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encryptor.cpp
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// Copyright (c) Microsoft Corporation. All rights reserved.
// Licensed under the MIT license.
// SEALNet
#include "seal/c/encryptor.h"
#include "seal/c/utilities.h"
// SEAL
#include "seal/encryptor.h"
using namespace std;
using namespace seal;
using namespace seal::c;
// Enables access to private members of seal::Encryptor.
using ph = struct seal::Encryptor::EncryptorPrivateHelper
{
static void encrypt_symmetric_internal(
Encryptor *encryptor, const Plaintext &plain, bool save_seed, Ciphertext &destination, MemoryPoolHandle pool)
{
encryptor->encrypt_internal(plain, false, save_seed, destination, pool);
}
static void encrypt_zero_symmetric_internal(
Encryptor *encryptor, parms_id_type parms_id, bool save_seed, Ciphertext &destination, MemoryPoolHandle pool)
{
encryptor->encrypt_zero_internal(parms_id, false, save_seed, destination, pool);
}
static void encrypt_zero_symmetric_internal(
Encryptor *encryptor, bool save_seed, Ciphertext &destination, MemoryPoolHandle pool)
{
encryptor->encrypt_zero_internal(encryptor->context_.first_parms_id(), false, save_seed, destination, pool);
}
};
SEAL_C_FUNC Encryptor_Create(void *context, void *public_key, void *secret_key, void **encryptor)
{
const SEALContext *ctx = FromVoid<SEALContext>(context);
IfNullRet(ctx, E_POINTER);
PublicKey *pkey = FromVoid<PublicKey>(public_key);
SecretKey *skey = FromVoid<SecretKey>(secret_key);
IfNullRet(encryptor, E_POINTER);
if (nullptr == pkey && nullptr == skey)
{
return E_POINTER;
}
try
{
Encryptor *enc;
if (nullptr != pkey)
{
enc = new Encryptor(*ctx, *pkey);
if (nullptr != skey)
{
enc->set_secret_key(*skey);
}
}
else
{
enc = new Encryptor(*ctx, *skey);
}
*encryptor = enc;
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
}
SEAL_C_FUNC Encryptor_SetPublicKey(void *thisptr, void *public_key)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
PublicKey *pkey = FromVoid<PublicKey>(public_key);
IfNullRet(pkey, E_POINTER);
try
{
encryptor->set_public_key(*pkey);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
}
SEAL_C_FUNC Encryptor_SetSecretKey(void *thisptr, void *secret_key)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
SecretKey *skey = FromVoid<SecretKey>(secret_key);
IfNullRet(skey, E_POINTER);
try
{
encryptor->set_secret_key(*skey);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
}
SEAL_C_FUNC Encryptor_Encrypt(void *thisptr, void *plaintext, void *destination, void *pool_handle)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
Plaintext *plain = FromVoid<Plaintext>(plaintext);
IfNullRet(plain, E_POINTER);
Ciphertext *cipher = FromVoid<Ciphertext>(destination);
IfNullRet(cipher, E_POINTER);
unique_ptr<MemoryPoolHandle> pool = MemHandleFromVoid(pool_handle);
try
{
encryptor->encrypt(*plain, *cipher, *pool);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
catch (const logic_error &)
{
return COR_E_INVALIDOPERATION;
}
}
SEAL_C_FUNC Encryptor_EncryptZero1(void *thisptr, uint64_t *parms_id, void *destination, void *pool_handle)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
IfNullRet(parms_id, E_POINTER);
Ciphertext *cipher = FromVoid<Ciphertext>(destination);
IfNullRet(cipher, E_POINTER);
unique_ptr<MemoryPoolHandle> pool = MemHandleFromVoid(pool_handle);
parms_id_type parms;
CopyParmsId(parms_id, parms);
try
{
encryptor->encrypt_zero(parms, *cipher, *pool);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
catch (const logic_error &)
{
return COR_E_INVALIDOPERATION;
}
}
SEAL_C_FUNC Encryptor_EncryptZero2(void *thisptr, void *destination, void *pool_handle)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
Ciphertext *cipher = FromVoid<Ciphertext>(destination);
IfNullRet(cipher, E_POINTER);
unique_ptr<MemoryPoolHandle> pool = MemHandleFromVoid(pool_handle);
try
{
encryptor->encrypt_zero(*cipher, *pool);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
catch (const logic_error &)
{
return COR_E_INVALIDOPERATION;
}
}
SEAL_C_FUNC Encryptor_EncryptSymmetric(
void *thisptr, void *plaintext, bool save_seed, void *destination, void *pool_handle)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
Plaintext *plain = FromVoid<Plaintext>(plaintext);
IfNullRet(plain, E_POINTER);
Ciphertext *cipher = FromVoid<Ciphertext>(destination);
IfNullRet(cipher, E_POINTER);
unique_ptr<MemoryPoolHandle> pool = MemHandleFromVoid(pool_handle);
try
{
ph::encrypt_symmetric_internal(encryptor, *plain, save_seed, *cipher, *pool);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
catch (const logic_error &)
{
return COR_E_INVALIDOPERATION;
}
}
SEAL_C_FUNC Encryptor_EncryptZeroSymmetric1(
void *thisptr, uint64_t *parms_id, bool save_seed, void *destination, void *pool_handle)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
IfNullRet(parms_id, E_POINTER);
Ciphertext *cipher = FromVoid<Ciphertext>(destination);
IfNullRet(cipher, E_POINTER);
unique_ptr<MemoryPoolHandle> pool = MemHandleFromVoid(pool_handle);
parms_id_type parms;
CopyParmsId(parms_id, parms);
try
{
ph::encrypt_zero_symmetric_internal(encryptor, parms, save_seed, *cipher, *pool);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
catch (const logic_error &)
{
return COR_E_INVALIDOPERATION;
}
}
SEAL_C_FUNC Encryptor_EncryptZeroSymmetric2(void *thisptr, bool save_seed, void *destination, void *pool_handle)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
Ciphertext *cipher = FromVoid<Ciphertext>(destination);
IfNullRet(cipher, E_POINTER);
unique_ptr<MemoryPoolHandle> pool = MemHandleFromVoid(pool_handle);
try
{
ph::encrypt_zero_symmetric_internal(encryptor, save_seed, *cipher, *pool);
return S_OK;
}
catch (const invalid_argument &)
{
return E_INVALIDARG;
}
catch (const logic_error &)
{
return COR_E_INVALIDOPERATION;
}
}
SEAL_C_FUNC Encryptor_Destroy(void *thisptr)
{
Encryptor *encryptor = FromVoid<Encryptor>(thisptr);
IfNullRet(encryptor, E_POINTER);
delete encryptor;
return S_OK;
}