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crypto_library.go
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crypto_library.go
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// Code generated by mockery v2.21.4. DO NOT EDIT.
package mock
import (
sema "github.com/onflow/cadence/runtime/sema"
mock "github.com/stretchr/testify/mock"
stdlib "github.com/onflow/cadence/runtime/stdlib"
)
// CryptoLibrary is an autogenerated mock type for the CryptoLibrary type
type CryptoLibrary struct {
mock.Mock
}
// BLSAggregatePublicKeys provides a mock function with given fields: keys
func (_m *CryptoLibrary) BLSAggregatePublicKeys(keys []*stdlib.PublicKey) (*stdlib.PublicKey, error) {
ret := _m.Called(keys)
var r0 *stdlib.PublicKey
var r1 error
if rf, ok := ret.Get(0).(func([]*stdlib.PublicKey) (*stdlib.PublicKey, error)); ok {
return rf(keys)
}
if rf, ok := ret.Get(0).(func([]*stdlib.PublicKey) *stdlib.PublicKey); ok {
r0 = rf(keys)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*stdlib.PublicKey)
}
}
if rf, ok := ret.Get(1).(func([]*stdlib.PublicKey) error); ok {
r1 = rf(keys)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// BLSAggregateSignatures provides a mock function with given fields: sigs
func (_m *CryptoLibrary) BLSAggregateSignatures(sigs [][]byte) ([]byte, error) {
ret := _m.Called(sigs)
var r0 []byte
var r1 error
if rf, ok := ret.Get(0).(func([][]byte) ([]byte, error)); ok {
return rf(sigs)
}
if rf, ok := ret.Get(0).(func([][]byte) []byte); ok {
r0 = rf(sigs)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).([]byte)
}
}
if rf, ok := ret.Get(1).(func([][]byte) error); ok {
r1 = rf(sigs)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// BLSVerifyPOP provides a mock function with given fields: pk, sig
func (_m *CryptoLibrary) BLSVerifyPOP(pk *stdlib.PublicKey, sig []byte) (bool, error) {
ret := _m.Called(pk, sig)
var r0 bool
var r1 error
if rf, ok := ret.Get(0).(func(*stdlib.PublicKey, []byte) (bool, error)); ok {
return rf(pk, sig)
}
if rf, ok := ret.Get(0).(func(*stdlib.PublicKey, []byte) bool); ok {
r0 = rf(pk, sig)
} else {
r0 = ret.Get(0).(bool)
}
if rf, ok := ret.Get(1).(func(*stdlib.PublicKey, []byte) error); ok {
r1 = rf(pk, sig)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// Hash provides a mock function with given fields: data, tag, hashAlgorithm
func (_m *CryptoLibrary) Hash(data []byte, tag string, hashAlgorithm sema.HashAlgorithm) ([]byte, error) {
ret := _m.Called(data, tag, hashAlgorithm)
var r0 []byte
var r1 error
if rf, ok := ret.Get(0).(func([]byte, string, sema.HashAlgorithm) ([]byte, error)); ok {
return rf(data, tag, hashAlgorithm)
}
if rf, ok := ret.Get(0).(func([]byte, string, sema.HashAlgorithm) []byte); ok {
r0 = rf(data, tag, hashAlgorithm)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).([]byte)
}
}
if rf, ok := ret.Get(1).(func([]byte, string, sema.HashAlgorithm) error); ok {
r1 = rf(data, tag, hashAlgorithm)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// ValidatePublicKey provides a mock function with given fields: pk
func (_m *CryptoLibrary) ValidatePublicKey(pk *stdlib.PublicKey) error {
ret := _m.Called(pk)
var r0 error
if rf, ok := ret.Get(0).(func(*stdlib.PublicKey) error); ok {
r0 = rf(pk)
} else {
r0 = ret.Error(0)
}
return r0
}
// VerifySignature provides a mock function with given fields: signature, tag, signedData, publicKey, signatureAlgorithm, hashAlgorithm
func (_m *CryptoLibrary) VerifySignature(signature []byte, tag string, signedData []byte, publicKey []byte, signatureAlgorithm sema.SignatureAlgorithm, hashAlgorithm sema.HashAlgorithm) (bool, error) {
ret := _m.Called(signature, tag, signedData, publicKey, signatureAlgorithm, hashAlgorithm)
var r0 bool
var r1 error
if rf, ok := ret.Get(0).(func([]byte, string, []byte, []byte, sema.SignatureAlgorithm, sema.HashAlgorithm) (bool, error)); ok {
return rf(signature, tag, signedData, publicKey, signatureAlgorithm, hashAlgorithm)
}
if rf, ok := ret.Get(0).(func([]byte, string, []byte, []byte, sema.SignatureAlgorithm, sema.HashAlgorithm) bool); ok {
r0 = rf(signature, tag, signedData, publicKey, signatureAlgorithm, hashAlgorithm)
} else {
r0 = ret.Get(0).(bool)
}
if rf, ok := ret.Get(1).(func([]byte, string, []byte, []byte, sema.SignatureAlgorithm, sema.HashAlgorithm) error); ok {
r1 = rf(signature, tag, signedData, publicKey, signatureAlgorithm, hashAlgorithm)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
type mockConstructorTestingTNewCryptoLibrary interface {
mock.TestingT
Cleanup(func())
}
// NewCryptoLibrary creates a new instance of CryptoLibrary. It also registers a testing interface on the mock and a cleanup function to assert the mocks expectations.
func NewCryptoLibrary(t mockConstructorTestingTNewCryptoLibrary) *CryptoLibrary {
mock := &CryptoLibrary{}
mock.Mock.Test(t)
t.Cleanup(func() { mock.AssertExpectations(t) })
return mock
}