// Copyright (c) 2022 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or https://www.opensource.org/licenses/mit-license.php. #include #include #include #include namespace wallet { BOOST_AUTO_TEST_SUITE(walletload_tests) class DummyDescriptor final : public Descriptor { private: std::string desc; public: explicit DummyDescriptor(const std::string& descriptor) : desc(descriptor) {}; ~DummyDescriptor() = default; std::string ToString() const override { return desc; } std::optional GetOutputType() const override { return OutputType::UNKNOWN; } bool IsRange() const override { return false; } bool IsSolvable() const override { return false; } bool IsSingleType() const override { return true; } bool ToPrivateString(const SigningProvider& provider, std::string& out) const override { return false; } bool ToNormalizedString(const SigningProvider& provider, std::string& out, const DescriptorCache* cache = nullptr) const override { return false; } bool Expand(int pos, const SigningProvider& provider, std::vector& output_scripts, FlatSigningProvider& out, DescriptorCache* write_cache = nullptr) const override { return false; }; bool ExpandFromCache(int pos, const DescriptorCache& read_cache, std::vector& output_scripts, FlatSigningProvider& out) const override { return false; } void ExpandPrivate(int pos, const SigningProvider& provider, FlatSigningProvider& out) const override {} }; BOOST_FIXTURE_TEST_CASE(wallet_load_unknown_descriptor, TestingSetup) { std::unique_ptr database = CreateMockWalletDatabase(); { // Write unknown active descriptor WalletBatch batch(*database, false); std::string unknown_desc = "trx(tpubD6NzVbkrYhZ4Y4S7m6Y5s9GD8FqEMBy56AGphZXuagajudVZEnYyBahZMgHNCTJc2at82YX6s8JiL1Lohu5A3v1Ur76qguNH4QVQ7qYrBQx/86'/1'/0'/0/*)#8pn8tzdt"; WalletDescriptor wallet_descriptor(std::make_shared(unknown_desc), 0, 0, 0, 0); BOOST_CHECK(batch.WriteDescriptor(uint256(), wallet_descriptor)); BOOST_CHECK(batch.WriteActiveScriptPubKeyMan(static_cast(OutputType::UNKNOWN), uint256(), false)); } { // Now try to load the wallet and verify the error. const std::shared_ptr wallet(new CWallet(m_node.chain.get(), "", std::move(database))); BOOST_CHECK_EQUAL(wallet->LoadWallet(), DBErrors::UNKNOWN_DESCRIPTOR); } } bool HasAnyRecordOfType(WalletDatabase& db, const std::string& key) { std::unique_ptr batch = db.MakeBatch(false); BOOST_CHECK(batch); std::unique_ptr cursor = batch->GetNewCursor(); BOOST_CHECK(cursor); while (true) { DataStream ssKey{}; DataStream ssValue{}; DatabaseCursor::Status status = cursor->Next(ssKey, ssValue); assert(status != DatabaseCursor::Status::FAIL); if (status == DatabaseCursor::Status::DONE) break; std::string type; ssKey >> type; if (type == key) return true; } return false; } BOOST_FIXTURE_TEST_CASE(wallet_load_verif_crypted_key_checksum, TestingSetup) { // The test duplicates the db so each case has its own db instance. int NUMBER_OF_TESTS = 4; std::vector> dbs; CKey first_key; auto get_db = [](std::vector>& dbs) { std::unique_ptr db = std::move(dbs.back()); dbs.pop_back(); return db; }; { // Context setup. // Create and encrypt legacy wallet std::shared_ptr wallet(new CWallet(m_node.chain.get(), "", CreateMockWalletDatabase())); LOCK(wallet->cs_wallet); auto legacy_spkm = wallet->GetOrCreateLegacyScriptPubKeyMan(); BOOST_CHECK(legacy_spkm->SetupGeneration(true)); // Get the first key in the wallet CTxDestination dest = *Assert(legacy_spkm->GetNewDestination(OutputType::LEGACY)); CKeyID key_id = GetKeyForDestination(*legacy_spkm, dest); BOOST_CHECK(legacy_spkm->GetKey(key_id, first_key)); // Encrypt the wallet and duplicate database BOOST_CHECK(wallet->EncryptWallet("encrypt")); wallet->Flush(); DatabaseOptions options; for (int i=0; i < NUMBER_OF_TESTS; i++) { dbs.emplace_back(DuplicateMockDatabase(wallet->GetDatabase(), options)); } } { // First test case: // Erase all the crypted keys from db and unlock the wallet. // The wallet will only re-write the crypted keys to db if any checksum is missing at load time. // So, if any 'ckey' record re-appears on db, then the checksums were not properly calculated, and we are re-writing // the records every time that 'CWallet::Unlock' gets called, which is not good. // Load the wallet and check that is encrypted std::shared_ptr wallet(new CWallet(m_node.chain.get(), "", get_db(dbs))); BOOST_CHECK_EQUAL(wallet->LoadWallet(), DBErrors::LOAD_OK); BOOST_CHECK(wallet->IsCrypted()); BOOST_CHECK(HasAnyRecordOfType(wallet->GetDatabase(), DBKeys::CRYPTED_KEY)); // Now delete all records and check that the 'Unlock' function doesn't re-write them BOOST_CHECK(wallet->GetLegacyScriptPubKeyMan()->DeleteRecords()); BOOST_CHECK(!HasAnyRecordOfType(wallet->GetDatabase(), DBKeys::CRYPTED_KEY)); BOOST_CHECK(wallet->Unlock("encrypt")); BOOST_CHECK(!HasAnyRecordOfType(wallet->GetDatabase(), DBKeys::CRYPTED_KEY)); } { // Second test case: // Verify that loading up a 'ckey' with no checksum triggers a complete re-write of the crypted keys. std::unique_ptr db = get_db(dbs); { std::unique_ptr batch = db->MakeBatch(false); std::pair, uint256> value; BOOST_CHECK(batch->Read(std::make_pair(DBKeys::CRYPTED_KEY, first_key.GetPubKey()), value)); const auto key = std::make_pair(DBKeys::CRYPTED_KEY, first_key.GetPubKey()); BOOST_CHECK(batch->Write(key, value.first, /*fOverwrite=*/true)); } // Load the wallet and check that is encrypted std::shared_ptr wallet(new CWallet(m_node.chain.get(), "", std::move(db))); BOOST_CHECK_EQUAL(wallet->LoadWallet(), DBErrors::LOAD_OK); BOOST_CHECK(wallet->IsCrypted()); BOOST_CHECK(HasAnyRecordOfType(wallet->GetDatabase(), DBKeys::CRYPTED_KEY)); // Now delete all ckey records and check that the 'Unlock' function re-writes them // (this is because the wallet, at load time, found a ckey record with no checksum) BOOST_CHECK(wallet->GetLegacyScriptPubKeyMan()->DeleteRecords()); BOOST_CHECK(!HasAnyRecordOfType(wallet->GetDatabase(), DBKeys::CRYPTED_KEY)); BOOST_CHECK(wallet->Unlock("encrypt")); BOOST_CHECK(HasAnyRecordOfType(wallet->GetDatabase(), DBKeys::CRYPTED_KEY)); } { // Third test case: // Verify that loading up a 'ckey' with an invalid checksum throws an error. std::unique_ptr db = get_db(dbs); { std::unique_ptr batch = db->MakeBatch(false); std::vector crypted_data; BOOST_CHECK(batch->Read(std::make_pair(DBKeys::CRYPTED_KEY, first_key.GetPubKey()), crypted_data)); // Write an invalid checksum std::pair, uint256> value = std::make_pair(crypted_data, uint256::ONE); const auto key = std::make_pair(DBKeys::CRYPTED_KEY, first_key.GetPubKey()); BOOST_CHECK(batch->Write(key, value, /*fOverwrite=*/true)); } std::shared_ptr wallet(new CWallet(m_node.chain.get(), "", std::move(db))); BOOST_CHECK_EQUAL(wallet->LoadWallet(), DBErrors::CORRUPT); } { // Fourth test case: // Verify that loading up a 'ckey' with an invalid pubkey throws an error std::unique_ptr db = get_db(dbs); { CPubKey invalid_key; BOOST_ASSERT(!invalid_key.IsValid()); const auto key = std::make_pair(DBKeys::CRYPTED_KEY, invalid_key); std::pair, uint256> value; BOOST_CHECK(db->MakeBatch(false)->Write(key, value, /*fOverwrite=*/true)); } std::shared_ptr wallet(new CWallet(m_node.chain.get(), "", std::move(db))); BOOST_CHECK_EQUAL(wallet->LoadWallet(), DBErrors::CORRUPT); } } BOOST_AUTO_TEST_SUITE_END() } // namespace wallet