qa: blocktools enforce named args for amount
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f66e1c793e
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8 changed files with 37 additions and 41 deletions
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@ -65,7 +65,7 @@ class BIP65Test(BitcoinTestFramework):
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self.log.info("Test that an invalid-according-to-CLTV transaction can still appear in a block")
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spendtx = create_transaction(self.nodes[0], self.coinbase_txids[0],
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self.nodeaddress, 1.0)
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self.nodeaddress, amount=1.0)
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cltv_invalidate(spendtx)
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spendtx.rehash()
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@ -100,7 +100,7 @@ class BIP65Test(BitcoinTestFramework):
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block.nVersion = 4
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spendtx = create_transaction(self.nodes[0], self.coinbase_txids[1],
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self.nodeaddress, 1.0)
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self.nodeaddress, amount=1.0)
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cltv_invalidate(spendtx)
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spendtx.rehash()
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@ -94,15 +94,14 @@ def sign_transaction(node, unsignedtx):
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return tx
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def create_bip112special(node, input, txversion, address):
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tx = create_transaction(node, input, address, Decimal("49.98"))
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tx = create_transaction(node, input, address, amount=Decimal("49.98"))
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tx.nVersion = txversion
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signtx = sign_transaction(node, tx)
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signtx.vin[0].scriptSig = CScript([-1, OP_CHECKSEQUENCEVERIFY, OP_DROP] + list(CScript(signtx.vin[0].scriptSig)))
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return signtx
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def send_generic_input_tx(node, coinbases, address):
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amount = Decimal("49.99")
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return node.sendrawtransaction(ToHex(sign_transaction(node, create_transaction(node, node.getblock(coinbases.pop())['tx'][0], address, amount))))
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return node.sendrawtransaction(ToHex(sign_transaction(node, create_transaction(node, node.getblock(coinbases.pop())['tx'][0], address, amount=Decimal("49.99")))))
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def create_bip68txs(node, bip68inputs, txversion, address, locktime_delta=0):
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"""Returns a list of bip68 transactions with different bits set."""
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@ -110,7 +109,7 @@ def create_bip68txs(node, bip68inputs, txversion, address, locktime_delta=0):
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assert(len(bip68inputs) >= 16)
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for i, (sdf, srhb, stf, srlb) in enumerate(product(*[[True, False]] * 4)):
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locktime = relative_locktime(sdf, srhb, stf, srlb)
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tx = create_transaction(node, bip68inputs[i], address, Decimal("49.98"))
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tx = create_transaction(node, bip68inputs[i], address, amount=Decimal("49.98"))
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tx.nVersion = txversion
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tx.vin[0].nSequence = locktime + locktime_delta
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tx = sign_transaction(node, tx)
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@ -125,7 +124,7 @@ def create_bip112txs(node, bip112inputs, varyOP_CSV, txversion, address, locktim
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assert(len(bip112inputs) >= 16)
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for i, (sdf, srhb, stf, srlb) in enumerate(product(*[[True, False]] * 4)):
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locktime = relative_locktime(sdf, srhb, stf, srlb)
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tx = create_transaction(node, bip112inputs[i], address, Decimal("49.98"))
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tx = create_transaction(node, bip112inputs[i], address, amount=Decimal("49.98"))
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if (varyOP_CSV): # if varying OP_CSV, nSequence is fixed
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tx.vin[0].nSequence = BASE_RELATIVE_LOCKTIME + locktime_delta
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else: # vary nSequence instead, OP_CSV is fixed
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@ -269,10 +268,10 @@ class BIP68_112_113Test(BitcoinTestFramework):
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# Test both version 1 and version 2 transactions for all tests
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# BIP113 test transaction will be modified before each use to put in appropriate block time
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bip113tx_v1 = create_transaction(self.nodes[0], bip113input, self.nodeaddress, Decimal("49.98"))
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bip113tx_v1 = create_transaction(self.nodes[0], bip113input, self.nodeaddress, amount=Decimal("49.98"))
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bip113tx_v1.vin[0].nSequence = 0xFFFFFFFE
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bip113tx_v1.nVersion = 1
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bip113tx_v2 = create_transaction(self.nodes[0], bip113input, self.nodeaddress, Decimal("49.98"))
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bip113tx_v2 = create_transaction(self.nodes[0], bip113input, self.nodeaddress, amount=Decimal("49.98"))
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bip113tx_v2.vin[0].nSequence = 0xFFFFFFFE
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bip113tx_v2.nVersion = 2
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@ -54,7 +54,7 @@ class BIP66Test(BitcoinTestFramework):
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self.log.info("Test that a transaction with non-DER signature can still appear in a block")
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spendtx = create_transaction(self.nodes[0], self.coinbase_txids[0],
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self.nodeaddress, 1.0)
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self.nodeaddress, amount=1.0)
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unDERify(spendtx)
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spendtx.rehash()
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@ -91,7 +91,7 @@ class BIP66Test(BitcoinTestFramework):
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block.nVersion = 3
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spendtx = create_transaction(self.nodes[0], self.coinbase_txids[1],
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self.nodeaddress, 1.0)
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self.nodeaddress, amount=1.0)
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unDERify(spendtx)
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spendtx.rehash()
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@ -127,8 +127,7 @@ class BIP66Test(BitcoinTestFramework):
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assert b'Non-canonical DER signature' in self.nodes[0].p2p.last_message["reject"].reason
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self.log.info("Test that a version 3 block with a DERSIG-compliant transaction is accepted")
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block.vtx[1] = create_transaction(self.nodes[0],
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self.coinbase_txids[1], self.nodeaddress, 1.0)
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block.vtx[1] = create_transaction(self.nodes[0], self.coinbase_txids[1], self.nodeaddress, amount=1.0)
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block.hashMerkleRoot = block.calc_merkle_root()
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block.rehash()
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block.solve()
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@ -60,16 +60,16 @@ class NULLDUMMYTest(BitcoinTestFramework):
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self.lastblocktime = int(time.time()) + 429
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self.log.info("Test 1: NULLDUMMY compliant base transactions should be accepted to mempool and mined before activation [430]")
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test1txs = [create_transaction(self.nodes[0], coinbase_txid[0], self.ms_address, 49)]
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test1txs = [create_transaction(self.nodes[0], coinbase_txid[0], self.ms_address, amount=49)]
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txid1 = self.nodes[0].sendrawtransaction(bytes_to_hex_str(test1txs[0].serialize_with_witness()), True)
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test1txs.append(create_transaction(self.nodes[0], txid1, self.ms_address, 48))
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test1txs.append(create_transaction(self.nodes[0], txid1, self.ms_address, amount=48))
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txid2 = self.nodes[0].sendrawtransaction(bytes_to_hex_str(test1txs[1].serialize_with_witness()), True)
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test1txs.append(create_transaction(self.nodes[0], coinbase_txid[1], self.wit_ms_address, 49))
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test1txs.append(create_transaction(self.nodes[0], coinbase_txid[1], self.wit_ms_address, amount=49))
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txid3 = self.nodes[0].sendrawtransaction(bytes_to_hex_str(test1txs[2].serialize_with_witness()), True)
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self.block_submit(self.nodes[0], test1txs, False, True)
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self.log.info("Test 2: Non-NULLDUMMY base multisig transaction should not be accepted to mempool before activation")
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test2tx = create_transaction(self.nodes[0], txid2, self.ms_address, 47)
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test2tx = create_transaction(self.nodes[0], txid2, self.ms_address, amount=47)
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trueDummy(test2tx)
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assert_raises_rpc_error(-26, NULLDUMMY_ERROR, self.nodes[0].sendrawtransaction, bytes_to_hex_str(test2tx.serialize_with_witness()), True)
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@ -77,14 +77,14 @@ class NULLDUMMYTest(BitcoinTestFramework):
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self.block_submit(self.nodes[0], [test2tx], False, True)
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self.log.info("Test 4: Non-NULLDUMMY base multisig transaction is invalid after activation")
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test4tx = create_transaction(self.nodes[0], test2tx.hash, self.address, 46)
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test4tx = create_transaction(self.nodes[0], test2tx.hash, self.address, amount=46)
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test6txs=[CTransaction(test4tx)]
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trueDummy(test4tx)
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assert_raises_rpc_error(-26, NULLDUMMY_ERROR, self.nodes[0].sendrawtransaction, bytes_to_hex_str(test4tx.serialize_with_witness()), True)
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self.block_submit(self.nodes[0], [test4tx])
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self.log.info("Test 5: Non-NULLDUMMY P2WSH multisig transaction invalid after activation")
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test5tx = create_transaction(self.nodes[0], txid3, self.wit_address, 48)
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test5tx = create_transaction(self.nodes[0], txid3, self.wit_address, amount=48)
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test6txs.append(CTransaction(test5tx))
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test5tx.wit.vtxinwit[0].scriptWitness.stack[0] = b'\x01'
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assert_raises_rpc_error(-26, NULLDUMMY_ERROR, self.nodes[0].sendrawtransaction, bytes_to_hex_str(test5tx.serialize_with_witness()), True)
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@ -40,9 +40,9 @@ class MempoolCoinbaseTest(BitcoinTestFramework):
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# and make sure the mempool code behaves correctly.
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b = [ self.nodes[0].getblockhash(n) for n in range(101, 105) ]
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coinbase_txids = [ self.nodes[0].getblock(h)['tx'][0] for h in b ]
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spend_101_raw = create_raw_transaction(self.nodes[0], coinbase_txids[1], node1_address, 49.99)
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spend_102_raw = create_raw_transaction(self.nodes[0], coinbase_txids[2], node0_address, 49.99)
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spend_103_raw = create_raw_transaction(self.nodes[0], coinbase_txids[3], node0_address, 49.99)
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spend_101_raw = create_raw_transaction(self.nodes[0], coinbase_txids[1], node1_address, amount=49.99)
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spend_102_raw = create_raw_transaction(self.nodes[0], coinbase_txids[2], node0_address, amount=49.99)
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spend_103_raw = create_raw_transaction(self.nodes[0], coinbase_txids[3], node0_address, amount=49.99)
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# Create a transaction which is time-locked to two blocks in the future
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timelock_tx = self.nodes[0].createrawtransaction([{"txid": coinbase_txids[0], "vout": 0}], {node0_address: 49.99})
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@ -58,11 +58,11 @@ class MempoolCoinbaseTest(BitcoinTestFramework):
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spend_103_id = self.nodes[0].sendrawtransaction(spend_103_raw)
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self.nodes[0].generate(1)
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# Time-locked transaction is still too immature to spend
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assert_raises_rpc_error(-26,'non-final', self.nodes[0].sendrawtransaction, timelock_tx)
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assert_raises_rpc_error(-26, 'non-final', self.nodes[0].sendrawtransaction, timelock_tx)
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# Create 102_1 and 103_1:
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spend_102_1_raw = create_raw_transaction(self.nodes[0], spend_102_id, node1_address, 49.98)
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spend_103_1_raw = create_raw_transaction(self.nodes[0], spend_103_id, node1_address, 49.98)
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spend_102_1_raw = create_raw_transaction(self.nodes[0], spend_102_id, node1_address, amount=49.98)
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spend_103_1_raw = create_raw_transaction(self.nodes[0], spend_103_id, node1_address, amount=49.98)
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# Broadcast and mine 103_1:
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spend_103_1_id = self.nodes[0].sendrawtransaction(spend_103_1_raw)
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@ -26,16 +26,16 @@ class MempoolCoinbaseTest(BitcoinTestFramework):
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# Mine a new block
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# ... make sure all the transactions are confirmed again.
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b = [ self.nodes[0].getblockhash(n) for n in range(1, 4) ]
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coinbase_txids = [ self.nodes[0].getblock(h)['tx'][0] for h in b ]
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spends1_raw = [ create_raw_transaction(self.nodes[0], txid, node0_address, 49.99) for txid in coinbase_txids ]
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spends1_id = [ self.nodes[0].sendrawtransaction(tx) for tx in spends1_raw ]
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b = [self.nodes[0].getblockhash(n) for n in range(1, 4)]
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coinbase_txids = [self.nodes[0].getblock(h)['tx'][0] for h in b]
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spends1_raw = [create_raw_transaction(self.nodes[0], txid, node0_address, amount=49.99) for txid in coinbase_txids]
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spends1_id = [self.nodes[0].sendrawtransaction(tx) for tx in spends1_raw]
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blocks = []
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blocks.extend(self.nodes[0].generate(1))
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spends2_raw = [ create_raw_transaction(self.nodes[0], txid, node0_address, 49.98) for txid in spends1_id ]
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spends2_id = [ self.nodes[0].sendrawtransaction(tx) for tx in spends2_raw ]
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spends2_raw = [create_raw_transaction(self.nodes[0], txid, node0_address, amount=49.98) for txid in spends1_id]
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spends2_id = [self.nodes[0].sendrawtransaction(tx) for tx in spends2_raw]
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blocks.extend(self.nodes[0].generate(1))
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@ -30,9 +30,9 @@ class MempoolSpendCoinbaseTest(BitcoinTestFramework):
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# Coinbase at height chain_height-100+1 ok in mempool, should
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# get mined. Coinbase at height chain_height-100+2 is
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# is too immature to spend.
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b = [ self.nodes[0].getblockhash(n) for n in range(101, 103) ]
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coinbase_txids = [ self.nodes[0].getblock(h)['tx'][0] for h in b ]
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spends_raw = [ create_raw_transaction(self.nodes[0], txid, node0_address, 49.99) for txid in coinbase_txids ]
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b = [self.nodes[0].getblockhash(n) for n in range(101, 103)]
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coinbase_txids = [self.nodes[0].getblock(h)['tx'][0] for h in b]
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spends_raw = [create_raw_transaction(self.nodes[0], txid, node0_address, amount=49.99) for txid in coinbase_txids]
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spend_101_id = self.nodes[0].sendrawtransaction(spends_raw[0])
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@ -118,7 +118,7 @@ def create_coinbase(height, pubkey=None):
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coinbase.calc_sha256()
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return coinbase
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def create_tx_with_script(prevtx, n, script_sig=b"", amount=1, script_pub_key=CScript()):
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def create_tx_with_script(prevtx, n, script_sig=b"", *, amount, script_pub_key=CScript()):
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"""Return one-input, one-output transaction object
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spending the prevtx's n-th output with the given amount.
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@ -131,26 +131,24 @@ def create_tx_with_script(prevtx, n, script_sig=b"", amount=1, script_pub_key=CS
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tx.calc_sha256()
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return tx
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def create_transaction(node, txid, to_address, amount):
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def create_transaction(node, txid, to_address, *, amount):
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""" Return signed transaction spending the first output of the
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input txid. Note that the node must be able to sign for the
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output that is being spent, and the node must not be running
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multiple wallets.
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"""
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raw_tx = create_raw_transaction(node, txid, to_address, amount)
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raw_tx = create_raw_transaction(node, txid, to_address, amount=amount)
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tx = CTransaction()
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tx.deserialize(BytesIO(hex_str_to_bytes(raw_tx)))
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return tx
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def create_raw_transaction(node, txid, to_address, amount):
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def create_raw_transaction(node, txid, to_address, *, amount):
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""" Return raw signed transaction spending the first output of the
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input txid. Note that the node must be able to sign for the
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output that is being spent, and the node must not be running
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multiple wallets.
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"""
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inputs = [{"txid": txid, "vout": 0}]
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outputs = {to_address: amount}
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rawtx = node.createrawtransaction(inputs, outputs)
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rawtx = node.createrawtransaction(inputs=[{"txid": txid, "vout": 0}], outputs={to_address: amount})
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signresult = node.signrawtransactionwithwallet(rawtx)
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assert_equal(signresult["complete"], True)
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return signresult['hex']
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