Exemple #1
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async def pack(wallet_handle: int, my_vk: str, their_vk: str, msg: Message) -> bytes:
    return await crypto.pack_message(
        wallet_handle,
        Serializer.pack(msg),
        [their_vk],
        my_vk
    )
Exemple #2
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async def test_got_hello_world(config, transport):
    msg = Message({
        'type': TESTING_MESSAGE.SEND_MESSAGE,
        'to': 'http://localhost:3000/indy',
        'content': {
            'type': 'hello_world',
            'message': 'Hello, world!'
        }
    })

    await transport.send(config.tested_agent, Serializer.pack(msg))
    msg_bytes = await expect_message(transport, 5)
    msg = Serializer.unpack(msg_bytes)

    assert msg.type == 'hello_world'
    assert msg.message == 'Hello, world!'
Exemple #3
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async def handle_send_message(msg: Message, **kwargs):
    """ Message handler for send_message_command.
    """
    transport = kwargs['transport']
    if is_valid_send_message(msg):
        await transport.send(msg.to, Serializer.pack(msg.content))
        return
    print('invalid send message command dropped')
Exemple #4
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        def parse(invite_url: str) -> Message:
            matches = re.match('(.+)?c_i=(.+)', invite_url)
            assert matches, 'Improperly formatted invite url!'

            invite_msg = Serializer.unpack(
                base64.urlsafe_b64decode(matches.group(2)).decode('ascii'))

            validate_message([('@type', Connection.Message.INVITE), 'label',
                              'recipientKeys', 'serviceEndpoint'], invite_msg)

            return invite_msg
Exemple #5
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        def build(label: str, connection_key: str, endpoint: str) -> str:
            msg = Message({
                '@type': Connection.Message.INVITE,
                'label': label,
                'recipientKeys': [connection_key],
                'serviceEndpoint': endpoint,
                # routing_keys not specified, but here is where they would be put in the invite.
            })

            b64_invite = base64.urlsafe_b64encode(
                bytes(Serializer.pack(msg), 'ascii')).decode('ascii')

            return '{}?c_i={}'.format(endpoint, b64_invite)
Exemple #6
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async def unpack(wallet_handle: int, wire_msg_bytes: bytes,
                 **kwargs) -> Message:
    __tracebackhide__ = True

    wire_msg = json.loads(await crypto.unpack_message(wallet_handle,
                                                      wire_msg_bytes))

    if 'expected_to_vk' in kwargs:
        assert kwargs['expected_to_vk'] == wire_msg['recipient_verkey'], \
            'Message is not for the expected verkey!'

    if 'expected_from_vk' in kwargs:
        assert kwargs['expected_from_vk'] == wire_msg['sender_verkey'], \
            'Message is not from the expected verkey!'

    return Serializer.unpack(wire_msg['message'])
Exemple #7
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async def message_process(config, transport, router):
    """ 
    """

    # Initialization steps
    # -- Create wallet
    print('Creating wallet: {}'.format(config.wallet_name))
    try:
        await wallet.create_wallet(
            json.dumps({
                'id': config.wallet_name,
                'storage_config': {
                    'path': config.wallet_path
                }
            }), json.dumps({'key': 'test-agent'}))
    except:
        pass

    # -- Open a wallet
    print('Opening wallet: {}'.format(config.wallet_name))
    config.wallet_handle = await wallet.open_wallet(
        json.dumps({
            'id': config.wallet_name,
            'storage_config': {
                'path': config.wallet_path
            }
        }), json.dumps({'key': 'test-agent'}))

    await TRANSPORT.create_transport_key(config.wallet_handle)

    # Register Routes
    await testing_routes(router)

    while True:
        msg_bytes = await transport.recv()
        print('Got message: {}'.format(msg_bytes))
        try:
            msg = Serializer.unpack(msg_bytes)
        except Exception as e:
            print('Failed to unpack message: {}\n\nError: {}'.format(
                msg_bytes, e))
            continue

        await router.route(msg, config=config, transport=transport)
async def test_connection_started_by_tested_agent(config, wallet_handle,
                                                  transport):
    invite_url = input('Input generated connection invite: ')

    matches = re.match('(.+)?c_i=(.+)', invite_url)
    assert matches, 'Improperly formatted invite url!'

    invite_msg = Serializer.unpack(
        base64.urlsafe_b64decode(matches.group(2)).decode('utf-8'))

    validate_message(['@type', 'label', 'key', 'endpoint'], invite_msg)

    # Create my information for connection
    (my_did, my_vk) = await did.create_and_store_my_did(wallet_handle, '{}')

    # Send Connection Request to inviter
    request = Message({
        '@type': Connection.REQUEST,
        'label': 'testing-agent',
        'DID': my_did,
        'DIDDoc': {
            'key': my_vk,
            'endpoint': config.endpoint,
        }
    })

    await transport.send(
        invite_msg['endpoint'], await pack(wallet_handle, my_vk,
                                           invite_msg['key'], request))

    # Wait for response
    response_bytes = await expect_message(transport, 60)

    response = await unpack(wallet_handle,
                            response_bytes,
                            expected_to_vk=my_vk)

    validate_message(['@type', 'DID', 'DIDDoc'], response)

    validate_message(['key', 'endpoint'], response['DIDDoc'])
YOUR_ORCA_SCRIPTS_FOLDER = os.path.expanduser(
    "~/.local/share/orca/orca-scripts")
YOUR_NVDAREMOTE_SERVER_ADDRESS = "host"
YOUR_NVDAREMOTE_SERVER_PORT = 6837
YOUR_NVDAREMOTE_KEY = "key"

# Make the NVDA Remote modules importable
sys.path.insert(0, YOUR_ORCA_SCRIPTS_FOLDER)

from orca.speechdispatcherfactory import SpeechServer
from serializer import JSONSerializer
from transport import RelayTransport
import traceback
import threading

mySerializer = JSONSerializer()

transport = RelayTransport(
    mySerializer,
    (YOUR_NVDAREMOTE_SERVER_ADDRESS, YOUR_NVDAREMOTE_SERVER_PORT),
    channel=YOUR_NVDAREMOTE_KEY,
    connection_type="slave")


def try_run_thread():
    try:
        transport.run()
    except Exception:
        print("Error in thread")
        traceback.print_exc()
Exemple #10
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def main():
    engine = Engine.create()
    serializer = JSONSerializer()
    engine_controller = EngineController(engine, serializer)
    server = STDIOServer(engine_controller.request_handler)
    server.listen()