예제 #1
0
    def node_announcement(self,
                          side: Side,
                          features: str,
                          rgb_color: Tuple[int, int, int],
                          alias: str,
                          addresses: bytes,
                          timestamp: int) -> Message:
        # Begin with a fake signature.
        ann = Message(namespace().get_msgtype('node_announcement'),
                      signature=Sig(bytes(64)),
                      features=features,
                      timestamp=timestamp,
                      node_id=self.node_id(side).format().hex(),
                      rgb_color=bytes(rgb_color).hex(),
                      alias=bytes(alias, encoding='utf-8').zfill(32),
                      addresses=addresses)

        # BOLT #7:
        #  - MUST set `signature` to the signature of the double-SHA256 of the entire
        #  remaining packet after `signature` (using the key given by `node_id`).
        buf = io.BytesIO()
        ann.write(buf)
        # Note the first two 'type' bytes!
        h = sha256(sha256(buf.getvalue()[2 + 64:]).digest()).digest()

        ann.set_field('signature', Sig(self.node_privkeys[side].secret.hex(), h.hex()))
        return ann
예제 #2
0
    def get_output_message(self, conn: Conn,
                           event: ExpectMsg) -> Optional[bytes]:
        if self.config.getoption('verbose'):
            print("[GET_OUTPUT_MESSAGE {}]".format(conn))

        # We make the message they were expecting.
        msg = Message(event.msgtype, **event.resolve_args(self, event.kwargs))

        # Fake up the other fields.
        for m in msg.missing_fields():
            ftype = msg.messagetype.find_field(m.name)
            msg.set_field(m.name, self.fake_field(ftype.fieldtype))

        binmsg = io.BytesIO()
        msg.write(binmsg)
        return binmsg.getvalue()
예제 #3
0
    def channel_update(self,
                       short_channel_id: str,
                       side: Side,
                       disable: bool,
                       cltv_expiry_delta: int,
                       htlc_minimum_msat: int,
                       fee_base_msat: int,
                       fee_proportional_millionths: int,
                       timestamp: int,
                       htlc_maximum_msat: Optional[int]) -> Message:
        # BOLT #7: The `channel_flags` bitfield is used to indicate the
        # direction of the channel: it identifies the node that this update
        # originated from and signals various options concerning the
        # channel. The following table specifies the meaning of its individual
        # bits:
        #
        # | Bit Position  | Name        | Meaning                          |
        # | ------------- | ----------- | -------------------------------- |
        # | 0             | `direction` | Direction this update refers to. |
        # | 1             | `disable`   | Disable the channel.             |

        # BOLT #7:
        #   - if the origin node is `node_id_1` in the message:
        #     - MUST set the `direction` bit of `channel_flags` to 0.
        #   - otherwise:
        #     - MUST set the `direction` bit of `channel_flags` to 1.
        if self.funding_pubkey(side) == self.funding_pubkeys_for_gossip()[0]:
            channel_flags = 0
        else:
            channel_flags = 1

        if disable:
            channel_flags |= 2

        # BOLT #7: The `message_flags` bitfield is used to indicate the
        # presence of optional fields in the `channel_update` message:
        #
        # | Bit Position  | Name                      | Field                            |
        # | ------------- | ------------------------- | -------------------------------- |
        # | 0             | `option_channel_htlc_max` | `htlc_maximum_msat`              |
        message_flags = 0
        if htlc_maximum_msat:
            message_flags |= 1

        # Begin with a fake signature.
        update = Message(namespace().get_msgtype('channel_update'),
                         short_channel_id=short_channel_id,
                         signature=Sig(bytes(64)),
                         chain_hash=self.chain_hash,
                         timestamp=timestamp,
                         message_flags=message_flags,
                         channel_flags=channel_flags,
                         cltv_expiry_delta=cltv_expiry_delta,
                         htlc_minimum_msat=htlc_minimum_msat,
                         fee_base_msat=fee_base_msat,
                         fee_proportional_millionths=fee_proportional_millionths)
        if htlc_maximum_msat:
            update.set_field('htlc_maximum_msat', htlc_maximum_msat)

        # BOLT #7:
        # - MUST set `signature` to the signature of the double-SHA256 of the
        #   entire remaining packet after `signature`, using its own `node_id`.
        buf = io.BytesIO()
        update.write(buf)
        # Note the first two 'type' bytes!
        h = sha256(sha256(buf.getvalue()[2 + 64:]).digest()).digest()

        update.set_field('signature', Sig(self.node_privkeys[side].secret.hex(), h.hex()))

        return update