コード例 #1
0
    def __enter__(self):
        n, t, my_id = self.n, self.t, self.my_id
        send, recv = self.get_send_recv(f"{self.tag}-AVSS")
        g, h, pks, sk = get_avss_params(n, t, my_id)
        crs = [g, h]
        self.avss_instance = HbAvssLight(pks, sk, crs, n, t, my_id, send, recv)
        self.avss_instance.__enter__()
        self.tasks.append(asyncio.create_task(self._runner()))

        send, recv = self.get_send_recv(f"{self.tag}-AVSS_VALUE_PROCESSOR")
        pk, sks = dealer(n, t + 1, seed=17)
        self.avss_value_processor = AvssValueProcessor(
            pk,
            sks[my_id],
            n,
            t,
            my_id,
            send,
            recv,
            self.avss_instance.output_queue.get,
            self.avss_value_processor_chunk_size,
        )
        self.avss_value_processor.__enter__()
        self.tasks.append(asyncio.create_task(self._extract()))
        return self
コード例 #2
0
async def test_hbavss_light(test_router):
    t = 2
    n = 3 * t + 1

    g, h, pks, sks = get_avss_params(n, t)
    sends, recvs, _ = test_router(n)
    crs = [g, h]

    value = ZR.random()
    avss_tasks = [None] * n
    hbavss_list = [None] * n
    dealer_id = randint(0, n - 1)

    with ExitStack() as stack:
        for i in range(n):
            hbavss = HbAvssLight(pks, sks[i], crs, n, t, i, sends[i], recvs[i])
            hbavss_list[i] = hbavss
            stack.enter_context(hbavss)
            if i == dealer_id:
                avss_tasks[i] = asyncio.create_task(hbavss.avss(0,
                                                                value=value))
            else:
                avss_tasks[i] = asyncio.create_task(
                    hbavss.avss(0, dealer_id=dealer_id))
            avss_tasks[i].add_done_callback(print_exception_callback)
        outputs = await asyncio.gather(
            *[hbavss_list[i].output_queue.get() for i in range(n)])
        for task in avss_tasks:
            task.cancel()
    shares = []
    for item in outputs:
        shares.append(item[2])
    assert polynomials_over(ZR).interpolate_at(zip(range(1, n + 1),
                                                   shares)) == value
コード例 #3
0
async def hbavss_light_batch_dealer(test_router, params):

    (t, n, g, h, pks, sks, crs, pc, values, field) = params
    sends, recvs, _ = test_router(n + 1)
    dealer_id = n

    hbavss = HbAvssLight(
        pks,
        None,
        crs,
        n,
        t,
        dealer_id,
        sends[dealer_id],
        recvs[dealer_id],
        pc=pc,
        field=field,
    )  # (# noqa: E501)
    await asyncio.create_task(hbavss.avss(0, value=values, client_mode=True))
コード例 #4
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async def hbavss_light_batch(test_router, params):
    (t, n, g, h, pks, sks, crs, pc, values, field) = params
    sends, recvs, _ = test_router(n)
    avss_tasks = [None] * n
    hbavss_list = [None] * n
    dealer_id = randint(0, n - 1)

    with ExitStack() as stack:
        for i in range(n):
            hbavss = HbAvssLight(
                pks, sks[i], crs, n, t, i, sends[i], recvs[i], pc=pc, field=field
            )
            hbavss_list[i] = hbavss
            stack.enter_context(hbavss)
            if i == dealer_id:
                avss_tasks[i] = asyncio.create_task(hbavss.avss(0, value=values))
            else:
                avss_tasks[i] = asyncio.create_task(hbavss.avss(0, dealer_id=dealer_id))
        await asyncio.gather(*[hbavss_list[i].output_queue.get() for i in range(n)])
        for task in avss_tasks:
            task.cancel()
コード例 #5
0
async def test_hbavss_light_share_open(test_router):
    t = 2
    n = 3 * t + 1

    g, h, pks, sks = get_avss_params(n, t)
    sends, recvs, _ = test_router(n)
    crs = [g, h]

    value = ZR.random()
    avss_tasks = [None] * n
    hbavss_list = [None] * n
    dealer_id = randint(0, n - 1)

    with ExitStack() as stack:
        for i in range(n):
            hbavss = HbAvssLight(pks, sks[i], crs, n, t, i, sends[i], recvs[i])
            hbavss_list[i] = hbavss
            stack.enter_context(hbavss)
            if i == dealer_id:
                avss_tasks[i] = asyncio.create_task(hbavss.avss(0,
                                                                value=value))
            else:
                avss_tasks[i] = asyncio.create_task(
                    hbavss.avss(0, dealer_id=dealer_id))
        outputs = await asyncio.gather(
            *[hbavss_list[i].output_queue.get() for i in range(n)])
        for task in avss_tasks:
            task.cancel()
    shares = []
    for item in outputs:
        shares.append(item[2])

    async def _prog(context):
        share_value = context.field(shares[context.myid])
        assert await context.Share(share_value).open() == value

    program_runner = TaskProgramRunner(n, t)
    program_runner.add(_prog)
    await program_runner.join()
コード例 #6
0
class PreProcessingBase(ABC):
    PERIOD_IN_SECONDS = 3

    def __init__(
        self,
        n,
        t,
        my_id,
        send,
        recv,
        tag,
        batch_size=10,
        avss_value_processor_chunk_size=1,
    ):
        self.n, self.t, self.my_id = n, t, my_id
        self.tag = tag
        self.avss_value_processor_chunk_size = avss_value_processor_chunk_size

        # Batch size of values to AVSS from a node
        self.batch_size = batch_size
        # Minimum number of values before triggering another set of AVSSes
        self.low_watermark = self.batch_size

        self.output_queue = asyncio.Queue()

        # Create a mechanism to split the `send` and `recv` channels based on `tag`
        subscribe_recv_task, subscribe = subscribe_recv(recv)
        self.tasks = [subscribe_recv_task]

        def _get_send_recv(tag):
            return wrap_send(tag, send), subscribe(tag)

        self.get_send_recv = _get_send_recv

    async def get(self):
        return await self.output_queue.get()

    @abstractmethod
    def _get_input_batch(self):
        raise NotImplementedError

    async def _trigger_and_wait_for_avss(self, avss_id):
        inputs = self._get_input_batch()
        assert type(inputs) in [tuple, list]
        avss_tasks = []
        avss_tasks.append(
            asyncio.create_task(
                self.avss_instance.avss_parallel(
                    avss_id, len(inputs), values=inputs, dealer_id=self.my_id
                )
            )
        )
        for i in range(self.n):
            if i != self.my_id:
                avss_tasks.append(
                    asyncio.create_task(
                        self.avss_instance.avss_parallel(
                            avss_id, len(inputs), dealer_id=i
                        )
                    )
                )
        await asyncio.gather(*avss_tasks)

    async def _runner(self):
        counter = 0
        logging.debug("[%d] Starting preprocessing runner: %s", self.my_id, self.tag)
        while True:
            # If the number of values in the output queue are below the lower
            # watermark then we want to trigger the next set of AVSSes.
            if self.output_queue.qsize() < self.low_watermark:
                logging.debug("[%d] Starting AVSS Batch: %d", self.my_id, counter)
                await self._trigger_and_wait_for_avss(counter)
                logging.debug("[%d] AVSS Batch Completed: %d", self.my_id, counter)
                counter += 1
            # Wait for sometime before checking again.
            await asyncio.sleep(PreProcessingBase.PERIOD_IN_SECONDS)

    async def _get_output_batch(self, group_size=1):
        for i in range(self.batch_size):
            batch = []
            while True:
                value = await self.avss_value_processor.get()
                if value is None:
                    break
                batch.append(value)
            assert len(batch) / group_size >= self.n - self.t
            assert len(batch) / group_size <= self.n
            yield batch

    async def _extract(self):
        raise NotImplementedError

    def __enter__(self):
        n, t, my_id = self.n, self.t, self.my_id
        send, recv = self.get_send_recv(f"{self.tag}-AVSS")
        g, h, pks, sk = get_avss_params(n, t, my_id)
        crs = [g, h]
        self.avss_instance = HbAvssLight(pks, sk, crs, n, t, my_id, send, recv)
        self.avss_instance.__enter__()
        self.tasks.append(asyncio.create_task(self._runner()))

        send, recv = self.get_send_recv(f"{self.tag}-AVSS_VALUE_PROCESSOR")
        pk, sks = dealer(n, t + 1, seed=17)
        self.avss_value_processor = AvssValueProcessor(
            pk,
            sks[my_id],
            n,
            t,
            my_id,
            send,
            recv,
            self.avss_instance.output_queue.get,
            self.avss_value_processor_chunk_size,
        )
        self.avss_value_processor.__enter__()
        self.tasks.append(asyncio.create_task(self._extract()))
        return self

    def __exit__(self, *args):
        for task in self.tasks:
            task.cancel()
        self.avss_instance.__exit__(*args)
        self.avss_value_processor.__exit__(*args)
コード例 #7
0
async def test_hbavss_light_parallel_share_array_open(test_router):
    t = 2
    n = 3 * t + 1
    k = 4

    g, h, pks, sks = get_avss_params(n, t)
    sends, recvs, _ = test_router(n)
    crs = [g, h]

    values = [int(ZR.random()) for _ in range(k)]
    dealer_id = randint(0, n - 1)

    with ExitStack() as stack:
        avss_tasks = [None] * n
        hbavss_list = [None] * n
        for i in range(n):
            hbavss = HbAvssLight(pks, sks[i], crs, n, t, i, sends[i], recvs[i])
            hbavss_list[i] = hbavss
            stack.enter_context(hbavss)

            if i == dealer_id:
                v, d = values, None
            else:
                v, d = None, dealer_id

            avss_tasks[i] = asyncio.create_task(
                hbavss.avss_parallel(0, k, v, d))
            avss_tasks[i].add_done_callback(print_exception_callback)

        outputs = [None] * k
        for j in range(k):
            outputs[j] = await asyncio.gather(
                *[hbavss_list[i].output_queue.get() for i in range(n)])

        for task in avss_tasks:
            task.cancel()
    # Sort the outputs incase they're out of order
    round_outputs = [[[] for __ in range(n)] for _ in range(k)]
    for i in range(k):
        for j in range(n):
            round_outputs[outputs[i][j][1]][j] = outputs[i][j]
    shares = [[] for _ in range(n)]
    for i in range(k):
        round_output = round_outputs[i]
        for j in range(len(round_output)):
            shares[j].append(round_output[j][2])

    async def _prog(context):
        share_values = list(map(context.field, shares[context.myid]))
        opened_shares = set(await context.ShareArray(share_values).open())

        # The set of opened share should have exactly `k` values
        assert len(opened_shares) == k

        # All the values in the set of opened shares should be from the initial values
        for i in opened_shares:
            assert i.value in values

    program_runner = TaskProgramRunner(n, t)
    program_runner.add(_prog)
    await program_runner.join()
コード例 #8
0
async def test_hbavss_light_batch_share_fault(test_router):
    class BadDealer(HbAvssLight):
        def _get_dealer_msg(self, value):
            if type(value) in (list, tuple):
                valuelist = value
            else:
                valuelist = [value]
            philist, commitlist, auxlist = [], [], []
            fault_i = randint(0, self.n - 1)
            for val in valuelist:
                phi = self.poly.random(self.t, val)
                philist.append(phi)
                commitment, aux_poly = self.poly_commit.commit(phi)
                commitlist.append(commitment)
                auxlist.append(aux_poly)
            ephemeral_secret_key = self.field.random()
            ephemeral_public_key = pow(self.g, ephemeral_secret_key)
            z = [None] * self.n
            for i in range(self.n):
                shared_key = pow(self.public_keys[i], ephemeral_secret_key)
                shares, witnesses = [], []
                for phi in philist:
                    shares.append(phi(i + 1))
                for aux in auxlist:
                    witnesses.append(
                        self.poly_commit.create_witness(aux, i + 1))
                if i == fault_i:
                    shares[20] = ZR.random()
                z[i] = SymmetricCrypto.encrypt(
                    str(shared_key).encode(), (shares, witnesses))

            return dumps((commitlist, ephemeral_public_key, z))

    t = 2
    n = 3 * t + 1
    batchsize = 50

    g, h, pks, sks = get_avss_params(n, t)
    sends, recvs, _ = test_router(n)
    crs = [g, h]

    values = [int(ZR.random()) for _ in range(batchsize)]
    avss_tasks = [None] * n
    hbavss_list = [None] * n
    dealer_id = randint(0, n - 1)

    with ExitStack() as stack:
        for i in range(n):
            if i == dealer_id:
                hbavss = BadDealer(pks, sks[i], crs, n, t, i, sends[i],
                                   recvs[i])
            else:
                hbavss = HbAvssLight(pks, sks[i], crs, n, t, i, sends[i],
                                     recvs[i])
            hbavss_list[i] = hbavss
            stack.enter_context(hbavss)
            if i == dealer_id:
                avss_tasks[i] = asyncio.create_task(
                    hbavss.avss(0, value=values))
            else:
                avss_tasks[i] = asyncio.create_task(
                    hbavss.avss(0, dealer_id=dealer_id))
            avss_tasks[i].add_done_callback(print_exception_callback)
        # shares = await asyncio.gather(*avss_tasks)
        outputs = await asyncio.gather(
            *[hbavss_list[i].output_queue.get() for i in range(n)])
        for task in avss_tasks:
            task.cancel()
    shares = [[] for _ in range(batchsize)]
    for i in range(n):
        for j in range(batchsize):
            shares[j].append(outputs[i][2][j])
    for j in range(batchsize):
        assert (polynomials_over(ZR).interpolate_at(
            zip(range(1, n + 1), shares[j])) == values[j])
コード例 #9
0
async def test_hbavss_light_encryption_fault(test_router):
    # Injects one undecryptable ciphertext
    class BadDealer(HbAvssLight):
        def _get_dealer_msg(self, value):
            fault_i = randint(0, self.n - 1)
            phi = self.poly.random(self.t, value)
            commitment, aux_poly = self.poly_commit.commit(phi)
            ephemeral_secret_key = self.field.random()
            ephemeral_public_key = pow(self.g, ephemeral_secret_key)
            z = [None] * self.n
            for i in range(self.n):
                witness = self.poly_commit.create_witness(aux_poly, i + 1)
                shared_key = pow(self.public_keys[i], ephemeral_secret_key)
                if i == fault_i:
                    z[i] = SymmetricCrypto.encrypt(
                        str(ZR.random()).encode(), ([phi(i + 1)], [witness]))
                else:
                    z[i] = SymmetricCrypto.encrypt(
                        str(shared_key).encode(), ([phi(i + 1)], [witness]))

            return dumps(([commitment], ephemeral_public_key, z))

    t = 2
    n = 3 * t + 1

    g, h, pks, sks = get_avss_params(n, t)
    sends, recvs, _ = test_router(n)
    crs = [g, h]

    value = ZR.random()
    avss_tasks = [None] * n
    hbavss_list = [None] * n
    dealer_id = randint(0, n - 1)

    with ExitStack() as stack:
        for i in range(n):
            if i == dealer_id:
                hbavss = BadDealer(pks, sks[i], crs, n, t, i, sends[i],
                                   recvs[i])
            else:
                hbavss = HbAvssLight(pks, sks[i], crs, n, t, i, sends[i],
                                     recvs[i])
            hbavss_list[i] = hbavss
            stack.enter_context(hbavss)
            if i == dealer_id:
                avss_tasks[i] = asyncio.create_task(hbavss.avss(0,
                                                                value=value))
                avss_tasks[i].add_done_callback(print_exception_callback)
            else:
                avss_tasks[i] = asyncio.create_task(
                    hbavss.avss(0, dealer_id=dealer_id))
                avss_tasks[i].add_done_callback(print_exception_callback)
        outputs = await asyncio.gather(
            *[hbavss_list[i].output_queue.get() for i in range(n)])
        for task in avss_tasks:
            task.cancel()
    shares = []
    for item in outputs:
        shares.append(item[2])
    assert polynomials_over(ZR).interpolate_at(zip(range(1, n + 1),
                                                   shares)) == value