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Mta.go
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Mta.go
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// Code generated by mockery v1.0.0. DO NOT EDIT.
package mocks
import (
elliptic "github.com/getamis/alice/crypto/elliptic"
big "math/big"
ecpointgrouplaw "github.com/getamis/alice/crypto/ecpointgrouplaw"
homo "github.com/getamis/alice/crypto/homo"
mock "github.com/stretchr/testify/mock"
mta "github.com/getamis/alice/crypto/mta"
zkproof "github.com/getamis/alice/crypto/zkproof"
)
// Mta is an autogenerated mock type for the Mta type
type Mta struct {
mock.Mock
}
// Compute provides a mock function with given fields: publicKey, encMessage
func (_m *Mta) Compute(publicKey homo.Pubkey, encMessage []byte) (*big.Int, *big.Int, error) {
ret := _m.Called(publicKey, encMessage)
var r0 *big.Int
if rf, ok := ret.Get(0).(func(homo.Pubkey, []byte) *big.Int); ok {
r0 = rf(publicKey, encMessage)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*big.Int)
}
}
var r1 *big.Int
if rf, ok := ret.Get(1).(func(homo.Pubkey, []byte) *big.Int); ok {
r1 = rf(publicKey, encMessage)
} else {
if ret.Get(1) != nil {
r1 = ret.Get(1).(*big.Int)
}
}
var r2 error
if rf, ok := ret.Get(2).(func(homo.Pubkey, []byte) error); ok {
r2 = rf(publicKey, encMessage)
} else {
r2 = ret.Error(2)
}
return r0, r1, r2
}
// Decrypt provides a mock function with given fields: c
func (_m *Mta) Decrypt(c *big.Int) (*big.Int, error) {
ret := _m.Called(c)
var r0 *big.Int
if rf, ok := ret.Get(0).(func(*big.Int) *big.Int); ok {
r0 = rf(c)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*big.Int)
}
}
var r1 error
if rf, ok := ret.Get(1).(func(*big.Int) error); ok {
r1 = rf(c)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// GetAG provides a mock function with given fields: curve
func (_m *Mta) GetAG(curve elliptic.Curve) *ecpointgrouplaw.ECPoint {
ret := _m.Called(curve)
var r0 *ecpointgrouplaw.ECPoint
if rf, ok := ret.Get(0).(func(elliptic.Curve) *ecpointgrouplaw.ECPoint); ok {
r0 = rf(curve)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*ecpointgrouplaw.ECPoint)
}
}
return r0
}
// GetAK provides a mock function with given fields:
func (_m *Mta) GetAK() *big.Int {
ret := _m.Called()
var r0 *big.Int
if rf, ok := ret.Get(0).(func() *big.Int); ok {
r0 = rf()
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*big.Int)
}
}
return r0
}
// GetAProof provides a mock function with given fields: curve
func (_m *Mta) GetAProof(curve elliptic.Curve) (*zkproof.SchnorrProofMessage, error) {
ret := _m.Called(curve)
var r0 *zkproof.SchnorrProofMessage
if rf, ok := ret.Get(0).(func(elliptic.Curve) *zkproof.SchnorrProofMessage); ok {
r0 = rf(curve)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*zkproof.SchnorrProofMessage)
}
}
var r1 error
if rf, ok := ret.Get(1).(func(elliptic.Curve) error); ok {
r1 = rf(curve)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// GetEncK provides a mock function with given fields:
func (_m *Mta) GetEncK() []byte {
ret := _m.Called()
var r0 []byte
if rf, ok := ret.Get(0).(func() []byte); ok {
r0 = rf()
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).([]byte)
}
}
return r0
}
// GetProductWithK provides a mock function with given fields: v
func (_m *Mta) GetProductWithK(v *big.Int) *big.Int {
ret := _m.Called(v)
var r0 *big.Int
if rf, ok := ret.Get(0).(func(*big.Int) *big.Int); ok {
r0 = rf(v)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*big.Int)
}
}
return r0
}
// GetProofWithCheck provides a mock function with given fields: curve, beta
func (_m *Mta) GetProofWithCheck(curve elliptic.Curve, beta *big.Int) ([]byte, error) {
ret := _m.Called(curve, beta)
var r0 []byte
if rf, ok := ret.Get(0).(func(elliptic.Curve, *big.Int) []byte); ok {
r0 = rf(curve, beta)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).([]byte)
}
}
var r1 error
if rf, ok := ret.Get(1).(func(elliptic.Curve, *big.Int) error); ok {
r1 = rf(curve, beta)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// GetResult provides a mock function with given fields: alphas, betas
func (_m *Mta) GetResult(alphas []*big.Int, betas []*big.Int) (*big.Int, error) {
ret := _m.Called(alphas, betas)
var r0 *big.Int
if rf, ok := ret.Get(0).(func([]*big.Int, []*big.Int) *big.Int); ok {
r0 = rf(alphas, betas)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*big.Int)
}
}
var r1 error
if rf, ok := ret.Get(1).(func([]*big.Int, []*big.Int) error); ok {
r1 = rf(alphas, betas)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// OverrideA provides a mock function with given fields: newA
func (_m *Mta) OverrideA(newA *big.Int) (mta.Mta, error) {
ret := _m.Called(newA)
var r0 mta.Mta
if rf, ok := ret.Get(0).(func(*big.Int) mta.Mta); ok {
r0 = rf(newA)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(mta.Mta)
}
}
var r1 error
if rf, ok := ret.Get(1).(func(*big.Int) error); ok {
r1 = rf(newA)
} else {
r1 = ret.Error(1)
}
return r0, r1
}
// VerifyProofWithCheck provides a mock function with given fields: proof, curve, alpha
func (_m *Mta) VerifyProofWithCheck(proof []byte, curve elliptic.Curve, alpha *big.Int) (*ecpointgrouplaw.ECPoint, error) {
ret := _m.Called(proof, curve, alpha)
var r0 *ecpointgrouplaw.ECPoint
if rf, ok := ret.Get(0).(func([]byte, elliptic.Curve, *big.Int) *ecpointgrouplaw.ECPoint); ok {
r0 = rf(proof, curve, alpha)
} else {
if ret.Get(0) != nil {
r0 = ret.Get(0).(*ecpointgrouplaw.ECPoint)
}
}
var r1 error
if rf, ok := ret.Get(1).(func([]byte, elliptic.Curve, *big.Int) error); ok {
r1 = rf(proof, curve, alpha)
} else {
r1 = ret.Error(1)
}
return r0, r1
}