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d0f1663305
fa8489a15511f61a372473927e73c34692bbec23 test: Add test for BIP30 duplicate tx (MarcoFalke) 77770d95e2838d7665fa8f621e9e83d79f9b3196 test: Properly serialize BIP34 coinbase height (MarcoFalke) Pull request description: This adds a test for BIP30 to check that duplicate txs can exist in the blockchain given the first one was completely spent when the second one is added. (Requested by ajtowns in https://github.com/bitcoin/bitcoin/pull/16333#issuecomment-508604071) We can not add a test that a later duplicate tx overwrites a previous one, because BIP30 is always enforced on regtest. If someone feels strongly about such a test, some Bitcoin Core code would have to be modified, which can be done in a follow up pull request. Also, add a commit to fix the BIP34 test failures reported in https://github.com/bitcoin/bitcoin/pull/14633#issue-227712540 ACKs for top commit: laanwj: Code review ACK fa8489a15511f61a372473927e73c34692bbec23 Tree-SHA512: c707d0bdc93937263876b603425b53322a2a9f9ec3f50716ae2fa9de8ddc644beb22b26c1bfde7f4aab102633e096b354ef380db919176bd2cb44a2828f884aa
184 lines
6.5 KiB
Python
184 lines
6.5 KiB
Python
#!/usr/bin/env python3
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# Copyright (c) 2015-2016 The Bitcoin Core developers
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# Distributed under the MIT software license, see the accompanying
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# file COPYING or http://www.opensource.org/licenses/mit-license.php.
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"""Utilities for manipulating blocks and transactions."""
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from .messages import (
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CBlock,
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CCbTx,
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COIN,
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COutPoint,
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CTransaction,
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CTxIn,
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CTxOut,
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)
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from .script import CScript, CScriptNum, CScriptOp, OP_TRUE, OP_CHECKSIG
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from .util import assert_equal, hex_str_to_bytes
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from io import BytesIO
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def create_block(hashprev, coinbase, ntime=None):
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"""Create a block (with regtest difficulty)."""
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block = CBlock()
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if ntime is None:
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import time
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block.nTime = int(time.time() + 600)
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else:
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block.nTime = ntime
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block.hashPrevBlock = hashprev
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block.nBits = 0x207fffff # difficulty retargeting is disabled in REGTEST chainparams
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block.vtx.append(coinbase)
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block.hashMerkleRoot = block.calc_merkle_root()
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block.calc_sha256()
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return block
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def script_BIP34_coinbase_height(height):
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if height <= 16:
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res = CScriptOp.encode_op_n(height)
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# Append dummy to increase scriptSig size above 2 (see bad-cb-length consensus rule)
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return CScript([res, OP_TRUE])
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return CScript([CScriptNum(height)])
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def create_coinbase(height, pubkey=None, dip4_activated=False):
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"""Create a coinbase transaction, assuming no miner fees.
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If pubkey is passed in, the coinbase output will be a P2PK output;
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otherwise an anyone-can-spend output."""
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coinbase = CTransaction()
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coinbase.vin.append(CTxIn(COutPoint(0, 0xffffffff), script_BIP34_coinbase_height(height), 0xffffffff))
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coinbaseoutput = CTxOut()
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coinbaseoutput.nValue = 500 * COIN
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halvings = int(height / 150) # regtest
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coinbaseoutput.nValue >>= halvings
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if (pubkey is not None):
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coinbaseoutput.scriptPubKey = CScript([pubkey, OP_CHECKSIG])
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else:
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coinbaseoutput.scriptPubKey = CScript([OP_TRUE])
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coinbase.vout = [coinbaseoutput]
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if dip4_activated:
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coinbase.nVersion = 3
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coinbase.nType = 5
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cbtx_payload = CCbTx(2, height, 0, 0)
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coinbase.vExtraPayload = cbtx_payload.serialize()
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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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"""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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Can optionally pass scriptPubKey and scriptSig, default is anyone-can-spend output.
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"""
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tx = CTransaction()
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assert n < len(prevtx.vout)
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tx.vin.append(CTxIn(COutPoint(prevtx.sha256, n), script_sig, 0xffffffff))
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tx.vout.append(CTxOut(amount, script_pub_key))
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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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""" 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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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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""" 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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signresult = node.signrawtransactionwithwallet(rawtx)
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assert_equal(signresult["complete"], True)
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return signresult['hex']
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def get_legacy_sigopcount_block(block, accurate=True):
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count = 0
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for tx in block.vtx:
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count += get_legacy_sigopcount_tx(tx, accurate)
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return count
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def get_legacy_sigopcount_tx(tx, accurate=True):
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count = 0
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for i in tx.vout:
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count += i.scriptPubKey.GetSigOpCount(accurate)
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for j in tx.vin:
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# scriptSig might be of type bytes, so convert to CScript for the moment
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count += CScript(j.scriptSig).GetSigOpCount(accurate)
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return count
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# Identical to GetMasternodePayment in C++ code
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def get_masternode_payment(nHeight, blockValue, nReallocActivationHeight):
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ret = int(blockValue / 5)
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nMNPIBlock = 350
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nMNPIPeriod = 10
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if nHeight > nMNPIBlock:
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ret += int(blockValue / 20)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 1):
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ret += int(blockValue / 20)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 2):
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ret += int(blockValue / 20)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 3):
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ret += int(blockValue / 40)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 4):
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ret += int(blockValue / 40)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 5):
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ret += int(blockValue / 40)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 6):
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ret += int(blockValue / 40)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 7):
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ret += int(blockValue / 40)
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if nHeight > nMNPIBlock+(nMNPIPeriod* 9):
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ret += int(blockValue / 40)
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if nHeight < nReallocActivationHeight:
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# Block Reward Realocation is not activated yet, nothing to do
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return ret
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nSuperblockCycle = 10
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# Actual realocation starts in the cycle next to one activation happens in
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nReallocStart = nReallocActivationHeight - nReallocActivationHeight % nSuperblockCycle + nSuperblockCycle
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if nHeight < nReallocStart:
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# Activated but we have to wait for the next cycle to start realocation, nothing to do
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return ret
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# Periods used to reallocate the masternode reward from 50% to 60%
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vecPeriods = [
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513, # Period 1: 51.3%
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526, # Period 2: 52.6%
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533, # Period 3: 53.3%
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540, # Period 4: 54%
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546, # Period 5: 54.6%
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552, # Period 6: 55.2%
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557, # Period 7: 55.7%
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562, # Period 8: 56.2%
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567, # Period 9: 56.7%
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572, # Period 10: 57.2%
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577, # Period 11: 57.7%
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582, # Period 12: 58.2%
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585, # Period 13: 58.5%
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588, # Period 14: 58.8%
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591, # Period 15: 59.1%
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594, # Period 16: 59.4%
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597, # Period 17: 59.7%
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599, # Period 18: 59.9%
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600 # Period 19: 60%
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]
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nReallocCycle = nSuperblockCycle * 3
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nCurrentPeriod = min(int((nHeight - nReallocStart) / nReallocCycle), len(vecPeriods) - 1)
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return int(blockValue * vecPeriods[nCurrentPeriod] / 1000)
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