Exemplo n.º 1
0
    def test_add_then_update(self):
        cache = TransactionCache(self.store)

        bytedata_1 = bytes.fromhex(tx_hex_1)
        tx_hash_1 = bitcoinx.double_sha256(bytedata_1)
        metadata_1 = TxData(position=11)
        with SynchronousWriter() as writer:
            cache.add(
                [(tx_hash_1, metadata_1, bytedata_1, TxFlags.StateDispatched)],
                completion_callback=writer.get_callback())
            assert writer.succeeded()

        assert cache.is_cached(tx_hash_1)
        entry = cache.get_entry(tx_hash_1)
        assert TxFlags.HasByteData | TxFlags.HasPosition | TxFlags.StateDispatched == entry.flags
        assert entry.bytedata is not None

        metadata_2 = TxData(fee=10, height=88)
        propagate_flags = TxFlags.HasFee | TxFlags.HasHeight
        with SynchronousWriter() as writer:
            cache.update([(tx_hash_1, metadata_2, None,
                           propagate_flags | TxFlags.HasPosition)],
                         completion_callback=writer.get_callback())
            assert writer.succeeded()

        entry = cache.get_entry(tx_hash_1)
        expected_flags = propagate_flags | TxFlags.StateDispatched | TxFlags.HasByteData
        assert expected_flags == entry.flags, \
            f"{TxFlags.to_repr(expected_flags)} !=  {TxFlags.to_repr(entry.flags)}"
        assert entry.bytedata is not None
Exemplo n.º 2
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    def test_uncleared_bytedata_requirements(self) -> None:
        cache = TransactionCache(self.store)

        tx_1 = Transaction.from_hex(tx_hex_1)
        tx_hash_1 = tx_1.hash()
        data = TxData(position=11)
        for state_flag in TRANSACTION_FLAGS:
            with pytest.raises(wallet_database.InvalidDataError):
                cache.add([ (tx_hash_1, data, None, state_flag, None) ])

        with SynchronousWriter() as writer:
            cache.add([ (tx_hash_1, data, tx_1, TxFlags.StateSigned, None) ],
                completion_callback=writer.get_callback())
            assert writer.succeeded()

        # We are applying a clearing of the bytedata, this should be invalid given uncleared.
        for state_flag in TRANSACTION_FLAGS:
            with pytest.raises(wallet_database.InvalidDataError):
                cache.update([ (tx_hash_1, data, None, state_flag | TxFlags.HasByteData) ])
    def test_add_then_update(self):
        cache = TransactionCache(self.store)

        bytedata_1 = bytes.fromhex(tx_hex_1)
        tx_hash_1 = bitcoinx.double_sha256(bytedata_1)
        metadata_1 = TxData(position=11)
        with SynchronousWriter() as writer:
            cache.add([(tx_hash_1, metadata_1, bytedata_1,
                        TxFlags.StateDispatched, None)],
                      completion_callback=writer.get_callback())
            assert writer.succeeded()

        assert cache.is_cached(tx_hash_1)
        entry = cache.get_entry(tx_hash_1)
        assert TxFlags.HasByteData | TxFlags.HasPosition | TxFlags.StateDispatched == entry.flags
        assert cache.have_transaction_data_cached(tx_hash_1)

        # NOTE: We are not updating bytedata, and it should remain the same. The flags we pass
        # into update are treated specially to achieve this.
        metadata_2 = TxData(fee=10, height=88)
        propagate_flags = TxFlags.HasFee | TxFlags.HasHeight
        with SynchronousWriter() as writer:
            cache.update([(tx_hash_1, metadata_2, None,
                           propagate_flags | TxFlags.HasPosition)],
                         completion_callback=writer.get_callback())
            assert writer.succeeded()

        # Check the cache to see that the flags are correct and that bytedata is cached.
        entry = cache.get_entry(tx_hash_1)
        expected_flags = propagate_flags | TxFlags.StateDispatched | TxFlags.HasByteData
        assert expected_flags == entry.flags, \
            f"{TxFlags.to_repr(expected_flags)} !=  {TxFlags.to_repr(entry.flags)}"
        assert cache.have_transaction_data_cached(tx_hash_1)

        # Check the store to see that the flags are correct and the bytedata is retained.
        rows = self.store.read(tx_hashes=[tx_hash_1])
        assert 1 == len(rows)
        get_tx_hash, bytedata_get, flags_get, metadata_get = rows[0]
        assert bytedata_1 == bytedata_get
        assert flags_get & TxFlags.HasByteData != 0
Exemplo n.º 4
0
    def test_get_unsynced_hashes(self):
        cache = TransactionCache(self.store)

        tx_1 = Transaction.from_hex(tx_hex_1)
        tx_hash_1 = tx_1.hash()
        metadata_1 = TxData(height=11)
        with SynchronousWriter() as writer:
            cache.add([ (tx_hash_1, metadata_1, None, TxFlags.Unset, None) ],
                completion_callback=writer.get_callback())
            assert writer.succeeded()

        results = cache.get_unsynced_hashes()
        assert 1 == len(results)

        metadata_2 = TxData()
        with SynchronousWriter() as writer:
            cache.update([ (tx_hash_1, metadata_2, tx_1, TxFlags.HasByteData) ],
                completion_callback=writer.get_callback())
            assert writer.succeeded()

        results = cache.get_unsynced_hashes()
        assert 0 == len(results)