import unittest from binascii import hexlify, unhexlify from itertools import cycle from lbry.testcase import AsyncioTestCase from lbry.wallet.client.constants import CENT, COIN, NULL_HASH32 from lbry.wallet import Wallet, Account, Ledger, Database, Headers, Transaction, Output, Input NULL_HASH = b'\x00'*32 FEE_PER_BYTE = 50 FEE_PER_CHAR = 200000 def get_output(amount=CENT, pubkey_hash=NULL_HASH32, height=-2): return Transaction(height=height) \ .add_outputs([Output.pay_pubkey_hash(amount, pubkey_hash)]) \ .outputs[0] def get_input(amount=CENT, pubkey_hash=NULL_HASH): return Input.spend(get_output(amount, pubkey_hash)) def get_transaction(txo=None): return Transaction() \ .add_inputs([get_input()]) \ .add_outputs([txo or Output.pay_pubkey_hash(CENT, NULL_HASH32)]) def get_claim_transaction(claim_name, claim=b''): return get_transaction( Output.pay_claim_name_pubkey_hash(CENT, claim_name, claim, NULL_HASH32) ) class TestSizeAndFeeEstimation(AsyncioTestCase): async def asyncSetUp(self): self.ledger = Ledger({ 'db': Database(':memory:'), 'headers': Headers(':memory:') }) await self.ledger.db.open() async def asyncTearDown(self): await self.ledger.db.close() def test_output_size_and_fee(self): txo = get_output() self.assertEqual(txo.size, 46) self.assertEqual(txo.get_fee(self.ledger), 46 * FEE_PER_BYTE) claim_name = 'verylongname' tx = get_claim_transaction(claim_name, b'0'*4000) base_size = tx.size - tx.inputs[0].size - tx.outputs[0].size txo = tx.outputs[0] self.assertEqual(tx.size, 4225) self.assertEqual(tx.base_size, base_size) self.assertEqual(txo.size, 4067) self.assertEqual(txo.get_fee(self.ledger), len(claim_name) * FEE_PER_CHAR) # fee based on total bytes is the larger fee claim_name = 'a' tx = get_claim_transaction(claim_name, b'0'*4000) base_size = tx.size - tx.inputs[0].size - tx.outputs[0].size txo = tx.outputs[0] self.assertEqual(tx.size, 4214) self.assertEqual(tx.base_size, base_size) self.assertEqual(txo.size, 4056) self.assertEqual(txo.get_fee(self.ledger), txo.size * FEE_PER_BYTE) def test_input_size_and_fee(self): txi = get_input() self.assertEqual(txi.size, 148) self.assertEqual(txi.get_fee(self.ledger), 148 * FEE_PER_BYTE) def test_transaction_size_and_fee(self): tx = get_transaction() self.assertEqual(tx.size, 204) self.assertEqual(tx.base_size, tx.size - tx.inputs[0].size - tx.outputs[0].size) self.assertEqual(tx.get_base_fee(self.ledger), FEE_PER_BYTE * tx.base_size) class TestAccountBalanceImpactFromTransaction(unittest.TestCase): def test_is_my_account_not_set(self): tx = get_transaction() with self.assertRaisesRegex(ValueError, "Cannot access net_account_balance"): _ = tx.net_account_balance tx.inputs[0].txo_ref.txo.is_my_account = True with self.assertRaisesRegex(ValueError, "Cannot access net_account_balance"): _ = tx.net_account_balance tx.outputs[0].is_my_account = True # all inputs/outputs are set now so it should work _ = tx.net_account_balance def test_paying_from_my_account_to_other_account(self): tx = Transaction() \ .add_inputs([get_input(300*CENT)]) \ .add_outputs([get_output(190*CENT, NULL_HASH), get_output(100*CENT, NULL_HASH)]) tx.inputs[0].txo_ref.txo.is_my_account = True tx.outputs[0].is_my_account = False tx.outputs[1].is_my_account = True self.assertEqual(tx.net_account_balance, -200*CENT) def test_paying_from_other_account_to_my_account(self): tx = Transaction() \ .add_inputs([get_input(300*CENT)]) \ .add_outputs([get_output(190*CENT, NULL_HASH), get_output(100*CENT, NULL_HASH)]) tx.inputs[0].txo_ref.txo.is_my_account = False tx.outputs[0].is_my_account = True tx.outputs[1].is_my_account = False self.assertEqual(tx.net_account_balance, 190*CENT) def test_paying_from_my_account_to_my_account(self): tx = Transaction() \ .add_inputs([get_input(300*CENT)]) \ .add_outputs([get_output(190*CENT, NULL_HASH), get_output(100*CENT, NULL_HASH)]) tx.inputs[0].txo_ref.txo.is_my_account = True tx.outputs[0].is_my_account = True tx.outputs[1].is_my_account = True self.assertEqual(tx.net_account_balance, -10*CENT) # lost to fee class TestTransactionSerialization(unittest.TestCase): def test_genesis_transaction(self): raw = unhexlify( "01000000010000000000000000000000000000000000000000000000000000000000000000ffffffff1f0" "4ffff001d010417696e736572742074696d657374616d7020737472696e67ffffffff01000004bfc91b8e" "001976a914345991dbf57bfb014b87006acdfafbfc5fe8292f88ac00000000" ) tx = Transaction(raw) self.assertEqual(tx.version, 1) self.assertEqual(tx.locktime, 0) self.assertEqual(len(tx.inputs), 1) self.assertEqual(len(tx.outputs), 1) coinbase = tx.inputs[0] self.assertTrue(coinbase.txo_ref.is_null) self.assertEqual(coinbase.txo_ref.position, 0xFFFFFFFF) self.assertEqual(coinbase.sequence, 0xFFFFFFFF) self.assertIsNotNone(coinbase.coinbase) self.assertIsNone(coinbase.script) self.assertEqual( hexlify(coinbase.coinbase), b'04ffff001d010417696e736572742074696d657374616d7020737472696e67' ) out = tx.outputs[0] self.assertEqual(out.amount, 40000000000000000) self.assertEqual(out.position, 0) self.assertTrue(out.script.is_pay_pubkey_hash) self.assertFalse(out.script.is_pay_script_hash) self.assertFalse(out.script.is_claim_involved) tx._reset() self.assertEqual(tx.raw, raw) def test_coinbase_transaction(self): raw = unhexlify( "01000000010000000000000000000000000000000000000000000000000000000000000000ffffffff200" "34d520504f89ac55a086032d217bf0700000d2f6e6f64655374726174756d2f0000000001a03489850800" "00001976a914cfab870d6deea54ca94a41912a75484649e52f2088ac00000000" ) tx = Transaction(raw) self.assertEqual(tx.version, 1) self.assertEqual(tx.locktime, 0) self.assertEqual(len(tx.inputs), 1) self.assertEqual(len(tx.outputs), 1) coinbase = tx.inputs[0] self.assertTrue(coinbase.txo_ref.is_null) self.assertEqual(coinbase.txo_ref.position, 0xFFFFFFFF) self.assertEqual(coinbase.sequence, 0) self.assertIsNotNone(coinbase.coinbase) self.assertIsNone(coinbase.script) self.assertEqual( hexlify(coinbase.coinbase), b'034d520504f89ac55a086032d217bf0700000d2f6e6f64655374726174756d2f' ) out = tx.outputs[0] self.assertEqual(out.amount, 36600100000) self.assertEqual(out.position, 0) self.assertTrue(out.script.is_pay_pubkey_hash) self.assertFalse(out.script.is_pay_script_hash) self.assertFalse(out.script.is_claim_involved) tx._reset() self.assertEqual(tx.raw, raw) def test_claim_transaction(self): raw = unhexlify( "01000000012433e1b327603843b083344dbae5306ff7927f87ebbc5ae9eb50856c5b53fd1d000000006a4" "7304402201a91e1023d11c383a11e26bf8f9034087b15d8ada78fa565e0610455ffc8505e0220038a63a6" "ecb399723d4f1f78a20ddec0a78bf8fb6c75e63e166ef780f3944fbf0121021810150a2e4b088ec51b20c" "be1b335962b634545860733367824d5dc3eda767dffffffff028096980000000000fdff00b50463617473" "4cdc080110011a7808011230080410011a084d616361726f6e6922002a003214416c6c207269676874732" "072657365727665642e38004a0052005a001a42080110011a30add80aaf02559ba09853636a0658c42b72" "7cb5bb4ba8acedb4b7fe656065a47a31878dbf9912135ddb9e13806cc1479d220a696d6167652f6a70656" "72a5c080110031a404180cc0fa4d3839ee29cca866baed25fafb43fca1eb3b608ee889d351d3573d042c7" "b83e2e643db0d8e062a04e6e9ae6b90540a2f95fe28638d0f18af4361a1c2214f73de93f4299fb32c32f9" "49e02198a8e91101abd6d7576a914be16e4b0f9bd8f6d47d02b3a887049c36d3b84cb88ac0cd2520b0000" "00001976a914f521178feb733a719964e1da4a9efb09dcc39cfa88ac00000000" ) tx = Transaction(raw) self.assertEqual(tx.id, '666c3d15de1d6949a4fe717126c368e274b36957dce29fd401138c1e87e92a62') self.assertEqual(tx.version, 1) self.assertEqual(tx.locktime, 0) self.assertEqual(len(tx.inputs), 1) self.assertEqual(len(tx.outputs), 2) txin = tx.inputs[0] self.assertEqual( txin.txo_ref.id, '1dfd535b6c8550ebe95abceb877f92f76f30e5ba4d3483b043386027b3e13324:0' ) self.assertEqual(txin.txo_ref.position, 0) self.assertEqual(txin.sequence, 0xFFFFFFFF) self.assertIsNone(txin.coinbase) self.assertEqual(txin.script.template.name, 'pubkey_hash') self.assertEqual( hexlify(txin.script.values['pubkey']), b'021810150a2e4b088ec51b20cbe1b335962b634545860733367824d5dc3eda767d' ) self.assertEqual( hexlify(txin.script.values['signature']), b'304402201a91e1023d11c383a11e26bf8f9034087b15d8ada78fa565e0610455ffc8505e0220038a63a6' b'ecb399723d4f1f78a20ddec0a78bf8fb6c75e63e166ef780f3944fbf01' ) # Claim out0 = tx.outputs[0] self.assertEqual(out0.amount, 10000000) self.assertEqual(out0.position, 0) self.assertTrue(out0.script.is_pay_pubkey_hash) self.assertTrue(out0.script.is_claim_name) self.assertTrue(out0.script.is_claim_involved) self.assertEqual(out0.script.values['claim_name'], b'cats') self.assertEqual( hexlify(out0.script.values['pubkey_hash']), b'be16e4b0f9bd8f6d47d02b3a887049c36d3b84cb' ) # Change out1 = tx.outputs[1] self.assertEqual(out1.amount, 189977100) self.assertEqual(out1.position, 1) self.assertTrue(out1.script.is_pay_pubkey_hash) self.assertFalse(out1.script.is_claim_involved) self.assertEqual( hexlify(out1.script.values['pubkey_hash']), b'f521178feb733a719964e1da4a9efb09dcc39cfa' ) tx._reset() self.assertEqual(tx.raw, raw) class TestTransactionSigning(AsyncioTestCase): async def asyncSetUp(self): self.ledger = Ledger({ 'db': Database(':memory:'), 'headers': Headers(':memory:') }) await self.ledger.db.open() async def asyncTearDown(self): await self.ledger.db.close() async def test_sign(self): account = Account.from_dict( self.ledger, Wallet(), { "seed": "carbon smart garage balance margin twelve chest sword toas" "t envelope bottom stomach absent" } ) await account.ensure_address_gap() address1, address2 = await account.receiving.get_addresses(limit=2) pubkey_hash1 = self.ledger.address_to_hash160(address1) pubkey_hash2 = self.ledger.address_to_hash160(address2) tx = Transaction() \ .add_inputs([Input.spend(get_output(int(2*COIN), pubkey_hash1))]) \ .add_outputs([Output.pay_pubkey_hash(int(1.9*COIN), pubkey_hash2)]) await tx.sign([account]) self.assertEqual( hexlify(tx.inputs[0].script.values['signature']), b'304402200dafa26ad7cf38c5a971c8a25ce7d85a076235f146126762296b1223c42ae21e022020ef9eeb8' b'398327891008c5c0be4357683f12cb22346691ff23914f457bf679601' ) class TransactionIOBalancing(AsyncioTestCase): async def asyncSetUp(self): self.ledger = Ledger({ 'db': Database(':memory:'), 'headers': Headers(':memory:') }) await self.ledger.db.open() self.account = Account.from_dict( self.ledger, Wallet(), { "seed": "carbon smart garage balance margin twelve chest sword " "toast envelope bottom stomach absent" } ) addresses = await self.account.ensure_address_gap() self.pubkey_hash = [self.ledger.address_to_hash160(a) for a in addresses] self.hash_cycler = cycle(self.pubkey_hash) async def asyncTearDown(self): await self.ledger.db.close() def txo(self, amount, address=None): return get_output(int(amount*COIN), address or next(self.hash_cycler)) def txi(self, txo): return Input.spend(txo) def tx(self, inputs, outputs): return Transaction.create(inputs, outputs, [self.account], self.account) async def create_utxos(self, amounts): utxos = [self.txo(amount) for amount in amounts] self.funding_tx = Transaction(is_verified=True) \ .add_inputs([self.txi(self.txo(sum(amounts)+0.1))]) \ .add_outputs(utxos) await self.ledger.db.insert_transaction(self.funding_tx) for utxo in utxos: await self.ledger.db.save_transaction_io( self.funding_tx, self.ledger.hash160_to_address(utxo.script.values['pubkey_hash']), utxo.script.values['pubkey_hash'], '' ) return utxos @staticmethod def inputs(tx): return [round(i.amount/COIN, 2) for i in tx.inputs] @staticmethod def outputs(tx): return [round(o.amount/COIN, 2) for o in tx.outputs] async def test_basic_use_cases(self): self.ledger.fee_per_byte = int(.01*CENT) # available UTXOs for filling missing inputs utxos = await self.create_utxos([ 1, 1, 3, 5, 10 ]) # pay 3 coins (3.02 w/ fees) tx = await self.tx( [], # inputs [self.txo(3)] # outputs ) # best UTXO match is 5 (as UTXO 3 will be short 0.02 to cover fees) self.assertListEqual(self.inputs(tx), [5]) # a change of 1.98 is added to reach balance self.assertListEqual(self.outputs(tx), [3, 1.98]) await self.ledger.release_outputs(utxos) # pay 2.98 coins (3.00 w/ fees) tx = await self.tx( [], # inputs [self.txo(2.98)] # outputs ) # best UTXO match is 3 and no change is needed self.assertListEqual(self.inputs(tx), [3]) self.assertListEqual(self.outputs(tx), [2.98]) await self.ledger.release_outputs(utxos) # supplied input and output, but input is not enough to cover output tx = await self.tx( [self.txi(self.txo(10))], # inputs [self.txo(11)] # outputs ) # additional input is chosen (UTXO 3) self.assertListEqual([10, 3], self.inputs(tx)) # change is now needed to consume extra input self.assertListEqual([11, 1.96], self.outputs(tx)) await self.ledger.release_outputs(utxos) # liquidating a UTXO tx = await self.tx( [self.txi(self.txo(10))], # inputs [] # outputs ) self.assertListEqual([10], self.inputs(tx)) # missing change added to consume the amount self.assertListEqual([9.98], self.outputs(tx)) await self.ledger.release_outputs(utxos) # liquidating at a loss, requires adding extra inputs tx = await self.tx( [self.txi(self.txo(0.01))], # inputs [] # outputs ) # UTXO 1 is added to cover some of the fee self.assertListEqual([0.01, 1], self.inputs(tx)) # change is now needed to consume extra input self.assertListEqual([0.97], self.outputs(tx))