/** * @file test_sqlite3_server-t.cpp * @brief Test to perform multiple operations over ProxySQL SQLite3 server. * @details It performs the following operations: * - Connects to sqlite3 with a wrong username. * - Connects to sqlite3 with a right username but wrong password. * - Successfully connects to sqlite3 and runs: * + SHOW SCHEMAS * + SHOW DATABASES * + SELECT DATABASE() * + select DATABASE(), USER() limit 1 * + select @@version_comment limit 1 * + select @@character_set_client, @@character_set_connection, @@character_set_server, @@character_set_database limit 1 * - Successfully connects to sqlite3 and runs a variety of queries: * + CREATE TABLE, SHOW CREATE TABLE, INSERT, SELECT, DROP TABLE... * + Queries that induce errors: syntax error, duplicate keys, etc... * - Changes 'sqliteserver-mysql_ifaces' and tries to connect to the new interface. * - Connects to ProxySQL Admin and performs the following operations: * + LOAD|SAVE SQLITESERVER TO|FROM RUNTIME|MEMORY|DISK * * NOTE: 'sqliteserver-read_only' is completely omitted from this test because * it's **currently unused**. */ #include #include #include #include #include #include #include #include #include #include "tap.h" #include "command_line.h" #include "utils.h" using query_spec = std::tuple; const int sqlite3_port = 0; #include "sqlite_3_server_test.h" void fetch_and_discard_results(MYSQL_RES* result, bool verbose=false) { MYSQL_ROW row = nullptr; unsigned int num_fields = 0; unsigned int i = 0; unsigned int j = 0; num_fields = mysql_num_fields(result); while ((row = mysql_fetch_row(result))) { unsigned long *lengths = mysql_fetch_lengths(result); if (verbose) { printf("# RowNum_%d: ", j); } for(i = 0; i < num_fields; i++) { if (verbose) { printf("[%.*s] ", (int) lengths[i], row[i] ? row[i] : "NULL"); } } if (verbose) { printf("\n"); } j++; } } /** * @brief Execute the supplied queries and check that the return codes are the * ones specified. * * @param proxysql_sqlite3 An already opened MYSQL connection to ProxySQL * SQLite3 server. * @param queries The queries to be performed and check. */ void execute_and_check_queries(MYSQL* proxysql_sqlite3, const std::vector& queries) { for (const auto& supp_query : queries) { const std::string query = std::get<0>(supp_query); const int exp_err_code = std::get<1>(supp_query); int query_err = mysql_query(proxysql_sqlite3, query.c_str()); MYSQL_RES* result = mysql_store_result(proxysql_sqlite3); if (result) { fetch_and_discard_results(result, true); mysql_free_result(result); } int m_errno = mysql_errno(proxysql_sqlite3); const char* m_error = mysql_error(proxysql_sqlite3); if (exp_err_code == 0) { ok( exp_err_code == m_errno, "Query '%s' should succeed. Error code: (Expected:'%d' == Actual:'%d')", query.c_str(), exp_err_code, m_errno ); } else { ok( exp_err_code == m_errno, "Query '%s' should fail. Error code: (Expected:'%d' == Actual:'%d'), Err: '%s'", query.c_str(), exp_err_code, m_errno, m_error ); } } } /** * @brief List of the pairs holding a series of queries that should be * successfully performed against ProxySQL SQLite3 server. */ std::vector successful_queries { std::make_tuple("SHOW SCHEMAS", 0), std::make_tuple("SHOW DATABASES", 0), std::make_tuple("SELECT DATABASE()", 0), std::make_tuple("SELECT DATABASE(), USER() LIMIT 1", 0), std::make_tuple("SELECT @@version_comment LIMIT 1", 0), std::make_tuple( "SELECT @@character_set_client, @@character_set_connection," " @@character_set_server, @@character_set_database LIMIT 1", 0 ), std::make_tuple( "CREATE TABLE IF NOT EXISTS test_sqlite3_server_p0712(" " c1 INTEGER PRIMARY KEY AUTOINCREMENT," " c2 VARCHAR(100)," " c3 VARCHAR(100)" ")", 0 ), std::make_tuple("SHOW CREATE TABLE test_sqlite3_server_p0712", 0), std::make_tuple("SHOW TABLES", 0), std::make_tuple( "INSERT INTO test_sqlite3_server_p0712" " (c2, c3) VALUES ('1234', '1234')", 0 ), std::make_tuple( "INSERT INTO test_sqlite3_server_p0712" " (c2, c3) VALUES ('123555555', '12355555')", 0 ), std::make_tuple( "DELETE FROM test_sqlite3_server_p0712", 0 ), std::make_tuple("DROP TABLE test_sqlite3_server_p0712", 0), std::make_tuple("SHOW TABLES", 0), }; /** * @brief List of the pairs holding a series of queries in which *some* * should fail when executed against ProxySQL SQLite3 server. */ std::vector unsuccessful_queries { std::make_tuple("SHOW CHEMAS", 1045), std::make_tuple("SHOW DAABASES", 1045), std::make_tuple("SELECT DAABASE()", 1045), std::make_tuple("SELECT DAABASE(), USER() LIMIT 1", 1045), std::make_tuple("SHOW CREATE TABLE test_sqlite3_server_p0712", 0), std::make_tuple( "CREATE TABLE IF NOT EXISTS test_sqlite3_server_p0712(" " c1 INTEGER PRIMARY KEY AUTOINCREMENT," " c2 VARCHAR(100)," " c3 VARCHAR(100)" ")", 0 ), std::make_tuple( "INSERT INTO test_sqlite3_server_p0712" " (c2, c3) VALUES ('1234', '1234')", 0 ), std::make_tuple( "INSERT INTO test_sqlite3_server_p0712" " (c1, c2, c3) VALUES (1, '1235', '1235')", 1045 ), std::make_tuple( "USE foobar", 1045 ), std::make_tuple( "DROP TABLE test_sqlite3_server_p0712_non_existent", 1045 ), std::make_tuple( "DROP TABLE test_sqlite3_server_p0712", 0 ), }; /** * @brief Perform several admin queries to exercise more paths. */ std::vector admin_queries { "LOAD SQLITESERVER VARIABLES FROM DISK", "LOAD SQLITESERVER VARIABLES TO RUNTIME", "SAVE SQLITESERVER VARIABLES FROM RUNTIME", "SAVE SQLITESERVER VARIABLES TO DISK" }; /** * @brief Perform several admin queries to exercise more paths. */ std::vector sqlite_intf_queries { "SET sqliteserver-mysql_ifaces='127.0.0.1:6035'", "LOAD SQLITESERVER VARIABLES TO RUNTIME" }; int main(int argc, char** argv) { CommandLine cl; // plan as many tests as queries plan( 2 /* Fail to connect with wrong username and password */ + successful_queries.size() + unsuccessful_queries.size() + admin_queries.size() + sqlite_intf_queries.size() + 1 /* Connect to new setup interface */ ); if (cl.getEnv()) { diag("Failed to get the required environmental variables."); return EXIT_FAILURE; } MYSQL* proxysql_admin = mysql_init(NULL); // Connect to ProxySQL Admin and check current SQLite3 configuration if ( !mysql_real_connect( proxysql_admin, cl.host, cl.admin_username, cl.admin_password, NULL, cl.admin_port, NULL, 0 ) ) { fprintf( stderr, "File %s, line %d, Error: %s\n", __FILE__, __LINE__, mysql_error(proxysql_admin) ); return EXIT_FAILURE; } { std::pair host_port {}; int host_port_err = extract_sqlite3_host_port(proxysql_admin, host_port); if (host_port_err) { diag("Failed to get and parse 'sqliteserver-mysql_ifaces' at line '%d'", __LINE__); goto cleanup; } MYSQL* proxysql_sqlite3 = mysql_init(NULL); // Connect with invalid username std::string inv_user_err {}; bool failed_to_connect = false; if ( !mysql_real_connect( proxysql_sqlite3, host_port.first.c_str(), "foobar_user", cl.password, NULL, host_port.second, NULL, 0 ) ) { inv_user_err = mysql_error(proxysql_sqlite3); failed_to_connect = true; } ok( failed_to_connect, "An invalid user should fail to connect to SQLite3 server, error was: %s", inv_user_err.c_str() ); // Reinitialize MYSQL handle mysql_close(proxysql_sqlite3); proxysql_sqlite3 = mysql_init(NULL); // Connect with invalid password std::string inv_pass_err {}; failed_to_connect = false; if ( !mysql_real_connect( proxysql_sqlite3, host_port.first.c_str(), cl.username, "foobar_pass", NULL, host_port.second, NULL, 0 ) ) { inv_pass_err = mysql_error(proxysql_sqlite3); failed_to_connect = true; } ok( failed_to_connect, "An invalid user should fail to connect to SQLite3 server, error was: %s", inv_pass_err.c_str() ); // Reinitialize MYSQL handle mysql_close(proxysql_sqlite3); proxysql_sqlite3 = mysql_init(NULL); // Correctly connect to SQLite3 server if ( !mysql_real_connect( proxysql_sqlite3, host_port.first.c_str(), cl.username, cl.password, NULL, host_port.second, NULL, 0 ) ) { fprintf( stderr, "File %s, line %d, Error: %s\n", __FILE__, __LINE__, mysql_error(proxysql_sqlite3) ); goto cleanup; } diag("Started performing successful queries"); execute_and_check_queries(proxysql_sqlite3, successful_queries); diag("Started performing failing queries"); execute_and_check_queries(proxysql_sqlite3, unsuccessful_queries); // Reinitialize MYSQL handle mysql_close(proxysql_sqlite3); proxysql_sqlite3 = mysql_init(NULL); // Change SQLite interface and connect to new port for (const auto& admin_query : sqlite_intf_queries) { int query_err = mysql_query(proxysql_admin, admin_query.c_str()); ok( query_err == 0, "Admin query '%s' should succeed. Line: %d, Err: '%s'", admin_query.c_str(), __LINE__, mysql_error(proxysql_admin) ); } // NOTE: Wait for ProxySQL to reconfigure, changing SQLite3 interface. // Trying to perform a connection immediately after changing the // interface could lead to 'EADDRINUSE' in ProxySQL side. sleep(1); // Connect to the new interface std::pair new_host_port {}; int ext_intf_err = extract_sqlite3_host_port(proxysql_admin, new_host_port); if (ext_intf_err) { diag("Failed to get and parse 'sqliteserver-mysql_ifaces' at line '%d'", __LINE__); goto cleanup; } // Connect with invalid username bool success_to_connect = true; std::string new_intf_conn_err {}; if ( !mysql_real_connect( proxysql_sqlite3, new_host_port.first.c_str(), cl.username, cl.password, NULL, new_host_port.second, NULL, 0 ) ) { new_intf_conn_err = mysql_error(proxysql_sqlite3); success_to_connect = false; } ok( success_to_connect, "A connection to the new selected interface should success, error was: '%s'", new_intf_conn_err.c_str() ); mysql_close(proxysql_sqlite3); // Perform the final Admin queries for (const auto& admin_query : admin_queries) { int query_err = mysql_query(proxysql_admin, admin_query.c_str()); ok( query_err == 0, "Admin query '%s' should succeed. Line: %d, Err: '%s'", admin_query.c_str(), __LINE__, mysql_error(proxysql_admin) ); } } cleanup: mysql_close(proxysql_admin); return exit_status(); }