#!/usr/bin/env python3 # Copyright (c) 2015-2020 The Bitcoin Core developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. """ Templates for constructing various sorts of invalid transactions. These templates (or an iterator over all of them) can be reused in different contexts to test using a number of invalid transaction types. Hopefully this makes it easier to get coverage of a full variety of tx validation checks through different interfaces (AcceptBlock, AcceptToMemPool, etc.) without repeating ourselves. Invalid tx cases not covered here can be found by running: $ diff \ <(grep -IREho "bad-txns[a-zA-Z-]+" src | sort -u) \ <(grep -IEho "bad-txns[a-zA-Z-]+" test/functional/data/invalid_txs.py | sort -u) """ import abc from typing import Optional from test_framework.messages import ( COutPoint, CTransaction, CTxIn, CTxOut, MAX_MONEY, ) from test_framework import script as sc from test_framework.blocktools import create_tx_with_script, MAX_BLOCK_SIGOPS basic_p2sh = sc.CScript([sc.OP_HASH160, sc.hash160(sc.CScript([sc.OP_0])), sc.OP_EQUAL]) class BadTxTemplate: """Allows simple construction of a certain kind of invalid tx. Base class to be subclassed.""" __metaclass__ = abc.ABCMeta # The expected error code given by bitcoind upon submission of the tx. reject_reason = "" # type: Optional[str] # Only specified if it differs from mempool acceptance error. block_reject_reason = "" # Do we expect to be disconnected after submitting this tx? expect_disconnect = False # Is this tx considered valid when included in a block, but not for acceptance into # the mempool (i.e. does it violate policy but not consensus)? valid_in_block = False def __init__(self, *, spend_tx=None, spend_block=None): self.spend_tx = spend_block.vtx[0] if spend_block else spend_tx self.spend_avail = sum(o.nValue for o in self.spend_tx.vout) self.valid_txin = CTxIn(COutPoint(self.spend_tx.sha256, 0), b"", 0xffffffff) @abc.abstractmethod def get_tx(self, *args, **kwargs): """Return a CTransaction that is invalid per the subclass.""" pass class OutputMissing(BadTxTemplate): reject_reason = "bad-txns-vout-empty" expect_disconnect = True def get_tx(self): tx = CTransaction() tx.vin.append(self.valid_txin) tx.calc_sha256() return tx class InputMissing(BadTxTemplate): reject_reason = "bad-txns-vin-empty" expect_disconnect = True # We use a blank transaction to align with bitcoin's implementation def get_tx(self): tx = CTransaction() tx.calc_sha256() return tx # The following check prevents exploit of lack of merkle # tree depth commitment (CVE-2017-12842) class SizeTooSmall(BadTxTemplate): reject_reason = "tx-size-small" expect_disconnect = False valid_in_block = True def get_tx(self): tx = CTransaction() tx.vin.append(self.valid_txin) tx.vout.append(CTxOut(0, sc.CScript([sc.OP_TRUE]))) tx.calc_sha256() return tx class BadInputOutpointIndex(BadTxTemplate): # Won't be rejected - nonexistent outpoint index is treated as an orphan since the coins # database can't distinguish between spent outpoints and outpoints which never existed. reject_reason = None expect_disconnect = False def get_tx(self): num_indices = len(self.spend_tx.vin) bad_idx = num_indices + 100 tx = CTransaction() tx.vin.append(CTxIn(COutPoint(self.spend_tx.sha256, bad_idx), b"", 0xffffffff)) tx.vout.append(CTxOut(0, basic_p2sh)) tx.calc_sha256() return tx class DuplicateInput(BadTxTemplate): reject_reason = 'bad-txns-inputs-duplicate' expect_disconnect = True def get_tx(self): tx = CTransaction() tx.vin.append(self.valid_txin) tx.vin.append(self.valid_txin) tx.vout.append(CTxOut(1, basic_p2sh)) tx.calc_sha256() return tx class NonexistentInput(BadTxTemplate): reject_reason = None # Added as an orphan tx. expect_disconnect = False def get_tx(self): tx = CTransaction() tx.vin.append(CTxIn(COutPoint(self.spend_tx.sha256 + 1, 0), b"", 0xffffffff)) tx.vin.append(self.valid_txin) tx.vout.append(CTxOut(1, basic_p2sh)) tx.calc_sha256() return tx class SpendTooMuch(BadTxTemplate): reject_reason = 'bad-txns-in-belowout' expect_disconnect = True def get_tx(self): return create_tx_with_script( self.spend_tx, 0, script_pub_key=basic_p2sh, amount=(self.spend_avail + 1)) class CreateNegative(BadTxTemplate): reject_reason = 'bad-txns-vout-negative' expect_disconnect = True def get_tx(self): return create_tx_with_script(self.spend_tx, 0, amount=-1) class CreateTooLarge(BadTxTemplate): reject_reason = 'bad-txns-vout-toolarge' expect_disconnect = True def get_tx(self): return create_tx_with_script(self.spend_tx, 0, amount=MAX_MONEY + 1) class CreateSumTooLarge(BadTxTemplate): reject_reason = 'bad-txns-txouttotal-toolarge' expect_disconnect = True def get_tx(self): tx = create_tx_with_script(self.spend_tx, 0, amount=MAX_MONEY) tx.vout = [tx.vout[0]] * 2 tx.calc_sha256() return tx class InvalidOPIFConstruction(BadTxTemplate): reject_reason = "mandatory-script-verify-flag-failed (Invalid OP_IF construction)" expect_disconnect = True valid_in_block = True def get_tx(self): return create_tx_with_script( self.spend_tx, 0, script_sig=b'\x64' * 35, amount=(self.spend_avail // 2)) class TooManySigops(BadTxTemplate): reject_reason = "bad-txns-too-many-sigops" block_reject_reason = "bad-blk-sigops, out-of-bounds SigOpCount" expect_disconnect = False def get_tx(self): lotsa_checksigs = sc.CScript([sc.OP_CHECKSIG] * (MAX_BLOCK_SIGOPS)) return create_tx_with_script( self.spend_tx, 0, script_pub_key=lotsa_checksigs, amount=1) def iter_all_templates(): """Iterate through all bad transaction template types.""" return BadTxTemplate.__subclasses__()