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bitcoin/src/test/script_p2sh_tests.cpp
fanquake fb82d91a9c
Merge bitcoin/bitcoin#24149: Signing support for Miniscript Descriptors 
6c7a17a8e0eec377f83ed1399f003ae70b898270 psbt: support externally provided preimages for Miniscript satisfaction (Antoine Poinsot)
840a396029316896beda46600aec3c1af09a899c qa: add a "smart" Miniscript fuzz target (Antoine Poinsot)
17e3547241d593bc92c5c6b36c54284d9d9f3feb qa: add a fuzz target generating random nodes from a binary encoding (Antoine Poinsot)
611e12502a5887ffb751bb92fadaa334d484824b qa: functional test Miniscript signing with key and timelocks (Antoine Poinsot)
d57b7f2021d2369f6e88cdf0f562aab27c51beaf refactor: make descriptors in Miniscript functional test more readable (Antoine Poinsot)
0a8fc9e200b5018c1efd6f9126eb405ca0beeea3 wallet: check solvability using descriptor in AvailableCoins (Antoine Poinsot)
560e62b1e221832ae99ff8684559a7b8f9df84a7 script/sign: signing support for Miniscripts with hash preimage challenges (Antoine Poinsot)
a2f81b6a8f1ff3b0750711409c7538812a52ef40 script/sign: signing support for Miniscript with timelocks (Antoine Poinsot)
61c6d1a8440db09c44d7fd367a6f2c641ea93d40 script/sign: basic signing support for Miniscript descriptors (Antoine Poinsot)
4242c1c52127df3a24be0c15b88d4fc463af04fc Align 'e' property of or_d and andor with website spec (Pieter Wuille)
f5deb417804b9f267830bd40177677987df4526d Various additional explanations of the satisfaction logic from Pieter (Pieter Wuille)
22c5b00345063bdeb8b6d3da8b5692d18f92bfb7 miniscript: satisfaction support (Antoine Poinsot)

Pull request description:

  This makes the Miniscript descriptors solvable.

  Note this introduces signing support for much more complex scripts than the wallet was previously able to solve, and the whole tooling isn't provided for a complete Miniscript integration in the wallet. Particularly, the PSBT<->Miniscript integration isn't entirely covered in this PR.

ACKs for top commit:
  achow101:
    ACK 6c7a17a8e0eec377f83ed1399f003ae70b898270
  sipa:
    utACK 6c7a17a8e0eec377f83ed1399f003ae70b898270 (to the extent that it's not my own code).

Tree-SHA512: a71ec002aaf66bd429012caa338fc58384067bcd2f453a46e21d381ed1bacc8e57afb9db57c0fb4bf40de43b30808815e9ebc0ae1fbd9e61df0e7b91a17771cc
2023-02-16 10:01:33 +00:00

381 lines
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// Copyright (c) 2012-2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <consensus/tx_verify.h>
#include <key.h>
#include <policy/policy.h>
#include <policy/settings.h>
#include <script/script.h>
#include <script/script_error.h>
#include <script/sign.h>
#include <script/signingprovider.h>
#include <test/util/setup_common.h>
#include <validation.h>
#include <vector>
#include <boost/test/unit_test.hpp>
// Helpers:
static bool IsStandardTx(const CTransaction& tx, std::string& reason)
{
return IsStandardTx(tx, std::nullopt, DEFAULT_PERMIT_BAREMULTISIG, CFeeRate{DUST_RELAY_TX_FEE}, reason);
}
static std::vector<unsigned char> Serialize(const CScript& s)
{
std::vector<unsigned char> sSerialized(s.begin(), s.end());
return sSerialized;
}
static bool Verify(const CScript& scriptSig, const CScript& scriptPubKey, bool fStrict, ScriptError& err)
{
// Create dummy to/from transactions:
CMutableTransaction txFrom;
txFrom.vout.resize(1);
txFrom.vout[0].scriptPubKey = scriptPubKey;
CMutableTransaction txTo;
txTo.vin.resize(1);
txTo.vout.resize(1);
txTo.vin[0].prevout.n = 0;
txTo.vin[0].prevout.hash = txFrom.GetHash();
txTo.vin[0].scriptSig = scriptSig;
txTo.vout[0].nValue = 1;
return VerifyScript(scriptSig, scriptPubKey, nullptr, fStrict ? SCRIPT_VERIFY_P2SH : SCRIPT_VERIFY_NONE, MutableTransactionSignatureChecker(&txTo, 0, txFrom.vout[0].nValue, MissingDataBehavior::ASSERT_FAIL), &err);
}
BOOST_FIXTURE_TEST_SUITE(script_p2sh_tests, BasicTestingSetup)
BOOST_AUTO_TEST_CASE(sign)
{
// Pay-to-script-hash looks like this:
// scriptSig: <sig> <sig...> <serialized_script>
// scriptPubKey: HASH160 <hash> EQUAL
// Test SignSignature() (and therefore the version of Solver() that signs transactions)
FillableSigningProvider keystore;
CKey key[4];
for (int i = 0; i < 4; i++)
{
key[i].MakeNewKey(true);
BOOST_CHECK(keystore.AddKey(key[i]));
}
// 8 Scripts: checking all combinations of
// different keys, straight/P2SH, pubkey/pubkeyhash
CScript standardScripts[4];
standardScripts[0] << ToByteVector(key[0].GetPubKey()) << OP_CHECKSIG;
standardScripts[1] = GetScriptForDestination(PKHash(key[1].GetPubKey()));
standardScripts[2] << ToByteVector(key[1].GetPubKey()) << OP_CHECKSIG;
standardScripts[3] = GetScriptForDestination(PKHash(key[2].GetPubKey()));
CScript evalScripts[4];
for (int i = 0; i < 4; i++)
{
BOOST_CHECK(keystore.AddCScript(standardScripts[i]));
evalScripts[i] = GetScriptForDestination(ScriptHash(standardScripts[i]));
}
CMutableTransaction txFrom; // Funding transaction:
std::string reason;
txFrom.vout.resize(8);
for (int i = 0; i < 4; i++)
{
txFrom.vout[i].scriptPubKey = evalScripts[i];
txFrom.vout[i].nValue = COIN;
txFrom.vout[i+4].scriptPubKey = standardScripts[i];
txFrom.vout[i+4].nValue = COIN;
}
BOOST_CHECK(IsStandardTx(CTransaction(txFrom), reason));
CMutableTransaction txTo[8]; // Spending transactions
for (int i = 0; i < 8; i++)
{
txTo[i].vin.resize(1);
txTo[i].vout.resize(1);
txTo[i].vin[0].prevout.n = i;
txTo[i].vin[0].prevout.hash = txFrom.GetHash();
txTo[i].vout[0].nValue = 1;
}
for (int i = 0; i < 8; i++)
{
SignatureData empty;
BOOST_CHECK_MESSAGE(SignSignature(keystore, CTransaction(txFrom), txTo[i], 0, SIGHASH_ALL, empty), strprintf("SignSignature %d", i));
}
// All of the above should be OK, and the txTos have valid signatures
// Check to make sure signature verification fails if we use the wrong ScriptSig:
for (int i = 0; i < 8; i++) {
PrecomputedTransactionData txdata(txTo[i]);
for (int j = 0; j < 8; j++)
{
CScript sigSave = txTo[i].vin[0].scriptSig;
txTo[i].vin[0].scriptSig = txTo[j].vin[0].scriptSig;
bool sigOK = CScriptCheck(txFrom.vout[txTo[i].vin[0].prevout.n], CTransaction(txTo[i]), 0, SCRIPT_VERIFY_P2SH | SCRIPT_VERIFY_STRICTENC, false, &txdata)();
if (i == j)
BOOST_CHECK_MESSAGE(sigOK, strprintf("VerifySignature %d %d", i, j));
else
BOOST_CHECK_MESSAGE(!sigOK, strprintf("VerifySignature %d %d", i, j));
txTo[i].vin[0].scriptSig = sigSave;
}
}
}
BOOST_AUTO_TEST_CASE(norecurse)
{
ScriptError err;
// Make sure only the outer pay-to-script-hash does the
// extra-validation thing:
CScript invalidAsScript;
invalidAsScript << OP_INVALIDOPCODE << OP_INVALIDOPCODE;
CScript p2sh = GetScriptForDestination(ScriptHash(invalidAsScript));
CScript scriptSig;
scriptSig << Serialize(invalidAsScript);
// Should not verify, because it will try to execute OP_INVALIDOPCODE
BOOST_CHECK(!Verify(scriptSig, p2sh, true, err));
BOOST_CHECK_MESSAGE(err == SCRIPT_ERR_BAD_OPCODE, ScriptErrorString(err));
// Try to recur, and verification should succeed because
// the inner HASH160 <> EQUAL should only check the hash:
CScript p2sh2 = GetScriptForDestination(ScriptHash(p2sh));
CScript scriptSig2;
scriptSig2 << Serialize(invalidAsScript) << Serialize(p2sh);
BOOST_CHECK(Verify(scriptSig2, p2sh2, true, err));
BOOST_CHECK_MESSAGE(err == SCRIPT_ERR_OK, ScriptErrorString(err));
}
BOOST_AUTO_TEST_CASE(set)
{
// Test the CScript::Set* methods
FillableSigningProvider keystore;
CKey key[4];
std::vector<CPubKey> keys;
for (int i = 0; i < 4; i++)
{
key[i].MakeNewKey(true);
BOOST_CHECK(keystore.AddKey(key[i]));
keys.push_back(key[i].GetPubKey());
}
CScript inner[4];
inner[0] = GetScriptForDestination(PKHash(key[0].GetPubKey()));
inner[1] = GetScriptForMultisig(2, std::vector<CPubKey>(keys.begin(), keys.begin()+2));
inner[2] = GetScriptForMultisig(1, std::vector<CPubKey>(keys.begin(), keys.begin()+2));
inner[3] = GetScriptForMultisig(2, std::vector<CPubKey>(keys.begin(), keys.begin()+3));
CScript outer[4];
for (int i = 0; i < 4; i++)
{
outer[i] = GetScriptForDestination(ScriptHash(inner[i]));
BOOST_CHECK(keystore.AddCScript(inner[i]));
}
CMutableTransaction txFrom; // Funding transaction:
std::string reason;
txFrom.vout.resize(4);
for (int i = 0; i < 4; i++)
{
txFrom.vout[i].scriptPubKey = outer[i];
txFrom.vout[i].nValue = CENT;
}
BOOST_CHECK(IsStandardTx(CTransaction(txFrom), reason));
CMutableTransaction txTo[4]; // Spending transactions
for (int i = 0; i < 4; i++)
{
txTo[i].vin.resize(1);
txTo[i].vout.resize(1);
txTo[i].vin[0].prevout.n = i;
txTo[i].vin[0].prevout.hash = txFrom.GetHash();
txTo[i].vout[0].nValue = 1*CENT;
txTo[i].vout[0].scriptPubKey = inner[i];
}
for (int i = 0; i < 4; i++)
{
SignatureData empty;
BOOST_CHECK_MESSAGE(SignSignature(keystore, CTransaction(txFrom), txTo[i], 0, SIGHASH_ALL, empty), strprintf("SignSignature %d", i));
BOOST_CHECK_MESSAGE(IsStandardTx(CTransaction(txTo[i]), reason), strprintf("txTo[%d].IsStandard", i));
}
}
BOOST_AUTO_TEST_CASE(is)
{
// Test CScript::IsPayToScriptHash()
uint160 dummy;
CScript p2sh;
p2sh << OP_HASH160 << ToByteVector(dummy) << OP_EQUAL;
BOOST_CHECK(p2sh.IsPayToScriptHash());
std::vector<unsigned char> direct = {OP_HASH160, 20};
direct.insert(direct.end(), 20, 0);
direct.push_back(OP_EQUAL);
BOOST_CHECK(CScript(direct.begin(), direct.end()).IsPayToScriptHash());
// Not considered pay-to-script-hash if using one of the OP_PUSHDATA opcodes:
std::vector<unsigned char> pushdata1 = {OP_HASH160, OP_PUSHDATA1, 20};
pushdata1.insert(pushdata1.end(), 20, 0);
pushdata1.push_back(OP_EQUAL);
BOOST_CHECK(!CScript(pushdata1.begin(), pushdata1.end()).IsPayToScriptHash());
std::vector<unsigned char> pushdata2 = {OP_HASH160, OP_PUSHDATA2, 20, 0};
pushdata2.insert(pushdata2.end(), 20, 0);
pushdata2.push_back(OP_EQUAL);
BOOST_CHECK(!CScript(pushdata2.begin(), pushdata2.end()).IsPayToScriptHash());
std::vector<unsigned char> pushdata4 = {OP_HASH160, OP_PUSHDATA4, 20, 0, 0, 0};
pushdata4.insert(pushdata4.end(), 20, 0);
pushdata4.push_back(OP_EQUAL);
BOOST_CHECK(!CScript(pushdata4.begin(), pushdata4.end()).IsPayToScriptHash());
CScript not_p2sh;
BOOST_CHECK(!not_p2sh.IsPayToScriptHash());
not_p2sh.clear(); not_p2sh << OP_HASH160 << ToByteVector(dummy) << ToByteVector(dummy) << OP_EQUAL;
BOOST_CHECK(!not_p2sh.IsPayToScriptHash());
not_p2sh.clear(); not_p2sh << OP_NOP << ToByteVector(dummy) << OP_EQUAL;
BOOST_CHECK(!not_p2sh.IsPayToScriptHash());
not_p2sh.clear(); not_p2sh << OP_HASH160 << ToByteVector(dummy) << OP_CHECKSIG;
BOOST_CHECK(!not_p2sh.IsPayToScriptHash());
}
BOOST_AUTO_TEST_CASE(switchover)
{
// Test switch over code
CScript notValid;
ScriptError err;
notValid << OP_11 << OP_12 << OP_EQUALVERIFY;
CScript scriptSig;
scriptSig << Serialize(notValid);
CScript fund = GetScriptForDestination(ScriptHash(notValid));
// Validation should succeed under old rules (hash is correct):
BOOST_CHECK(Verify(scriptSig, fund, false, err));
BOOST_CHECK_MESSAGE(err == SCRIPT_ERR_OK, ScriptErrorString(err));
// Fail under new:
BOOST_CHECK(!Verify(scriptSig, fund, true, err));
BOOST_CHECK_MESSAGE(err == SCRIPT_ERR_EQUALVERIFY, ScriptErrorString(err));
}
BOOST_AUTO_TEST_CASE(AreInputsStandard)
{
CCoinsView coinsDummy;
CCoinsViewCache coins(&coinsDummy);
FillableSigningProvider keystore;
CKey key[6];
std::vector<CPubKey> keys;
for (int i = 0; i < 6; i++)
{
key[i].MakeNewKey(true);
BOOST_CHECK(keystore.AddKey(key[i]));
}
for (int i = 0; i < 3; i++)
keys.push_back(key[i].GetPubKey());
CMutableTransaction txFrom;
txFrom.vout.resize(7);
// First three are standard:
CScript pay1 = GetScriptForDestination(PKHash(key[0].GetPubKey()));
BOOST_CHECK(keystore.AddCScript(pay1));
CScript pay1of3 = GetScriptForMultisig(1, keys);
txFrom.vout[0].scriptPubKey = GetScriptForDestination(ScriptHash(pay1)); // P2SH (OP_CHECKSIG)
txFrom.vout[0].nValue = 1000;
txFrom.vout[1].scriptPubKey = pay1; // ordinary OP_CHECKSIG
txFrom.vout[1].nValue = 2000;
txFrom.vout[2].scriptPubKey = pay1of3; // ordinary OP_CHECKMULTISIG
txFrom.vout[2].nValue = 3000;
// vout[3] is complicated 1-of-3 AND 2-of-3
// ... that is OK if wrapped in P2SH:
CScript oneAndTwo;
oneAndTwo << OP_1 << ToByteVector(key[0].GetPubKey()) << ToByteVector(key[1].GetPubKey()) << ToByteVector(key[2].GetPubKey());
oneAndTwo << OP_3 << OP_CHECKMULTISIGVERIFY;
oneAndTwo << OP_2 << ToByteVector(key[3].GetPubKey()) << ToByteVector(key[4].GetPubKey()) << ToByteVector(key[5].GetPubKey());
oneAndTwo << OP_3 << OP_CHECKMULTISIG;
BOOST_CHECK(keystore.AddCScript(oneAndTwo));
txFrom.vout[3].scriptPubKey = GetScriptForDestination(ScriptHash(oneAndTwo));
txFrom.vout[3].nValue = 4000;
// vout[4] is max sigops:
CScript fifteenSigops; fifteenSigops << OP_1;
for (unsigned i = 0; i < MAX_P2SH_SIGOPS; i++)
fifteenSigops << ToByteVector(key[i%3].GetPubKey());
fifteenSigops << OP_15 << OP_CHECKMULTISIG;
BOOST_CHECK(keystore.AddCScript(fifteenSigops));
txFrom.vout[4].scriptPubKey = GetScriptForDestination(ScriptHash(fifteenSigops));
txFrom.vout[4].nValue = 5000;
// vout[5/6] are non-standard because they exceed MAX_P2SH_SIGOPS
CScript sixteenSigops; sixteenSigops << OP_16 << OP_CHECKMULTISIG;
BOOST_CHECK(keystore.AddCScript(sixteenSigops));
txFrom.vout[5].scriptPubKey = GetScriptForDestination(ScriptHash(sixteenSigops));
txFrom.vout[5].nValue = 5000;
CScript twentySigops; twentySigops << OP_CHECKMULTISIG;
BOOST_CHECK(keystore.AddCScript(twentySigops));
txFrom.vout[6].scriptPubKey = GetScriptForDestination(ScriptHash(twentySigops));
txFrom.vout[6].nValue = 6000;
AddCoins(coins, CTransaction(txFrom), 0);
CMutableTransaction txTo;
txTo.vout.resize(1);
txTo.vout[0].scriptPubKey = GetScriptForDestination(PKHash(key[1].GetPubKey()));
txTo.vin.resize(5);
for (int i = 0; i < 5; i++)
{
txTo.vin[i].prevout.n = i;
txTo.vin[i].prevout.hash = txFrom.GetHash();
}
SignatureData empty;
BOOST_CHECK(SignSignature(keystore, CTransaction(txFrom), txTo, 0, SIGHASH_ALL, empty));
SignatureData empty_b;
BOOST_CHECK(SignSignature(keystore, CTransaction(txFrom), txTo, 1, SIGHASH_ALL, empty_b));
SignatureData empty_c;
BOOST_CHECK(SignSignature(keystore, CTransaction(txFrom), txTo, 2, SIGHASH_ALL, empty_c));
// SignSignature doesn't know how to sign these. We're
// not testing validating signatures, so just create
// dummy signatures that DO include the correct P2SH scripts:
txTo.vin[3].scriptSig << OP_11 << OP_11 << std::vector<unsigned char>(oneAndTwo.begin(), oneAndTwo.end());
txTo.vin[4].scriptSig << std::vector<unsigned char>(fifteenSigops.begin(), fifteenSigops.end());
BOOST_CHECK(::AreInputsStandard(CTransaction(txTo), coins));
// 22 P2SH sigops for all inputs (1 for vin[0], 6 for vin[3], 15 for vin[4]
BOOST_CHECK_EQUAL(GetP2SHSigOpCount(CTransaction(txTo), coins), 22U);
CMutableTransaction txToNonStd1;
txToNonStd1.vout.resize(1);
txToNonStd1.vout[0].scriptPubKey = GetScriptForDestination(PKHash(key[1].GetPubKey()));
txToNonStd1.vout[0].nValue = 1000;
txToNonStd1.vin.resize(1);
txToNonStd1.vin[0].prevout.n = 5;
txToNonStd1.vin[0].prevout.hash = txFrom.GetHash();
txToNonStd1.vin[0].scriptSig << std::vector<unsigned char>(sixteenSigops.begin(), sixteenSigops.end());
BOOST_CHECK(!::AreInputsStandard(CTransaction(txToNonStd1), coins));
BOOST_CHECK_EQUAL(GetP2SHSigOpCount(CTransaction(txToNonStd1), coins), 16U);
CMutableTransaction txToNonStd2;
txToNonStd2.vout.resize(1);
txToNonStd2.vout[0].scriptPubKey = GetScriptForDestination(PKHash(key[1].GetPubKey()));
txToNonStd2.vout[0].nValue = 1000;
txToNonStd2.vin.resize(1);
txToNonStd2.vin[0].prevout.n = 6;
txToNonStd2.vin[0].prevout.hash = txFrom.GetHash();
txToNonStd2.vin[0].scriptSig << std::vector<unsigned char>(twentySigops.begin(), twentySigops.end());
BOOST_CHECK(!::AreInputsStandard(CTransaction(txToNonStd2), coins));
BOOST_CHECK_EQUAL(GetP2SHSigOpCount(CTransaction(txToNonStd2), coins), 20U);
}
BOOST_AUTO_TEST_SUITE_END()
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