import unittest import ecdsa import hashlib from binascii import hexlify from torba.client.constants import COIN, NULL_HASH32 from lbrynet.schema.claim import Claim from lbrynet.wallet.server.db import SQLDB from lbrynet.wallet.server.coin import LBCRegTest from lbrynet.wallet.server.trending import TRENDING_WINDOW from lbrynet.wallet.server.canonical import FindShortestID from lbrynet.wallet.server.block_processor import Timer from lbrynet.wallet.transaction import Transaction, Input, Output def get_output(amount=COIN, pubkey_hash=NULL_HASH32): return Transaction() \ .add_outputs([Output.pay_pubkey_hash(amount, pubkey_hash)]) \ .outputs[0] def get_input(): return Input.spend(get_output()) def get_tx(): return Transaction().add_inputs([get_input()]) class OldWalletServerTransaction: def __init__(self, tx): self.tx = tx def serialize(self): return self.tx.raw class TestSQLDB(unittest.TestCase): def setUp(self): self.first_sync = False self.daemon_height = 1 self.coin = LBCRegTest() self.sql = SQLDB(self, ':memory:') self.timer = Timer('BlockProcessor') self.sql.open() self._current_height = 0 self._txos = {} def _make_tx(self, output, txi=None): tx = get_tx().add_outputs([output]) if txi is not None: tx.add_inputs([txi]) self._txos[output.ref.hash] = output return OldWalletServerTransaction(tx), tx.hash def _set_channel_key(self, channel, key): private_key = ecdsa.SigningKey.from_string(key*32, curve=ecdsa.SECP256k1, hashfunc=hashlib.sha256) channel.private_key = private_key channel.claim.channel.public_key_bytes = private_key.get_verifying_key().to_der() channel.script.generate() def get_channel(self, title, amount, name='@foo', key=b'a'): claim = Claim() claim.channel.title = title channel = Output.pay_claim_name_pubkey_hash(amount, name, claim, b'abc') self._set_channel_key(channel, key) return self._make_tx(channel) def get_channel_update(self, channel, amount, key=b'a'): self._set_channel_key(channel, key) return self._make_tx( Output.pay_update_claim_pubkey_hash( amount, channel.claim_name, channel.claim_id, channel.claim, b'abc' ), Input.spend(channel) ) def get_stream(self, title, amount, name='foo', channel=None): claim = Claim() claim.stream.title = title result = self._make_tx(Output.pay_claim_name_pubkey_hash(amount, name, claim, b'abc')) if channel: result[0].tx.outputs[0].sign(channel) result[0].tx._reset() return result def get_stream_update(self, tx, amount): claim = Transaction(tx[0].serialize()).outputs[0] return self._make_tx( Output.pay_update_claim_pubkey_hash( amount, claim.claim_name, claim.claim_id, claim.claim, b'abc' ), Input.spend(claim) ) def get_abandon(self, tx): claim = Transaction(tx[0].serialize()).outputs[0] return self._make_tx( Output.pay_pubkey_hash(claim.amount, b'abc'), Input.spend(claim) ) def get_support(self, tx, amount): claim = Transaction(tx[0].serialize()).outputs[0] return self._make_tx( Output.pay_support_pubkey_hash( amount, claim.claim_name, claim.claim_id, b'abc' ) ) def get_controlling(self): for claim in self.sql.execute("select claim.* from claimtrie natural join claim"): txo = self._txos[claim['txo_hash']] controlling = txo.claim.stream.title, claim['amount'], claim['effective_amount'], claim['activation_height'] return controlling def get_active(self): controlling = self.get_controlling() active = [] for claim in self.sql.execute( f"select * from claim where activation_height <= {self._current_height}"): txo = self._txos[claim['txo_hash']] if controlling and controlling[0] == txo.claim.stream.title: continue active.append((txo.claim.stream.title, claim['amount'], claim['effective_amount'], claim['activation_height'])) return active def get_accepted(self): accepted = [] for claim in self.sql.execute( f"select * from claim where activation_height > {self._current_height}"): txo = self._txos[claim['txo_hash']] accepted.append((txo.claim.stream.title, claim['amount'], claim['effective_amount'], claim['activation_height'])) return accepted def advance(self, height, txs): self._current_height = height self.sql.advance_txs(height, txs, {'timestamp': 1}, self.daemon_height, self.timer) return [otx[0].tx.outputs[0] for otx in txs] def state(self, controlling=None, active=None, accepted=None): self.assertEqual(controlling, self.get_controlling()) self.assertEqual(active or [], self.get_active()) self.assertEqual(accepted or [], self.get_accepted()) def test_example_from_spec(self): # https://spec.lbry.com/#claim-activation-example advance, state = self.advance, self.state stream = self.get_stream('Claim A', 10*COIN) advance(13, [stream]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[], accepted=[] ) advance(1001, [self.get_stream('Claim B', 20*COIN)]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[], accepted=[('Claim B', 20*COIN, 0, 1031)] ) advance(1010, [self.get_support(stream, 14*COIN)]) state( controlling=('Claim A', 10*COIN, 24*COIN, 13), active=[], accepted=[('Claim B', 20*COIN, 0, 1031)] ) advance(1020, [self.get_stream('Claim C', 50*COIN)]) state( controlling=('Claim A', 10*COIN, 24*COIN, 13), active=[], accepted=[ ('Claim B', 20*COIN, 0, 1031), ('Claim C', 50*COIN, 0, 1051)] ) advance(1031, []) state( controlling=('Claim A', 10*COIN, 24*COIN, 13), active=[('Claim B', 20*COIN, 20*COIN, 1031)], accepted=[('Claim C', 50*COIN, 0, 1051)] ) advance(1040, [self.get_stream('Claim D', 300*COIN)]) state( controlling=('Claim A', 10*COIN, 24*COIN, 13), active=[('Claim B', 20*COIN, 20*COIN, 1031)], accepted=[ ('Claim C', 50*COIN, 0, 1051), ('Claim D', 300*COIN, 0, 1072)] ) advance(1051, []) state( controlling=('Claim D', 300*COIN, 300*COIN, 1051), active=[ ('Claim A', 10*COIN, 24*COIN, 13), ('Claim B', 20*COIN, 20*COIN, 1031), ('Claim C', 50*COIN, 50*COIN, 1051)], accepted=[] ) # beyond example advance(1052, [self.get_stream_update(stream, 290*COIN)]) state( controlling=('Claim A', 290*COIN, 304*COIN, 13), active=[ ('Claim B', 20*COIN, 20*COIN, 1031), ('Claim C', 50*COIN, 50*COIN, 1051), ('Claim D', 300*COIN, 300*COIN, 1051), ], accepted=[] ) def test_competing_claims_subsequent_blocks_height_wins(self): advance, state = self.advance, self.state advance(13, [self.get_stream('Claim A', 10*COIN)]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[], accepted=[] ) advance(14, [self.get_stream('Claim B', 10*COIN)]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[('Claim B', 10*COIN, 10*COIN, 14)], accepted=[] ) advance(15, [self.get_stream('Claim C', 10*COIN)]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[ ('Claim B', 10*COIN, 10*COIN, 14), ('Claim C', 10*COIN, 10*COIN, 15)], accepted=[] ) def test_competing_claims_in_single_block_position_wins(self): advance, state = self.advance, self.state stream = self.get_stream('Claim A', 10*COIN) stream2 = self.get_stream('Claim B', 10*COIN) advance(13, [stream, stream2]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[('Claim B', 10*COIN, 10*COIN, 13)], accepted=[] ) def test_competing_claims_in_single_block_effective_amount_wins(self): advance, state = self.advance, self.state stream = self.get_stream('Claim A', 10*COIN) stream2 = self.get_stream('Claim B', 11*COIN) advance(13, [stream, stream2]) state( controlling=('Claim B', 11*COIN, 11*COIN, 13), active=[('Claim A', 10*COIN, 10*COIN, 13)], accepted=[] ) def test_winning_claim_deleted(self): advance, state = self.advance, self.state stream = self.get_stream('Claim A', 10*COIN) stream2 = self.get_stream('Claim B', 11*COIN) advance(13, [stream, stream2]) state( controlling=('Claim B', 11*COIN, 11*COIN, 13), active=[('Claim A', 10*COIN, 10*COIN, 13)], accepted=[] ) advance(14, [self.get_abandon(stream2)]) state( controlling=('Claim A', 10*COIN, 10*COIN, 13), active=[], accepted=[] ) def test_winning_claim_deleted_and_new_claim_becomes_winner(self): advance, state = self.advance, self.state stream = self.get_stream('Claim A', 10*COIN) stream2 = self.get_stream('Claim B', 11*COIN) advance(13, [stream, stream2]) state( controlling=('Claim B', 11*COIN, 11*COIN, 13), active=[('Claim A', 10*COIN, 10*COIN, 13)], accepted=[] ) advance(15, [self.get_abandon(stream2), self.get_stream('Claim C', 12*COIN)]) state( controlling=('Claim C', 12*COIN, 12*COIN, 15), active=[('Claim A', 10*COIN, 10*COIN, 13)], accepted=[] ) def test_winning_claim_expires_and_another_takes_over(self): advance, state = self.advance, self.state advance(10, [self.get_stream('Claim A', 11*COIN)]) advance(20, [self.get_stream('Claim B', 10*COIN)]) state( controlling=('Claim A', 11*COIN, 11*COIN, 10), active=[('Claim B', 10*COIN, 10*COIN, 20)], accepted=[] ) advance(262984, []) state( controlling=('Claim B', 10*COIN, 10*COIN, 20), active=[], accepted=[] ) advance(262994, []) state( controlling=None, active=[], accepted=[] ) def test_trending(self): advance, state = self.advance, self.state no_trend = self.get_stream('Claim A', COIN) downwards = self.get_stream('Claim B', COIN) up_small = self.get_stream('Claim C', COIN) up_medium = self.get_stream('Claim D', COIN) up_biggly = self.get_stream('Claim E', COIN) claims = advance(1, [up_biggly, up_medium, up_small, no_trend, downwards]) for window in range(1, 8): advance(TRENDING_WINDOW * window, [ self.get_support(downwards, (20-window)*COIN), self.get_support(up_small, int(20+(window/10)*COIN)), self.get_support(up_medium, (20+(window*(2 if window == 7 else 1)))*COIN), self.get_support(up_biggly, (20+(window*(3 if window == 7 else 1)))*COIN), ]) results = self.sql._search(order_by=['trending_local']) self.assertEqual([c.claim_id for c in claims], [hexlify(c['claim_hash'][::-1]).decode() for c in results]) self.assertEqual([10, 6, 2, 0, -2], [int(c['trending_local']) for c in results]) self.assertEqual([53, 38, -32, 0, -6], [int(c['trending_global']) for c in results]) self.assertEqual([4, 4, 2, 0, 1], [int(c['trending_group']) for c in results]) self.assertEqual([53, 38, 2, 0, -6], [int(c['trending_mixed']) for c in results]) @staticmethod def _get_x_with_claim_id_prefix(getter, prefix, cached_iteration=None, **kwargs): iterations = cached_iteration+1 if cached_iteration else 100 for i in range(cached_iteration or 1, iterations): stream = getter(f'claim #{i}', COIN, **kwargs) if stream[0].tx.outputs[0].claim_id.startswith(prefix): cached_iteration is None and print(f'Found "{prefix}" in {i} iterations.') return stream if cached_iteration: raise ValueError(f'Failed to find "{prefix}" at cached iteration, run with None to find iteration.') raise ValueError(f'Failed to find "{prefix}" in {iterations} iterations, try different values.') def get_channel_with_claim_id_prefix(self, prefix, cached_iteration=None, **kwargs): return self._get_x_with_claim_id_prefix(self.get_channel, prefix, cached_iteration, **kwargs) def get_stream_with_claim_id_prefix(self, prefix, cached_iteration=None, **kwargs): return self._get_x_with_claim_id_prefix(self.get_stream, prefix, cached_iteration, **kwargs) def test_canonical_url_and_channel_validation(self): advance = self.advance tx_chan_a = self.get_channel_with_claim_id_prefix('a', 1, key=b'c') tx_chan_ab = self.get_channel_with_claim_id_prefix('ab', 72, key=b'c') txo_chan_a = tx_chan_a[0].tx.outputs[0] advance(1, [tx_chan_a]) advance(2, [tx_chan_ab]) r_ab, r_a = self.sql._search(order_by=['creation_height'], limit=2) self.assertEqual("@foo#a", r_a['short_url']) self.assertEqual("@foo#ab", r_ab['short_url']) self.assertIsNone(r_a['canonical_url']) self.assertIsNone(r_ab['canonical_url']) self.assertEqual(0, r_a['claims_in_channel']) self.assertEqual(0, r_ab['claims_in_channel']) tx_a = self.get_stream_with_claim_id_prefix('a', 2) tx_ab = self.get_stream_with_claim_id_prefix('ab', 42) tx_abc = self.get_stream_with_claim_id_prefix('abc', 65) advance(3, [tx_a]) advance(4, [tx_ab, tx_abc]) r_abc, r_ab, r_a = self.sql._search(order_by=['creation_height', 'tx_position'], limit=3) self.assertEqual("foo#a", r_a['short_url']) self.assertEqual("foo#ab", r_ab['short_url']) self.assertEqual("foo#abc", r_abc['short_url']) self.assertIsNone(r_a['canonical_url']) self.assertIsNone(r_ab['canonical_url']) self.assertIsNone(r_abc['canonical_url']) tx_a2 = self.get_stream_with_claim_id_prefix('a', 7, channel=txo_chan_a) tx_ab2 = self.get_stream_with_claim_id_prefix('ab', 23, channel=txo_chan_a) a2_claim_id = tx_a2[0].tx.outputs[0].claim_id ab2_claim_id = tx_ab2[0].tx.outputs[0].claim_id advance(6, [tx_a2]) advance(7, [tx_ab2]) r_ab2, r_a2 = self.sql._search(order_by=['creation_height'], limit=2) self.assertEqual(f"foo#{a2_claim_id[:2]}", r_a2['short_url']) self.assertEqual(f"foo#{ab2_claim_id[:4]}", r_ab2['short_url']) self.assertEqual("@foo#a/foo#a", r_a2['canonical_url']) self.assertEqual("@foo#a/foo#ab", r_ab2['canonical_url']) self.assertEqual(2, self.sql._search(claim_id=txo_chan_a.claim_id, limit=1)[0]['claims_in_channel']) # change channel public key, invaliding stream claim signatures advance(8, [self.get_channel_update(txo_chan_a, COIN, key=b'a')]) r_ab2, r_a2 = self.sql._search(order_by=['creation_height'], limit=2) self.assertEqual(f"foo#{a2_claim_id[:2]}", r_a2['short_url']) self.assertEqual(f"foo#{ab2_claim_id[:4]}", r_ab2['short_url']) self.assertIsNone(r_a2['canonical_url']) self.assertIsNone(r_ab2['canonical_url']) self.assertEqual(0, self.sql._search(claim_id=txo_chan_a.claim_id, limit=1)[0]['claims_in_channel']) # reinstate previous channel public key (previous stream claim signatures become valid again) channel_update = self.get_channel_update(txo_chan_a, COIN, key=b'c') advance(9, [channel_update]) r_ab2, r_a2 = self.sql._search(order_by=['creation_height'], limit=2) self.assertEqual(f"foo#{a2_claim_id[:2]}", r_a2['short_url']) self.assertEqual(f"foo#{ab2_claim_id[:4]}", r_ab2['short_url']) self.assertEqual("@foo#a/foo#a", r_a2['canonical_url']) self.assertEqual("@foo#a/foo#ab", r_ab2['canonical_url']) self.assertEqual(2, self.sql._search(claim_id=txo_chan_a.claim_id, limit=1)[0]['claims_in_channel']) # delete channel, invaliding stream claim signatures advance(10, [self.get_abandon(channel_update)]) r_ab2, r_a2 = self.sql._search(order_by=['creation_height'], limit=2) self.assertEqual(f"foo#{a2_claim_id[:2]}", r_a2['short_url']) self.assertEqual(f"foo#{ab2_claim_id[:4]}", r_ab2['short_url']) self.assertIsNone(r_a2['canonical_url']) self.assertIsNone(r_ab2['canonical_url']) def test_canonical_find_shortest_id(self): new_hash = 'abcdef0123456789beef' other0 = '1bcdef0123456789beef' other1 = 'ab1def0123456789beef' other2 = 'abc1ef0123456789beef' other3 = 'abcdef0123456789bee1' f = FindShortestID() f.step(other0, new_hash) self.assertEqual('#a', f.finalize()) f.step(other1, new_hash) self.assertEqual('#abc', f.finalize()) f.step(other2, new_hash) self.assertEqual('#abcd', f.finalize()) f.step(other3, new_hash) self.assertEqual('#abcdef0123456789beef', f.finalize())