File: Database_test.cpp

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/**
 * @file    Database_test.cpp
 * @ingroup tests
 * @brief   Test of a SQLiteCpp Database.
 *
 * Copyright (c) 2012-2025 Sebastien Rombauts (sebastien.rombauts@gmail.com)
 *
 * Distributed under the MIT License (MIT) (See accompanying file LICENSE.txt
 * or copy at http://opensource.org/licenses/MIT)
 */

#include <SQLiteCpp/Database.h>

#include <sqlite3.h> // for SQLITE_ERROR and SQLITE_VERSION_NUMBER

#include <gtest/gtest.h>

#ifdef SQLITECPP_HAVE_STD_FILESYSTEM
#include  <filesystem>
#endif // c++17

#include <cstdio>
#include <fstream>

#ifdef SQLITECPP_ENABLE_ASSERT_HANDLER
namespace SQLite
{
/// definition of the assertion handler enabled when SQLITECPP_ENABLE_ASSERT_HANDLER is defined in the project (CMakeList.txt)
void assertion_failed(const char* apFile, const long apLine, const char* apFunc, const char* apExpr, const char* apMsg)
{
    // TODO: unit test that this assertion callback get called (already tested manually)
    std::cout << "assertion_failed(" << apFile << ", " << apLine << ", " << apFunc << ", " << apExpr << ", " << apMsg << ")\n";
}
}
#endif

// NOTE on macOS FindSQLite3 find an unrelated sqlite3.h from Mono.framework that doesn't match the actual package version!
#if defined(SQLITECPP_INTERNAL_SQLITE) || !defined(__APPLE__)
TEST(SQLiteCpp, version)
{
    EXPECT_STREQ(SQLITE_VERSION,        SQLite::VERSION);
    EXPECT_EQ   (SQLITE_VERSION_NUMBER, SQLite::VERSION_NUMBER);
    EXPECT_STREQ(SQLITE_VERSION,        SQLite::getLibVersion());
    EXPECT_EQ   (SQLITE_VERSION_NUMBER, SQLite::getLibVersionNumber());
}
#endif

TEST(Database, ctorExecCreateDropExist)
{
    remove("test.db3");
    {
        // Try to open a non-existing database
        std::string filename = "test.db3";
        EXPECT_THROW(SQLite::Database not_found(filename), SQLite::Exception);

        // Create a new database using a string or a std::filesystem::path if using c++17 and a
        // compatible compiler
        #ifdef SQLITECPP_HAVE_STD_FILESYSTEM
            SQLite::Database db(std::filesystem::path("test.db3"), SQLite::OPEN_READWRITE|SQLite::OPEN_CREATE);
        #else
            SQLite::Database db("test.db3", SQLite::OPEN_READWRITE|SQLite::OPEN_CREATE);
        #endif // have std::filesystem

        EXPECT_STREQ("test.db3", db.getFilename().c_str());
        EXPECT_FALSE(db.tableExists("test"));
        EXPECT_FALSE(db.tableExists(std::string("test")));
        EXPECT_EQ(0, db.getLastInsertRowid());

        EXPECT_EQ(0, db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)"));
        EXPECT_TRUE(db.tableExists("test"));
        EXPECT_TRUE(db.tableExists(std::string("test")));
        EXPECT_EQ(0, db.getLastInsertRowid());

        EXPECT_EQ(0, db.exec("DROP TABLE IF EXISTS test"));
        EXPECT_FALSE(db.tableExists("test"));
        EXPECT_FALSE(db.tableExists(std::string("test")));
        EXPECT_EQ(0, db.getLastInsertRowid());
    } // Close DB test.db3
    remove("test.db3");
}

#if __cplusplus >= 201103L || (defined(_MSC_VER) && _MSC_VER >= 1600)

SQLite::Database DatabaseBuilder(const char* apName)
{
    return SQLite::Database(apName, SQLite::OPEN_READWRITE | SQLite::OPEN_CREATE);
}

TEST(Database, moveConstructor)
{
    remove("test.db3");
    {
        // Create a new database, using the move constructor
        SQLite::Database db = DatabaseBuilder("test.db3");
        EXPECT_FALSE(db.tableExists("test"));
        EXPECT_TRUE(db.getHandle() != NULL);
        SQLite::Database moved = std::move(db);
        EXPECT_TRUE(db.getHandle() == NULL);
        EXPECT_TRUE(moved.getHandle() != NULL);
        EXPECT_FALSE(moved.tableExists("test"));
    } // Close DB test.db3
    remove("test.db3");
}

#endif

TEST(Database, createCloseReopen)
{
    remove("test.db3");
    {
        // Try to open the non-existing database
        EXPECT_THROW(SQLite::Database not_found("test.db3"), SQLite::Exception);

        // Create a new database
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE|SQLite::OPEN_CREATE);
        EXPECT_FALSE(db.tableExists("test"));
        db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
        EXPECT_TRUE(db.tableExists("test"));
    } // Close DB test.db3
    {
        // Reopen the database file
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE|SQLite::OPEN_CREATE);
        EXPECT_TRUE(db.tableExists("test"));
    } // Close DB test.db3
    remove("test.db3");
}

TEST(Database, inMemory)
{
    {
        // Create a new database
        SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);
        EXPECT_FALSE(db.tableExists("test"));
        db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
        EXPECT_TRUE(db.tableExists("test"));
        // Create a new database: not shared with the above db
        SQLite::Database db2(":memory:");
        EXPECT_FALSE(db2.tableExists("test"));
    } // Close an destroy DBs
    {
        // Create a new database: no more "test" table
        SQLite::Database db(":memory:");
        EXPECT_FALSE(db.tableExists("test"));
    } // Close an destroy DB
}

TEST(Database, backup)
{
    // Create a new in-memory database
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);
    EXPECT_FALSE(db.tableExists("test"));
    db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
    EXPECT_TRUE(db.tableExists("test"));

    // Export the data into a file
    remove("backup.db3");
    EXPECT_NO_THROW(db.backup("backup.db3", SQLite::Database::Save));

    // Trash the table
    db.exec("DROP TABLE test;");
    EXPECT_FALSE(db.tableExists("test"));

    // Import the data back from the file
    EXPECT_NO_THROW(db.backup("backup.db3", SQLite::Database::Load));
    remove("backup.db3");

    EXPECT_TRUE(db.tableExists("test"));
}

#if SQLITE_VERSION_NUMBER >= 3007015 // SQLite v3.7.15 is first version with PRAGMA busy_timeout
TEST(Database, busyTimeout)
{
    {
        // Create a new database with default timeout of 0ms
        SQLite::Database db(":memory:");
        // Busy timeout default to 0ms: any contention between threads or process leads to SQLITE_BUSY error
        EXPECT_EQ(0, db.execAndGet("PRAGMA busy_timeout").getInt());

        // Set a non null busy timeout: any contention between threads will leads to as much retry as possible during the time
        db.setBusyTimeout(5000);
        EXPECT_EQ(5000, db.execAndGet("PRAGMA busy_timeout").getInt());

        // Reset timeout to 0
        db.setBusyTimeout(0);
        EXPECT_EQ(0, db.execAndGet("PRAGMA busy_timeout").getInt());
    }
    {
        // Create a new database with a non null busy timeout
        SQLite::Database db(":memory:", SQLite::OPEN_READWRITE, 5000);
        EXPECT_EQ(5000, db.execAndGet("PRAGMA busy_timeout").getInt());

        // Reset timeout to null
        db.setBusyTimeout(0);
        EXPECT_EQ(0, db.execAndGet("PRAGMA busy_timeout").getInt());
    }
    {
        // Create a new database with a non null busy timeout
        const std::string memory = ":memory:";
        SQLite::Database db(memory, SQLite::OPEN_READWRITE, 5000);
        EXPECT_EQ(5000, db.execAndGet("PRAGMA busy_timeout").getInt());

        // Reset timeout to null
        db.setBusyTimeout(0);
        EXPECT_EQ(0, db.execAndGet("PRAGMA busy_timeout").getInt());
    }
}
#endif // SQLITE_VERSION_NUMBER >= 3007015

TEST(Database, exec)
{
    // Create a new database
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);

    // Create a new table with an explicit "id" column aliasing the underlying rowid
    // NOTE: here exec() returns 0 only because it is the first statements since database connexion,
    //       but its return is an undefined value for "CREATE TABLE" statements.
    db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
    EXPECT_EQ(0, db.getChanges());
    EXPECT_EQ(0, db.getLastInsertRowid());
    EXPECT_EQ(0, db.getTotalChanges());

    // first row : insert the "first" text value into new row of id 1
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'first')"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(1, db.getLastInsertRowid());
    EXPECT_EQ(1, db.getTotalChanges());

    // second row : insert the "second" text value into new row of id 2
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'second')"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(2, db.getLastInsertRowid());
    EXPECT_EQ(2, db.getTotalChanges());

    // third row : insert the "third" text value into new row of id 3
    const std::string insert("INSERT INTO test VALUES (NULL, 'third')");
    EXPECT_EQ(1, db.exec(insert));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(3, db.getLastInsertRowid());
    EXPECT_EQ(3, db.getTotalChanges());

    // update the second row : update text value to "second_updated"
    EXPECT_EQ(1, db.exec("UPDATE test SET value='second-updated' WHERE id='2'"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(3, db.getLastInsertRowid()); // last inserted row ID is still 3
    EXPECT_EQ(4, db.getTotalChanges());

    // delete the third row
    EXPECT_EQ(1, db.exec("DELETE FROM test WHERE id='3'"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(3, db.getLastInsertRowid());
    EXPECT_EQ(5, db.getTotalChanges());

    // drop the whole table, ie the two remaining columns
    // NOTE: here exec() returns 1, like the last time, as it is an undefined value for "DROP TABLE" statements
    db.exec("DROP TABLE IF EXISTS test");
    EXPECT_FALSE(db.tableExists("test"));
    EXPECT_EQ(5, db.getTotalChanges());

    // Re-Create the same table
    // NOTE: here exec() returns 1, like the last time, as it is an undefined value for "CREATE TABLE" statements
    db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
    EXPECT_EQ(5, db.getTotalChanges());

    // insert two rows with two *different* statements => returns only 1, ie. for the second INSERT statement
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'first');INSERT INTO test VALUES (NULL, 'second');"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(2, db.getLastInsertRowid());
    EXPECT_EQ(7, db.getTotalChanges());

#if (SQLITE_VERSION_NUMBER >= 3007011)
    // insert two rows with only one statement (starting with SQLite 3.7.11) => returns 2
    EXPECT_EQ(2, db.exec("INSERT INTO test VALUES (NULL, 'third'), (NULL, 'fourth');"));
    EXPECT_EQ(2, db.getChanges());
    EXPECT_EQ(4, db.getLastInsertRowid());
    EXPECT_EQ(9, db.getTotalChanges());
#endif
}

TEST(Database, tryExec)
{
    // Create a new database
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);

    // Create a new table with an explicit "id" column aliasing the underlying rowid
    EXPECT_EQ(SQLite::OK, db.tryExec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)"));
    EXPECT_EQ(0, db.getChanges());
    EXPECT_EQ(0, db.getLastInsertRowid());
    EXPECT_EQ(0, db.getTotalChanges());

    // first row : insert the "first" text value into new row of id 1
    EXPECT_EQ(SQLite::OK, db.tryExec("INSERT INTO test VALUES (NULL, 'first')"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(1, db.getLastInsertRowid());
    EXPECT_EQ(1, db.getTotalChanges());

    // second row : insert the "second" text value into new row of id 2
    EXPECT_EQ(SQLite::OK, db.tryExec("INSERT INTO test VALUES (NULL, 'second')"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(2, db.getLastInsertRowid());
    EXPECT_EQ(2, db.getTotalChanges());

    // third row : insert the "third" text value into new row of id 3
    const std::string insert("INSERT INTO test VALUES (NULL, 'third')");
    EXPECT_EQ(SQLite::OK, db.tryExec(insert));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(3, db.getLastInsertRowid());
    EXPECT_EQ(3, db.getTotalChanges());

    // update the second row : update text value to "second_updated"
    EXPECT_EQ(SQLite::OK, db.tryExec("UPDATE test SET value='second-updated' WHERE id='2'"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(3, db.getLastInsertRowid()); // last inserted row ID is still 3
    EXPECT_EQ(4, db.getTotalChanges());

    // delete the third row
    EXPECT_EQ(SQLite::OK, db.tryExec("DELETE FROM test WHERE id='3'"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(3, db.getLastInsertRowid());
    EXPECT_EQ(5, db.getTotalChanges());

    // drop the whole table, ie the two remaining columns
    EXPECT_EQ(SQLite::OK, db.tryExec("DROP TABLE IF EXISTS test"));
    EXPECT_FALSE(db.tableExists("test"));
    EXPECT_EQ(5, db.getTotalChanges());

    // Re-Create the same table
    EXPECT_EQ(SQLite::OK, db.tryExec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)"));
    EXPECT_EQ(5, db.getTotalChanges());

    // insert two rows with two *different* statements => only 1 change, ie. for the second INSERT statement
    EXPECT_EQ(SQLite::OK, db.tryExec("INSERT INTO test VALUES (NULL, 'first');INSERT INTO test VALUES (NULL, 'second');"));
    EXPECT_EQ(1, db.getChanges());
    EXPECT_EQ(2, db.getLastInsertRowid());
    EXPECT_EQ(7, db.getTotalChanges());

#if (SQLITE_VERSION_NUMBER >= 3007011)
    // insert two rows with only one statement (starting with SQLite 3.7.11)
    EXPECT_EQ(SQLite::OK, db.tryExec("INSERT INTO test VALUES (NULL, 'third'), (NULL, 'fourth');"));
    EXPECT_EQ(2, db.getChanges());
    EXPECT_EQ(4, db.getLastInsertRowid());
    EXPECT_EQ(9, db.getTotalChanges());
#endif
}

TEST(Database, execAndGet)
{
    // Create a new database
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);

    // Create a new table with an explicit "id" column aliasing the underlying rowid
    db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT, weight INTEGER)");

    // insert a few rows
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'first',  3)"));
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'second', 5)"));
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'third',  7)"));

    // Get a single value result with an easy to use shortcut
    EXPECT_STREQ("second",  db.execAndGet("SELECT value FROM test WHERE id=2"));
    EXPECT_STREQ("third",   db.execAndGet("SELECT value FROM test WHERE weight=7"));
    const std::string query("SELECT weight FROM test WHERE value='first'");
    EXPECT_EQ(3,            db.execAndGet(query).getInt());
}

TEST(Database, execException)
{
    // Create a new database
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);
    EXPECT_EQ(SQLite::OK, db.getErrorCode());
    EXPECT_EQ(SQLite::OK, db.getExtendedErrorCode());

    // exception with SQL error: "no such table"
    EXPECT_THROW(db.exec("INSERT INTO test VALUES (NULL, 'first',  3)"), SQLite::Exception);
    EXPECT_EQ(SQLITE_ERROR, db.getErrorCode());
    EXPECT_EQ(SQLITE_ERROR, db.getExtendedErrorCode());
    EXPECT_STREQ("no such table: test", db.getErrorMsg());

    // Create a new table
    db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT, weight INTEGER)");
    EXPECT_EQ(SQLite::OK, db.getErrorCode());
    EXPECT_EQ(SQLite::OK, db.getExtendedErrorCode());
    EXPECT_STREQ("not an error", db.getErrorMsg());

    // exception with SQL error: "table test has 3 columns but 2 values were supplied"
    EXPECT_THROW(db.exec("INSERT INTO test VALUES (NULL,  3)"), SQLite::Exception);
    EXPECT_EQ(SQLITE_ERROR, db.getErrorCode());
    EXPECT_EQ(SQLITE_ERROR, db.getExtendedErrorCode());
    EXPECT_STREQ("table test has 3 columns but 2 values were supplied", db.getErrorMsg());

    // exception with SQL error: "No row to get a column from"
    EXPECT_THROW(db.execAndGet("SELECT weight FROM test WHERE value='first'"), SQLite::Exception);

    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'first',  3)"));
    // exception with SQL error: "No row to get a column from"
    EXPECT_THROW(db.execAndGet("SELECT weight FROM test WHERE value='second'"), SQLite::Exception);

    // Add a row with more values than columns in the table: "table test has 3 columns but 4 values were supplied"
    EXPECT_THROW(db.exec("INSERT INTO test VALUES (NULL, 'first', 123, 0.123)"), SQLite::Exception);
    EXPECT_EQ(SQLITE_ERROR, db.getErrorCode());
    EXPECT_EQ(SQLITE_ERROR, db.getExtendedErrorCode());
    EXPECT_STREQ("table test has 3 columns but 4 values were supplied", db.getErrorMsg());
}

TEST(Database, tryExecError)
{
    // Create a new database
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);
    EXPECT_EQ(SQLite::OK, db.getErrorCode());
    EXPECT_EQ(SQLite::OK, db.getExtendedErrorCode());

    // Insert into nonexistent table: "no such table"
    EXPECT_EQ(SQLITE_ERROR, db.tryExec("INSERT INTO test VALUES (NULL, 'first',  3)"));
    EXPECT_EQ(SQLITE_ERROR, db.getErrorCode());
    EXPECT_EQ(SQLITE_ERROR, db.getExtendedErrorCode());
    EXPECT_STREQ("no such table: test", db.getErrorMsg());

    // Create a new table
    EXPECT_EQ(SQLite::OK, db.tryExec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT, weight INTEGER)"));
    EXPECT_EQ(SQLite::OK, db.getErrorCode());
    EXPECT_EQ(SQLite::OK, db.getExtendedErrorCode());
    EXPECT_STREQ("not an error", db.getErrorMsg());

    // Add a row with fewer values than columns in the table: "table test has 3 columns but 2 values were supplied"
    EXPECT_EQ(SQLITE_ERROR, db.tryExec("INSERT INTO test VALUES (NULL,  3)"));
    EXPECT_EQ(SQLITE_ERROR, db.getErrorCode());
    EXPECT_EQ(SQLITE_ERROR, db.getExtendedErrorCode());
    EXPECT_STREQ("table test has 3 columns but 2 values were supplied", db.getErrorMsg());

    // Add a row with more values than columns in the table: "table test has 3 columns but 4 values were supplied"
    EXPECT_EQ(SQLITE_ERROR, db.tryExec("INSERT INTO test VALUES (NULL, 'first', 123, 0.123)"));
    EXPECT_EQ(SQLITE_ERROR, db.getErrorCode());
    EXPECT_EQ(SQLITE_ERROR, db.getExtendedErrorCode());
    EXPECT_STREQ("table test has 3 columns but 4 values were supplied", db.getErrorMsg());

    // Create a first row
    EXPECT_EQ(SQLite::OK, db.tryExec("INSERT INTO test VALUES (NULL, 'first',  3)"));
    EXPECT_EQ(1, db.getLastInsertRowid());

    // Try to insert a new row with the same PRIMARY KEY: "UNIQUE constraint failed: test.id"
    EXPECT_EQ(SQLITE_CONSTRAINT, db.tryExec("INSERT INTO test VALUES (1, 'impossible', 456)"));
    EXPECT_EQ(SQLITE_CONSTRAINT, db.getErrorCode());
    EXPECT_EQ(SQLITE_CONSTRAINT_PRIMARYKEY, db.getExtendedErrorCode());
    EXPECT_STREQ("UNIQUE constraint failed: test.id", db.getErrorMsg());
}

// From https://stackoverflow.com/a/8283265/1163698 How can I create a user-defined function in SQLite?
static void firstchar(sqlite3_context *context, int argc, sqlite3_value **argv)
{
    if (argc == 1)
    {
        const unsigned char *text = sqlite3_value_text(argv[0]);
        if (text && text[0])
        {
            char result[2];
            result[0] = text[0]; result[1] = '\0';
            sqlite3_result_text(context, result, -1, SQLITE_TRANSIENT);
            return;
        }
    }
    sqlite3_result_null(context);
}

TEST(Database, createFunction)
{
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);
    db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");

    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'first')"));
    EXPECT_EQ(1, db.exec("INSERT INTO test VALUES (NULL, 'second')"));

    // exception with SQL error: "no such function: firstchar"
    EXPECT_THROW(db.exec("SELECT firstchar(value) FROM test WHERE id=1"), SQLite::Exception);

    db.createFunction("firstchar", 1, true, nullptr, &firstchar, nullptr, nullptr, nullptr);
    
    EXPECT_EQ(1, db.exec("SELECT firstchar(value) FROM test WHERE id=1"));
}

TEST(Database, loadExtension)
{
    SQLite::Database db(":memory:", SQLite::OPEN_READWRITE);

    // Try to load a non-existing extension (no dynamic library found)
    EXPECT_THROW(db.loadExtension("non-existing-extension", "entry-point"), SQLite::Exception);

    // TODO: test a proper extension
}

TEST(Database, getHeaderInfo)
{
    remove("test.db3");
    {
        // Call without passing a database file name
        EXPECT_THROW(SQLite::Database::getHeaderInfo(""),SQLite::Exception);

        // Call with a non-existent database
        EXPECT_THROW(SQLite::Database::getHeaderInfo("test.db3"), SQLite::Exception);

        // Simulate an incomplete header by writing garbage to a file
        {
            const unsigned char badData[] = "garbage...";
            const char* pBadData = reinterpret_cast<const char*>(&badData[0]);

            remove("short.db3");
            std::ofstream corruptDb;
            corruptDb.open("short.db3", std::ios::app | std::ios::binary);
            corruptDb.write(pBadData, sizeof(badData));
            corruptDb.close();

            EXPECT_THROW(SQLite::Database::getHeaderInfo("short.db3"), SQLite::Exception);
            remove("short.db3");
        }

        // Simulate a corrupt header by writing garbage to a file
        {
            const unsigned char badData[100] = "garbage...";
            const char* pBadData = reinterpret_cast<const char*>(&badData[0]);

            remove("corrupt.db3");
            std::ofstream corruptDb;
            corruptDb.open("corrupt.db3", std::ios::app | std::ios::binary);
            corruptDb.write(pBadData, sizeof(badData));
            corruptDb.close();

            EXPECT_THROW(SQLite::Database::getHeaderInfo("corrupt.db3"), SQLite::Exception);
            remove("corrupt.db3");
        }

        // Create a new database
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE | SQLite::OPEN_CREATE);
        db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");

        // Set assorted SQLite header values using associated PRAGMA
        db.exec("PRAGMA main.user_version = 12345");
        db.exec("PRAGMA main.application_id = 2468");

        // Parse header fields from test database
        const SQLite::Header h = db.getHeaderInfo();

        //Test header values explicitly set via PRAGMA statements
        EXPECT_EQ(h.userVersion, 12345);
        EXPECT_EQ(h.applicationId, 2468);

        //Test header values with expected default values
        EXPECT_EQ(h.pageSizeBytes, 4096);
        EXPECT_EQ(h.fileFormatWriteVersion,1);
        EXPECT_EQ(h.fileFormatReadVersion,1);
        EXPECT_EQ(h.reservedSpaceBytes,0);
        EXPECT_EQ(h.maxEmbeddedPayloadFrac, 64);
        EXPECT_EQ(h.minEmbeddedPayloadFrac, 32);
        EXPECT_EQ(h.leafPayloadFrac, 32);
        EXPECT_EQ(h.fileChangeCounter, 3);
        EXPECT_EQ(h.databaseSizePages, 2);
        EXPECT_EQ(h.firstFreelistTrunkPage, 0);
        EXPECT_EQ(h.totalFreelistPages, 0);
        EXPECT_EQ(h.schemaCookie, 1);
        EXPECT_EQ(h.schemaFormatNumber, 4);
        EXPECT_EQ(h.defaultPageCacheSizeBytes, 0);
        EXPECT_EQ(h.largestBTreePageNumber, 0);
        EXPECT_EQ(h.databaseTextEncoding, 1);
        EXPECT_EQ(h.incrementalVaccumMode, 0);
        EXPECT_EQ(h.versionValidFor, 3);
// NOTE on macOS FindSQLite3 find an unrelated sqlite3.h from Mono.framework that doesn't match the actual package version!
#if defined(SQLITECPP_INTERNAL_SQLITE) || !defined(__APPLE__)
        EXPECT_EQ(h.sqliteVersion, SQLITE_VERSION_NUMBER);
#endif
    }
    remove("test.db3");
}

#ifdef SQLITE_HAS_CODEC
TEST(Database, encryptAndDecrypt)
{
    remove("test.db3");
    {
        // Try to open the non-existing database
        EXPECT_THROW(SQLite::Database not_found("test.db3"), SQLite::Exception);
        EXPECT_THROW(SQLite::Database::isUnencrypted("test.db3"), SQLite::Exception);
        EXPECT_THROW(SQLite::Database::isUnencrypted(""), SQLite::Exception);

        // Create a new database
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE | SQLite::OPEN_CREATE);
        EXPECT_FALSE(db.tableExists("test"));
        db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
        EXPECT_TRUE(db.tableExists("test"));
    } // Close DB test.db3
    {
        // Reopen the database file and encrypt it
        EXPECT_TRUE(SQLite::Database::isUnencrypted("test.db3"));
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE);
        // Encrypt the database
        db.rekey("123secret");
    } // Close DB test.db3
    {
        // Reopen the database file and try to use it
        EXPECT_FALSE(SQLite::Database::isUnencrypted("test.db3"));
        SQLite::Database db("test.db3", SQLite::OPEN_READONLY);
        EXPECT_THROW(db.tableExists("test"), SQLite::Exception);
        db.key("123secret");
        EXPECT_TRUE(db.tableExists("test"));
    } // Close DB test.db3
    {
        // Reopen the database file and decrypt it
        EXPECT_FALSE(SQLite::Database::isUnencrypted("test.db3"));
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE);
        // Decrypt the database
        db.key("123secret");
        db.rekey("");
    } // Close DB test.db3
    {
        // Reopen the database file and use it
        EXPECT_TRUE(SQLite::Database::isUnencrypted("test.db3"));
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE);
        EXPECT_TRUE(db.tableExists("test"));
    } // Close DB test.db3
    remove("test.db3");
}
#else // SQLITE_HAS_CODEC
TEST(Database, encryptAndDecrypt)
{
    remove("test.db3");
    {
        // Try to open the non-existing database
        EXPECT_THROW(SQLite::Database not_found("test.db3"), SQLite::Exception);
        EXPECT_THROW(SQLite::Database::isUnencrypted("test.db3"), SQLite::Exception);
        EXPECT_THROW(SQLite::Database::isUnencrypted(""), SQLite::Exception);

        // Create a new database
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE | SQLite::OPEN_CREATE);
        EXPECT_FALSE(db.tableExists("test"));
        db.exec("CREATE TABLE test (id INTEGER PRIMARY KEY, value TEXT)");
        EXPECT_TRUE(db.tableExists("test"));
    } // Close DB test.db3
    {
        // Reopen the database file and encrypt it
        EXPECT_TRUE(SQLite::Database::isUnencrypted("test.db3"));
        SQLite::Database db("test.db3", SQLite::OPEN_READWRITE);
        // Encrypt the database
        EXPECT_THROW(db.key("123secret"), SQLite::Exception);
        EXPECT_THROW(db.rekey("123secret"), SQLite::Exception);
    } // Close DB test.db3
    remove("test.db3");
}
#endif // SQLITE_HAS_CODEC