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dbwrapper_tests.cpp
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dbwrapper_tests.cpp
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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 <dbwrapper.h>
#include <test/util/random.h>
#include <test/util/setup_common.h>
#include <uint256.h>
#include <util/string.h>
#include <memory>
#include <boost/test/unit_test.hpp>
// Test if a string consists entirely of null characters
static bool is_null_key(const std::vector<unsigned char>& key) {
bool isnull = true;
for (unsigned int i = 0; i < key.size(); i++)
isnull &= (key[i] == '\x00');
return isnull;
}
BOOST_FIXTURE_TEST_SUITE(dbwrapper_tests, BasicTestingSetup)
BOOST_AUTO_TEST_CASE(dbwrapper)
{
// Perform tests both obfuscated and non-obfuscated.
for (const bool obfuscate : {false, true}) {
fs::path ph = m_args.GetDataDirBase() / (obfuscate ? "dbwrapper_obfuscate_true" : "dbwrapper_obfuscate_false");
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20, .memory_only = true, .wipe_data = false, .obfuscate = obfuscate});
uint8_t key{'k'};
uint256 in = InsecureRand256();
uint256 res;
// Ensure that we're doing real obfuscation when obfuscate=true
BOOST_CHECK(obfuscate != is_null_key(dbwrapper_private::GetObfuscateKey(dbw)));
BOOST_CHECK(dbw.Write(key, in));
BOOST_CHECK(dbw.Read(key, res));
BOOST_CHECK_EQUAL(res.ToString(), in.ToString());
}
}
BOOST_AUTO_TEST_CASE(dbwrapper_basic_data)
{
// Perform tests both obfuscated and non-obfuscated.
for (bool obfuscate : {false, true}) {
fs::path ph = m_args.GetDataDirBase() / (obfuscate ? "dbwrapper_1_obfuscate_true" : "dbwrapper_1_obfuscate_false");
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20, .memory_only = false, .wipe_data = true, .obfuscate = obfuscate});
uint256 res;
uint32_t res_uint_32;
bool res_bool;
// Ensure that we're doing real obfuscation when obfuscate=true
BOOST_CHECK(obfuscate != is_null_key(dbwrapper_private::GetObfuscateKey(dbw)));
//Simulate block raw data - "b + block hash"
std::string key_block = "b" + InsecureRand256().ToString();
uint256 in_block = InsecureRand256();
BOOST_CHECK(dbw.Write(key_block, in_block));
BOOST_CHECK(dbw.Read(key_block, res));
BOOST_CHECK_EQUAL(res.ToString(), in_block.ToString());
//Simulate file raw data - "f + file_number"
std::string key_file = strprintf("f%04x", InsecureRand32());
uint256 in_file_info = InsecureRand256();
BOOST_CHECK(dbw.Write(key_file, in_file_info));
BOOST_CHECK(dbw.Read(key_file, res));
BOOST_CHECK_EQUAL(res.ToString(), in_file_info.ToString());
//Simulate transaction raw data - "t + transaction hash"
std::string key_transaction = "t" + InsecureRand256().ToString();
uint256 in_transaction = InsecureRand256();
BOOST_CHECK(dbw.Write(key_transaction, in_transaction));
BOOST_CHECK(dbw.Read(key_transaction, res));
BOOST_CHECK_EQUAL(res.ToString(), in_transaction.ToString());
//Simulate UTXO raw data - "c + transaction hash"
std::string key_utxo = "c" + InsecureRand256().ToString();
uint256 in_utxo = InsecureRand256();
BOOST_CHECK(dbw.Write(key_utxo, in_utxo));
BOOST_CHECK(dbw.Read(key_utxo, res));
BOOST_CHECK_EQUAL(res.ToString(), in_utxo.ToString());
//Simulate last block file number - "l"
uint8_t key_last_blockfile_number{'l'};
uint32_t lastblockfilenumber = InsecureRand32();
BOOST_CHECK(dbw.Write(key_last_blockfile_number, lastblockfilenumber));
BOOST_CHECK(dbw.Read(key_last_blockfile_number, res_uint_32));
BOOST_CHECK_EQUAL(lastblockfilenumber, res_uint_32);
//Simulate Is Reindexing - "R"
uint8_t key_IsReindexing{'R'};
bool isInReindexing = InsecureRandBool();
BOOST_CHECK(dbw.Write(key_IsReindexing, isInReindexing));
BOOST_CHECK(dbw.Read(key_IsReindexing, res_bool));
BOOST_CHECK_EQUAL(isInReindexing, res_bool);
//Simulate last block hash up to which UXTO covers - 'B'
uint8_t key_lastblockhash_uxto{'B'};
uint256 lastblock_hash = InsecureRand256();
BOOST_CHECK(dbw.Write(key_lastblockhash_uxto, lastblock_hash));
BOOST_CHECK(dbw.Read(key_lastblockhash_uxto, res));
BOOST_CHECK_EQUAL(lastblock_hash, res);
//Simulate file raw data - "F + filename_number + filename"
std::string file_option_tag = "F";
uint8_t filename_length = InsecureRandBits(8);
std::string filename = "randomfilename";
std::string key_file_option = strprintf("%s%01x%s", file_option_tag,filename_length,filename);
bool in_file_bool = InsecureRandBool();
BOOST_CHECK(dbw.Write(key_file_option, in_file_bool));
BOOST_CHECK(dbw.Read(key_file_option, res_bool));
BOOST_CHECK_EQUAL(res_bool, in_file_bool);
}
}
// Test batch operations
BOOST_AUTO_TEST_CASE(dbwrapper_batch)
{
// Perform tests both obfuscated and non-obfuscated.
for (const bool obfuscate : {false, true}) {
fs::path ph = m_args.GetDataDirBase() / (obfuscate ? "dbwrapper_batch_obfuscate_true" : "dbwrapper_batch_obfuscate_false");
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20, .memory_only = true, .wipe_data = false, .obfuscate = obfuscate});
uint8_t key{'i'};
uint256 in = InsecureRand256();
uint8_t key2{'j'};
uint256 in2 = InsecureRand256();
uint8_t key3{'k'};
uint256 in3 = InsecureRand256();
uint256 res;
CDBBatch batch(dbw);
batch.Write(key, in);
batch.Write(key2, in2);
batch.Write(key3, in3);
// Remove key3 before it's even been written
batch.Erase(key3);
BOOST_CHECK(dbw.WriteBatch(batch));
BOOST_CHECK(dbw.Read(key, res));
BOOST_CHECK_EQUAL(res.ToString(), in.ToString());
BOOST_CHECK(dbw.Read(key2, res));
BOOST_CHECK_EQUAL(res.ToString(), in2.ToString());
// key3 should've never been written
BOOST_CHECK(dbw.Read(key3, res) == false);
}
}
BOOST_AUTO_TEST_CASE(dbwrapper_iterator)
{
// Perform tests both obfuscated and non-obfuscated.
for (const bool obfuscate : {false, true}) {
fs::path ph = m_args.GetDataDirBase() / (obfuscate ? "dbwrapper_iterator_obfuscate_true" : "dbwrapper_iterator_obfuscate_false");
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20, .memory_only = true, .wipe_data = false, .obfuscate = obfuscate});
// The two keys are intentionally chosen for ordering
uint8_t key{'j'};
uint256 in = InsecureRand256();
BOOST_CHECK(dbw.Write(key, in));
uint8_t key2{'k'};
uint256 in2 = InsecureRand256();
BOOST_CHECK(dbw.Write(key2, in2));
std::unique_ptr<CDBIterator> it(const_cast<CDBWrapper&>(dbw).NewIterator());
// Be sure to seek past the obfuscation key (if it exists)
it->Seek(key);
uint8_t key_res;
uint256 val_res;
BOOST_REQUIRE(it->GetKey(key_res));
BOOST_REQUIRE(it->GetValue(val_res));
BOOST_CHECK_EQUAL(key_res, key);
BOOST_CHECK_EQUAL(val_res.ToString(), in.ToString());
it->Next();
BOOST_REQUIRE(it->GetKey(key_res));
BOOST_REQUIRE(it->GetValue(val_res));
BOOST_CHECK_EQUAL(key_res, key2);
BOOST_CHECK_EQUAL(val_res.ToString(), in2.ToString());
it->Next();
BOOST_CHECK_EQUAL(it->Valid(), false);
}
}
// Test that we do not obfuscation if there is existing data.
BOOST_AUTO_TEST_CASE(existing_data_no_obfuscate)
{
// We're going to share this fs::path between two wrappers
fs::path ph = m_args.GetDataDirBase() / "existing_data_no_obfuscate";
fs::create_directories(ph);
// Set up a non-obfuscated wrapper to write some initial data.
std::unique_ptr<CDBWrapper> dbw = std::make_unique<CDBWrapper>(DBParams{.path = ph, .cache_bytes = 1 << 10, .memory_only = false, .wipe_data = false, .obfuscate = false});
uint8_t key{'k'};
uint256 in = InsecureRand256();
uint256 res;
BOOST_CHECK(dbw->Write(key, in));
BOOST_CHECK(dbw->Read(key, res));
BOOST_CHECK_EQUAL(res.ToString(), in.ToString());
// Call the destructor to free leveldb LOCK
dbw.reset();
// Now, set up another wrapper that wants to obfuscate the same directory
CDBWrapper odbw({.path = ph, .cache_bytes = 1 << 10, .memory_only = false, .wipe_data = false, .obfuscate = true});
// Check that the key/val we wrote with unobfuscated wrapper exists and
// is readable.
uint256 res2;
BOOST_CHECK(odbw.Read(key, res2));
BOOST_CHECK_EQUAL(res2.ToString(), in.ToString());
BOOST_CHECK(!odbw.IsEmpty()); // There should be existing data
BOOST_CHECK(is_null_key(dbwrapper_private::GetObfuscateKey(odbw))); // The key should be an empty string
uint256 in2 = InsecureRand256();
uint256 res3;
// Check that we can write successfully
BOOST_CHECK(odbw.Write(key, in2));
BOOST_CHECK(odbw.Read(key, res3));
BOOST_CHECK_EQUAL(res3.ToString(), in2.ToString());
}
// Ensure that we start obfuscating during a reindex.
BOOST_AUTO_TEST_CASE(existing_data_reindex)
{
// We're going to share this fs::path between two wrappers
fs::path ph = m_args.GetDataDirBase() / "existing_data_reindex";
fs::create_directories(ph);
// Set up a non-obfuscated wrapper to write some initial data.
std::unique_ptr<CDBWrapper> dbw = std::make_unique<CDBWrapper>(DBParams{.path = ph, .cache_bytes = 1 << 10, .memory_only = false, .wipe_data = false, .obfuscate = false});
uint8_t key{'k'};
uint256 in = InsecureRand256();
uint256 res;
BOOST_CHECK(dbw->Write(key, in));
BOOST_CHECK(dbw->Read(key, res));
BOOST_CHECK_EQUAL(res.ToString(), in.ToString());
// Call the destructor to free leveldb LOCK
dbw.reset();
// Simulate a -reindex by wiping the existing data store
CDBWrapper odbw({.path = ph, .cache_bytes = 1 << 10, .memory_only = false, .wipe_data = true, .obfuscate = true});
// Check that the key/val we wrote with unobfuscated wrapper doesn't exist
uint256 res2;
BOOST_CHECK(!odbw.Read(key, res2));
BOOST_CHECK(!is_null_key(dbwrapper_private::GetObfuscateKey(odbw)));
uint256 in2 = InsecureRand256();
uint256 res3;
// Check that we can write successfully
BOOST_CHECK(odbw.Write(key, in2));
BOOST_CHECK(odbw.Read(key, res3));
BOOST_CHECK_EQUAL(res3.ToString(), in2.ToString());
}
BOOST_AUTO_TEST_CASE(iterator_ordering)
{
fs::path ph = m_args.GetDataDirBase() / "iterator_ordering";
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20, .memory_only = true, .wipe_data = false, .obfuscate = false});
for (int x=0x00; x<256; ++x) {
uint8_t key = x;
uint32_t value = x*x;
if (!(x & 1)) BOOST_CHECK(dbw.Write(key, value));
}
// Check that creating an iterator creates a snapshot
std::unique_ptr<CDBIterator> it(const_cast<CDBWrapper&>(dbw).NewIterator());
for (unsigned int x=0x00; x<256; ++x) {
uint8_t key = x;
uint32_t value = x*x;
if (x & 1) BOOST_CHECK(dbw.Write(key, value));
}
for (const int seek_start : {0x00, 0x80}) {
it->Seek((uint8_t)seek_start);
for (unsigned int x=seek_start; x<255; ++x) {
uint8_t key;
uint32_t value;
BOOST_CHECK(it->Valid());
if (!it->Valid()) // Avoid spurious errors about invalid iterator's key and value in case of failure
break;
BOOST_CHECK(it->GetKey(key));
if (x & 1) {
BOOST_CHECK_EQUAL(key, x + 1);
continue;
}
BOOST_CHECK(it->GetValue(value));
BOOST_CHECK_EQUAL(key, x);
BOOST_CHECK_EQUAL(value, x*x);
it->Next();
}
BOOST_CHECK(!it->Valid());
}
}
struct StringContentsSerializer {
// Used to make two serialized objects the same while letting them have different lengths
// This is a terrible idea
std::string str;
StringContentsSerializer() = default;
explicit StringContentsSerializer(const std::string& inp) : str(inp) {}
template<typename Stream>
void Serialize(Stream& s) const
{
for (size_t i = 0; i < str.size(); i++) {
s << uint8_t(str[i]);
}
}
template<typename Stream>
void Unserialize(Stream& s)
{
str.clear();
uint8_t c{0};
while (!s.eof()) {
s >> c;
str.push_back(c);
}
}
};
BOOST_AUTO_TEST_CASE(iterator_string_ordering)
{
fs::path ph = m_args.GetDataDirBase() / "iterator_string_ordering";
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20, .memory_only = true, .wipe_data = false, .obfuscate = false});
for (int x = 0; x < 10; ++x) {
for (int y = 0; y < 10; ++y) {
std::string key{ToString(x)};
for (int z = 0; z < y; ++z)
key += key;
uint32_t value = x*x;
BOOST_CHECK(dbw.Write(StringContentsSerializer{key}, value));
}
}
std::unique_ptr<CDBIterator> it(const_cast<CDBWrapper&>(dbw).NewIterator());
for (const int seek_start : {0, 5}) {
it->Seek(StringContentsSerializer{ToString(seek_start)});
for (unsigned int x = seek_start; x < 10; ++x) {
for (int y = 0; y < 10; ++y) {
std::string exp_key{ToString(x)};
for (int z = 0; z < y; ++z)
exp_key += exp_key;
StringContentsSerializer key;
uint32_t value;
BOOST_CHECK(it->Valid());
if (!it->Valid()) // Avoid spurious errors about invalid iterator's key and value in case of failure
break;
BOOST_CHECK(it->GetKey(key));
BOOST_CHECK(it->GetValue(value));
BOOST_CHECK_EQUAL(key.str, exp_key);
BOOST_CHECK_EQUAL(value, x*x);
it->Next();
}
}
BOOST_CHECK(!it->Valid());
}
}
BOOST_AUTO_TEST_CASE(unicodepath)
{
// Attempt to create a database with a UTF8 character in the path.
// On Windows this test will fail if the directory is created using
// the ANSI CreateDirectoryA call and the code page isn't UTF8.
// It will succeed if created with CreateDirectoryW.
fs::path ph = m_args.GetDataDirBase() / "test_runner_₿_🏃_20191128_104644";
CDBWrapper dbw({.path = ph, .cache_bytes = 1 << 20});
fs::path lockPath = ph / "LOCK";
BOOST_CHECK(fs::exists(lockPath));
}
BOOST_AUTO_TEST_SUITE_END()