/* * * oFono - Open Source Telephony * * Copyright (C) 2008-2011 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include "gatchat.h" #include "gatresult.h" #include "simutil.h" #include "vendor.h" #include "util.h" #include "atmodem.h" #define EF_STATUS_INVALIDATED 0 #define EF_STATUS_VALID 1 #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) struct sim_data { GAtChat *chat; unsigned int vendor; guint passwd_type_mask; struct at_util_sim_state_query *sim_state_query; }; static const char *crsm_prefix[] = { "+CRSM:", NULL }; static const char *cpin_prefix[] = { "+CPIN:", NULL }; static const char *clck_prefix[] = { "+CLCK:", NULL }; static const char *huawei_cpin_prefix[] = { "^CPIN:", NULL }; static const char *xpincnt_prefix[] = { "+XPINCNT:", NULL }; static const char *zpinpuk_prefix[] = { "+ZPINPUK:", NULL }; static const char *pinnum_prefix[] = { "%PINNUM:", NULL }; static const char *oercn_prefix[] = { "_OERCN:", NULL }; static const char *cpinr_prefixes[] = { "+CPINR:", "+CPINRE:", NULL }; static const char *epin_prefix[] = { "*EPIN:", NULL }; static const char *simcom_spic_prefix[] = { "+SPIC:", NULL }; static const char *gemalto_spic_prefix[] = { "^SPIC:", NULL }; static const char *pct_prefix[] = { "#PCT:", NULL }; static const char *pnnm_prefix[] = { "+PNNM:", NULL }; static const char *qpinc_prefix[] = { "+QPINC:", NULL }; static const char *qtrpin_prefix[] = { "+QTRPIN:", NULL }; static const char *upincnt_prefix[] = { "+UPINCNT:", NULL }; static const char *cuad_prefix[] = { "+CUAD:", NULL }; static const char *ccho_prefix[] = { "+CCHO:", NULL }; static const char *crla_prefix[] = { "+CRLA:", NULL }; static const char *cgla_prefix[] = { "+CGLA:", NULL }; static const char *xcmscsc_prefix[] = { "+XCMSCSC:", NULL}; static const char *none_prefix[] = { NULL }; static void append_file_path(char *buf, const unsigned char *path, unsigned int path_len) { if (path_len > 0) { *buf++ = ','; *buf++ = ','; *buf++ = '\"'; for (; path_len; path_len--) buf += sprintf(buf, "%02hhX", *path++); *buf++ = '\"'; *buf = '\0'; } } static void get_response_common_cb(gboolean ok, GAtResult *result, gpointer user_data, const char *prefix) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_file_info_cb_t cb = cbd->cb; struct ofono_error error; const guint8 *response; gint sw1, sw2, len; int flen, rlen; int str; unsigned char access[3]; unsigned char file_status; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, -1, -1, -1, NULL, EF_STATUS_INVALIDATED, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, prefix)) goto error; g_at_result_iter_next_number(&iter, &sw1); g_at_result_iter_next_number(&iter, &sw2); if (!g_at_result_iter_next_hexstring(&iter, &response, &len) || (sw1 != 0x90 && sw1 != 0x91 && sw1 != 0x92) || (sw1 == 0x90 && sw2 != 0x00)) { memset(&error, 0, sizeof(error)); error.type = OFONO_ERROR_TYPE_SIM; error.error = (sw1 << 8) | sw2; cb(&error, -1, -1, -1, NULL, EF_STATUS_INVALIDATED, cbd->data); return; } DBG("crsm_info_cb: %02x, %02x, %i", sw1, sw2, len); if (response[0] == 0x62) { ok = sim_parse_3g_get_response(response, len, &flen, &rlen, &str, access, NULL); file_status = EF_STATUS_VALID; } else ok = sim_parse_2g_get_response(response, len, &flen, &rlen, &str, access, &file_status); if (!ok) goto error; cb(&error, flen, str, rlen, access, file_status, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, -1, -1, -1, NULL, EF_STATUS_INVALIDATED, cbd->data); } static void at_crsm_info_cb(gboolean ok, GAtResult *result, gpointer user_data) { get_response_common_cb(ok, result, user_data, "+CRSM:"); } static void at_sim_read_info(struct ofono_sim *sim, int fileid, const unsigned char *path, unsigned int path_len, ofono_sim_file_info_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd; char buf[128]; unsigned int len; if (sd->vendor == OFONO_VENDOR_OPTION_HSO) { unsigned char access[3] = { 0x00, 0x00, 0x00 }; if (fileid == SIM_EFAD_FILEID) { CALLBACK_WITH_SUCCESS(cb, 4, 0, 0, access, EF_STATUS_VALID, data); return; } } cbd = cb_data_new(cb, data); len = snprintf(buf, sizeof(buf), "AT+CRSM=192,%i", fileid); switch (sd->vendor) { default: if (path_len == 0) break; /* Fall through */ case OFONO_VENDOR_ZTE: case OFONO_VENDOR_HUAWEI: case OFONO_VENDOR_SIERRA: case OFONO_VENDOR_SPEEDUP: case OFONO_VENDOR_QUALCOMM_MSM: case OFONO_VENDOR_SIMCOM: /* Maximum possible length */ len += sprintf(buf + len, ",0,0,255"); break; } append_file_path(buf + len, path, path_len); if (g_at_chat_send(sd->chat, buf, crsm_prefix, at_crsm_info_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, -1, -1, -1, NULL, EF_STATUS_INVALIDATED, data); } static void at_crsm_read_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_read_cb_t cb = cbd->cb; struct ofono_error error; const guint8 *response; gint sw1, sw2, len; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, NULL, 0, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CRSM:")) { CALLBACK_WITH_FAILURE(cb, NULL, 0, cbd->data); return; } g_at_result_iter_next_number(&iter, &sw1); g_at_result_iter_next_number(&iter, &sw2); if ((sw1 != 0x90 && sw1 != 0x91 && sw1 != 0x92 && sw1 != 0x9f) || (sw1 == 0x90 && sw2 != 0x00)) { memset(&error, 0, sizeof(error)); error.type = OFONO_ERROR_TYPE_SIM; error.error = (sw1 << 8) | sw2; cb(&error, NULL, 0, cbd->data); return; } if (!g_at_result_iter_next_hexstring(&iter, &response, &len)) { CALLBACK_WITH_FAILURE(cb, NULL, 0, cbd->data); return; } DBG("crsm_read_cb: %02x, %02x, %d", sw1, sw2, len); cb(&error, response, len, cbd->data); } static void at_sim_read_binary(struct ofono_sim *sim, int fileid, int start, int length, const unsigned char *path, unsigned int path_len, ofono_sim_read_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; unsigned int len; len = snprintf(buf, sizeof(buf), "AT+CRSM=176,%i,%i,%i,%i", fileid, start >> 8, start & 0xff, length); append_file_path(buf + len, path, path_len); if (g_at_chat_send(sd->chat, buf, crsm_prefix, at_crsm_read_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, 0, data); } static void at_sim_read_record(struct ofono_sim *sim, int fileid, int record, int length, const unsigned char *path, unsigned int path_len, ofono_sim_read_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[128]; unsigned int len; len = snprintf(buf, sizeof(buf), "AT+CRSM=178,%i,%i,4,%i", fileid, record, length); append_file_path(buf + len, path, path_len); if (g_at_chat_send(sd->chat, buf, crsm_prefix, at_crsm_read_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, 0, data); } static void at_crsm_update_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_write_cb_t cb = cbd->cb; struct ofono_error error; gint sw1, sw2; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CRSM:")) { CALLBACK_WITH_FAILURE(cb, cbd->data); return; } g_at_result_iter_next_number(&iter, &sw1); g_at_result_iter_next_number(&iter, &sw2); if ((sw1 != 0x90 && sw1 != 0x91 && sw1 != 0x92 && sw1 != 0x9f) || (sw1 == 0x90 && sw2 != 0x00)) { memset(&error, 0, sizeof(error)); error.type = OFONO_ERROR_TYPE_SIM; error.error = (sw1 << 8) | sw2; } DBG("crsm_update_cb: %02x, %02x", sw1, sw2); cb(&error, cbd->data); } static void at_sim_update_file(struct ofono_sim *sim, int cmd, int fileid, int p1, int p2, int p3, const unsigned char *value, const unsigned char *path, unsigned int path_len, ofono_sim_write_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char *buf; int len, ret; int size = 38 + p3 * 2; DBG(""); buf = g_try_new(char, size); if (buf == NULL) goto error; len = sprintf(buf, "AT+CRSM=%i,%i,%i,%i,%i,\"", cmd, fileid,p1, p2, p3); for (; p3; p3--) len += sprintf(buf + len, "%02hhX", *value++); buf[len++] = '\"'; buf[len] = '\0'; ret = g_at_chat_send(sd->chat, buf, crsm_prefix, at_crsm_update_cb, cbd, g_free); g_free(buf); if (ret > 0) return; error: g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void at_sim_update_binary(struct ofono_sim *sim, int fileid, int start, int length, const unsigned char *value, const unsigned char *path, unsigned int path_len, ofono_sim_write_cb_t cb, void *data) { at_sim_update_file(sim, 214, fileid, start >> 8, start & 0xff, length, value, path, path_len, cb, data); } static void at_sim_update_record(struct ofono_sim *sim, int fileid, int record, int length, const unsigned char *value, const unsigned char *path, unsigned int path_len, ofono_sim_write_cb_t cb, void *data) { at_sim_update_file(sim, 220, fileid, record, 4, length, value, path, path_len, cb, data); } static void at_sim_update_cyclic(struct ofono_sim *sim, int fileid, int length, const unsigned char *value, const unsigned char *path, unsigned int path_len, ofono_sim_write_cb_t cb, void *data) { at_sim_update_file(sim, 220, fileid, 0, 3, length, value, path, path_len, cb, data); } static void at_cimi_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_imsi_cb_t cb = cbd->cb; struct ofono_error error; const char *imsi; int i; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); for (i = 0; i < g_at_result_num_response_lines(result); i++) g_at_result_iter_next(&iter, NULL); imsi = g_at_result_iter_raw_line(&iter); DBG("cimi_cb: %s", imsi); cb(&error, imsi, cbd->data); } static void at_read_imsi(struct ofono_sim *sim, ofono_sim_imsi_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); if (g_at_chat_send(sd->chat, "AT+CIMI", NULL, at_cimi_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, data); } static struct { enum ofono_sim_password_type type; const char *name; } const at_sim_name[] = { { OFONO_SIM_PASSWORD_NONE, "READY" }, { OFONO_SIM_PASSWORD_SIM_PIN, "SIM PIN" }, { OFONO_SIM_PASSWORD_SIM_PUK, "SIM PUK" }, { OFONO_SIM_PASSWORD_PHSIM_PIN, "PH-SIM PIN" }, { OFONO_SIM_PASSWORD_PHFSIM_PIN, "PH-FSIM PIN" }, { OFONO_SIM_PASSWORD_PHFSIM_PUK, "PH-FSIM PUK" }, { OFONO_SIM_PASSWORD_SIM_PIN2, "SIM PIN2" }, { OFONO_SIM_PASSWORD_SIM_PUK2, "SIM PUK2" }, { OFONO_SIM_PASSWORD_PHNET_PIN, "PH-NET PIN" }, { OFONO_SIM_PASSWORD_PHNET_PUK, "PH-NET PUK" }, { OFONO_SIM_PASSWORD_PHNETSUB_PIN, "PH-NETSUB PIN" }, { OFONO_SIM_PASSWORD_PHNETSUB_PUK, "PH-NETSUB PUK" }, { OFONO_SIM_PASSWORD_PHSP_PIN, "PH-SP PIN" }, { OFONO_SIM_PASSWORD_PHSP_PUK, "PH-SP PUK" }, { OFONO_SIM_PASSWORD_PHCORP_PIN, "PH-CORP PIN" }, { OFONO_SIM_PASSWORD_PHCORP_PUK, "PH-CORP PUK" }, }; #define BUILD_PIN_RETRIES_ARRAY(passwd_types, passwd_types_cnt, retry) \ for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) \ retry[i] = -1; \ \ for (i = 0; i < passwd_types_cnt; i++) { \ int val; \ \ if (!g_at_result_iter_next_number(&iter, &val)) \ goto error; \ \ retry[passwd_types[i]] = val; \ \ DBG("retry counter id=%d, val=%d", passwd_types[i], \ retry[passwd_types[i]]); \ } \ static void huawei_cpin_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PUK, OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK2, OFONO_SIM_PASSWORD_SIM_PIN2, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "^CPIN:")) goto error; /* Skip status since we are not interested in this */ if (!g_at_result_iter_skip_next(&iter)) goto error; /* Skip "overall counter" since we'll grab each one individually */ if (!g_at_result_iter_skip_next(&iter)) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void pinnum_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK, OFONO_SIM_PASSWORD_SIM_PIN2, OFONO_SIM_PASSWORD_SIM_PUK2, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "%PINNUM:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void zpinpuk_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+ZPINPUK:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void xpincnt_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PIN2, OFONO_SIM_PASSWORD_SIM_PUK, OFONO_SIM_PASSWORD_SIM_PUK2, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+XPINCNT:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void oercn_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "_OERCN:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void cpnnum_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; const char *line; int num; char **entries; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); for (num = 0; num < g_at_result_num_response_lines(result); num++) g_at_result_iter_next(&iter, NULL); line = g_at_result_iter_raw_line(&iter); DBG("%s", line); for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) retries[i] = -1; entries = g_strsplit(line, "; ", -1); for (num = 0; entries[num]; num++) { int retry; if (strlen(entries[num]) < 5) continue; retry = strtol(entries[num] + 5, NULL, 10); if (retry == 0 && errno == EINVAL) continue; if (g_str_has_prefix(entries[num], "PIN1=") == TRUE) retries[OFONO_SIM_PASSWORD_SIM_PIN] = retry; else if (g_str_has_prefix(entries[num], "PUK1=") == TRUE) retries[OFONO_SIM_PASSWORD_SIM_PUK] = retry; else if (g_str_has_prefix(entries[num], "PIN2=") == TRUE) retries[OFONO_SIM_PASSWORD_SIM_PIN2] = retry; else if (g_str_has_prefix(entries[num], "PUK2=") == TRUE) retries[OFONO_SIM_PASSWORD_SIM_PUK2] = retry; } g_strfreev(entries); cb(&error, retries, cbd->data); } static void at_epin_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK, OFONO_SIM_PASSWORD_SIM_PIN2, OFONO_SIM_PASSWORD_SIM_PUK2, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "*EPIN:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void at_cpinr_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t len = sizeof(at_sim_name) / sizeof(*at_sim_name); size_t i; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, NULL, cbd->data); return; } for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) retries[i] = -1; g_at_result_iter_init(&iter, result); /* Ignore +CPINRE results... */ while (g_at_result_iter_next(&iter, "+CPINR:")) { const char *name; int val; if (!g_at_result_iter_next_unquoted_string(&iter, &name)) continue; if (!g_at_result_iter_next_number(&iter, &val)) continue; for (i = 1; i < len; i++) { if (!strcmp(name, at_sim_name[i].name)) { retries[at_sim_name[i].type] = val; break; } } } cb(&error, retries, cbd->data); } static void simcom_spic_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK, OFONO_SIM_PASSWORD_SIM_PIN2, OFONO_SIM_PASSWORD_SIM_PUK2, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+SPIC:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } #define AT_PCT_SET_RETRIES(retries, pin_type, value) \ retries[pin_type] = value; \ DBG("retry counter id=%d, val=%d", pin_type, value); static void at_pct_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; struct ofono_sim *sim = cbd->user; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; enum ofono_sim_password_type pin_type; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) retries[i] = -1; pin_type = ofono_sim_get_password_type(sim); if (pin_type == OFONO_SIM_PASSWORD_NONE) { DBG("Note: No password required, returning maximum retries:"); AT_PCT_SET_RETRIES(retries, OFONO_SIM_PASSWORD_SIM_PIN, 3); AT_PCT_SET_RETRIES(retries, OFONO_SIM_PASSWORD_SIM_PIN2, 3); AT_PCT_SET_RETRIES(retries, OFONO_SIM_PASSWORD_SIM_PUK, 10); AT_PCT_SET_RETRIES(retries, OFONO_SIM_PASSWORD_SIM_PUK2, 10); goto callback; } if (g_at_result_iter_next(&iter, "#PCT:") == FALSE) goto error; if (g_at_result_iter_next_number(&iter, &retries[pin_type]) == FALSE) goto error; DBG("retry counter id=%d, val=%d", pin_type, retries[pin_type]); callback: cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void at_pnnm_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PUK, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+PNNM:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void at_qtrpin_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) retries[i] = -1; g_at_result_iter_init(&iter, result); while (g_at_result_iter_next(&iter, "+QTRPIN:")) { int pin, pin2, puk, puk2; if (!g_at_result_iter_next_number(&iter, &pin)) continue; if (!g_at_result_iter_next_number(&iter, &pin2)) continue; if (!g_at_result_iter_next_number(&iter, &puk)) continue; if (!g_at_result_iter_next_number(&iter, &puk2)) continue; retries[OFONO_SIM_PASSWORD_SIM_PIN] = pin; retries[OFONO_SIM_PASSWORD_SIM_PUK] = puk; retries[OFONO_SIM_PASSWORD_SIM_PIN2] = pin2; retries[OFONO_SIM_PASSWORD_SIM_PUK2] = puk2; } cb(&error, retries, cbd->data); } static void at_qpinc_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) retries[i] = -1; g_at_result_iter_init(&iter, result); while (g_at_result_iter_next(&iter, "+QPINC:")) { const char *name; int pin, puk; if (!g_at_result_iter_next_string(&iter, &name)) continue; if (!g_at_result_iter_next_number(&iter, &pin)) continue; if (!g_at_result_iter_next_number(&iter, &puk)) continue; if (!strcmp(name, "SC")) { retries[OFONO_SIM_PASSWORD_SIM_PIN] = pin; retries[OFONO_SIM_PASSWORD_SIM_PUK] = puk; } else if (!strcmp(name, "P2")) { retries[OFONO_SIM_PASSWORD_SIM_PIN2] = pin; retries[OFONO_SIM_PASSWORD_SIM_PUK2] = puk; } } cb(&error, retries, cbd->data); } static void upincnt_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; static enum ofono_sim_password_type password_types[] = { OFONO_SIM_PASSWORD_SIM_PIN, OFONO_SIM_PASSWORD_SIM_PIN2, OFONO_SIM_PASSWORD_SIM_PUK, OFONO_SIM_PASSWORD_SIM_PUK2, }; decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+UPINCNT:")) goto error; BUILD_PIN_RETRIES_ARRAY(password_types, ARRAY_SIZE(password_types), retries); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void gemalto_spic_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; struct ofono_sim *sim = cbd->user; ofono_sim_pin_retries_cb_t cb = cbd->cb; const char *final = g_at_result_final_response(result); GAtResultIter iter; struct ofono_error error; int retries[OFONO_SIM_PASSWORD_INVALID]; size_t i; int pin_type = ofono_sim_get_password_type(sim); decode_at_error(&error, final); if (!ok) { cb(&error, NULL, cbd->data); return; } for (i = 0; i < OFONO_SIM_PASSWORD_INVALID; i++) retries[i] = -1; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "^SPIC:")) goto error; if (!g_at_result_iter_next_number(&iter, &retries[pin_type])) goto error; DBG("Retry : %d, type : %d", retries[pin_type], pin_type); cb(&error, retries, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, cbd->data); } static void at_pin_retries_query(struct ofono_sim *sim, ofono_sim_pin_retries_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); cbd->user = sim; DBG(""); switch (sd->vendor) { case OFONO_VENDOR_XMM: case OFONO_VENDOR_IFX: if (g_at_chat_send(sd->chat, "AT+XPINCNT", xpincnt_prefix, xpincnt_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_SPEEDUP: if (g_at_chat_send(sd->chat, "AT+CPNNUM", NULL, cpnnum_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_OPTION_HSO: if (g_at_chat_send(sd->chat, "AT_OERCN?", oercn_prefix, oercn_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_HUAWEI: if (g_at_chat_send(sd->chat, "AT^CPIN?", huawei_cpin_prefix, huawei_cpin_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_ICERA: if (g_at_chat_send(sd->chat, "AT%PINNUM?", pinnum_prefix, pinnum_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_ZTE: if (g_at_chat_send(sd->chat, "AT+ZPINPUK=?", zpinpuk_prefix, zpinpuk_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_MBM: if (g_at_chat_send(sd->chat, "AT*EPIN?", epin_prefix, at_epin_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_SIMCOM: if (g_at_chat_send(sd->chat, "AT+SPIC", simcom_spic_prefix, simcom_spic_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_TELIT: if (g_at_chat_send(sd->chat, "AT#PCT", pct_prefix, at_pct_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_ALCATEL: if (g_at_chat_send(sd->chat, "AT+PNNM?", pnnm_prefix, at_pnnm_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_QUECTEL: case OFONO_VENDOR_QUECTEL_EC2X: if (g_at_chat_send(sd->chat, "AT+QPINC?", qpinc_prefix, at_qpinc_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_QUECTEL_SERIAL: if (g_at_chat_send(sd->chat, "AT+QTRPIN", qtrpin_prefix, at_qtrpin_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_UBLOX: if (g_at_chat_send(sd->chat, "AT+UPINCNT", upincnt_prefix, upincnt_cb, cbd, g_free) > 0) return; break; case OFONO_VENDOR_GEMALTO: if (g_at_chat_send(sd->chat, "AT^SPIC", gemalto_spic_prefix, gemalto_spic_cb, cbd, g_free) > 0) return; break; default: if (g_at_chat_send(sd->chat, "AT+CPINR", cpinr_prefixes, at_cpinr_cb, cbd, g_free) > 0) return; break; } g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, data); } static int needs_wavecom_sim_quirk(int vendor) { return vendor == OFONO_VENDOR_WAVECOM || vendor == OFONO_VENDOR_WAVECOM_Q2XXX; } static void at_cpin_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; struct sim_data *sd = ofono_sim_get_data(cbd->user); GAtResultIter iter; ofono_sim_passwd_cb_t cb = cbd->cb; struct ofono_error error; const char *pin_required; int pin_type = OFONO_SIM_PASSWORD_INVALID; int i; int len = sizeof(at_sim_name) / sizeof(*at_sim_name); const char *final = g_at_result_final_response(result); if (needs_wavecom_sim_quirk(sd->vendor) && ok && strlen(final) > 7) decode_at_error(&error, "OK"); else decode_at_error(&error, final); if (!ok) { cb(&error, -1, cbd->data); return; } if (needs_wavecom_sim_quirk(sd->vendor)) { /* +CPIN: */ pin_required = final + 7; } else { g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CPIN:")) { CALLBACK_WITH_FAILURE(cb, -1, cbd->data); return; } g_at_result_iter_next_unquoted_string(&iter, &pin_required); } for (i = 0; i < len; i++) { if (strcmp(pin_required, at_sim_name[i].name)) continue; pin_type = at_sim_name[i].type; break; } if (pin_type == OFONO_SIM_PASSWORD_INVALID) { CALLBACK_WITH_FAILURE(cb, -1, cbd->data); return; } DBG("crsm_pin_cb: %s", pin_required); cb(&error, pin_type, cbd->data); } static void at_pin_query(struct ofono_sim *sim, ofono_sim_passwd_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); cbd->user = sim; if (g_at_chat_send(sd->chat, "AT+CPIN?", cpin_prefix, at_cpin_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, -1, data); } static void sim_state_cb(gboolean present, gpointer user_data) { struct ofono_sim *sim = user_data; struct sim_data *sd = ofono_sim_get_data(sim); at_util_sim_state_query_free(sd->sim_state_query); sd->sim_state_query = NULL; if (present == 1) ofono_sim_initialized_notify(sim); } static void at_pin_send_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; struct ofono_sim *sim = cbd->user; struct sim_data *sd = ofono_sim_get_data(sim); ofono_sim_lock_unlock_cb_t cb = cbd->cb; struct ofono_error error; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) goto done; switch (sd->vendor) { case OFONO_VENDOR_ZTE: case OFONO_VENDOR_ALCATEL: case OFONO_VENDOR_HUAWEI: case OFONO_VENDOR_SIMCOM: case OFONO_VENDOR_SIERRA: /* * On ZTE modems, after pin is entered, SIM state is checked * by polling CPIN as their modem doesn't provide unsolicited * notification of SIM readiness. * * On SIMCOM modems, SIM is busy after pin is entered (we * got a "+CME ERROR: 14" for the "AT+CPIN?" request) and * ofono don't catch the "+CPIN: READY" message sent by the * modem when SIM is ready. So, use extra CPIN to check the * state. */ sd->sim_state_query = at_util_sim_state_query_new(sd->chat, 2, 20, sim_state_cb, sim, NULL); } done: cb(&error, cbd->data); } static void at_pin_send(struct ofono_sim *sim, const char *passwd, ofono_sim_lock_unlock_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; int ret; cbd->user = sim; snprintf(buf, sizeof(buf), "AT+CPIN=\"%s\"", passwd); ret = g_at_chat_send(sd->chat, buf, none_prefix, at_pin_send_cb, cbd, g_free); memset(buf, 0, sizeof(buf)); if (ret > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void at_pin_send_puk(struct ofono_sim *sim, const char *puk, const char *passwd, ofono_sim_lock_unlock_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; int ret; cbd->user = sim; snprintf(buf, sizeof(buf), "AT+CPIN=\"%s\",\"%s\"", puk, passwd); ret = g_at_chat_send(sd->chat, buf, none_prefix, at_pin_send_cb, cbd, g_free); memset(buf, 0, sizeof(buf)); if (ret > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void at_lock_unlock_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_lock_unlock_cb_t cb = cbd->cb; struct ofono_error error; decode_at_error(&error, g_at_result_final_response(result)); cb(&error, cbd->data); } static const char *const at_clck_cpwd_fac[] = { [OFONO_SIM_PASSWORD_SIM_PIN] = "SC", [OFONO_SIM_PASSWORD_SIM_PIN2] = "P2", [OFONO_SIM_PASSWORD_PHSIM_PIN] = "PS", [OFONO_SIM_PASSWORD_PHFSIM_PIN] = "PF", [OFONO_SIM_PASSWORD_PHNET_PIN] = "PN", [OFONO_SIM_PASSWORD_PHNETSUB_PIN] = "PU", [OFONO_SIM_PASSWORD_PHSP_PIN] = "PP", [OFONO_SIM_PASSWORD_PHCORP_PIN] = "PC", }; static void at_pin_enable(struct ofono_sim *sim, enum ofono_sim_password_type passwd_type, int enable, const char *passwd, ofono_sim_lock_unlock_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; int ret; if (!(sd->passwd_type_mask & (1 << passwd_type))) goto error; snprintf(buf, sizeof(buf), "AT+CLCK=\"%s\",%i,\"%s\"", at_clck_cpwd_fac[passwd_type], enable ? 1 : 0, passwd); ret = g_at_chat_send(sd->chat, buf, none_prefix, at_lock_unlock_cb, cbd, g_free); memset(buf, 0, sizeof(buf)); if (ret > 0) return; error: g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void at_change_passwd(struct ofono_sim *sim, enum ofono_sim_password_type passwd_type, const char *old_passwd, const char *new_passwd, ofono_sim_lock_unlock_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; int ret; if (!(sd->passwd_type_mask & (1 << passwd_type))) goto error; snprintf(buf, sizeof(buf), "AT+CPWD=\"%s\",\"%s\",\"%s\"", at_clck_cpwd_fac[passwd_type], old_passwd, new_passwd); ret = g_at_chat_send(sd->chat, buf, none_prefix, at_lock_unlock_cb, cbd, g_free); memset(buf, 0, sizeof(buf)); if (ret > 0) return; error: g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static void at_lock_status_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_query_facility_lock_cb_t cb = cbd->cb; struct ofono_error error; int locked; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, -1, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CLCK:")) { CALLBACK_WITH_FAILURE(cb, -1, cbd->data); return; } g_at_result_iter_next_number(&iter, &locked); DBG("lock_status_cb: %i", locked); cb(&error, locked, cbd->data); } static void at_query_clck(struct ofono_sim *sim, enum ofono_sim_password_type passwd_type, ofono_query_facility_lock_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; if (!(sd->passwd_type_mask & (1 << passwd_type))) goto error; snprintf(buf, sizeof(buf), "AT+CLCK=\"%s\",2", at_clck_cpwd_fac[passwd_type]); if (g_at_chat_send(sd->chat, buf, clck_prefix, at_lock_status_cb, cbd, g_free) > 0) return; error: g_free(cbd); CALLBACK_WITH_FAILURE(cb, -1, data); } static void at_clck_query_cb(gboolean ok, GAtResult *result, gpointer user) { struct ofono_sim *sim = user; struct sim_data *sd = ofono_sim_get_data(sim); GAtResultIter iter; const char *fac; if (!ok) goto done; g_at_result_iter_init(&iter, result); /* e.g. +CLCK: ("SC","FD","PN","PU","PP","PC","PF") */ if (!g_at_result_iter_next(&iter, "+CLCK:") || !g_at_result_iter_open_list(&iter)) goto done; /* Clear the default mask */ sd->passwd_type_mask = 0; /* Set the bits for s that are actually supported */ while (g_at_result_iter_next_string(&iter, &fac)) { unsigned int i; /* Find it in the list of known s */ for (i = 0; i < ARRAY_SIZE(at_clck_cpwd_fac); i++) { if (!g_strcmp0(at_clck_cpwd_fac[i], fac)) { sd->passwd_type_mask |= (1 << i); DBG("found %s", fac); break; } } } done: ofono_sim_register(sim); } static void at_discover_apps_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_list_apps_cb_t cb = cbd->cb; struct ofono_error error; const unsigned char *buffer; int len; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, NULL, 0, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CUAD:")) goto error; if (!g_at_result_iter_next_hexstring(&iter, &buffer, &len)) goto error; cb(&error, buffer, len, cbd->data); return; error: CALLBACK_WITH_FAILURE(cb, NULL, 0, cbd->data); } static void at_discover_apps(struct ofono_sim *sim, ofono_sim_list_apps_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); if (g_at_chat_send(sd->chat, "AT+CUAD", cuad_prefix, at_discover_apps_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, 0, data); } static void at_open_channel_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_open_channel_cb_t cb = cbd->cb; struct ofono_error error; int session_id = -1; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) goto error; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CCHO:")) goto error; if (!g_at_result_iter_next_number(&iter, &session_id)) goto error; cb(&error, session_id, cbd->data); return; error: cb(&error, -1, cbd->data); } static void at_open_channel(struct ofono_sim *sim, const unsigned char *aid, ofono_sim_open_channel_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char cmd[43]; int ret = 0; strcpy(cmd, "AT+CCHO=\""); ret += 9; encode_hex_own_buf(aid, 16, 0, cmd + ret); ret += 32; strcpy(cmd + ret, "\""); if (g_at_chat_send(sd->chat, cmd, ccho_prefix, at_open_channel_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, -1, data); } static void at_close_channel_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_close_channel_cb_t cb = cbd->cb; struct ofono_error error; decode_at_error(&error, g_at_result_final_response(result)); if (cb) cb(&error, cbd->data); } static void at_close_channel(struct ofono_sim *sim, int session_id, ofono_sim_close_channel_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char cmd[15]; sprintf(cmd, "AT+CCHC=%d", session_id); g_at_chat_send(sd->chat, cmd, NULL, at_close_channel_cb, cbd, g_free); } static void at_crla_read_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; GAtResultIter iter; ofono_sim_read_cb_t cb = cbd->cb; struct ofono_error error; const guint8 *response; gint sw1, sw2, len; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) { cb(&error, NULL, 0, cbd->data); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CRLA:")) { CALLBACK_WITH_FAILURE(cb, NULL, 0, cbd->data); return; } g_at_result_iter_next_number(&iter, &sw1); g_at_result_iter_next_number(&iter, &sw2); if ((sw1 != 0x90 && sw1 != 0x91 && sw1 != 0x92 && sw1 != 0x9f) || (sw1 == 0x90 && sw2 != 0x00)) { memset(&error, 0, sizeof(error)); error.type = OFONO_ERROR_TYPE_SIM; error.error = (sw1 << 8) | sw2; cb(&error, NULL, 0, cbd->data); return; } if (!g_at_result_iter_next_hexstring(&iter, &response, &len)) { CALLBACK_WITH_FAILURE(cb, NULL, 0, cbd->data); return; } DBG("crla_read_cb: %02x, %02x, %d", sw1, sw2, len); cb(&error, response, len, cbd->data); } static void at_session_read_binary(struct ofono_sim *sim, int session, int fileid, int start, int length, const unsigned char *path, unsigned int path_len, ofono_sim_read_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[64]; unsigned int len; len = snprintf(buf, sizeof(buf), "AT+CRLA=%i,176,%i,%i,%i,%i,,", session, fileid, start >> 8, start & 0xff, length); append_file_path(buf + len, path, path_len); if (g_at_chat_send(sd->chat, buf, crla_prefix, at_crla_read_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, 0, data); } static void at_session_read_record(struct ofono_sim *sim, int session_id, int fileid, int record, int length, const unsigned char *path, unsigned int path_len, ofono_sim_read_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[128]; unsigned int len; len = snprintf(buf, sizeof(buf), "AT+CRLA=%i,178,%i,%i,4,%i", session_id, fileid, record, length); append_file_path(buf + len, path, path_len); if (g_at_chat_send(sd->chat, buf, crla_prefix, at_crla_read_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, 0, data); } static void at_crla_info_cb(gboolean ok, GAtResult *result, gpointer user_data) { get_response_common_cb(ok, result, user_data, "+CRLA:"); } static void at_session_read_info(struct ofono_sim *sim, int session_id, int fileid, const unsigned char *path, unsigned int path_len, ofono_sim_file_info_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char buf[128]; unsigned int len; len = snprintf(buf, sizeof(buf), "AT+CRLA=%i,192,%i", session_id, fileid); append_file_path(buf + len, path, path_len); if (g_at_chat_send(sd->chat, buf, crla_prefix, at_crla_info_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, -1, -1, -1, NULL, EF_STATUS_INVALIDATED, data); } static void logical_access_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_logical_access_cb_t cb = cbd->cb; struct ofono_error error; const char *str_data; unsigned char *raw; gint len = 0; GAtResultIter iter; decode_at_error(&error, g_at_result_final_response(result)); if (!ok) goto error; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CGLA:")) goto error; if (!g_at_result_iter_next_number(&iter, &len)) goto error; if (!g_at_result_iter_next_string(&iter, &str_data)) goto error; raw = alloca(len / 2); decode_hex_own_buf(str_data, len, NULL, 0, raw); cb(&error, raw, len / 2, cbd->data); return; error: cb(&error, NULL, 0, cbd->data); } static void at_logical_access(struct ofono_sim *sim, int session_id, const unsigned char *pdu, unsigned int len, ofono_sim_logical_access_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); int ret = 0; char cmd[(len * 2) + 19]; ret = sprintf(cmd, "AT+CGLA=%d,%d,\"", session_id, len * 2); encode_hex_own_buf(pdu, len, 0, cmd + ret); ret += len * 2; strcpy(cmd + ret, "\""); if (g_at_chat_send(sd->chat, cmd, cgla_prefix, logical_access_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, NULL, 0, data); } static void xcmscsc_query_cb(gboolean ok, GAtResult *result, gpointer user) { struct ofono_sim *sim = user; struct sim_data *sd = ofono_sim_get_data(sim); GAtResultIter iter; int active_slot; if (!ok) goto done; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+XCMSCSC:")) goto done; g_at_result_iter_skip_next(&iter); g_at_result_iter_skip_next(&iter); g_at_result_iter_next_number(&iter, &active_slot); /* set active SIM slot */ ofono_sim_set_active_card_slot(sim, active_slot + 1); done: /* Query supported s */ g_at_chat_send(sd->chat, "AT+CLCK=?", clck_prefix, at_clck_query_cb, sim, NULL); } static void at_xcmscsc_test_cb(gboolean ok, GAtResult *result, gpointer user) { struct ofono_sim *sim = user; struct sim_data *sd = ofono_sim_get_data(sim); GAtResultIter iter; int card_slot_count; if (!ok) goto done; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+XCMSCSC:")) goto done; g_at_result_iter_skip_next(&iter); g_at_result_iter_skip_next(&iter); if (!g_at_result_iter_open_list(&iter)) goto done; g_at_result_iter_skip_next(&iter); if (!g_at_result_iter_next_number(&iter, &card_slot_count)) goto done; /* Set num slots */ ofono_sim_set_card_slot_count(sim, card_slot_count + 1); /* * enable reporting of MSIM remap status information * and enable automatic acceptance of MSIM Remap * acknowledgement */ g_at_chat_send(sd->chat, "AT+XCMSRS=2", none_prefix, NULL, NULL, NULL); /* Query active card slot */ g_at_chat_send(sd->chat, "AT+XCMSCSC?", xcmscsc_prefix, xcmscsc_query_cb, sim, NULL); return; done: /* Query supported s */ g_at_chat_send(sd->chat, "AT+CLCK=?", clck_prefix, at_clck_query_cb, sim, NULL); } static int at_sim_probe(struct ofono_sim *sim, unsigned int vendor, void *data) { GAtChat *chat = data; struct sim_data *sd; unsigned int i; sd = g_new0(struct sim_data, 1); sd->chat = g_at_chat_clone(chat); sd->vendor = vendor; ofono_sim_set_data(sim, sd); /* s supported by default */ for (i = 0; i < ARRAY_SIZE(at_clck_cpwd_fac); i++) if (at_clck_cpwd_fac[i]) sd->passwd_type_mask |= (1 << i); if (sd->vendor == OFONO_VENDOR_XMM) return g_at_chat_send(sd->chat, "AT+XCMSCSC=?", xcmscsc_prefix, at_xcmscsc_test_cb, sim, NULL) ? 0 : -1; /* Query supported s */ return g_at_chat_send(sd->chat, "AT+CLCK=?", clck_prefix, at_clck_query_cb, sim, NULL) ? 0 : -1; } static void at_sim_remove(struct ofono_sim *sim) { struct sim_data *sd = ofono_sim_get_data(sim); g_idle_remove_by_data(sim); /* Cleanup potential SIM state polling */ at_util_sim_state_query_free(sd->sim_state_query); ofono_sim_set_data(sim, NULL); g_at_chat_unref(sd->chat); g_free(sd); } static void xcmscsc_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_sim_set_active_card_slot_cb_t cb = cbd->cb; struct ofono_error error; decode_at_error(&error, g_at_result_final_response(result)); if (cb) cb(&error, cbd->data); } static void at_set_active_card_slot(struct ofono_sim *sim, unsigned int index, ofono_sim_set_active_card_slot_cb_t cb, void *data) { struct sim_data *sd = ofono_sim_get_data(sim); struct cb_data *cbd = cb_data_new(cb, data); char cmd[43]; if (sd->vendor != OFONO_VENDOR_XMM) { struct ofono_error error; error.type = OFONO_ERROR_TYPE_CME; error.error = 4; cb(&error, data); return; } /* Enable single SIM mode for indicated card slot id */ snprintf(cmd, sizeof(cmd), "AT+XCMSCSC=1,0,%u,1", index); if (g_at_chat_send(sd->chat, cmd, none_prefix, xcmscsc_cb, cbd, g_free) > 0) return; g_free(cbd); CALLBACK_WITH_FAILURE(cb, data); } static const struct ofono_sim_driver driver = { .name = "atmodem", .probe = at_sim_probe, .remove = at_sim_remove, .read_file_info = at_sim_read_info, .read_file_transparent = at_sim_read_binary, .read_file_linear = at_sim_read_record, .read_file_cyclic = at_sim_read_record, .write_file_transparent = at_sim_update_binary, .write_file_linear = at_sim_update_record, .write_file_cyclic = at_sim_update_cyclic, .read_imsi = at_read_imsi, .query_passwd_state = at_pin_query, .query_pin_retries = at_pin_retries_query, .send_passwd = at_pin_send, .reset_passwd = at_pin_send_puk, .lock = at_pin_enable, .change_passwd = at_change_passwd, .query_facility_lock = at_query_clck, .list_apps = at_discover_apps, .open_channel = at_open_channel, .close_channel = at_close_channel, .session_read_binary = at_session_read_binary, .session_read_record = at_session_read_record, .session_read_info = at_session_read_info, .logical_access = at_logical_access, .set_active_card_slot = at_set_active_card_slot }; static const struct ofono_sim_driver driver_noef = { .name = "atmodem-noef", .probe = at_sim_probe, .remove = at_sim_remove, .read_imsi = at_read_imsi, .query_passwd_state = at_pin_query, .query_pin_retries = at_pin_retries_query, .send_passwd = at_pin_send, .reset_passwd = at_pin_send_puk, .lock = at_pin_enable, .change_passwd = at_change_passwd, .query_facility_lock = at_query_clck, }; void at_sim_init(void) { ofono_sim_driver_register(&driver); ofono_sim_driver_register(&driver_noef); } void at_sim_exit(void) { ofono_sim_driver_unregister(&driver); ofono_sim_driver_unregister(&driver_noef); }