def test_add_missing_transaction(self):
cache = TransactionCache(self.store)
tx_bytes_1 = bytes.fromhex(tx_hex_1)
tx_hash_1 = bitcoinx.double_sha256(tx_bytes_1)
with SynchronousWriter() as writer:
cache.add_missing_transaction(
tx_hash_1, 100, 94, completion_callback=writer.get_callback())
assert writer.succeeded()
assert cache.is_cached(tx_hash_1)
entry = cache.get_entry(tx_hash_1)
assert TxFlags.HasFee | TxFlags.HasHeight, entry.flags & TxFlags.METADATA_FIELD_MASK
assert entry.bytedata is None
tx_bytes_2 = bytes.fromhex(tx_hex_2)
tx_hash_2 = bitcoinx.double_sha256(tx_bytes_2)
with SynchronousWriter() as writer:
cache.add_missing_transaction(
tx_hash_2, 200, completion_callback=writer.get_callback())
assert writer.succeeded()
assert cache.is_cached(tx_hash_2)
entry = cache.get_entry(tx_hash_2)
assert TxFlags.HasHeight == entry.flags & TxFlags.METADATA_FIELD_MASK
assert entry.bytedata is None
def test_get_metadata(self):
# Full entry caching for non-settled transactions, otherwise only metadata.
bytedata_set_1 = bytes.fromhex(tx_hex_1)
tx_hash_1 = bitcoinx.double_sha256(bytedata_set_1)
metadata_set_1 = TxData(height=None, fee=2, position=None, date_added=1, date_updated=1)
bytedata_set_2 = bytes.fromhex(tx_hex_2)
tx_hash_2 = bitcoinx.double_sha256(bytedata_set_2)
metadata_set_2 = TxData(height=1, fee=2, position=10, date_added=1, date_updated=1)
with SynchronousWriter() as writer:
self.store.create([ (tx_hash_1, metadata_set_1, bytedata_set_1, TxFlags.Unset, None),
(tx_hash_2, metadata_set_2, bytedata_set_2, TxFlags.StateSettled, None), ],
completion_callback=writer.get_callback())
assert writer.succeeded()
cache = TransactionCache(self.store)
metadata_get = cache.get_metadata(tx_hash_1)
assert metadata_set_1.height == metadata_get.height
assert metadata_set_1.fee == metadata_get.fee
assert metadata_set_1.position == metadata_get.position
metadata_get = cache.get_metadata(tx_hash_2)
assert metadata_set_2.height == metadata_get.height
assert metadata_set_2.fee == metadata_get.fee
assert metadata_set_2.position == metadata_get.position
entry = cache._cache[tx_hash_1]
assert cache.have_transaction_data_cached(tx_hash_1)
entry = cache._cache[tx_hash_2]
assert not cache.have_transaction_data_cached(tx_hash_2)
def test_update(self):
to_add = []
for i in range(10):
tx_bytes = os.urandom(10)
tx_hash = bitcoinx.double_sha256(tx_bytes)
tx_data = TxData(height=None, fee=2, position=None, date_added=1, date_updated=1)
if i % 2:
to_add.append((tx_hash, tx_data, tx_bytes, TxFlags.HasByteData, None))
else:
to_add.append((tx_hash, tx_data, None, TxFlags.Unset, None))
with SynchronousWriter() as writer:
self.store.create(to_add, completion_callback=writer.get_callback())
assert writer.succeeded()
to_update = []
for tx_hash, metadata, tx_bytes, flags, description in to_add:
tx_metadata = TxData(height=1, fee=2, position=None, date_added=1, date_updated=1)
to_update.append((tx_hash, tx_metadata, tx_bytes, flags))
with SynchronousWriter() as writer:
self.store.update(to_update, completion_callback=writer.get_callback())
assert writer.succeeded()
for get_tx_hash, bytedata_get, flags_get, metadata_get in self.store.read():
for update_tx_hash, update_metadata, update_tx_bytes, update_flags in to_update:
if update_tx_hash == get_tx_hash:
assert metadata_get == update_metadata
assert bytedata_get == update_tx_bytes
continue
def test_delete(self) -> None:
to_add = []
for i in range(10):
bytedata = os.urandom(10)
tx_hash = bitcoinx.double_sha256(bytedata)
metadata = TxData(height=1,
fee=2,
position=None,
date_added=1,
date_updated=1)
to_add.append((tx_hash, metadata, bytedata, TxFlags.Unset, None))
with SynchronousWriter() as writer:
self.store.create(to_add,
completion_callback=writer.get_callback())
assert writer.succeeded()
add_hashes = set(t[0] for t in to_add)
get_hashes = set(self._get_store_hashes())
assert add_hashes == get_hashes
with SynchronousWriter() as writer:
self.store.delete(add_hashes,
completion_callback=writer.get_callback())
assert writer.succeeded()
get_hashes = self._get_store_hashes()
assert 0 == len(get_hashes)
def test_update_flags(self):
bytedata = os.urandom(10)
tx_hash_bytes = bitcoinx.double_sha256(bytedata)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
metadata = TxData(height=1, fee=2, position=None, timestamp=None)
self.store.add(tx_id, metadata, bytedata)
# Verify the field flags are assigned correctly on the add.
expected_flags = TxFlags.HasFee | TxFlags.HasHeight | TxFlags.HasByteData
flags = self.store.get_flags(tx_id)
self.assertEqual(expected_flags, flags)
flags = TxFlags.StateReceived
mask = TxFlags.METADATA_FIELD_MASK | TxFlags.HasByteData | TxFlags.HasProofData
self.store.update_flags(tx_id, flags, mask)
# Verify the state flag is correctly added via the mask.
flags_get = self.store.get_flags(tx_id)
expected_flags |= TxFlags.StateReceived
self.assertEqual(
expected_flags, flags_get,
f"{TxFlags.to_repr(expected_flags)} != {TxFlags.to_repr(flags_get)}"
)
flags = TxFlags.StateReceived
mask = TxFlags.Unset
self.store.update_flags(tx_id, flags, mask)
# Verify the state flag is correctly set via the mask.
flags = self.store.get_flags(tx_id)
self.assertEqual(TxFlags.StateReceived, flags)
def test_update_or_add(self):
cache = TxCache(self.store)
# Add.
bytedata_1 = bytes.fromhex(tx_hex_1)
tx_hash_bytes_1 = bitcoinx.double_sha256(bytedata_1)
tx_id_1 = bitcoinx.hash_to_hex_str(tx_hash_bytes_1)
metadata_1 = TxData()
cache.update_or_add([(tx_id_1, metadata_1, bytedata_1,
TxFlags.StateCleared)])
self.assertTrue(cache.is_cached(tx_id_1))
entry = cache.get_entry(tx_id_1)
self.assertEqual(TxFlags.HasByteData | TxFlags.StateCleared,
entry.flags)
self.assertIsNotNone(entry.bytedata)
# Update.
metadata_2 = TxData(position=22)
cache.update_or_add([(tx_id_1, metadata_2, None,
TxFlags.HasPosition | TxFlags.StateDispatched)])
entry = cache.get_entry(tx_id_1)
store_flags = self.store.get_flags(tx_id_1)
# State flags if present get set in an update otherwise they remain the same.
expected_flags = TxFlags.HasPosition | TxFlags.HasByteData | TxFlags.StateDispatched
self.assertEqual(
expected_flags, store_flags,
f"{TxFlags.to_repr(expected_flags)} != {TxFlags.to_repr(store_flags)}"
)
self.assertEqual(
expected_flags, entry.flags,
f"{TxFlags.to_repr(expected_flags)} != {TxFlags.to_repr(entry.flags)}"
)
self.assertEqual(bytedata_1, entry.bytedata)
self.assertEqual(metadata_2.position, entry.metadata.position)
def test_update__with_valid_magic_bytedata(self):
tx_bytes = os.urandom(10)
tx_hash = bitcoinx.double_sha256(tx_bytes)
tx_data = TxData(height=None,
fee=2,
position=None,
date_added=1,
date_updated=1)
row = (tx_hash, tx_data, tx_bytes, TxFlags.HasByteData, None)
with SynchronousWriter() as writer:
self.store.create([row], completion_callback=writer.get_callback())
assert writer.succeeded()
# Ensure that
with SynchronousWriter() as writer:
self.store.update([(tx_hash, tx_data, MAGIC_UNTOUCHED_BYTEDATA,
TxFlags.HasByteData)],
completion_callback=writer.get_callback())
assert writer.succeeded()
rows = self.store.read()
assert 1 == len(rows)
get_tx_hash, bytedata_get, flags_get, metadata_get = rows[0]
assert tx_bytes == bytedata_get
assert flags_get & TxFlags.HasByteData != 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
def test_update_flags(self):
cache = TxCache(self.store)
tx_bytes_1 = bytes.fromhex(tx_hex_1)
tx_hash_bytes_1 = bitcoinx.double_sha256(tx_bytes_1)
tx_id_1 = bitcoinx.hash_to_hex_str(tx_hash_bytes_1)
data = TxData(position=11)
cache.add([(tx_id_1, data, tx_bytes_1, TxFlags.StateDispatched)])
self.assertTrue(cache.is_cached(tx_id_1))
entry = cache.get_entry(tx_id_1)
self.assertEqual(
TxFlags.HasByteData | TxFlags.HasPosition
| TxFlags.StateDispatched, entry.flags)
self.assertIsNotNone(entry.bytedata)
cache.update_flags(tx_id_1, TxFlags.StateCleared,
TxFlags.HasByteData | TxFlags.HasProofData)
entry = cache.get_entry(tx_id_1)
store_flags = self.store.get_flags(tx_id_1)
expected_flags = TxFlags.HasByteData | TxFlags.HasPosition | TxFlags.StateCleared
self.assertEqual(
expected_flags, store_flags,
f"{TxFlags.to_repr(expected_flags)} != {TxFlags.to_repr(store_flags)}"
)
self.assertEqual(
expected_flags, entry.flags,
f"{TxFlags.to_repr(expected_flags)} != {TxFlags.to_repr(entry.flags)}"
)
self.assertIsNotNone(entry.bytedata)
def test_create_two_chains_and_reload(self, tmpdir):
headers_obj = create_headers(tmpdir, bsv_checkpoint)
checkpoint_hash = double_sha256(bsv_checkpoint.raw_header)
prior, chain = headers_obj.lookup(checkpoint_hash)
good_bits = [some_good_bits[0]]
count = 10
chain1_headers, chain1 = create_chain(headers_obj, count, good_bits=good_bits)
fork_point = chain1_headers[0]
chain2_headers, chain2 = create_chain(headers_obj, count, fork_point, good_bits=good_bits)
assert headers_obj.longest_chain() is chain2
assert chain1 is not chain2
assert headers_obj.chain_count() == 2
assert (headers_obj.chainwork_to_height(chain1, fork_point.height) ==
headers_obj.chainwork_to_height(chain2, fork_point.height))
chain3_headers, chain3 = create_chain(headers_obj, count, chain1.tip)
chain4_headers, chain4 = create_chain(headers_obj, count, chain2.tip)
assert chain3 is chain1
assert chain4 is chain2
assert headers_obj.chain_count() == 2
headers_obj._storage.close()
headers_obj = create_headers(tmpdir, bsv_checkpoint)
assert headers_obj.chain_count() == 2
chain5, chain6 = headers_obj.chains()
assert chain5.work == chain1.work
assert chain6.work == chain2.work
assert chain5.tip.hash == chain1.tip.hash
assert chain6.tip.hash == chain6.tip.hash
def test_proof(self):
bytedata = os.urandom(10)
tx_hash = bitcoinx.double_sha256(bytedata)
metadata = TxData(height=1,
fee=2,
position=None,
date_added=1,
date_updated=1)
with SynchronousWriter() as writer:
self.store.create([(tx_hash, metadata, bytedata, 0, None)],
completion_callback=writer.get_callback())
assert writer.succeeded()
position1 = 10
merkle_branch1 = [os.urandom(32) for i in range(10)]
proof = TxProof(position1, merkle_branch1)
date_updated = 1
with SynchronousWriter() as writer:
self.store.update_proof([(tx_hash, proof, date_updated)],
completion_callback=writer.get_callback())
assert writer.succeeded()
rows = self.store.read_proof([self.tx_hash])
assert len(rows) == 0
db_tx_hash, (tx_position2,
merkle_branch2) = self.store.read_proof([tx_hash])[0]
assert db_tx_hash == tx_hash
assert position1 == tx_position2
assert merkle_branch1 == merkle_branch2
def test_read_metadata(self) -> None:
# We're going to add five matches and look for two of them, checking that we do not match
# unwanted rows.
all_tx_hashes = []
datas = []
for i in range(5):
bytedata = os.urandom(10)
tx_hash = bitcoinx.double_sha256(bytedata)
metadata = TxData(height=i * 100,
fee=i * 1000,
position=None,
date_added=1,
date_updated=1)
datas.append((tx_hash, metadata, bytedata, TxFlags.Unset, None))
all_tx_hashes.append(tx_hash)
with SynchronousWriter() as writer:
self.store.create(datas, completion_callback=writer.get_callback())
assert writer.succeeded()
# We also ask for a dud tx_hash that won't get matched.
select_tx_hashes = [all_tx_hashes[0], all_tx_hashes[3], b"12121212"]
rowdatas = self.store.read_metadata(tx_hashes=select_tx_hashes)
# Check that the two valid matches are there and their values match the projected values.
assert len(rowdatas) == 2
for rowdata in rowdatas:
tx_hash = rowdata[0]
tx_flags = rowdata[1]
metadata = rowdata[2]
rowidx = all_tx_hashes.index(tx_hash)
assert metadata.height == rowidx * 100
assert metadata.fee == rowidx * 1000
assert metadata.position is None
def test_update_many(self):
to_add = []
for i in range(10):
tx_bytes = os.urandom(10)
tx_hash_bytes = bitcoinx.double_sha256(tx_bytes)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
tx_data = TxData(height=None, fee=2, position=None, timestamp=None)
to_add.append((tx_id, tx_data, tx_bytes, TxFlags.Unset))
self.store.add_many(to_add)
to_update = []
for tx_id, metadata, tx_bytes, flags in to_add:
tx_metadata = TxData(height=1,
fee=2,
position=None,
timestamp=None)
to_update.append((tx_id, tx_metadata, tx_bytes, flags))
self.store.update_many(to_update)
for tx_id_get, metadata_get, bytedata_get, flags_get in self.store.get_many(
):
for update_tx_id, update_metadata, update_tx_bytes, update_flags in to_update:
if update_tx_id == tx_id_get:
self.assertEqual(metadata_get, update_metadata)
self.assertEqual(bytedata_get, update_tx_bytes)
continue
def test_get_many(self):
to_add = []
for i in range(10):
tx_bytes = os.urandom(10)
tx_hash_bytes = bitcoinx.double_sha256(tx_bytes)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
tx_data = TxData(height=None, fee=2, position=None, timestamp=None)
to_add.append((tx_id, tx_data, tx_bytes, TxFlags.HasFee))
self.store.add_many(to_add)
# Test the first "add" id is matched.
matches = self.store.get_many(tx_ids=[to_add[0][0]])
self.assertEqual(to_add[0][0], matches[0][0])
# Test no id is matched.
matches = self.store.get_many(tx_ids=["aaaa"])
self.assertEqual(0, len(matches))
# Test flag and mask combinations.
matches = self.store.get_many(flags=TxFlags.HasFee)
self.assertEqual(10, len(matches))
matches = self.store.get_many(flags=TxFlags.Unset,
mask=TxFlags.HasHeight)
self.assertEqual(10, len(matches))
matches = self.store.get_many(flags=TxFlags.HasFee,
mask=TxFlags.HasFee)
self.assertEqual(10, len(matches))
matches = self.store.get_many(flags=TxFlags.Unset, mask=TxFlags.HasFee)
self.assertEqual(0, len(matches))
def test_get_transaction_after_metadata(self):
# Getting an entry for a settled transaction should update from metadata-only to full.
bytedata_set = bytes.fromhex(tx_hex_1)
tx_hash = bitcoinx.double_sha256(bytedata_set)
metadata_set = TxData(height=1, fee=2, position=None, date_added=1, date_updated=1)
with SynchronousWriter() as writer:
self.store.create([ (tx_hash, metadata_set, bytedata_set, TxFlags.StateSettled, None) ],
completion_callback=writer.get_callback())
assert writer.succeeded()
cache = TransactionCache(self.store)
metadata_get = cache.get_metadata(tx_hash)
assert metadata_get is not None
# Initial priming of cache will be only metadata.
cached_entry_1 = cache._cache[tx_hash]
assert not cache.have_transaction_data_cached(tx_hash)
# Entry request will hit the database.
entry = cache.get_entry(tx_hash)
assert cache.have_transaction_data_cached(tx_hash)
cached_entry_2 = cache._cache[tx_hash]
assert entry.metadata == cached_entry_2.metadata
assert entry.flags == cached_entry_2.flags
def test_read(self):
to_add = []
for i in range(10):
tx_bytes = os.urandom(10)
tx_hash = bitcoinx.double_sha256(tx_bytes)
tx_data = TxData(height=None, fee=2, position=None, date_added=1, date_updated=1)
to_add.append((tx_hash, tx_data, tx_bytes, TxFlags.HasFee, None))
with SynchronousWriter() as writer:
self.store.create(to_add, completion_callback=writer.get_callback())
assert writer.succeeded()
# Test the first "add" hash is matched.
matches = self.store.read(tx_hashes=[to_add[0][0]])
assert to_add[0][0] == matches[0][0]
# Test no id is matched.
matches = self.store.read(tx_hashes=[b"aaaa"])
assert 0 == len(matches)
# Test flag and mask combinations.
matches = self.store.read(flags=TxFlags.HasFee)
assert 10 == len(matches)
matches = self.store.read(flags=TxFlags.Unset, mask=TxFlags.HasHeight)
assert 10 == len(matches)
matches = self.store.read(flags=TxFlags.HasFee, mask=TxFlags.HasFee)
assert 10 == len(matches)
matches = self.store.read(flags=TxFlags.Unset, mask=TxFlags.HasFee)
assert 0 == len(matches)
def test_add_then_update(self):
cache = TxCache(self.store)
bytedata_1 = bytes.fromhex(tx_hex_1)
tx_id_1 = bitcoinx.hash_to_hex_str(bitcoinx.double_sha256(bytedata_1))
metadata_1 = TxData(position=11)
cache.add([(tx_id_1, metadata_1, bytedata_1, TxFlags.StateDispatched)])
self.assertTrue(cache.is_cached(tx_id_1))
entry = cache.get_entry(tx_id_1)
self.assertEqual(
TxFlags.HasByteData | TxFlags.HasPosition
| TxFlags.StateDispatched, entry.flags)
self.assertIsNotNone(entry.bytedata)
metadata_2 = TxData(fee=10, height=88)
propagate_flags = TxFlags.HasFee | TxFlags.HasHeight
cache.update([(tx_id_1, metadata_2, None,
propagate_flags | TxFlags.HasPosition)])
entry = cache.get_entry(tx_id_1)
expected_flags = propagate_flags | TxFlags.StateDispatched | TxFlags.HasByteData
self.assertEqual(
expected_flags, entry.flags,
f"{TxFlags.to_repr(expected_flags)} != {TxFlags.to_repr(entry.flags)}"
)
self.assertIsNotNone(entry.bytedata)
def test_create_single_chain_and_reload(self, tmpdir):
headers_obj = create_headers(tmpdir, bsv_checkpoint)
checkpoint_hash = double_sha256(bsv_checkpoint.raw_header)
prior, chain = headers_obj.lookup(checkpoint_hash)
count = 10
new_headers, chain = create_chain(headers_obj, count)
assert chain.height == bsv_checkpoint.height + count
headers_obj._storage.close()
headers_obj = create_headers(tmpdir, bsv_checkpoint)
chains = headers_obj.chains()
assert len(chains) == 1
chain = chains[0]
for n, new_header in enumerate(new_headers):
header = headers_obj.raw_header_at_height(
chain, bsv_checkpoint.height + n + 1)
assert header == new_header.raw
# Test adding a non-connecting header
prior_len = len(headers_obj)
new_header = random_header()
with pytest.raises(MissingHeader):
headers_obj.connect(new_header.raw)
assert len(headers_obj) == prior_len
def test_labels(self):
bytedata_1 = os.urandom(10)
tx_hash_1 = bitcoinx.double_sha256(bytedata_1)
metadata_1 = TxData(height=1,
fee=2,
position=None,
date_added=1,
date_updated=1)
bytedata_2 = os.urandom(10)
tx_hash_2 = bitcoinx.double_sha256(bytedata_2)
metadata_2 = TxData(height=1,
fee=2,
position=None,
date_added=1,
date_updated=1)
with SynchronousWriter() as writer:
self.store.create([(tx_hash_1, metadata_1, bytedata_1, 0, None),
(tx_hash_2, metadata_2, bytedata_2, 0, None)],
completion_callback=writer.get_callback())
assert writer.succeeded()
with SynchronousWriter() as writer:
self.store.update_descriptions(
[("tx 1", tx_hash_1)],
completion_callback=writer.get_callback())
assert writer.succeeded()
rows = self.store.read_descriptions()
assert len(rows) == 1
assert len([r[1] == "tx 1" for r in rows if r[0] == tx_hash_1]) == 1
with SynchronousWriter() as writer:
self.store.update_descriptions(
[(None, tx_hash_1), ("tx 2", tx_hash_2)],
completion_callback=writer.get_callback())
assert writer.succeeded()
rows = self.store.read_descriptions([tx_hash_2])
assert len(rows) == 1
assert rows[0][0] == tx_hash_2 and rows[0][1] == "tx 2"
# Reading entries for a non-existent ...
rows = self.store.read_descriptions([self.tx_hash])
assert len(rows) == 0
def test_delete(self):
tx_bytes = os.urandom(10)
tx_hash_bytes = bitcoinx.double_sha256(tx_bytes)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
data = TxData(height=1, fee=2, position=None, timestamp=None)
self.store.add(tx_id, data, tx_bytes)
self.assertTrue(self.store.has(tx_id))
self.store.delete(tx_id)
self.assertFalse(self.store.has(tx_id))
def test_get_unverified_entries_too_high(self):
cache = TxCache(self.store)
tx_bytes_1 = bytes.fromhex(tx_hex_1)
tx_hash_bytes_1 = bitcoinx.double_sha256(tx_bytes_1)
tx_id_1 = bitcoinx.hash_to_hex_str(tx_hash_bytes_1)
data = TxData(height=11, position=22)
cache.add([(tx_id_1, data, tx_bytes_1, TxFlags.StateCleared)])
results = cache.get_unverified_entries(100)
self.assertEqual(0, len(results))
def test_get_all_pending(self):
get_tx_ids = set([])
for tx_hex in (tx_hex_1, tx_hex_2):
bytedata = bytes.fromhex(tx_hex)
tx_hash_bytes = bitcoinx.double_sha256(bytedata)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
metadata = TxData(height=1, fee=2, position=None, timestamp=None)
self.store.add(tx_id, metadata, bytedata)
get_tx_ids.add(tx_id)
result_tx_ids = self.store.get_ids()
self.assertEqual(get_tx_ids, result_tx_ids)
def test_get_transaction(self):
bytedata = bytes.fromhex(tx_hex_1)
tx_hash_bytes = bitcoinx.double_sha256(bytedata)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
metadata = TxData(height=1, fee=2, position=None, timestamp=None)
self.store.add(tx_id, metadata, bytedata)
cache = TxCache(self.store)
tx = cache.get_transaction(tx_id)
self.assertIsNotNone(tx)
self.assertEqual(tx_id, tx.txid())
def test_get(self):
bytedata = os.urandom(10)
tx_hash = bitcoinx.double_sha256(bytedata)
metadata = TxData(height=1, fee=2, position=None, date_added=1, date_updated=1)
with SynchronousWriter() as writer:
self.store.create([ (tx_hash, metadata, bytedata, TxFlags.Unset, None) ],
completion_callback=writer.get_callback())
assert writer.succeeded()
assert tx_hash in self._get_store_hashes()
assert self.store.read(tx_hashes=[tx_hash])
assert self.store.read(TxFlags.HasByteData, TxFlags.HasByteData, [tx_hash])
def test_update__entry_with_magic_bytedata_and_set_flag(self):
tx_bytes = os.urandom(10)
tx_hash = bitcoinx.double_sha256(tx_bytes)
tx_data = TxData(height=None, fee=2, position=None, date_added=1, date_updated=1)
row = (tx_hash, tx_data, tx_bytes, TxFlags.HasByteData, None)
with SynchronousWriter() as writer:
self.store.create([ row ], completion_callback=writer.get_callback())
assert writer.succeeded()
# Ensure that the magic bytedata requires a set bytedata flag.
with pytest.raises(AssertionError):
self.store.update([(tx_hash, tx_data, MAGIC_UNTOUCHED_BYTEDATA, TxFlags.Unset)])
def test_update__entry_with_set_bytedata_flag(self):
tx_bytes = os.urandom(10)
tx_hash = bitcoinx.double_sha256(tx_bytes)
tx_data = TxData(height=None, fee=2, position=None, date_added=1, date_updated=1)
row = (tx_hash, tx_data, tx_bytes, TxFlags.HasByteData, None)
with SynchronousWriter() as writer:
self.store.create([ row ], completion_callback=writer.get_callback())
assert writer.succeeded()
# Ensure that a set bytedata flag requires bytedata to be included.
with pytest.raises(AssertionError):
self.store.update([(tx_hash, tx_data, None, TxFlags.HasByteData)])
def test_add_many(self):
to_add = []
for i in range(10):
tx_bytes = os.urandom(10)
tx_hash_bytes = bitcoinx.double_sha256(tx_bytes)
tx_id = bitcoinx.hash_to_hex_str(tx_hash_bytes)
tx_data = TxData(height=1, fee=2, position=None, timestamp=None)
to_add.append((tx_id, tx_data, tx_bytes, TxFlags.Unset))
self.store.add_many(to_add)
existing_tx_ids = self.store.get_ids()
added_tx_ids = set(t[0] for t in to_add)
self.assertEqual(added_tx_ids, existing_tx_ids)
def test_get_unverified_entries_too_high(self):
cache = TransactionCache(self.store)
tx_bytes_1 = bytes.fromhex(tx_hex_1)
tx_hash_1 = bitcoinx.double_sha256(tx_bytes_1)
data = TxData(height=11, position=22, date_added=1, date_updated=1)
with SynchronousWriter() as writer:
cache.add([(tx_hash_1, data, tx_bytes_1, TxFlags.StateSettled)],
completion_callback=writer.get_callback())
assert writer.succeeded()
results = cache.get_unverified_entries(100)
assert 0 == len(results)
def test_get_transaction(self):
bytedata = bytes.fromhex(tx_hex_1)
tx_hash = bitcoinx.double_sha256(bytedata)
metadata = TxData(height=1, fee=2, position=None, date_added=1, date_updated=1)
with SynchronousWriter() as writer:
self.store.create([ (tx_hash, metadata, bytedata, TxFlags.Unset, None) ],
completion_callback=writer.get_callback())
assert writer.succeeded()
cache = TransactionCache(self.store)
tx = cache.get_transaction(tx_hash)
assert tx is not None
assert tx_hash == tx.hash()
def test_get_entry(self):
cache = TxCache(self.store)
bytedata_1 = bytes.fromhex(tx_hex_1)
tx_hash_bytes_1 = bitcoinx.double_sha256(bytedata_1)
tx_id_1 = bitcoinx.hash_to_hex_str(tx_hash_bytes_1)
data = TxData(position=11)
cache.add([(tx_id_1, data, bytedata_1, TxFlags.StateCleared)])
entry = cache.get_entry(tx_id_1, TxFlags.StateDispatched)
self.assertIsNone(entry)
entry = cache.get_entry(tx_id_1, TxFlags.StateCleared)
self.assertIsNotNone(entry)
