/**@file @brief Test baudrate calculator code @author Thomas Jarosch */ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU Lesser General Public License * * version 2.1 as published by the Free Software Foundation; * * * ***************************************************************************/ #include #define BOOST_TEST_DYN_LINK #include #include #include using namespace std; extern "C" int convert_baudrate_UT_export(int baudrate, struct ftdi_context *ftdi, unsigned short *value, unsigned short *index); /// Basic initialization of libftdi for every test class BaseFTDIFixture { protected: ftdi_context *ftdi; public: BaseFTDIFixture() : ftdi(NULL) { ftdi = ftdi_new(); } ~BaseFTDIFixture() { delete ftdi; ftdi = NULL; } }; BOOST_FIXTURE_TEST_SUITE(Baudrate, BaseFTDIFixture) /// Helper class to store the convert_baudrate_UT_export result struct calc_result { int actual_baudrate; unsigned short divisor; unsigned short fractional_bits; unsigned short clock; calc_result(int actual, unsigned short my_divisor, unsigned short my_fractional_bits, unsigned short my_clock) : actual_baudrate(actual) , divisor(my_divisor) , fractional_bits(my_fractional_bits) , clock(my_clock) { } calc_result() : actual_baudrate(0) , divisor(0) , fractional_bits(0) , clock(0) { } }; /** * @brief Test convert_baudrate code against a list of baud rates * * @param baudrates Baudrates to check **/ static void test_baudrates(ftdi_context *ftdi, const map &baudrates) { typedef std::pair baudrate_type; BOOST_FOREACH(const baudrate_type &baudrate, baudrates) { unsigned short calc_value = 0, calc_index = 0; int calc_baudrate = convert_baudrate_UT_export(baudrate.first, ftdi, &calc_value, &calc_index); const calc_result *res = &baudrate.second; unsigned short divisor = calc_value & 0x3ff; unsigned short fractional_bits = (calc_index & 0x100) ? 4 : (calc_value >> 12); unsigned short clock = (calc_index & 0x100) ? 120 : 48; // Aid debugging since this test is a generic function BOOST_CHECK_MESSAGE(res->actual_baudrate == calc_baudrate && res->divisor == divisor && res->fractional_bits == fractional_bits && res->clock == clock, "\n\nERROR: baudrate calculation failed for --" << baudrate.first << " baud--. Details below: "); BOOST_CHECK_EQUAL(res->actual_baudrate, calc_baudrate); BOOST_CHECK_EQUAL(res->divisor, divisor); BOOST_CHECK_EQUAL(res->fractional_bits, fractional_bits); BOOST_CHECK_EQUAL(res->clock, clock); } } BOOST_AUTO_TEST_CASE(TypeAMFixedBaudrates) { ftdi->type = TYPE_AM; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_CASE(TypeBMFixedBaudrates) { ftdi->type = TYPE_BM; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_CASE(Type2232CFixedBaudrates) { ftdi->type = TYPE_2232C; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_CASE(TypeRFixedBaudrates) { ftdi->type = TYPE_R; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_CASE(Type2232HFixedBaudrates) { ftdi->type = TYPE_2232H; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_CASE(Type4232HFixedBaudrates) { ftdi->type = TYPE_4232H; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_CASE(Type232HFixedBaudrates) { ftdi->type = TYPE_232H; map baudrates; baudrates[300] = calc_result(300, 784, 2, 48); baudrates[600] = calc_result(600, 904, 1, 48); baudrates[1200] = calc_result(1200, 452, 0, 48); baudrates[2400] = calc_result(2400, 226, 0, 48); baudrates[4800] = calc_result(4800, 625, 0, 48); baudrates[9600] = calc_result(9600, 312, 4, 48); baudrates[19200] = calc_result(19200, 156, 8, 48); baudrates[38400] = calc_result(38400, 78, 12, 48); baudrates[57600] = calc_result(57554, 52, 12, 48); baudrates[115200] = calc_result(115385, 26, 0, 48); baudrates[230400] = calc_result(230769, 13, 0, 48); baudrates[460800] = calc_result(461538, 6, 4, 48); baudrates[921600] = calc_result(923077, 3, 8, 48); test_baudrates(ftdi, baudrates); } BOOST_AUTO_TEST_SUITE_END()