Ejemplo n.º 1
0
def token_approve(assets: str, mixer_addr: str, asset_addr: str, username: str,
                  password: str):
    """
    Approve the mixer to spend some amount of assets
    """
    approve_value = EtherValue(assets)
    #eth_addr = load_eth_address(eth_addr)
    #client_ctx = ctx.obj
    #web3 = open_web3_from_ctx(client_ctx)
    #mixer_desc = load_mixer_description_from_ctx(client_ctx)
    #if not mixer_desc.asset:
    #    raise ClickException("no asset for mixer {mixer_desc.mixer.address}")

    asset_instance = BAC001(asset_addr)
    keystore_file = "{}/{}/{}".format(USER_DIR, username, FISCO_ADDRESS_FILE)
    with open(keystore_file, "r") as dump_f:
        keytext = json.load(dump_f)
        privkey = Account.decrypt(keytext, password)
        asset_instance.client.ecdsa_account = Account.from_key(privkey)
        keypair = BcosKeyPair()
        keypair.private_key = asset_instance.client.ecdsa_account.privateKey
        keypair.public_key = asset_instance.client.ecdsa_account.publickey
        keypair.address = asset_instance.client.ecdsa_account.address
        asset_instance.client.keypair = keypair
    print(f"- {username} approves the transfer of BAC001asset to the Mixer")
    out, transactionReceipt = asset_instance.approve(mixer_addr,
                                                     approve_value.wei)
    print("approve tranaction output", out)
    outputresult = asset_instance.allowance(
        asset_instance.client.ecdsa_account.address, mixer_addr)
    print(f"- The allowance for the Mixer from {username} is: {outputresult}")
    return outputresult
Ejemplo n.º 2
0
    def load_default_account(self):
        if client_config.crypto_type == CRYPTO_TYPE_GM:
            # 加载国密账号
            if self.gm_account is not None:
                return  # 不需要重复加载
            try:
                self.gm_account = GM_Account()
                self.gm_account_file = "{}/{}".format(client_config.account_keyfile_path,
                                                      client_config.gm_account_keyfile)
                if os.path.exists(self.gm_account_file) is False:
                    raise BcosException(("gm account keyfile file {} doesn't exist, "
                                         "please check client_config.py again "
                                         "and make sure this account exist")
                                        .format(self.gm_account_file))
                self.gm_account.load_from_file(
                    self.gm_account_file, client_config.gm_account_password)
                self.keypair = self.gm_account.keypair
                return
            except Exception as e:
                raise BcosException("load gm account from {} failed, reason: {}"
                                    .format(self.gm_account_file, e))

        # 默认的 ecdsa 账号
        try:
            if self.ecdsa_account is not None:
                return  # 不需要重复加载
            # check account keyfile
            self.keystore_file = "{}/{}".format(client_config.account_keyfile_path,
                                                client_config.account_keyfile)
            if os.path.exists(self.keystore_file) is False:
                raise BcosException(("keystore file {} doesn't exist, "
                                     "please check client_config.py again "
                                     "and make sure this account exist")
                                    .format(self.keystore_file))
            with open(self.keystore_file, "r") as dump_f:
                keytext = json.load(dump_f)
                privkey = Account.decrypt(keytext, client_config.account_password)
                self.ecdsa_account = Account.from_key(privkey)
                keypair = BcosKeyPair()
                keypair.private_key = self.ecdsa_account.privateKey
                keypair.public_key = self.ecdsa_account.publickey
                keypair.address = self.ecdsa_account.address
                self.keypair = keypair
        except Exception as e:
            raise BcosException("load account from {} failed, reason: {}"
                                .format(self.keystore_file, e))
Ejemplo n.º 3
0
def getBalance(request) -> None:
    result = {}
    req = json.loads(request.body)
    bac_instance = BAC001(req['token_address'])
    keystore_file = "{}/{}/{}".format(USER_DIR, req['username'],
                                      FISCO_ADDRESS_FILE)
    with open(keystore_file, "r") as dump_f:
        keytext = json.load(dump_f)
        privkey = Account.decrypt(keytext, req['password'])
        bac_instance.client.ecdsa_account = Account.from_key(privkey)
        keypair = BcosKeyPair()
        keypair.private_key = bac_instance.client.ecdsa_account.privateKey
        keypair.public_key = bac_instance.client.ecdsa_account.publickey
        keypair.address = bac_instance.client.ecdsa_account.address
        bac_instance.client.keypair = keypair
    balance = bac_instance.balance(bac_instance.client.ecdsa_account.address)
    result['status'] = 0
    result['balance'] = balance[0] / 1000000000000000000.0
    return JsonResponse(result)
Ejemplo n.º 4
0
def create_zeth_client_and_mixer_desc(
        prover_server_endpoint: str, mixer_addr: str, username: str,
        password: str) -> Tuple[MixerClient, MixerDescription]:
    """
    Create a MixerClient and MixerDescription object, for an existing deployment.
    """
    #web3 = open_web3_from_ctx(ctx)
    #mixer_desc = load_mixer_description_from_ctx(ctx)
    mixer_instance = Groth16Mixer(mixer_addr)
    keystore_file = "{}/{}/{}".format(USER_DIR, username, FISCO_ADDRESS_FILE)
    if exists(keystore_file) is False:
        raise ClickException(f"invalid output spec: {keystore_file}")
    with open(keystore_file, "r") as dump_f:
        keytext = json.load(dump_f)
        privkey = Account.decrypt(keytext, password)
        mixer_instance.client.ecdsa_account = Account.from_key(privkey)
        keypair = BcosKeyPair()
        keypair.private_key = mixer_instance.client.ecdsa_account.privateKey
        keypair.public_key = mixer_instance.client.ecdsa_account.publickey
        keypair.address = mixer_instance.client.ecdsa_account.address
        mixer_instance.client.keypair = keypair
    zeth_client = MixerClient.open(prover_server_endpoint, mixer_instance)
    return (zeth_client)
Ejemplo n.º 5
0
def sendAsset(request) -> None:
    result = {}
    req = json.loads(request.body)
    asset_instance = BAC001(req['token_address'])
    keystore_file = "{}/{}/{}".format(USER_DIR, req['username'],
                                      FISCO_ADDRESS_FILE)
    with open(keystore_file, "r") as dump_f:
        keytext = json.load(dump_f)
        privkey = Account.decrypt(keytext, req['password'])
        asset_instance.client.ecdsa_account = Account.from_key(privkey)
        keypair = BcosKeyPair()
        keypair.private_key = asset_instance.client.ecdsa_account.privateKey
        keypair.public_key = asset_instance.client.ecdsa_account.publickey
        keypair.address = asset_instance.client.ecdsa_account.address
        asset_instance.client.keypair = keypair
    print(f"- {req['username']}  the transfer of BAC001asset to the Mixer")
    value = EtherValue(req['value'])
    out, transactionReceipt = asset_instance.send(req['fiscoAddress'],
                                                  value.wei, '')
    print("send tranaction output {}", out)
    balance = asset_instance.balance(keypair.address)
    result['status'] = 0
    result['balance'] = balance[0] / 1000000000000000000.0
    return JsonResponse(result)
Ejemplo n.º 6
0
def main() -> None:
    print("***********************")
    zksnark = zeth.zksnark.get_zksnark_provider("GROTH16")
    #web3, eth = mock.open_test_web3()
    '''
    # Ethereum addresses
    deployer_eth_address = eth.accounts[0]
    bob_eth_address = eth.accounts[1]
    alice_eth_address = eth.accounts[2]
    charlie_eth_address = eth.accounts[3]
    '''

    account_keyfile_path = "python_web3/bin/accounts"  # 保存keystore文件的路径,在此路径下,keystore文件以 [name].keystore命名
    account_keyfile = "pyaccount.keystore"
    keystore_file = "{}/{}".format(account_keyfile_path, account_keyfile)
    with open(keystore_file, "r") as dump_f:
        keytext = json.load(dump_f)
        privkey = Account.decrypt(keytext, "123456")
        deployer_ac = Account.from_key(privkey)

    # Fisco-bcos addresses
    bob_password = "******"
    alice_password = "******"
    charlie_password = "******"
    bob_ac = Account.create(bob_password)
    alice_ac = Account.create(alice_password)
    charlie_ac = Account.create(charlie_password)
    #keypair
    deployer_keypair = BcosKeyPair()
    deployer_keypair.private_key = deployer_ac.privateKey
    deployer_keypair.public_key = deployer_ac.publickey
    deployer_keypair.address = deployer_ac.address
    bob_keypair = BcosKeyPair()
    bob_keypair.private_key = bob_ac.privateKey
    bob_keypair.public_key = bob_ac.publickey
    bob_keypair.address = bob_ac.address
    # alice_keypair = BcosKeyPair()
    # alice_keypair.private_key = alice_ac.privateKey
    # alice_keypair.public_key = alice_ac.publickey
    # alice_keypair.address = alice_ac.address
    charlie_keypair = BcosKeyPair()
    charlie_keypair.private_key = charlie_ac.privateKey
    charlie_keypair.public_key = charlie_ac.publickey
    charlie_keypair.address = charlie_ac.address

    # Zeth addresses
    keystore = mock.init_test_keystore()

    # Deploy Zeth contracts
    tree_depth = constants.ZETH_MERKLE_TREE_DEPTH

    asset_address = deploy_asset("AAAA", "AAA", 18, 100000000)
    token_instance = BAC001(asset_address)
    mixer_address = deploy(asset_address)
    mixer_instance = Groth16Mixer(mixer_address)
    mixer_instance.client.ecdsa_account = deployer_ac
    mixer_instance.client.keypair = deployer_keypair
    print("token address: ", mixer_instance.token())
    zeth_client = MixerClient.open(PROVER_SERVER_ENDPOINT_DEFAULT,
                                   mixer_instance)
    mk_tree = zeth.merkle_tree.MerkleTree.empty_with_depth(tree_depth)

    #mixer_instance = zeth_client.mixer_instance

    # Keys and wallets
    def _mk_wallet(name: str, sk: ZethAddressPriv) -> Wallet:
        wallet_dir = join(mock.TEST_NOTE_DIR, name + "-erc")
        if exists(wallet_dir):
            # Note: symlink-attack resistance
            #   https://docs.python.org/3/library/shutil.html#shutil.rmtree.avoids_symlink_attacks
            shutil.rmtree(wallet_dir)
        return Wallet(mixer_instance, name, wallet_dir, sk)

    sk_alice = keystore["Alice"].addr_sk
    sk_bob = keystore["Bob"].addr_sk
    sk_charlie = keystore["Charlie"].addr_sk
    # alice_wallet = _mk_wallet('alice', sk_alice)
    # bob_wallet = _mk_wallet('bob', sk_bob)
    # charlie_wallet = _mk_wallet('charlie', sk_charlie)
    #block_num = 1

    # Universal update function
    # def _receive_notes(
    #         out_ev: List[MixOutputEvents]) \
    #         -> Dict[str, List[ZethNoteDescription]]:
    #     #nonlocal block_num
    #     notes = {
    #         'alice': alice_wallet.receive_notes(out_ev),
    #         'bob': bob_wallet.receive_notes(out_ev),
    #         'charlie': charlie_wallet.receive_notes(out_ev),
    #     }
    #     alice_wallet.update_and_save_state()
    #     bob_wallet.update_and_save_state()
    #     charlie_wallet.update_and_save_state()
    #     #block_num = block_num + 1
    #     return notes

    print("[INFO] 4. Running tests (asset mixed: ERC20 token)...")
    # We assign ETHToken to Bob

    print("- Initial balances: ")
    print_token_balances(token_instance, bob_ac.address, alice_ac.address,
                         charlie_ac.address, mixer_address)

    # Bob tries to deposit ETHToken, split in 2 notes on the mixer (without
    # approving)
    token_instance.client.ecdsa_account = bob_ac
    token_instance.client.keypair = bob_keypair
    zeth_client.mixer_instance.client.ecdsa_account = bob_ac
    zeth_client.mixer_instance.client.keypair = bob_keypair

    # Bob approves the transfer
    print("- Bob approves the transfer of ETHToken to the Mixer")
    token_instance.client.ecdsa_account = bob_ac
    token_instance.client.keypair = bob_keypair
    (outputresult, receipt) = token_instance.send(bob_ac.address,
                                                  Web3.toWei(10000, 'ether'),
                                                  '')
    print("send *****", receipt['status'])
    (outputresult, receipt) = token_instance.approve(mixer_address,
                                                     scenario.BOB_DEPOSIT_ETH)
    # eth.waitForTransactionReceipt(tx_hash)
    outputresult = token_instance.allowance(deployer_ac.address, mixer_address)
    print("- The allowance for the Mixer from Bob is:", outputresult)
    # # Bob deposits ETHToken, split in 2 notes on the mixer
    # result_deposit_bob_to_bob = scenario.bob_deposit(
    #     zeth_client, mk_tree, bob_ac.address, keystore, zeth.utils.EtherValue(0))
    #
    # print("- Balances after Bob's deposit: ")
    # print_token_balances(
    #     token_instance,
    #     bob_ac.address,
    #     alice_ac.address,
    #     charlie_ac.address,
    #     mixer_address
    # )
    #
    # # Alice sees a deposit and tries to decrypt the ciphertexts to see if she
    # # was the recipient, but Bob was the recipient so Alice fails to decrypt
    # received_notes = _receive_notes(
    #     result_deposit_bob_to_bob.output_events)
    # recovered_notes_alice = received_notes['alice']
    # assert(len(recovered_notes_alice) == 0), \
    #     "Alice decrypted a ciphertext that was not encrypted with her key!"
    #
    # # Bob does a transfer of ETHToken to Charlie on the mixer
    #
    # # Bob decrypts one of the note he previously received (useless here but
    # # useful if the payment came from someone else)
    # recovered_notes_bob = received_notes['bob']
    # assert(len(recovered_notes_bob) == 2), \
    #     f"Bob recovered {len(recovered_notes_bob)} notes from deposit, expected 2"
    # input_bob_to_charlie = recovered_notes_bob[0].as_input()
    '''
    # Execution of the transfer
    result_transfer_bob_to_charlie = scenario.bob_to_charlie(
        zeth_client,
        mk_tree,
        input_bob_to_charlie,
        bob_eth_address,
        keystore)

    # Bob tries to spend `input_note_bob_to_charlie` twice
    result_double_spending = None
    try:
        result_double_spending = scenario.bob_to_charlie(
            zeth_client,
            mk_tree,
            input_bob_to_charlie,
            bob_eth_address,
            keystore)
    except Exception as e:
        print(f"Bob's double spending successfully rejected! (msg: {e})")
    assert(result_double_spending is None), "Bob spent the same note twice!"

    print("- Balances after Bob's transfer to Charlie: ")
    print_token_balances(
        token_instance,
        bob_eth_address,
        alice_eth_address,
        charlie_eth_address,
        zeth_client.mixer_instance.address
    )

    # Charlie tries to decrypt the notes from Bob's previous transaction.
    received_notes = _receive_notes(
        result_transfer_bob_to_charlie.output_events)
    note_descs_charlie = received_notes['charlie']
    assert(len(note_descs_charlie) == 1), \
        f"Charlie decrypted {len(note_descs_charlie)}.  Expected 1!"

    _ = scenario.charlie_withdraw(
        zeth_client,
        mk_tree,
        note_descs_charlie[0].as_input(),
        charlie_eth_address,
        keystore)

    print("- Balances after Charlie's withdrawal: ")
    print_token_balances(
        token_instance,
        bob_eth_address,
        alice_eth_address,
        charlie_eth_address,
        zeth_client.mixer_instance.address
    )

    # Charlie tries to carry out a double spend by withdrawing twice the same
    # note
    result_double_spending = None
    try:
        # New commitments are added in the tree at each withdraw so we
        # recompute the path to have the updated nodes
        result_double_spending = scenario.charlie_double_withdraw(
            zeth_client,
            mk_tree,
            note_descs_charlie[0].as_input(),
            charlie_eth_address,
            keystore)
    except Exception as e:
        print(f"Charlie's double spending successfully rejected! (msg: {e})")
    print("Balances after Charlie's double withdrawal attempt: ")
    assert(result_double_spending is None), \
        "Charlie managed to withdraw the same note twice!"
    print_token_balances(
        token_instance,
        bob_eth_address,
        alice_eth_address,
        charlie_eth_address,
        zeth_client.mixer_instance.address)

    # Bob deposits once again ETH, split in 2 notes on the mixer
    # But Charlie attempts to corrupt the transaction (malleability attack)

    # Bob approves the transfer
    print("- Bob approves the transfer of ETHToken to the Mixer")
    tx_hash = approve(
        token_instance,
        bob_eth_address,
        zeth_client.mixer_instance.address,
        scenario.BOB_DEPOSIT_ETH)
    eth.waitForTransactionReceipt(tx_hash)
    allowance_mixer = allowance(
        token_instance,
        bob_eth_address,
        zeth_client.mixer_instance.address)
    print("- The allowance for the Mixer from Bob is:", allowance_mixer)

    result_deposit_bob_to_bob = scenario.charlie_corrupt_bob_deposit(
        zeth_client,
        mk_tree,
        bob_eth_address,
        charlie_eth_address,
        keystore)

    # Bob decrypts one of the note he previously received (should fail if
    # Charlie's attack succeeded)
    received_notes = _receive_notes(
        result_deposit_bob_to_bob.output_events)
    recovered_notes_bob = received_notes['bob']
    assert(len(recovered_notes_bob) == 2), \
        f"Bob recovered {len(recovered_notes_bob)} notes from deposit, expected 2"

    print("- Balances after Bob's last deposit: ")
    print_token_balances(
        token_instance,
        bob_eth_address,
        alice_eth_address,
        charlie_eth_address,
        zeth_client.mixer_instance.address)
    '''
    print("========================================\n" +
          "              TESTS PASSED\n" +
          "========================================\n")
Ejemplo n.º 7
0
class GM_Account(object):
    keypair = BcosKeyPair()
    cbc_iv = b'\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00'

    def getdetail(self, sep="\n"):
        return self.keypair.getdetail(sep)

    def publickey_to_address(self, publickey):
        publickeybytes = func.bytes_to_list(bytes(decode_hex(publickey)))
        hashres = sm3.sm3_hash(
            publickeybytes
        )  # sm3_hash 对应sm3_implement.py里的sm3_hash,返回的是hex形态的结果
        hash_raw = decode_hex(hashres)  # 转为bytes
        addr_raw = hash_raw[-20:]  # 截取20个字节
        addr = to_checksum_address(addr_raw)  # 转为格式化的地址
        return addr

    def create(self):
        kp = sm2_helper.sm2_key_pair_gen()
        self.keypair.private_key = kp[0]
        self.keypair.public_key = kp[1]
        self.keypair.address = self.publickey_to_address(
            self.keypair.public_key)

    def from_key(self, privkey):
        self.keypair.public_key = sm2_helper.sm2_privkey_to_pub(privkey)
        self.keypair.private_key = privkey
        self.keypair.address = self.publickey_to_address(
            self.keypair.public_key)

    def pwd_ljust(self, password):
        return password.ljust(16, '0')

    def save_to_file(self, filename, password=None):
        content = {}
        key = self.keypair.private_key
        content["address"] = self.keypair.address
        content["encrypt"] = False
        if password is not None:
            crypt_sm4 = CryptSM4()
            password = self.pwd_ljust(password)
            crypt_sm4.set_key(bytes(password, "utf-8"), SM4_ENCRYPT)
            encrypt_value = crypt_sm4.crypt_cbc(
                self.cbc_iv, bytes(self.keypair.private_key, "utf-8"))
            key = str(base64.b64encode(encrypt_value), "utf-8")
            content["encrypt"] = True
        content["private_key"] = key
        content["type"] = "gm"
        # set mac of the password
        passwdBytes = bytes(password, "utf-8")
        content["mac"] = sm3.sm3_hash(passwdBytes)
        with open(filename, "w") as dump_f:
            json.dump(content, dump_f, indent=4)
            dump_f.close()

    # 从文件加载,格式是json
    def load_from_file(self, filename, password=None):
        if password is None:
            return
        with open(filename, "r") as dump_f:
            content = json.load(dump_f)
            dump_f.close()

        if content["type"] != "gm":
            return
        # get and compare mac
        expected_mac = content["mac"]
        password = self.pwd_ljust(password)
        passwdBytes = bytes(password, "utf-8")
        mac = sm3.sm3_hash(passwdBytes)
        if not hmac.compare_digest(mac, expected_mac):
            raise ValueError("MAC mismatch")
        key = content["private_key"]
        crypt_sm4 = CryptSM4()
        crypt_sm4.set_key(bytes(password, "utf-8"), SM4_DECRYPT)
        key = base64.b64decode(bytes(key, "utf-8"))
        key = str(crypt_sm4.crypt_cbc(self.cbc_iv, key), "utf-8")
        self.from_key(key)