaseKtx)
}
}
if rf, ok := ret.Get(1).(func(...terra.Release) error); ok {
r1 = rf(releases...)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// Kubeconfig_ForReleases_Call is a *mock.Call that shadows Run/Return methods with type explicit version for method 'ForReleases'
type Kubeconfig_ForReleases_Call struct {
*mock.Call
}
// ForReleases is a helper method to define mock.On call
// - releases ...terra.Release
func (_e *Kubeconfig_Expecter) ForReleases(releases ...interface{}) *Kubeconfig_ForReleases_Call {
return &Kubeconfig_ForReleases_Call{Call: _e.mock.On("ForReleases",
append([]interface{}{}, releases...)...)}
}
func (_c *Kubeconfig_ForReleases_Call) Run(run func(releases ...terra.Release)) *Kubeconfig_ForReleases_Call {
_c.Call.Run(func(args mock.Arguments) {
variadicArgs := make([]terra.Release, len(args)-0)
for i, a := range args[0:] {
if a != nil {
variadicArgs[i] = a.(terra.Release)
}
}
run(variadicArgs...)
})
return _c
}
func (_c *Kubeconfig_ForReleases_Call) Return(_a0 []kubecfg.ReleaseKtx, _a1 error) *Kubeconfig_ForReleases_Call {
_c.Call.Return(_a0, _a1)
return _c
}
func (_c *Kubeconfig_ForReleases_Call) RunAndReturn(run func(...terra.Release) ([]kubecfg.ReleaseKtx, error)) *Kubeconfig_ForReleases_Call {
_c.Call.Return(run)
return _c
}
// NewKubeconfig creates a new instance of Kubeconfig. It also registers a testing interface on the mock and a cleanup function to assert the mocks expectations.
// The first argument is typically a *testing.T value.
func NewKubeconfig(t interface {
mock.TestingT
Cleanup(func())
}) *Kubeconfig {
mock := &Kubeconfig{}
mock.Mock.Test(t)
t.Cleanup(func() { mock.AssertExpectations(t) })
return mock
}