Exemplo n.º 1
0
    def __init__(self, private_key=None, public_key=None):
        """
        Constructor for RSA key pair. If only private key available then public key will be generate from private.

        Args:
            private_key (bytes): rsa private key
            public_key (bytes, optional): rsa public key
        """
        super(RSA, self).__init__()

        if private_key and public_key:
            self._private_key = private_key
            self._public_key = public_key
            self._private_key_obj = private_key_der_to_object(private_key=self._private_key)
            self._public_key_obj = public_key_der_to_object(public_key=self._public_key)

        elif private_key:
            self._private_key = private_key
            self._private_key_obj = private_key_der_to_object(private_key=self._private_key)
            self._public_key_obj = self._private_key_obj.public_key()
            self._public_key = public_key_to_der(public_key=self._public_key_obj)

        elif public_key:
            self._public_key = public_key
            self._public_key_obj = public_key_der_to_object(public_key=self._public_key)

        if self._private_key:
            self._private_key_hex = self._private_key.hex()

        self._public_key_hex = self._public_key.hex()

        self._address = generate_address(RemmeFamilyName.PUBLIC_KEY.value,  self._public_key)
        self._key_type = KeyType.RSA
Exemplo n.º 2
0
    def get_address_from_public_key(public_key):
        """
        Get address from public key.
        Args:
            public_key (bytes): public key in bytes

        Returns:
            Address in blockchain generated from public key string.
        """
        return generate_address(RemmeFamilyName.PUBLIC_KEY.value, public_key)
Exemplo n.º 3
0
    def __init__(self, private_key=None, public_key=None):
        """
        Constructor for ``ECDSA`` key pair. If only private key available then public key will be generate from private.

        Args:
            private_key (bytes): secp256k1 private key
            public_key (bytes, optional): secp256k1 public key
        """
        if private_key and public_key:
            self._private_key = private_key
            self._public_key = public_key

            self._private_key_obj = self._private_key_bytes_to_object(
                private_key=self._private_key)
            self._public_key_obj = self._public_key_bytes_to_object(
                public_key=self._public_key)

        elif private_key:
            self._private_key = private_key

            self._private_key_obj = self._private_key_bytes_to_object(
                private_key=self._private_key)
            self._public_key_obj = Secp256k1PublicKey(
                self._private_key_obj.secp256k1_private_key.pubkey)

            self._public_key = self._public_key_obj.as_bytes()

        elif public_key:
            self._public_key = public_key
            self._public_key_obj = self._public_key_bytes_to_object(
                public_key=self._public_key)

        if private_key:
            self._private_key_hex = self._private_key.hex()
        else:
            self._private_key_hex = None

        self._public_key_hex = self._public_key.hex()

        self._address = generate_address(RemmeFamilyName.PUBLIC_KEY.value,
                                         self._public_key)
        self._key_type = KeyType.ECDSA

        super(ECDSA, self).__init__(
            private_key=private_key if private_key else None,
            public_key=self._public_key,
            private_key_hex=self._private_key_hex,
            public_key_hex=self._public_key_hex,
            key_type=self._key_type,
            address=self._address,
        )
    async def _get_info_by_public_key(self, address):

        validate_address(address=address)

        info = await self._remme_api.send_request(
            method=RemmeMethods.PUBLIC_KEY,
            params=public_key_address(address),
        )

        if info.get('error') is None:
            info['address'] = generate_address(self._family_name, address)
            return PublicKeyInfo(data=info)

        raise Exception('This public key was not found.')
Exemplo n.º 5
0
    def __init__(self, private_key_hex='', account_type=AccountType.USER):
        """
        Get private key, create signer by using private key,
        generate public key from private key and generate account address by using public key and family name.

        Args:
            private_key_hex (string): private key in hex format
            account_type (enum): account type (user, node)

        References::
            - https://docs.remme.io/remme-core/docs/family-account.html#addressing

        To use:
            **Get private key:**

            .. code-block:: python

                private_key_hex = 'ac124700cc4325cc2a78b22b9acb039d9efe859ef673b871d55d1078391934f9'
                account = RemmeAccount()
                print(account.private_key_hex)
                # 'ac124700cc4325cc2a78b22b9acb039d9efe859ef673b871d55d1078391934f9'

            **Generate new private key:**

            .. sourcecode:: python

                account = RemmeAccount()
                print(account.private_key_hex)
                # 'b5167700cc4325cc2a78b22b9acb039d9efe859ef673b871d55d10783919129f'
        """
        if private_key_hex:
            private_key = hex_to_bytes(private_key_hex)
        else:
            private_key, _ = ECDSA.generate_key_pair()

        super(RemmeAccount, self).__init__(private_key=private_key)

        is_user = account_type == AccountType.USER

        self._family_name = RemmeFamilyName.ACCOUNT.value if is_user else RemmeFamilyName.NODE_ACCOUNT.value
        self._address = generate_address(self._family_name,
                                         self._public_key_hex)
Exemplo n.º 6
0
    def __init__(self, private_key, public_key):
        """
        Constructor for EdDSA key pair.
        If only private key available then public key will be generate from private.

        Args:
            private_key (bytes): ed25519 private key
            public_key (bytes, optional): ed25519 public key
        """
        super(EdDSA, self).__init__()

        if private_key and public_key:
            self._private_key = private_key
            self._public_key = public_key
            self._private_key_obj = SigningKey(self._private_key)
            self._public_key_obj = VerifyingKey(self._public_key)

        elif private_key:
            self._private_key = private_key
            self._private_key_obj = SigningKey(self._private_key)

            self._public_key_obj = self._private_key_obj.get_verifying_key()
            self._public_key = self._public_key_obj.to_bytes()

        elif public_key:
            self._public_key = public_key
            self._public_key_obj = VerifyingKey(self._public_key)

        if self._private_key:
            self._private_key_hex = self._private_key.hex()

        self._public_key_hex = self._public_key.hex()

        self._address = generate_address(
            _family_name=RemmeFamilyName.PUBLIC_KEY.value,
            _public_key_to=self._public_key,
        )
        self._key_type = KeyType.EdDSA
    async def store(self, data):
        """
        Store public key payload bytes with data into REMChain.
        Send transaction to chain.

        Args:
            data (object): payload bytes

        Returns:
            Information about storing public key to REMChain.

        To use:
            .. code-block:: python

                # payload_bytes is the transaction payload generated from method
                # remme.public_key_storage.create
                from remme import Remme as remme
                store_response = await remme.public_key_storage.store(payload_bytes)

                async for msg in store_response.connect_to_web_socket():
                    print(msg)
                    store_response.close_web_socket()
        """
        owner_address = ''

        owner_payload = NewPubKeyStoreAndPayPayload()
        owner_payload.ParseFromString(data)

        new_pub_key_payload = NewPubKeyPayload()
        new_pub_key_payload.ParseFromString(data)

        message = owner_payload if owner_payload.pub_key_payload.entity_hash else new_pub_key_payload

        if isinstance(message, NewPubKeyPayload):
            pub_key_address = self._construct_address_from_payload(
                payload=message)

        elif isinstance(message, NewPubKeyStoreAndPayPayload):

            owner_public_key = message.owner_public_key
            signature_by_owner = message.signature_by_owner
            pub_key_payload = message.pub_key_payload

            self._verify_payload_owner(
                owner_public_key=owner_public_key,
                signature_by_owner=signature_by_owner,
                pub_key_payload=pub_key_payload,
            )

            pub_key_address = self._construct_address_from_payload(
                payload=pub_key_payload)

            owner_address = generate_address(
                _family_name=RemmeFamilyName.ACCOUNT.value,
                _public_key_to=owner_public_key,
            )

        else:
            raise Exception('Invalid payload.')

        inputs_and_outputs = [
            pub_key_address, CONSENSUS_ADDRESS, self._settings_address
        ]

        if owner_address:
            inputs_and_outputs.append(owner_address)

        payload_bytes = self._generate_transaction_payload(
            method=PubKeyMethod.STORE_AND_PAY
            if owner_address else PubKeyMethod.STORE,
            data=data,
        )

        return await self._create_and_send_transaction(
            inputs=inputs_and_outputs,
            outputs=inputs_and_outputs,
            payload_bytes=payload_bytes,
        )
Exemplo n.º 8
0
    def _get_addresses(self, method, swap_id, receiver_address=None):
        """
        Get addresses for inputs and outputs.

        Args:
            method (protobuf): AtomicSwapMethod
            swap_id (string): swap id
            optional receiver_address (string): receiver address

        Returns:
            Lists of addresses inputs and outputs.
        """
        addresses = [
            generate_address(_family_name=self._family_name,
                             _public_key_to=swap_id)
        ]

        inputs, outputs = None, None

        if method not in ATOMIC_SWAP_METHODS:
            inputs = outputs = addresses
            return inputs, outputs

        if method == AtomicSwapMethod.INIT:
            inputs = [
                self._settings_swap_comission,
                CONSENSUS_ADDRESS,
                ZERO_ADDRESS,
                BLOCK_INFO_CONFIG_ADDRESS,
                BLOCK_INFO_NAMESPACE_ADDRESS,
            ]
            outputs = [
                self._settings_swap_comission,
                CONSENSUS_ADDRESS,
                ZERO_ADDRESS,
            ]

        elif method == AtomicSwapMethod.EXPIRE:
            inputs = [
                CONSENSUS_ADDRESS,
                ZERO_ADDRESS,
                BLOCK_INFO_CONFIG_ADDRESS,
                BLOCK_INFO_NAMESPACE_ADDRESS,
            ]
            outputs = [
                CONSENSUS_ADDRESS,
                ZERO_ADDRESS,
            ]

        elif method == AtomicSwapMethod.CLOSE:
            inputs = [
                CONSENSUS_ADDRESS,
                ZERO_ADDRESS,
                receiver_address,
            ]
            outputs = [
                CONSENSUS_ADDRESS,
                ZERO_ADDRESS,
                receiver_address,
            ]

        elif method == AtomicSwapMethod.SET_SECRET_LOCK:
            inputs = [
                CONSENSUS_ADDRESS,
            ]
            outputs = [
                CONSENSUS_ADDRESS,
            ]

        elif method == AtomicSwapMethod.APPROVE:
            inputs = [
                CONSENSUS_ADDRESS,
            ]
            outputs = [
                CONSENSUS_ADDRESS,
            ]

        inputs.extend(addresses)
        outputs.extend(addresses)

        return inputs, outputs