static int test_encode(void) { static const enc_vec test_strs[] = { {"hi", "hi"}, {"hi!", "hi%21"}, {"%", "%25"}, {"*", "%2a"}, {"\n", "%0a"}, {"\nhi\n", "%0ahi%0a"} }; static const int num = sizeof(test_strs)/sizeof(enc_vec); int i, ret; char *tmp; ret = TRUE; for (i = 0; i < num; i++) { tmp = hexencode_string(test_strs[i].in); if (!tmp || strcmp(test_strs[i].out, tmp)) { ret = FALSE; tu_dbg("encode failure:\n") tu_dbg("input: \"%s\"\n", test_strs[i].in); tu_dbg("output: \"%s\"\n", tmp? tmp : "(null)"); tu_dbg("expected: \"%s\"\n", test_strs[i].out); } g_free(tmp); } return ret; }
static int test_roundtrip(void) { static const round_vec test_strs[] = { "hi", "hi!", "hi%21", "%", "*", "\n", "h%" }; static const int num = sizeof(test_strs)/sizeof(round_vec); int i, ret; char *tmp_enc = NULL, *tmp_dec = NULL; GError *err = NULL; ret = TRUE; for (i = 0; i < num; i++) { tmp_enc = hexencode_string(test_strs[i]); tmp_dec = tmp_enc? hexdecode_string(tmp_enc, &err) : NULL; if (!tmp_enc || !tmp_dec || strcmp(test_strs[i], tmp_dec) || err) { ret = FALSE; tu_dbg("roundtrip failure:\n") tu_dbg("input: \"%s\"\n", test_strs[i]); tu_dbg("enc output: \"%s\"\n", tmp_enc? tmp_enc : "(null)"); tu_dbg("dec output: \"%s\"\n", tmp_dec? tmp_dec : "(null)"); tu_dbg("error msg: %s\n", err? err->message : "(none)"); } g_clear_error(&err); amfree(tmp_enc); amfree(tmp_dec); } return ret; }
static int test_roundtrip_rand(void) { int i, ret; simpleprng_state_t state; char *in, *tmp_enc = NULL, *tmp_dec = NULL; size_t size; GError *err = NULL; simpleprng_seed(&state, 0xface); ret = TRUE; for (i = 0; i < 100; i++) { size = simpleprng_rand_byte(&state); in = g_malloc0(size+1); simpleprng_fill_buffer(&state, in, size); tmp_enc = hexencode_string(in); tmp_dec = tmp_enc? hexdecode_string(tmp_enc, &err) : NULL; if (!tmp_enc || !tmp_dec || strcmp(in, tmp_dec) || err) { ret = FALSE; tu_dbg("roundtrip failure:\n") tu_dbg("input: \"%s\"\n", in); tu_dbg("enc output: \"%s\"\n", tmp_enc? tmp_enc : "(null)"); tu_dbg("dec output: \"%s\"\n", tmp_dec? tmp_dec : "(null)"); tu_dbg("error msg: %s\n", err? err->message : "(none)"); } g_clear_error(&err); amfree(tmp_enc); amfree(tmp_dec); g_free(in); } return ret; }
static gboolean test_encode(void) { static const enc_vec test_strs[] = { {"hi", "hi"}, {"hi!", "hi%21"}, {"%", "%25"}, {"*", "%2a"}, {"\n", "%0a"}, {"\nhi\n", "%0ahi%0a"} }; static const int num = G_N_ELEMENTS(test_strs); int i; gboolean ret; char *tmp; ret = TRUE; for (i = 0; i < num; i++) { tmp = hexencode_string(test_strs[i].in); if (!tmp || !g_str_equal(test_strs[i].out, tmp)) { ret = FALSE; tu_dbg("encode failure:\n") tu_dbg("input: \"%s\"\n", test_strs[i].in); tu_dbg("output: \"%s\"\n", tmp? tmp : "(null)"); tu_dbg("expected: \"%s\"\n", test_strs[i].out); } g_free(tmp); } return ret; }