/* -*- 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) 2014 Aleksander Morgado */ #include #include #include #include #define _LIBMM_INSIDE_MM #include #include "mm-log.h" #include "mm-modem-helpers.h" #include "mm-modem-helpers-cinterion.h" static gint sort_band (MMModemBand a, MMModemBand b) { return a - b; } /*****************************************************************************/ /* Test ^SCFG test responses */ static void common_test_scfg (const gchar *response, GArray *expected_bands) { GArray *bands = NULL; gchar *expected_bands_str; gchar *bands_str; GError *error = NULL; gboolean res; res = mm_cinterion_parse_scfg_test (response, MM_MODEM_CHARSET_UNKNOWN, &bands, &error); g_assert_no_error (error); g_assert (res == TRUE); g_assert (bands != NULL); g_array_sort (bands, (GCompareFunc)sort_band); g_array_sort (expected_bands, (GCompareFunc)sort_band); expected_bands_str = mm_common_build_bands_string ((const MMModemBand *)expected_bands->data, expected_bands->len); bands_str = mm_common_build_bands_string ((const MMModemBand *)bands->data, bands->len); /* Instead of comparing the array one by one, compare the strings built from the mask * (we get a nicer error if it fails) */ g_assert_cmpstr (bands_str, ==, expected_bands_str); g_free (bands_str); g_free (expected_bands_str); g_array_unref (bands); } static void test_scfg (void) { GArray *expected_bands; MMModemBand single; const gchar *response = "^SCFG: \"Audio/Loop\",(\"0\",\"1\")\r\n" "^SCFG: \"Call/ECC\",(\"0\"-\"255\")\r\n" "^SCFG: \"Call/Speech/Codec\",(\"0\",\"1\")\r\n" "^SCFG: \"GPRS/Auth\",(\"0\",\"1\",\"2\")\r\n" "^SCFG: \"GPRS/AutoAttach\",(\"disabled\",\"enabled\")\r\n" "^SCFG: \"GPRS/MaxDataRate/HSDPA\",(\"0\",\"1\")\r\n" "^SCFG: \"GPRS/MaxDataRate/HSUPA\",(\"0\",\"1\")\r\n" "^SCFG: \"Ident/Manufacturer\",(25)\r\n" "^SCFG: \"Ident/Product\",(25)\r\n" "^SCFG: \"MEopMode/Airplane\",(\"off\",\"on\")\r\n" "^SCFG: \"MEopMode/CregRoam\",(\"0\",\"1\")\r\n" "^SCFG: \"MEopMode/CFUN\",(\"0\",\"1\")\r\n" "^SCFG: \"MEopMode/PowerMgmt/LCI\",(\"disabled\",\"enabled\")\r\n" "^SCFG: \"MEopMode/PowerMgmt/VExt\",(\"high\",\"low\")\r\n" "^SCFG: \"MEopMode/PwrSave\",(\"disabled\",\"enabled\"),(\"0-600\"),(\"1-36000\")\r\n" "^SCFG: \"MEopMode/RingOnData\",(\"on\",\"off\")\r\n" "^SCFG: \"MEopMode/RingUrcOnCall\",(\"on\",\"off\")\r\n" "^SCFG: \"MEShutdown/OnIgnition\",(\"on\",\"off\")\r\n" "^SCFG: \"Radio/Band\",(\"1-511\",\"0-1\")\r\n" "^SCFG: \"Radio/NWSM\",(\"0\",\"1\",\"2\")\r\n" "^SCFG: \"Radio/OutputPowerReduction\",(\"4\"-\"8\")\r\n" "^SCFG: \"Serial/USB/DDD\",(\"0\",\"1\"),(\"0\"),(4),(4),(4),(63),(63),(4)\r\n" "^SCFG: \"URC/DstIfc\",(\"mdm\",\"app\")\r\n" "^SCFG: \"URC/Datamode/Ringline\",(\"off\",\"on\")\r\n" "^SCFG: \"URC/Ringline\",(\"off\",\"local\",\"asc0\",\"wakeup\")\r\n" "^SCFG: \"URC/Ringline/ActiveTime\",(\"0\",\"1\",\"2\",\"keep\")\r\n"; expected_bands = g_array_sized_new (FALSE, FALSE, sizeof (MMModemBand), 9); single = MM_MODEM_BAND_EGSM, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_DCS, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_PCS, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_G850, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U2100, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U1900, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U850, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U900, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U800, g_array_append_val (expected_bands, single); common_test_scfg (response, expected_bands); g_array_unref (expected_bands); } /*****************************************************************************/ /* Test ^SCFG responses */ static void common_test_scfg_response (const gchar *response, MMModemCharset charset, GArray *expected_bands) { GArray *bands = NULL; gchar *expected_bands_str; gchar *bands_str; GError *error = NULL; gboolean res; res = mm_cinterion_parse_scfg_response (response, charset, &bands, &error); g_assert_no_error (error); g_assert (res == TRUE); g_assert (bands != NULL); g_array_sort (bands, (GCompareFunc)sort_band); g_array_sort (expected_bands, (GCompareFunc)sort_band); expected_bands_str = mm_common_build_bands_string ((const MMModemBand *)expected_bands->data, expected_bands->len); bands_str = mm_common_build_bands_string ((const MMModemBand *)bands->data, bands->len); /* Instead of comparing the array one by one, compare the strings built from the mask * (we get a nicer error if it fails) */ g_assert_cmpstr (bands_str, ==, expected_bands_str); g_free (bands_str); g_free (expected_bands_str); g_array_unref (bands); } static void test_scfg_response_2g (void) { GArray *expected_bands; MMModemBand single; const gchar *response = "^SCFG: \"Radio/Band\",\"3\",\"3\"\r\n" "\r\n"; expected_bands = g_array_sized_new (FALSE, FALSE, sizeof (MMModemBand), 9); single = MM_MODEM_BAND_EGSM, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_DCS, g_array_append_val (expected_bands, single); common_test_scfg_response (response, MM_MODEM_CHARSET_UNKNOWN, expected_bands); g_array_unref (expected_bands); } static void test_scfg_response_2g_ucs2 (void) { GArray *expected_bands; MMModemBand single; const gchar *response = "^SCFG: \"Radio/Band\",\"0031\",\"0031\"\r\n" "\r\n"; expected_bands = g_array_sized_new (FALSE, FALSE, sizeof (MMModemBand), 9); single = MM_MODEM_BAND_EGSM, g_array_append_val (expected_bands, single); common_test_scfg_response (response, MM_MODEM_CHARSET_UCS2, expected_bands); g_array_unref (expected_bands); } static void test_scfg_response_3g (void) { GArray *expected_bands; MMModemBand single; const gchar *response = "^SCFG: \"Radio/Band\",127\r\n" "\r\n"; expected_bands = g_array_sized_new (FALSE, FALSE, sizeof (MMModemBand), 9); single = MM_MODEM_BAND_EGSM, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_DCS, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_PCS, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_G850, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U2100, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U1900, g_array_append_val (expected_bands, single); single = MM_MODEM_BAND_U850, g_array_append_val (expected_bands, single); common_test_scfg_response (response, MM_MODEM_CHARSET_UNKNOWN, expected_bands); g_array_unref (expected_bands); } /*****************************************************************************/ /* Test ^SCFG test */ static void compare_arrays (const GArray *supported, const GArray *expected) { guint i; g_assert_cmpuint (supported->len, ==, expected->len); for (i = 0; i < supported->len; i++) { gboolean found = FALSE; guint j; for (j = 0; j < expected->len && !found; j++) { if (g_array_index (supported, guint, i) == g_array_index (expected, guint, j)) found = TRUE; } g_assert (found); } } static void common_test_cnmi (const gchar *response, const GArray *expected_mode, const GArray *expected_mt, const GArray *expected_bm, const GArray *expected_ds, const GArray *expected_bfr) { GArray *supported_mode = NULL; GArray *supported_mt = NULL; GArray *supported_bm = NULL; GArray *supported_ds = NULL; GArray *supported_bfr = NULL; GError *error = NULL; gboolean res; g_assert (expected_mode != NULL); g_assert (expected_mt != NULL); g_assert (expected_bm != NULL); g_assert (expected_ds != NULL); g_assert (expected_bfr != NULL); res = mm_cinterion_parse_cnmi_test (response, &supported_mode, &supported_mt, &supported_bm, &supported_ds, &supported_bfr, &error); g_assert_no_error (error); g_assert (res == TRUE); g_assert (supported_mode != NULL); g_assert (supported_mt != NULL); g_assert (supported_bm != NULL); g_assert (supported_ds != NULL); g_assert (supported_bfr != NULL); compare_arrays (supported_mode, expected_mode); compare_arrays (supported_mt, expected_mt); compare_arrays (supported_bm, expected_bm); compare_arrays (supported_ds, expected_ds); compare_arrays (supported_bfr, expected_bfr); g_array_unref (supported_mode); g_array_unref (supported_mt); g_array_unref (supported_bm); g_array_unref (supported_ds); g_array_unref (supported_bfr); } static void test_cnmi_phs8 (void) { GArray *expected_mode; GArray *expected_mt; GArray *expected_bm; GArray *expected_ds; GArray *expected_bfr; guint val; const gchar *response = "+CNMI: (0,1,2),(0,1),(0,2),(0),(1)\r\n" "\r\n"; expected_mode = g_array_sized_new (FALSE, FALSE, sizeof (guint), 3); val = 0, g_array_append_val (expected_mode, val); val = 1, g_array_append_val (expected_mode, val); val = 2, g_array_append_val (expected_mode, val); expected_mt = g_array_sized_new (FALSE, FALSE, sizeof (guint), 2); val = 0, g_array_append_val (expected_mt, val); val = 1, g_array_append_val (expected_mt, val); expected_bm = g_array_sized_new (FALSE, FALSE, sizeof (guint), 2); val = 0, g_array_append_val (expected_bm, val); val = 2, g_array_append_val (expected_bm, val); expected_ds = g_array_sized_new (FALSE, FALSE, sizeof (guint), 1); val = 0, g_array_append_val (expected_ds, val); expected_bfr = g_array_sized_new (FALSE, FALSE, sizeof (guint), 1); val = 1, g_array_append_val (expected_bfr, val); common_test_cnmi (response, expected_mode, expected_mt, expected_bm, expected_ds, expected_bfr); g_array_unref (expected_mode); g_array_unref (expected_mt); g_array_unref (expected_bm); g_array_unref (expected_ds); g_array_unref (expected_bfr); } /*****************************************************************************/ /* Test ^SWWAN read */ #define SWWAN_TEST_MAX_CIDS 2 typedef struct { guint cid; MMBearerConnectionStatus state; } PdpContextState; typedef struct { const gchar *response; PdpContextState expected_items[SWWAN_TEST_MAX_CIDS]; gboolean skip_test_other_cids; } SwwanTest; /* Note: all tests are based on checking CIDs 2 and 3 */ static const SwwanTest swwan_tests[] = { /* No active PDP context reported (all disconnected) */ { .response = "", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED } }, /* Don't test other CIDs because for those we would also return * DISCONNECTED, not UNKNOWN. */ .skip_test_other_cids = TRUE }, /* Single PDP context active (short version without interface index) */ { .response = "^SWWAN: 3,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_UNKNOWN }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED } } }, /* Single PDP context active (long version with interface index) */ { .response = "^SWWAN: 3,1,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_UNKNOWN }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED } } }, /* Single PDP context inactive (short version without interface index) */ { .response = "^SWWAN: 3,0\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_UNKNOWN }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED } } }, /* Single PDP context inactive (long version with interface index) */ { .response = "^SWWAN: 3,0,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_UNKNOWN }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED } } }, /* Multiple PDP contexts active (short version without interface index) */ { .response = "^SWWAN: 2,1\r\n^SWWAN: 3,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED } } }, /* Multiple PDP contexts active (long version with interface index) */ { .response = "^SWWAN: 2,1,3\r\n^SWWAN: 3,1,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED } } }, /* Multiple PDP contexts inactive (short version without interface index) */ { .response = "^SWWAN: 2,0\r\n^SWWAN: 3,0\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED } } }, /* Multiple PDP contexts inactive (long version with interface index) */ { .response = "^SWWAN: 2,0,3\r\n^SWWAN: 3,0,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED } } }, /* Multiple PDP contexts active/inactive (short version without interface index) */ { .response = "^SWWAN: 2,0\r\n^SWWAN: 3,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED } } }, /* Multiple PDP contexts active/inactive (long version with interface index) */ { .response = "^SWWAN: 2,0,3\r\n^SWWAN: 3,1,1\r\n", .expected_items = { { .cid = 2, .state = MM_BEARER_CONNECTION_STATUS_DISCONNECTED }, { .cid = 3, .state = MM_BEARER_CONNECTION_STATUS_CONNECTED } } } }; static void test_swwan_pls8 (void) { MMBearerConnectionStatus read_state; GError *error = NULL; guint i; /* Base tests for successful responses */ for (i = 0; i < G_N_ELEMENTS (swwan_tests); i++) { guint j; /* Query for the expected items (CIDs 2 and 3) */ for (j = 0; j < SWWAN_TEST_MAX_CIDS; j++) { read_state = mm_cinterion_parse_swwan_response (swwan_tests[i].response, swwan_tests[i].expected_items[j].cid, &error); if (swwan_tests[i].expected_items[j].state == MM_BEARER_CONNECTION_STATUS_UNKNOWN) { g_assert_error (error, MM_CORE_ERROR, MM_CORE_ERROR_FAILED); g_clear_error (&error); } else g_assert_no_error (error); g_assert_cmpint (read_state, ==, swwan_tests[i].expected_items[j].state); } /* Query for a CID which isn't replied (e.g. 12) */ if (!swwan_tests[i].skip_test_other_cids) { read_state = mm_cinterion_parse_swwan_response (swwan_tests[i].response, 12, &error); g_assert_error (error, MM_CORE_ERROR, MM_CORE_ERROR_FAILED); g_assert_cmpint (read_state, ==, MM_BEARER_CONNECTION_STATUS_UNKNOWN); g_clear_error (&error); } } /* Additional tests for errors */ read_state = mm_cinterion_parse_swwan_response ("^GARBAGE", 2, &error); g_assert_error (error, MM_CORE_ERROR, MM_CORE_ERROR_FAILED); g_assert_cmpint (read_state, ==, MM_BEARER_CONNECTION_STATUS_UNKNOWN); g_clear_error (&error); } /*****************************************************************************/ /* Test ^SIND responses */ static void common_test_sind_response (const gchar *response, const gchar *expected_description, guint expected_mode, guint expected_value) { GError *error = NULL; gboolean res; gchar *description; guint mode; guint value; res = mm_cinterion_parse_sind_response (response, &description, &mode, &value, &error); g_assert_no_error (error); g_assert (res == TRUE); g_assert_cmpstr (description, ==, expected_description); g_assert_cmpuint (mode, ==, expected_mode); g_assert_cmpuint (value, ==, expected_value); g_free (description); } static void test_sind_response_simstatus (void) { common_test_sind_response ("^SIND: simstatus,1,5", "simstatus", 1, 5); } /*****************************************************************************/ void _mm_log (const char *loc, const char *func, guint32 level, const char *fmt, ...) { #if defined ENABLE_TEST_MESSAGE_TRACES /* Dummy log function */ va_list args; gchar *msg; va_start (args, fmt); msg = g_strdup_vprintf (fmt, args); va_end (args); g_print ("%s\n", msg); g_free (msg); #endif } int main (int argc, char **argv) { setlocale (LC_ALL, ""); g_type_init (); g_test_init (&argc, &argv, NULL); g_test_add_func ("/MM/cinterion/scfg", test_scfg); g_test_add_func ("/MM/cinterion/scfg/response/3g", test_scfg_response_3g); g_test_add_func ("/MM/cinterion/scfg/response/2g", test_scfg_response_2g); g_test_add_func ("/MM/cinterion/scfg/response/2g/ucs2", test_scfg_response_2g_ucs2); g_test_add_func ("/MM/cinterion/cnmi/phs8", test_cnmi_phs8); g_test_add_func ("/MM/cinterion/swwan/pls8", test_swwan_pls8); g_test_add_func ("/MM/cinterion/sind/response/simstatus", test_sind_response_simstatus); return g_test_run (); }