/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details: * * Copyright (C) 2016 Aleksander Morgado */ #include #include #include #include #include #define _LIBMM_INSIDE_MM #include #include "mm-log-test.h" #include "mm-modem-helpers.h" #include "mm-modem-helpers-ublox.h" #include "test-helpers.h" /*****************************************************************************/ /* Test +UPINCNT responses */ typedef struct { const gchar *str; guint pin_attempts; guint pin2_attempts; guint puk_attempts; guint puk2_attempts; } UpinCntResponseTest; static const UpinCntResponseTest upincnt_response_tests[] = { { .str = "+UPINCNT: 3,3,10,10\r\n", .pin_attempts = 3, .pin2_attempts = 3, .puk_attempts = 10, .puk2_attempts = 10 }, { .str = "+UPINCNT: 0,3,5,5\r\n", .pin_attempts = 0, .pin2_attempts = 3, .puk_attempts = 5, .puk2_attempts = 5 }, { .str = "+UPINCNT: 0,0,0,0\r\n", .pin_attempts = 0, .pin2_attempts = 0, .puk_attempts = 0, .puk2_attempts = 0 }, }; static void test_upincnt_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (upincnt_response_tests); i++) { GError *error = NULL; gboolean success; guint pin_attempts = G_MAXUINT; guint pin2_attempts = G_MAXUINT; guint puk_attempts = G_MAXUINT; guint puk2_attempts = G_MAXUINT; success = mm_ublox_parse_upincnt_response (upincnt_response_tests[i].str, &pin_attempts, &pin2_attempts, &puk_attempts, &puk2_attempts, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (upincnt_response_tests[i].pin_attempts, ==, pin_attempts); g_assert_cmpuint (upincnt_response_tests[i].pin2_attempts, ==, pin2_attempts); g_assert_cmpuint (upincnt_response_tests[i].puk_attempts, ==, puk_attempts); g_assert_cmpuint (upincnt_response_tests[i].puk2_attempts, ==, puk2_attempts); } } /*****************************************************************************/ /* Test UUSBCONF? responses */ typedef struct { const gchar *str; MMUbloxUsbProfile profile; } UusbconfResponseTest; static const UusbconfResponseTest uusbconf_response_tests[] = { { .str = "+UUSBCONF: 3,\"RNDIS\",,\"0x1146\"\r\n", .profile = MM_UBLOX_USB_PROFILE_RNDIS }, { .str = "+UUSBCONF: 2,\"ECM\",,\"0x1143\"\r\n", .profile = MM_UBLOX_USB_PROFILE_ECM }, { .str = "+UUSBCONF: 0,\"\",,\"0x1141\"\r\n", .profile = MM_UBLOX_USB_PROFILE_BACK_COMPATIBLE }, }; static void test_uusbconf_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (uusbconf_response_tests); i++) { MMUbloxUsbProfile profile = MM_UBLOX_USB_PROFILE_UNKNOWN; GError *error = NULL; gboolean success; success = mm_ublox_parse_uusbconf_response (uusbconf_response_tests[i].str, &profile, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (uusbconf_response_tests[i].profile, ==, profile); } } /*****************************************************************************/ /* Test UBMCONF? responses */ typedef struct { const gchar *str; MMUbloxNetworkingMode mode; } UbmconfResponseTest; static const UbmconfResponseTest ubmconf_response_tests[] = { { .str = "+UBMCONF: 1\r\n", .mode = MM_UBLOX_NETWORKING_MODE_ROUTER }, { .str = "+UBMCONF: 2\r\n", .mode = MM_UBLOX_NETWORKING_MODE_BRIDGE }, }; static void test_ubmconf_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (ubmconf_response_tests); i++) { MMUbloxNetworkingMode mode = MM_UBLOX_NETWORKING_MODE_UNKNOWN; GError *error = NULL; gboolean success; success = mm_ublox_parse_ubmconf_response (ubmconf_response_tests[i].str, &mode, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (ubmconf_response_tests[i].mode, ==, mode); } } /*****************************************************************************/ /* Test UIPADDR=N responses */ typedef struct { const gchar *str; guint cid; const gchar *if_name; const gchar *ipv4_address; const gchar *ipv4_subnet; const gchar *ipv6_global_address; const gchar *ipv6_link_local_address; } UipaddrResponseTest; static const UipaddrResponseTest uipaddr_response_tests[] = { { .str = "+UIPADDR: 1,\"ccinet0\",\"5.168.120.13\",\"255.255.255.0\",\"\",\"\"", .cid = 1, .if_name = "ccinet0", .ipv4_address = "5.168.120.13", .ipv4_subnet = "255.255.255.0", }, { .str = "+UIPADDR: 2,\"ccinet1\",\"\",\"\",\"2001::1:200:FF:FE00:0/64\",\"FE80::200:FF:FE00:0/64\"", .cid = 2, .if_name = "ccinet1", .ipv6_global_address = "2001::1:200:FF:FE00:0/64", .ipv6_link_local_address = "FE80::200:FF:FE00:0/64", }, { .str = "+UIPADDR: 3,\"ccinet2\",\"5.10.100.2\",\"255.255.255.0\",\"2001::1:200:FF:FE00:0/64\",\"FE80::200:FF:FE00:0/64\"", .cid = 3, .if_name = "ccinet2", .ipv4_address = "5.10.100.2", .ipv4_subnet = "255.255.255.0", .ipv6_global_address = "2001::1:200:FF:FE00:0/64", .ipv6_link_local_address = "FE80::200:FF:FE00:0/64", }, }; static void test_uipaddr_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (uipaddr_response_tests); i++) { GError *error = NULL; gboolean success; guint cid = G_MAXUINT; gchar *if_name = NULL; gchar *ipv4_address = NULL; gchar *ipv4_subnet = NULL; gchar *ipv6_global_address = NULL; gchar *ipv6_link_local_address = NULL; success = mm_ublox_parse_uipaddr_response (uipaddr_response_tests[i].str, &cid, &if_name, &ipv4_address, &ipv4_subnet, &ipv6_global_address, &ipv6_link_local_address, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (uipaddr_response_tests[i].cid, ==, cid); g_assert_cmpstr (uipaddr_response_tests[i].if_name, ==, if_name); g_assert_cmpstr (uipaddr_response_tests[i].ipv4_address, ==, ipv4_address); g_assert_cmpstr (uipaddr_response_tests[i].ipv4_subnet, ==, ipv4_subnet); g_assert_cmpstr (uipaddr_response_tests[i].ipv6_global_address, ==, ipv6_global_address); g_assert_cmpstr (uipaddr_response_tests[i].ipv6_link_local_address, ==, ipv6_link_local_address); g_free (if_name); g_free (ipv4_address); g_free (ipv4_subnet); g_free (ipv6_global_address); g_free (ipv6_link_local_address); } } /*****************************************************************************/ /* Test CFUN? response */ typedef struct { const gchar *str; MMModemPowerState state; } CfunQueryTest; static const CfunQueryTest cfun_query_tests[] = { { "+CFUN: 1", MM_MODEM_POWER_STATE_ON }, { "+CFUN: 1,0", MM_MODEM_POWER_STATE_ON }, { "+CFUN: 0", MM_MODEM_POWER_STATE_LOW }, { "+CFUN: 0,0", MM_MODEM_POWER_STATE_LOW }, { "+CFUN: 4", MM_MODEM_POWER_STATE_LOW }, { "+CFUN: 4,0", MM_MODEM_POWER_STATE_LOW }, { "+CFUN: 19", MM_MODEM_POWER_STATE_LOW }, { "+CFUN: 19,0", MM_MODEM_POWER_STATE_LOW }, }; static void test_cfun_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (cfun_query_tests); i++) { GError *error = NULL; gboolean success; MMModemPowerState state = MM_MODEM_POWER_STATE_UNKNOWN; success = mm_ublox_parse_cfun_response (cfun_query_tests[i].str, &state, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (cfun_query_tests[i].state, ==, state); } } /*****************************************************************************/ /* Test URAT=? responses and model based filtering */ static void compare_combinations (const gchar *response, const gchar *model, const MMModemModeCombination *expected_combinations, guint n_expected_combinations) { GArray *combinations; GError *error = NULL; guint i; combinations = mm_ublox_parse_urat_test_response (response, NULL, &error); g_assert_no_error (error); g_assert (combinations); combinations = mm_ublox_filter_supported_modes (model, combinations, NULL, &error); g_assert_no_error (error); g_assert (combinations); g_assert_cmpuint (combinations->len, ==, n_expected_combinations); for (i = 0; i < combinations->len; i++) { MMModemModeCombination combination; guint j; gboolean found = FALSE; combination = g_array_index (combinations, MMModemModeCombination, i); for (j = 0; !found && j < n_expected_combinations; j++) found = (combination.allowed == expected_combinations[j].allowed && combination.preferred == expected_combinations[j].preferred); g_assert (found); } g_array_unref (combinations); } static void test_urat_test_response_2g (void) { static const MMModemModeCombination expected_combinations[] = { { MM_MODEM_MODE_2G, MM_MODEM_MODE_NONE } }; compare_combinations ("+URAT: 0", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); compare_combinations ("+URAT: 0,0", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); compare_combinations ("+URAT: (0)", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); compare_combinations ("+URAT: (0),(0)", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); } static void test_urat_test_response_2g3g (void) { static const MMModemModeCombination expected_combinations[] = { { MM_MODEM_MODE_2G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_2G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_3G }, }; compare_combinations ("+URAT: (0,1,2),(0,2)", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); compare_combinations ("+URAT: (0-2),(0,2)", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); } static void test_urat_test_response_2g3g4g (void) { static const MMModemModeCombination expected_combinations[] = { { MM_MODEM_MODE_2G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_4G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_2G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_3G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_4G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_4G, MM_MODEM_MODE_2G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_4G, MM_MODEM_MODE_4G }, { MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_3G }, { MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_4G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_2G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_3G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_4G }, }; compare_combinations ("+URAT: (0,1,2,3,4,5,6),(0,2,3)", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); compare_combinations ("+URAT: (0-6),(0,2,3)", NULL, expected_combinations, G_N_ELEMENTS (expected_combinations)); } static void test_mode_filtering_toby_l201 (void) { static const MMModemModeCombination expected_combinations[] = { { MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_4G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_3G }, { MM_MODEM_MODE_3G | MM_MODEM_MODE_4G, MM_MODEM_MODE_4G }, }; compare_combinations ("+URAT: (0-6),(0,2,3)", "TOBY-L201", expected_combinations, G_N_ELEMENTS (expected_combinations)); } static void test_mode_filtering_lisa_u200 (void) { static const MMModemModeCombination expected_combinations[] = { { MM_MODEM_MODE_2G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_2G }, { MM_MODEM_MODE_2G | MM_MODEM_MODE_3G, MM_MODEM_MODE_3G }, }; compare_combinations ("+URAT: (0-6),(0,2,3)", "LISA-U200", expected_combinations, G_N_ELEMENTS (expected_combinations)); } static void test_mode_filtering_sara_u280 (void) { static const MMModemModeCombination expected_combinations[] = { { MM_MODEM_MODE_3G, MM_MODEM_MODE_NONE }, }; compare_combinations ("+URAT: (0-6),(0,2,3)", "SARA-U280", expected_combinations, G_N_ELEMENTS (expected_combinations)); } /*****************************************************************************/ /* URAT? response parser and URAT=X command builder */ typedef struct { const gchar *command; const gchar *response; MMModemMode allowed; MMModemMode preferred; } UratTest; static const UratTest urat_tests[] = { { .command = "+URAT=1,2", .response = "+URAT: 1,2\r\n", .allowed = (MM_MODEM_MODE_2G | MM_MODEM_MODE_3G), .preferred = MM_MODEM_MODE_3G, }, { .command = "+URAT=4,0", .response = "+URAT: 4,0\r\n", .allowed = (MM_MODEM_MODE_2G | MM_MODEM_MODE_3G | MM_MODEM_MODE_4G), .preferred = MM_MODEM_MODE_2G, }, { .command = "+URAT=0", .response = "+URAT: 0\r\n", .allowed = MM_MODEM_MODE_2G, .preferred = MM_MODEM_MODE_NONE, }, { .command = "+URAT=6", .response = "+URAT: 6\r\n", .allowed = (MM_MODEM_MODE_3G | MM_MODEM_MODE_4G), .preferred = MM_MODEM_MODE_NONE, }, }; static void test_urat_read_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (urat_tests); i++) { MMModemMode allowed = MM_MODEM_MODE_NONE; MMModemMode preferred = MM_MODEM_MODE_NONE; GError *error = NULL; gboolean success; success = mm_ublox_parse_urat_read_response (urat_tests[i].response, NULL, &allowed, &preferred, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (urat_tests[i].allowed, ==, allowed); g_assert_cmpuint (urat_tests[i].preferred, ==, preferred); } } static void test_urat_write_command (void) { guint i; for (i = 0; i < G_N_ELEMENTS (urat_tests); i++) { gchar *command; GError *error = NULL; command = mm_ublox_build_urat_set_command (urat_tests[i].allowed, urat_tests[i].preferred, &error); g_assert_no_error (error); g_assert_cmpstr (command, ==, urat_tests[i].command); g_free (command); } } /*****************************************************************************/ /* Test +UBANDSEL? response parser */ static void common_validate_ubandsel_response (const gchar *str, const MMModemBand *expected_bands, const gchar *model, guint n_expected_bands) { GError *error = NULL; GArray *bands; bands = mm_ublox_parse_ubandsel_response (str, model, NULL, &error); g_assert_no_error (error); g_assert (bands); mm_test_helpers_compare_bands (bands, expected_bands, n_expected_bands); g_array_unref (bands); } static void test_ubandsel_response_four (void) { const MMModemBand expected_bands[] = { /* 700 */ MM_MODEM_BAND_EUTRAN_4, /* 1700 */ MM_MODEM_BAND_EUTRAN_13 }; common_validate_ubandsel_response ("+UBANDSEL: 700,1700\r\n", expected_bands, "LARA-R204", G_N_ELEMENTS (expected_bands)); } static void test_ubandsel_response_three (void) { const MMModemBand expected_bands[] = { /* 800 */ MM_MODEM_BAND_UTRAN_6, /* 850 */ MM_MODEM_BAND_G850, MM_MODEM_BAND_UTRAN_5, /* 900 */ MM_MODEM_BAND_EGSM, MM_MODEM_BAND_UTRAN_8, /* 1900 */ MM_MODEM_BAND_PCS, MM_MODEM_BAND_UTRAN_2, /* 2100 */ MM_MODEM_BAND_UTRAN_1 }; common_validate_ubandsel_response ("+UBANDSEL: 800,850,900,1900,2100\r\n", expected_bands, "SARA-U201", G_N_ELEMENTS (expected_bands)); } static void test_ubandsel_response_two (void) { const MMModemBand expected_bands[] = { /* 850 */ MM_MODEM_BAND_G850, /* 900 */ MM_MODEM_BAND_EGSM, /* 1800 */ MM_MODEM_BAND_DCS, /* 1900 */ MM_MODEM_BAND_PCS }; common_validate_ubandsel_response ("+UBANDSEL: 850,900,1800,1900\r\n", expected_bands, "SARA-G310", G_N_ELEMENTS (expected_bands)); } static void test_ubandsel_response_one (void) { const MMModemBand expected_bands[] = { /* 850 */ MM_MODEM_BAND_G850, MM_MODEM_BAND_UTRAN_5, MM_MODEM_BAND_EUTRAN_5, /* 1700 */ MM_MODEM_BAND_EUTRAN_4, /* 1900 */ MM_MODEM_BAND_PCS, MM_MODEM_BAND_UTRAN_2, MM_MODEM_BAND_EUTRAN_2 }; common_validate_ubandsel_response ("+UBANDSEL: 850,1700,1900\r\n", expected_bands, "TOBY-R200", G_N_ELEMENTS (expected_bands)); } /*****************************************************************************/ /* +UBANDSEL=x command builder */ static void common_validate_ubandsel_request (const MMModemBand *bands, guint n_bands, const gchar *model, const gchar *expected_request) { GError *error = NULL; GArray *bands_array; gchar *request; bands_array = g_array_sized_new (FALSE, FALSE, sizeof (MMModemBand), n_bands); g_array_append_vals (bands_array, bands, n_bands); request = mm_ublox_build_ubandsel_set_command (bands_array, model, &error); g_assert_no_error (error); g_assert (request); g_assert_cmpstr (request, ==, expected_request); g_array_unref (bands_array); g_free (request); } static void test_ubandsel_request_any (void) { const MMModemBand bands[] = { MM_MODEM_BAND_ANY }; common_validate_ubandsel_request (bands, G_N_ELEMENTS (bands), "TOBY-R200", "+UBANDSEL=0"); } static void test_ubandsel_request_2g (void) { const MMModemBand bands[] = { MM_MODEM_BAND_G850, MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS, MM_MODEM_BAND_PCS }; common_validate_ubandsel_request (bands, G_N_ELEMENTS (bands), "SARA-G310", "+UBANDSEL=850,900,1800,1900"); } static void test_ubandsel_request_1800 (void) { const MMModemBand bands[] = { MM_MODEM_BAND_DCS, MM_MODEM_BAND_UTRAN_3, MM_MODEM_BAND_EUTRAN_3 }; common_validate_ubandsel_request (bands, G_N_ELEMENTS (bands), "TOBY-R200", "+UBANDSEL=1800"); } /*****************************************************************************/ /* Test +UACT? response parser */ static void common_validate_uact_response (const gchar *str, const MMModemBand *expected_bands, guint n_expected_bands) { GError *error = NULL; GArray *bands; bands = mm_ublox_parse_uact_response (str, &error); if (n_expected_bands > 0) { g_assert (bands); g_assert_no_error (error); mm_test_helpers_compare_bands (bands, expected_bands, n_expected_bands); g_array_unref (bands); } else { g_assert (!bands); g_assert (error); g_error_free (error); } } static void test_uact_response_empty_list (void) { common_validate_uact_response ("", NULL, 0); common_validate_uact_response ("+UACT: ,,,\r\n", NULL, 0); } static void test_uact_response_2g (void) { const MMModemBand expected_bands[] = { MM_MODEM_BAND_G850, MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS, MM_MODEM_BAND_PCS, }; common_validate_uact_response ("+UACT: ,,,900,1800,1900,850\r\n", expected_bands, G_N_ELEMENTS (expected_bands)); } static void test_uact_response_2g3g (void) { const MMModemBand expected_bands[] = { MM_MODEM_BAND_G850, MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS, MM_MODEM_BAND_PCS, MM_MODEM_BAND_UTRAN_1, MM_MODEM_BAND_UTRAN_2, MM_MODEM_BAND_UTRAN_3, MM_MODEM_BAND_UTRAN_4, MM_MODEM_BAND_UTRAN_5, MM_MODEM_BAND_UTRAN_6, MM_MODEM_BAND_UTRAN_7, MM_MODEM_BAND_UTRAN_8, MM_MODEM_BAND_UTRAN_9, }; common_validate_uact_response ("+UACT: ,,,900,1800,1900,850,1,2,3,4,5,6,7,8,9\r\n", expected_bands, G_N_ELEMENTS (expected_bands)); } static void test_uact_response_2g3g4g (void) { const MMModemBand expected_bands[] = { MM_MODEM_BAND_G850, MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS, MM_MODEM_BAND_PCS, MM_MODEM_BAND_UTRAN_1, MM_MODEM_BAND_UTRAN_2, MM_MODEM_BAND_UTRAN_3, MM_MODEM_BAND_UTRAN_4, MM_MODEM_BAND_UTRAN_5, MM_MODEM_BAND_UTRAN_6, MM_MODEM_BAND_UTRAN_7, MM_MODEM_BAND_UTRAN_8, MM_MODEM_BAND_UTRAN_9, MM_MODEM_BAND_EUTRAN_1, MM_MODEM_BAND_EUTRAN_2, MM_MODEM_BAND_EUTRAN_3, MM_MODEM_BAND_EUTRAN_4, MM_MODEM_BAND_EUTRAN_5, MM_MODEM_BAND_EUTRAN_6, MM_MODEM_BAND_EUTRAN_7, MM_MODEM_BAND_EUTRAN_8, MM_MODEM_BAND_EUTRAN_9, }; common_validate_uact_response ("+UACT: ,,,900,1800,1900,850,1,2,3,4,5,6,7,8,9,101,102,103,104,105,106,107,108,109\r\n", expected_bands, G_N_ELEMENTS (expected_bands)); } /*****************************************************************************/ /* Test +UACT=? test parser */ static void common_validate_uact_test (const gchar *str, const MMModemBand *expected_bands_2g, guint n_expected_bands_2g, const MMModemBand *expected_bands_3g, guint n_expected_bands_3g, const MMModemBand *expected_bands_4g, guint n_expected_bands_4g) { GError *error = NULL; gboolean result; GArray *bands_2g = NULL; GArray *bands_3g = NULL; GArray *bands_4g = NULL; result = mm_ublox_parse_uact_test (str, NULL, &bands_2g, &bands_3g, &bands_4g, &error); g_assert_no_error (error); g_assert (result); mm_test_helpers_compare_bands (bands_2g, expected_bands_2g, n_expected_bands_2g); if (bands_2g) g_array_unref (bands_2g); mm_test_helpers_compare_bands (bands_3g, expected_bands_3g, n_expected_bands_3g); if (bands_3g) g_array_unref (bands_3g); mm_test_helpers_compare_bands (bands_4g, expected_bands_4g, n_expected_bands_4g); if (bands_4g) g_array_unref (bands_4g); } static void test_uact_test_2g (void) { const MMModemBand expected_bands_2g[] = { MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS }; common_validate_uact_test ("+UACT: ,,,(900,1800)\r\n", expected_bands_2g, G_N_ELEMENTS (expected_bands_2g), NULL, 0, NULL, 0); } static void test_uact_test_2g3g (void) { const MMModemBand expected_bands_2g[] = { MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS }; const MMModemBand expected_bands_3g[] = { MM_MODEM_BAND_UTRAN_1, MM_MODEM_BAND_UTRAN_8 }; common_validate_uact_test ("+UACT: ,,,(900,1800),(1,8)\r\n", expected_bands_2g, G_N_ELEMENTS (expected_bands_2g), expected_bands_3g, G_N_ELEMENTS (expected_bands_3g), NULL, 0); } static void test_uact_test_2g3g4g (void) { const MMModemBand expected_bands_2g[] = { MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS }; const MMModemBand expected_bands_3g[] = { MM_MODEM_BAND_UTRAN_1, MM_MODEM_BAND_UTRAN_8 }; const MMModemBand expected_bands_4g[] = { MM_MODEM_BAND_EUTRAN_1, MM_MODEM_BAND_EUTRAN_3, MM_MODEM_BAND_EUTRAN_7, MM_MODEM_BAND_EUTRAN_8, MM_MODEM_BAND_EUTRAN_20 }; common_validate_uact_test ("+UACT: ,,,(900,1800),(1,8),(101,103,107,108,120)\r\n", expected_bands_2g, G_N_ELEMENTS (expected_bands_2g), expected_bands_3g, G_N_ELEMENTS (expected_bands_3g), expected_bands_4g, G_N_ELEMENTS (expected_bands_4g)); } static void test_uact_test_2g3g4g_2 (void) { const MMModemBand expected_bands_2g[] = { MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS }; const MMModemBand expected_bands_3g[] = { MM_MODEM_BAND_UTRAN_1, MM_MODEM_BAND_UTRAN_8 }; const MMModemBand expected_bands_4g[] = { MM_MODEM_BAND_EUTRAN_1, MM_MODEM_BAND_EUTRAN_3, MM_MODEM_BAND_EUTRAN_7, MM_MODEM_BAND_EUTRAN_8, MM_MODEM_BAND_EUTRAN_20 }; common_validate_uact_test ("+UACT: ,,,(900,1800),(1,8),(101,103,107,108,120),(138)\r\n", expected_bands_2g, G_N_ELEMENTS (expected_bands_2g), expected_bands_3g, G_N_ELEMENTS (expected_bands_3g), expected_bands_4g, G_N_ELEMENTS (expected_bands_4g)); } /*****************************************************************************/ /* +UACT=x command builder */ static void common_validate_uact_request (const MMModemBand *bands, guint n_bands, const gchar *expected_request) { GError *error = NULL; GArray *bands_array; gchar *request; bands_array = g_array_sized_new (FALSE, FALSE, sizeof (MMModemBand), n_bands); g_array_append_vals (bands_array, bands, n_bands); request = mm_ublox_build_uact_set_command (bands_array, &error); g_assert_no_error (error); g_assert (request); g_assert_cmpstr (request, ==, expected_request); g_array_unref (bands_array); g_free (request); } static void test_uact_request_any (void) { const MMModemBand bands[] = { MM_MODEM_BAND_ANY }; common_validate_uact_request (bands, G_N_ELEMENTS (bands), "+UACT=,,,0"); } static void test_uact_request_2g (void) { const MMModemBand bands[] = { MM_MODEM_BAND_EGSM, MM_MODEM_BAND_DCS, }; common_validate_uact_request (bands, G_N_ELEMENTS (bands), "+UACT=,,,900,1800"); } static void test_uact_request_3g (void) { const MMModemBand bands[] = { MM_MODEM_BAND_UTRAN_1, MM_MODEM_BAND_UTRAN_8, }; common_validate_uact_request (bands, G_N_ELEMENTS (bands), "+UACT=,,,1,8"); } static void test_uact_request_4g (void) { const MMModemBand bands[] = { MM_MODEM_BAND_EUTRAN_1, MM_MODEM_BAND_EUTRAN_3, MM_MODEM_BAND_EUTRAN_7, MM_MODEM_BAND_EUTRAN_8, MM_MODEM_BAND_EUTRAN_20 }; common_validate_uact_request (bands, G_N_ELEMENTS (bands), "+UACT=,,,101,103,107,108,120"); } /*****************************************************************************/ /* Test +UAUTHREQ=? responses */ static void common_validate_uauthreq_test (const gchar *str, MMUbloxBearerAllowedAuth expected_allowed_auths) { GError *error = NULL; MMUbloxBearerAllowedAuth allowed_auths; allowed_auths = mm_ublox_parse_uauthreq_test (str, NULL, &error); g_assert_no_error (error); g_assert_cmpuint (allowed_auths, ==, expected_allowed_auths); } static void test_uauthreq_tobyl4 (void) { common_validate_uauthreq_test ("+UAUTHREQ: (1-4),(0-2),,", (MM_UBLOX_BEARER_ALLOWED_AUTH_NONE | MM_UBLOX_BEARER_ALLOWED_AUTH_PAP | MM_UBLOX_BEARER_ALLOWED_AUTH_CHAP)); } static void test_uauthreq_with_auto (void) { common_validate_uauthreq_test ("+UAUTHREQ: (1-4),(0-3),,", (MM_UBLOX_BEARER_ALLOWED_AUTH_NONE | MM_UBLOX_BEARER_ALLOWED_AUTH_PAP | MM_UBLOX_BEARER_ALLOWED_AUTH_CHAP | MM_UBLOX_BEARER_ALLOWED_AUTH_AUTO)); } static void test_uauthreq_less_fields (void) { common_validate_uauthreq_test ("+UAUTHREQ: (1-4),(0-2)", (MM_UBLOX_BEARER_ALLOWED_AUTH_NONE | MM_UBLOX_BEARER_ALLOWED_AUTH_PAP | MM_UBLOX_BEARER_ALLOWED_AUTH_CHAP)); } /*****************************************************************************/ /* Test +UGCNTRD responses */ typedef struct { const gchar *str; guint cid; guint64 session_tx_bytes; guint64 session_rx_bytes; guint64 total_tx_bytes; guint64 total_rx_bytes; } UgcntrdResponseTest; static const UgcntrdResponseTest ugcntrd_response_tests[] = { { .str = "+UGCNTRD: 1, 100, 0, 100, 0", .cid = 1, .session_tx_bytes = 100, .session_rx_bytes = 0, .total_tx_bytes = 100, .total_rx_bytes = 0 }, { .str = "+UGCNTRD: 31,2704,1819,2724,1839", .cid = 31, .session_tx_bytes = 2704, .session_rx_bytes = 1819, .total_tx_bytes = 2724, .total_rx_bytes = 1839 }, { .str = "+UGCNTRD: 1, 100, 0, 100, 0\r\n" "+UGCNTRD: 31,2704,1819,2724,1839\r\n", .cid = 1, .session_tx_bytes = 100, .session_rx_bytes = 0, .total_tx_bytes = 100, .total_rx_bytes = 0 }, { .str = "+UGCNTRD: 1, 100, 0, 100, 0\r\n" "+UGCNTRD: 31,2704,1819,2724,1839\r\n", .cid = 31, .session_tx_bytes = 2704, .session_rx_bytes = 1819, .total_tx_bytes = 2724, .total_rx_bytes = 1839 }, { .str = "+UGCNTRD: 2,1397316870,113728263578,1397316870,113728263578\r\n", .cid = 2, .session_tx_bytes = 1397316870ULL, .session_rx_bytes = 113728263578ULL, .total_tx_bytes = 1397316870ULL, .total_rx_bytes = 113728263578ULL } }; static void test_ugcntrd_response (void) { guint i; for (i = 0; i < G_N_ELEMENTS (ugcntrd_response_tests); i++) { GError *error = NULL; gboolean success; guint64 session_tx_bytes = 0; guint64 session_rx_bytes = 0; guint64 total_tx_bytes = 0; guint64 total_rx_bytes = 0; success = mm_ublox_parse_ugcntrd_response_for_cid (ugcntrd_response_tests[i].str, ugcntrd_response_tests[i].cid, &session_tx_bytes, &session_rx_bytes, &total_tx_bytes, &total_rx_bytes, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpuint (ugcntrd_response_tests[i].session_tx_bytes, ==, session_tx_bytes); g_assert_cmpuint (ugcntrd_response_tests[i].session_rx_bytes, ==, session_rx_bytes); g_assert_cmpuint (ugcntrd_response_tests[i].total_tx_bytes, ==, total_tx_bytes); g_assert_cmpuint (ugcntrd_response_tests[i].total_rx_bytes, ==, total_rx_bytes); } } /*****************************************************************************/ int main (int argc, char **argv) { setlocale (LC_ALL, ""); g_test_init (&argc, &argv, NULL); g_test_add_func ("/MM/ublox/upincnt/response", test_upincnt_response); g_test_add_func ("/MM/ublox/uusbconf/response", test_uusbconf_response); g_test_add_func ("/MM/ublox/ubmconf/response", test_ubmconf_response); g_test_add_func ("/MM/ublox/uipaddr/response", test_uipaddr_response); g_test_add_func ("/MM/ublox/cfun/response", test_cfun_response); g_test_add_func ("/MM/ublox/urat/test/response/2g", test_urat_test_response_2g); g_test_add_func ("/MM/ublox/urat/test/response/2g3g", test_urat_test_response_2g3g); g_test_add_func ("/MM/ublox/urat/test/response/2g3g4g", test_urat_test_response_2g3g4g); g_test_add_func ("/MM/ublox/urat/test/response/toby-l201", test_mode_filtering_toby_l201); g_test_add_func ("/MM/ublox/urat/test/response/lisa-u200", test_mode_filtering_lisa_u200); g_test_add_func ("/MM/ublox/urat/test/response/sara-u280", test_mode_filtering_sara_u280); g_test_add_func ("/MM/ublox/urat/read/response", test_urat_read_response); g_test_add_func ("/MM/ublox/urat/write/command", test_urat_write_command); g_test_add_func ("/MM/ublox/ubandsel/response/one", test_ubandsel_response_one); g_test_add_func ("/MM/ublox/ubandsel/response/two", test_ubandsel_response_two); g_test_add_func ("/MM/ublox/ubandsel/response/three", test_ubandsel_response_three); g_test_add_func ("/MM/ublox/ubandsel/response/four", test_ubandsel_response_four); g_test_add_func ("/MM/ublox/ubandsel/request/any", test_ubandsel_request_any); g_test_add_func ("/MM/ublox/ubandsel/request/2g", test_ubandsel_request_2g); g_test_add_func ("/MM/ublox/ubandsel/request/1800", test_ubandsel_request_1800); g_test_add_func ("/MM/ublox/uact/response/empty-list", test_uact_response_empty_list); g_test_add_func ("/MM/ublox/uact/response/2g", test_uact_response_2g); g_test_add_func ("/MM/ublox/uact/response/2g3g", test_uact_response_2g3g); g_test_add_func ("/MM/ublox/uact/response/2g3g4g", test_uact_response_2g3g4g); g_test_add_func ("/MM/ublox/uact/test/2g", test_uact_test_2g); g_test_add_func ("/MM/ublox/uact/test/2g3g", test_uact_test_2g3g); g_test_add_func ("/MM/ublox/uact/test/2g3g4g", test_uact_test_2g3g4g); g_test_add_func ("/MM/ublox/uact/test/2g3g4g/2", test_uact_test_2g3g4g_2); g_test_add_func ("/MM/ublox/uact/request/any", test_uact_request_any); g_test_add_func ("/MM/ublox/uact/request/2g", test_uact_request_2g); g_test_add_func ("/MM/ublox/uact/request/3g", test_uact_request_3g); g_test_add_func ("/MM/ublox/uact/request/4g", test_uact_request_4g); g_test_add_func ("/MM/ublox/uauthreq/test/tobyl4", test_uauthreq_tobyl4); g_test_add_func ("/MM/ublox/uauthreq/test/with-auto", test_uauthreq_with_auto); g_test_add_func ("/MM/ublox/uauthreq/test/less-fields", test_uauthreq_less_fields); g_test_add_func ("/MM/ublox/ugcntrd/response", test_ugcntrd_response); return g_test_run (); }