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orphanage_tests.cpp
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orphanage_tests.cpp
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// Copyright (c) 2011-2022 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 <arith_uint256.h>
#include <primitives/transaction.h>
#include <pubkey.h>
#include <script/sign.h>
#include <script/signingprovider.h>
#include <test/util/random.h>
#include <test/util/setup_common.h>
#include <txorphanage.h>
#include <array>
#include <cstdint>
#include <boost/test/unit_test.hpp>
BOOST_FIXTURE_TEST_SUITE(orphanage_tests, TestingSetup)
class TxOrphanageTest : public TxOrphanage
{
public:
inline size_t CountOrphans() const EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
LOCK(m_mutex);
return m_orphans.size();
}
CTransactionRef RandomOrphan() EXCLUSIVE_LOCKS_REQUIRED(!m_mutex)
{
LOCK(m_mutex);
std::map<Txid, OrphanTx>::iterator it;
it = m_orphans.lower_bound(Txid::FromUint256(InsecureRand256()));
if (it == m_orphans.end())
it = m_orphans.begin();
return it->second.tx;
}
};
static void MakeNewKeyWithFastRandomContext(CKey& key)
{
std::vector<unsigned char> keydata;
keydata = g_insecure_rand_ctx.randbytes(32);
key.Set(keydata.data(), keydata.data() + keydata.size(), /*fCompressedIn=*/true);
assert(key.IsValid());
}
BOOST_AUTO_TEST_CASE(DoS_mapOrphans)
{
// This test had non-deterministic coverage due to
// randomly selected seeds.
// This seed is chosen so that all branches of the function
// ecdsa_signature_parse_der_lax are executed during this test.
// Specifically branches that run only when an ECDSA
// signature's R and S values have leading zeros.
g_insecure_rand_ctx = FastRandomContext{uint256{33}};
TxOrphanageTest orphanage;
CKey key;
MakeNewKeyWithFastRandomContext(key);
FillableSigningProvider keystore;
BOOST_CHECK(keystore.AddKey(key));
// 50 orphan transactions:
for (int i = 0; i < 50; i++)
{
CMutableTransaction tx;
tx.vin.resize(1);
tx.vin[0].prevout.n = 0;
tx.vin[0].prevout.hash = Txid::FromUint256(InsecureRand256());
tx.vin[0].scriptSig << OP_1;
tx.vout.resize(1);
tx.vout[0].nValue = 1*CENT;
tx.vout[0].scriptPubKey = GetScriptForDestination(PKHash(key.GetPubKey()));
orphanage.AddTx(MakeTransactionRef(tx), i);
}
// ... and 50 that depend on other orphans:
for (int i = 0; i < 50; i++)
{
CTransactionRef txPrev = orphanage.RandomOrphan();
CMutableTransaction tx;
tx.vin.resize(1);
tx.vin[0].prevout.n = 0;
tx.vin[0].prevout.hash = txPrev->GetHash();
tx.vout.resize(1);
tx.vout[0].nValue = 1*CENT;
tx.vout[0].scriptPubKey = GetScriptForDestination(PKHash(key.GetPubKey()));
SignatureData empty;
BOOST_CHECK(SignSignature(keystore, *txPrev, tx, 0, SIGHASH_ALL, empty));
orphanage.AddTx(MakeTransactionRef(tx), i);
}
// This really-big orphan should be ignored:
for (int i = 0; i < 10; i++)
{
CTransactionRef txPrev = orphanage.RandomOrphan();
CMutableTransaction tx;
tx.vout.resize(1);
tx.vout[0].nValue = 1*CENT;
tx.vout[0].scriptPubKey = GetScriptForDestination(PKHash(key.GetPubKey()));
tx.vin.resize(2777);
for (unsigned int j = 0; j < tx.vin.size(); j++)
{
tx.vin[j].prevout.n = j;
tx.vin[j].prevout.hash = txPrev->GetHash();
}
SignatureData empty;
BOOST_CHECK(SignSignature(keystore, *txPrev, tx, 0, SIGHASH_ALL, empty));
// Reuse same signature for other inputs
// (they don't have to be valid for this test)
for (unsigned int j = 1; j < tx.vin.size(); j++)
tx.vin[j].scriptSig = tx.vin[0].scriptSig;
BOOST_CHECK(!orphanage.AddTx(MakeTransactionRef(tx), i));
}
// Test EraseOrphansFor:
for (NodeId i = 0; i < 3; i++)
{
size_t sizeBefore = orphanage.CountOrphans();
orphanage.EraseForPeer(i);
BOOST_CHECK(orphanage.CountOrphans() < sizeBefore);
}
// Test LimitOrphanTxSize() function:
FastRandomContext rng{/*fDeterministic=*/true};
orphanage.LimitOrphans(40, rng);
BOOST_CHECK(orphanage.CountOrphans() <= 40);
orphanage.LimitOrphans(10, rng);
BOOST_CHECK(orphanage.CountOrphans() <= 10);
orphanage.LimitOrphans(0, rng);
BOOST_CHECK(orphanage.CountOrphans() == 0);
}
BOOST_AUTO_TEST_SUITE_END()