/* * * oFono - Open Source Telephony * * Copyright (C) 2014 Philip Paeps. 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 #include #include #include #include #define OFONO_API_SUBJECT_TO_CHANGE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static const char *cfun_prefix[] = { "+CFUN:", NULL }; static const char *cpin_prefix[] = { "+CPIN:", NULL }; static const char *cbc_prefix[] = { "+CBC:", NULL }; static const char *qinistat_prefix[] = { "+QINISTAT:", NULL }; static const char *cgmm_prefix[] = { "UC15", "Quectel_M95", "Quectel_MC60", "EC21", NULL }; static const char *none_prefix[] = { NULL }; static const uint8_t gsm0710_terminate[] = { 0xf9, /* open flag */ 0x03, /* channel 0 */ 0xef, /* UIH frame */ 0x05, /* 2 data bytes */ 0xc3, /* terminate 1 */ 0x01, /* terminate 2 */ 0xf2, /* crc */ 0xf9, /* close flag */ }; enum quectel_model { QUECTEL_UNKNOWN, QUECTEL_UC15, QUECTEL_M95, QUECTEL_MC60, QUECTEL_EC21, }; struct quectel_data { GAtChat *modem; GAtChat *aux; enum ofono_vendor vendor; enum quectel_model model; struct at_util_sim_state_query *sim_state_query; unsigned int sim_watch; bool sim_locked; bool sim_ready; /* used by quectel uart driver */ GIOChannel *device; GAtChat *uart; GAtMux *mux; int mux_ready_count; int initial_ldisc; struct l_gpio_writer *gpio; struct l_timeout *init_timeout; size_t init_count; guint init_cmd; }; struct dbus_hw { DBusMessage *msg; struct ofono_modem *modem; int32_t charge_status; int32_t charge_level; int32_t voltage; }; enum quectel_power_event { LOW_POWER_DOWN = -2, LOW_WARNING = -1, NORMAL_POWER_DOWN = 0, HIGH_WARNING = 1, HIGH_POWER_DOWN = 2, }; static const char dbus_hw_interface[] = OFONO_SERVICE ".quectel.Hardware"; static void quectel_debug(const char *str, void *user_data) { const char *prefix = user_data; ofono_info("%s%s", prefix, str); } static int quectel_probe_gpio(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); struct l_gpio_chip *gpiochip; uint32_t offset; const char *chip_name, *offset_str; uint32_t value = 0; DBG("%p", modem); chip_name = ofono_modem_get_string(modem, "GpioChip"); if (!chip_name) return 0; offset_str = ofono_modem_get_string(modem, "GpioOffset"); if (!offset_str) return -EINVAL; offset = strtoul(offset_str, NULL, 0); if (!offset) return -EINVAL; gpiochip = l_gpio_chip_new(chip_name); if (!gpiochip) return -ENODEV; data->gpio = l_gpio_writer_new(gpiochip, "ofono", 1, &offset, &value); l_gpio_chip_free(gpiochip); if (!data->gpio) return -EIO; return 0; } static int quectel_probe(struct ofono_modem *modem) { struct quectel_data *data; DBG("%p", modem); data = l_new(struct quectel_data, 1); ofono_modem_set_data(modem, data); return quectel_probe_gpio(modem); } static void quectel_remove(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); ofono_modem_set_data(modem, NULL); l_timeout_remove(data->init_timeout); l_gpio_writer_free(data->gpio); at_util_sim_state_query_free(data->sim_state_query); g_at_chat_unref(data->aux); g_at_chat_unref(data->modem); g_at_chat_unref(data->uart); g_at_mux_unref(data->mux); if (data->device) g_io_channel_unref(data->device); l_free(data); } static void close_mux(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); g_io_channel_unref(data->device); data->device = NULL; g_at_mux_unref(data->mux); data->mux = NULL; } static void close_ngsm(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); int fd; DBG("%p", modem); if (!data->device) return; fd = g_io_channel_unix_get_fd(data->device); /* restore initial tty line discipline */ if (ioctl(fd, TIOCSETD, &data->initial_ldisc) < 0) ofono_warn("Failed to restore line discipline"); } static void close_serial(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); uint32_t gpio_value = 0; DBG("%p", modem); at_util_sim_state_query_free(data->sim_state_query); data->sim_state_query = NULL; g_at_chat_unref(data->aux); data->aux = NULL; g_at_chat_unref(data->modem); data->modem = NULL; g_at_chat_unref(data->uart); data->uart = NULL; if (data->mux) close_mux(modem); else close_ngsm(modem); l_gpio_writer_set(data->gpio, 1, &gpio_value); ofono_modem_set_powered(modem, FALSE); } static void dbus_hw_reply_properties(struct dbus_hw *hw) { struct quectel_data *data = ofono_modem_get_data(hw->modem); DBusMessage *reply; DBusMessageIter dbus_iter; DBusMessageIter dbus_dict; DBG("%p", hw->modem); reply = dbus_message_new_method_return(hw->msg); dbus_message_iter_init_append(reply, &dbus_iter); dbus_message_iter_open_container(&dbus_iter, DBUS_TYPE_ARRAY, OFONO_PROPERTIES_ARRAY_SIGNATURE, &dbus_dict); /* * the charge status/level received from m95 and mc60 are invalid so * only return those for the UC15 modem. */ if (data->model == QUECTEL_UC15) { ofono_dbus_dict_append(&dbus_dict, "ChargeStatus", DBUS_TYPE_INT32, &hw->charge_status); ofono_dbus_dict_append(&dbus_dict, "ChargeLevel", DBUS_TYPE_INT32, &hw->charge_level); } ofono_dbus_dict_append(&dbus_dict, "Voltage", DBUS_TYPE_INT32, &hw->voltage); dbus_message_iter_close_container(&dbus_iter, &dbus_dict); __ofono_dbus_pending_reply(&hw->msg, reply); } static void cbc_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct dbus_hw *hw = user_data; GAtResultIter iter; DBG("%p", hw->modem); if (!hw->msg) return; if (!ok) goto error; g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CBC:")) goto error; /* the returned charge status is valid only for uc15 */ if (!g_at_result_iter_next_number(&iter, &hw->charge_status)) goto error; /* the returned charge level is valid only for uc15 */ if (!g_at_result_iter_next_number(&iter, &hw->charge_level)) goto error; /* now comes the millivolts */ if (!g_at_result_iter_next_number(&iter, &hw->voltage)) goto error; dbus_hw_reply_properties(hw); return; error: __ofono_dbus_pending_reply(&hw->msg, __ofono_error_failed(hw->msg)); } static DBusMessage *dbus_hw_get_properties(DBusConnection *conn, DBusMessage *msg, void *user_data) { struct dbus_hw *hw = user_data; struct quectel_data *data = ofono_modem_get_data(hw->modem); DBG("%p", hw->modem); if (hw->msg != NULL) return __ofono_error_busy(msg); if (!g_at_chat_send(data->aux, "AT+CBC", cbc_prefix, cbc_cb, hw, NULL)) return __ofono_error_failed(msg); hw->msg = dbus_message_ref(msg); return NULL; } static void voltage_handle(struct ofono_modem *modem, enum quectel_power_event event) { DBusConnection *conn = ofono_dbus_get_connection(); DBusMessage *signal; DBusMessageIter iter; const char *path = ofono_modem_get_path(modem); const char *name; const char *reason; bool close; DBG("%p", modem); switch (event) { case LOW_POWER_DOWN: close = true; name = "PowerDown"; reason = "voltagelow"; break; case LOW_WARNING: close = false; name = "PowerWarning"; reason = "voltagelow"; break; case NORMAL_POWER_DOWN: close = true; name = "PowerDown"; reason = "normal"; break; case HIGH_WARNING: close = false; name = "PowerWarning"; reason = "voltagehigh"; break; case HIGH_POWER_DOWN: close = true; name = "PowerDown"; reason = "voltagehigh"; break; default: return; } signal = dbus_message_new_signal(path, dbus_hw_interface, name); if (signal) { dbus_message_iter_init_append(signal, &iter); dbus_message_iter_append_basic(&iter, DBUS_TYPE_STRING, &reason); g_dbus_send_message(conn, signal); } if (close) close_serial(modem); } static void qind_notify(GAtResult *result, void *user_data) { struct dbus_hw *hw = user_data; GAtResultIter iter; enum quectel_power_event event; const char *type; DBG("%p", hw->modem); g_at_result_iter_init(&iter, result); g_at_result_iter_next(&iter, "+QIND:"); if (!g_at_result_iter_next_string(&iter, &type)) return; if (g_strcmp0("vbatt", type)) { if (!g_at_result_iter_next_number(&iter, &event)) return; voltage_handle(hw->modem, event); } } static void power_notify(GAtResult *result, void *user_data) { struct dbus_hw *hw = user_data; GAtResultIter iter; const char *event; DBG("%p", hw->modem); g_at_result_iter_init(&iter, result); g_at_result_iter_next(&iter, NULL); if (!g_at_result_iter_next_unquoted_string(&iter, &event)) return; DBG("event: %s", event); if (g_strcmp0(event, "UNDER_VOLTAGE POWER DOWN") == 0) voltage_handle(hw->modem, LOW_POWER_DOWN); else if (g_strcmp0(event, "UNDER_VOLTAGE WARNING") == 0) voltage_handle(hw->modem, LOW_WARNING); else if (g_strcmp0(event, "NORMAL POWER DOWN") == 0) voltage_handle(hw->modem, NORMAL_POWER_DOWN); else if (g_strcmp0(event, "OVER_VOLTAGE WARNING") == 0) voltage_handle(hw->modem, HIGH_WARNING); else if (g_strcmp0(event, "OVER_VOLTAGE POWER DOWN") == 0) voltage_handle(hw->modem, HIGH_POWER_DOWN); } static const GDBusMethodTable dbus_hw_methods[] = { { GDBUS_ASYNC_METHOD("GetProperties", NULL, GDBUS_ARGS({ "properties", "a{sv}" }), dbus_hw_get_properties) }, {} }; static const GDBusSignalTable dbus_hw_signals[] = { { GDBUS_SIGNAL("PowerDown", GDBUS_ARGS({ "reason", "s" })) }, { GDBUS_SIGNAL("PowerWarning", GDBUS_ARGS({ "reason", "s" })) }, { } }; static void dbus_hw_cleanup(void *data) { struct dbus_hw *hw = data; DBG("%p", hw->modem); if (hw->msg) __ofono_dbus_pending_reply(&hw->msg, __ofono_error_canceled(hw->msg)); l_free(hw); } static void dbus_hw_enable(struct ofono_modem *modem) { DBusConnection *conn = ofono_dbus_get_connection(); struct quectel_data *data = ofono_modem_get_data(modem); const char *path = ofono_modem_get_path(modem); struct dbus_hw *hw; DBG("%p", modem); hw = l_new(struct dbus_hw, 1); hw->modem = modem; if (!g_dbus_register_interface(conn, path, dbus_hw_interface, dbus_hw_methods, dbus_hw_signals, NULL, hw, dbus_hw_cleanup)) { ofono_error("Could not register %s interface under %s", dbus_hw_interface, path); l_free(hw); return; } g_at_chat_register(data->aux, "NORMAL POWER DOWN", power_notify, FALSE, hw, NULL); switch (data->model) { case QUECTEL_UC15: case QUECTEL_EC21: g_at_chat_register(data->aux, "+QIND", qind_notify, FALSE, hw, NULL); break; case QUECTEL_M95: case QUECTEL_MC60: g_at_chat_register(data->aux, "OVER_VOLTAGE POWER DOWN", power_notify, FALSE, hw, NULL); g_at_chat_register(data->aux, "UNDER_VOLTAGE POWER DOWN", power_notify, FALSE, hw, NULL); g_at_chat_register(data->aux, "OVER_VOLTAGE WARNING", power_notify, FALSE, hw, NULL); g_at_chat_register(data->aux, "UNDER_VOLTAGE WARNING", power_notify, FALSE, hw, NULL); break; case QUECTEL_UNKNOWN: break; } ofono_modem_add_interface(modem, dbus_hw_interface); } static void qinistat_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; struct ofono_sim *sim = ofono_modem_get_sim(modem); struct quectel_data *data = ofono_modem_get_data(modem); GAtResultIter iter; int ready = 0; int status; DBG("%p", modem); g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+QINISTAT:")) return; if (!g_at_result_iter_next_number(&iter, &status)) return; DBG("qinistat: %d", status); switch (data->model) { case QUECTEL_UC15: case QUECTEL_EC21: /* UC15 uses a bitmap of 1 + 2 + 4 = 7 */ ready = 7; break; case QUECTEL_M95: case QUECTEL_MC60: /* M95 and MC60 uses a counter to 3 */ ready = 3; break; case QUECTEL_UNKNOWN: ready = 0; break; } if (status != ready) { l_timeout_modify_ms(data->init_timeout, 500); return; } l_timeout_remove(data->init_timeout); data->init_timeout = NULL; if (data->sim_locked) { ofono_sim_initialized_notify(sim); return; } data->sim_ready = true; ofono_modem_set_powered(modem, TRUE); } static void init_timer_cb(struct l_timeout *timeout, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); g_at_chat_send(data->aux, "AT+QINISTAT", qinistat_prefix, qinistat_cb, modem, NULL); } static void sim_watch_cb(GAtResult *result, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); GAtResultIter iter; const char *cpin; DBG("%p", modem); g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CPIN:")) return; g_at_result_iter_next_unquoted_string(&iter, &cpin); if (g_strcmp0(cpin, "READY") != 0) return; g_at_chat_unregister(data->aux, data->sim_watch); data->sim_watch = 0; data->init_timeout = l_timeout_create_ms(500, init_timer_cb, modem, NULL); } static void cpin_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); const char *path = ofono_modem_get_path(modem); GAtResultIter iter; const char *cpin; DBG("%p", modem); if (!ok) { close_serial(modem); return; } g_at_result_iter_init(&iter, result); if (!g_at_result_iter_next(&iter, "+CPIN:")) { close_serial(modem); return; } g_at_result_iter_next_unquoted_string(&iter, &cpin); if (g_strcmp0(cpin, "READY") == 0) { data->init_timeout = l_timeout_create_ms(500, init_timer_cb, modem, NULL); return; } if (g_strcmp0(cpin, "SIM PIN") != 0) { close_serial(modem); return; } ofono_info("%s: sim locked", path); data->sim_locked = true; data->sim_watch = g_at_chat_register(data->aux, "+CPIN:", sim_watch_cb, FALSE, modem, NULL); ofono_modem_set_powered(modem, TRUE); } static void sim_state_cb(gboolean present, gpointer user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); const char *path = ofono_modem_get_path(modem); DBG("%p present %d", modem, present); at_util_sim_state_query_free(data->sim_state_query); data->sim_state_query = NULL; data->sim_locked = false; data->sim_ready = false; if (!present) { ofono_modem_set_powered(modem, TRUE); ofono_warn("%s: sim not present", path); return; } g_at_chat_send(data->aux, "AT+CPIN?", cpin_prefix, cpin_cb, modem, NULL); } static void cfun_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p ok %d", modem, ok); if (!ok) { close_serial(modem); return; } dbus_hw_enable(modem); data->sim_state_query = at_util_sim_state_query_new(data->aux, 2, 20, sim_state_cb, modem, NULL); } static void cfun_enable(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p ok %d", modem, ok); if (!ok) { close_serial(modem); return; } g_at_chat_send(data->aux, "AT+CFUN=4", none_prefix, cfun_cb, modem, NULL); } static void cfun_query(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); GAtResultIter iter; int cfun; DBG("%p ok %d", modem, ok); if (!ok) { close_serial(modem); return; } g_at_result_iter_init(&iter, result); if (g_at_result_iter_next(&iter, "+CFUN:") == FALSE) { close_serial(modem); return; } g_at_result_iter_next_number(&iter, &cfun); /* * The modem firmware powers up in CFUN=1 but will respond to AT+CFUN=4 * with ERROR until some amount of time (which varies with temperature) * passes. Empirical evidence suggests that the firmware will report an * unsolicited +CPIN: notification when it is ready to be useful. * * Work around this feature by only transitioning to CFUN=4 if the * modem is not in CFUN=1 or until after we've received an unsolicited * +CPIN: notification. */ if (cfun != 1) g_at_chat_send(data->aux, "AT+CFUN=4", none_prefix, cfun_enable, modem, NULL); else cfun_enable(TRUE, NULL, modem); } static void setup_aux(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); g_at_chat_set_slave(data->modem, data->aux); if (data->model == QUECTEL_EC21) { g_at_chat_send(data->aux, "ATE0; &C0; +CMEE=1", none_prefix, NULL, NULL, NULL); g_at_chat_send(data->aux, "AT+QURCCFG=\"urcport\",\"uart1\"", none_prefix, NULL, NULL, NULL); } else g_at_chat_send(data->aux, "ATE0; &C0; +CMEE=1; +QIURC=0", none_prefix, NULL, NULL, NULL); g_at_chat_send(data->aux, "AT+CFUN?", cfun_prefix, cfun_query, modem, NULL); } static int open_ttys(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); data->modem = at_util_open_device(modem, "Modem", quectel_debug, "Modem: ", NULL); if (data->modem == NULL) return -EINVAL; data->aux = at_util_open_device(modem, "Aux", quectel_debug, "Aux: ", NULL); if (data->aux == NULL) { g_at_chat_unref(data->modem); data->modem = NULL; return -EIO; } setup_aux(modem); return -EINPROGRESS; } static GAtChat *create_chat(struct ofono_modem *modem, char *debug) { struct quectel_data *data = ofono_modem_get_data(modem); GIOChannel *channel; GAtSyntax *syntax; GAtChat *chat; DBG("%p", modem); channel = g_at_mux_create_channel(data->mux); if (channel == NULL) return NULL; syntax = g_at_syntax_new_gsmv1(); chat = g_at_chat_new(channel, syntax); g_at_syntax_unref(syntax); g_io_channel_unref(channel); if (chat == NULL) return NULL; if (getenv("OFONO_AT_DEBUG")) g_at_chat_set_debug(chat, quectel_debug, debug); return chat; } static void cmux_gatmux(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); data->mux = g_at_mux_new_gsm0710_basic(data->device, 127); if (data->mux == NULL) { ofono_error("failed to create gsm0710 mux"); close_serial(modem); return; } if (getenv("OFONO_MUX_DEBUG")) g_at_mux_set_debug(data->mux, quectel_debug, "Mux: "); g_at_mux_start(data->mux); data->modem = create_chat(modem, "Modem: "); if (!data->modem) { ofono_error("failed to create modem channel"); close_serial(modem); return; } data->aux = create_chat(modem, "Aux: "); if (!data->aux) { ofono_error("failed to create aux channel"); close_serial(modem); return; } setup_aux(modem); } static void mux_ready_cb(struct l_timeout *timeout, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); struct stat st; int ret; DBG("%p", modem); /* check if the last (and thus all) virtual gsm tty's are created */ ret = stat(ofono_modem_get_string(modem, "Modem"), &st); if (ret < 0) { if (data->mux_ready_count++ < 5) { /* not ready yet; try again in 100 ms*/ l_timeout_modify_ms(timeout, 100); return; } /* not ready after 500 ms; bail out */ close_serial(modem); return; } /* virtual gsm tty's are ready */ l_timeout_remove(timeout); if (open_ttys(modem) != -EINPROGRESS) close_serial(modem); g_at_chat_set_slave(data->uart, data->modem); } static void cmux_ngsm(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); struct gsm_config gsm_config; int ldisc = N_GSM0710; int fd; DBG("%p", modem); fd = g_io_channel_unix_get_fd(data->device); /* get initial line discipline to restore after use */ if (ioctl(fd, TIOCGETD, &data->initial_ldisc) < 0) { ofono_error("Failed to get current line discipline: %s", strerror(errno)); close_serial(modem); return; } /* enable gsm 0710 multiplexing line discipline */ if (ioctl(fd, TIOCSETD, &ldisc) < 0) { ofono_error("Failed to set multiplexer line discipline: %s", strerror(errno)); close_serial(modem); return; } /* get n_gsm configuration */ if (ioctl(fd, GSMIOC_GETCONF, &gsm_config) < 0) { ofono_error("Failed to get gsm config: %s", strerror(errno)); close_serial(modem); return; } gsm_config.initiator = 1; /* cpu side is initiating multiplexing */ gsm_config.encapsulation = 0; /* basic transparency encoding */ gsm_config.mru = 127; /* 127 bytes rx mtu */ gsm_config.mtu = 127; /* 127 bytes tx mtu */ gsm_config.t1 = 10; /* 100 ms ack timer */ gsm_config.n2 = 3; /* 3 retries */ gsm_config.t2 = 30; /* 300 ms response timer */ gsm_config.t3 = 10; /* 100 ms wake up response timer */ gsm_config.i = 1; /* subset */ /* set the new configuration */ if (ioctl(fd, GSMIOC_SETCONF, &gsm_config) < 0) { ofono_error("Failed to set gsm config: %s", strerror(errno)); close_serial(modem); return; } /* * the kernel does not yet support mapping the underlying serial device * to its virtual gsm ttys, so hard-code gsmtty1 gsmtty2 for now */ ofono_modem_set_string(modem, "Modem", "/dev/gsmtty1"); ofono_modem_set_string(modem, "Aux", "/dev/gsmtty2"); /* wait for gsmtty devices to appear */ if (!l_timeout_create_ms(100, mux_ready_cb, modem, NULL)) { close_serial(modem); return; } } static void cmux_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); const char *mux = ofono_modem_get_string(modem, "Mux"); DBG("%p", modem); g_at_chat_unref(data->uart); data->uart = NULL; if (!ok) { close_serial(modem); return; } if (!mux) mux = "internal"; if (strcmp(mux, "n_gsm") == 0) { cmux_ngsm(modem); return; } if (strcmp(mux, "internal") == 0) { cmux_gatmux(modem); return; } ofono_error("unsupported mux setting: '%s'", mux); close_serial(modem); } static void cgmm_cb(int ok, GAtResult *result, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); const char *model; DBG("%p ok %d", modem, ok); if (!at_util_parse_attr(result, "", &model)) { ofono_error("Failed to query modem model"); close_serial(modem); return; } if (strcmp(model, "UC15") == 0) { DBG("%p model UC15", modem); data->vendor = OFONO_VENDOR_QUECTEL; data->model = QUECTEL_UC15; } else if (strcmp(model, "Quectel_M95") == 0) { DBG("%p model M95", modem); data->vendor = OFONO_VENDOR_QUECTEL_SERIAL; data->model = QUECTEL_M95; } else if (strcmp(model, "Quectel_MC60") == 0) { DBG("%p model MC60", modem); data->vendor = OFONO_VENDOR_QUECTEL_SERIAL; data->model = QUECTEL_MC60; } else if (strcmp(model, "EC21") == 0) { DBG("%p model EC21", modem); data->vendor = OFONO_VENDOR_QUECTEL_EC2X; data->model = QUECTEL_EC21; } else { ofono_warn("%p unknown model: '%s'", modem, model); data->vendor = OFONO_VENDOR_QUECTEL; data->model = QUECTEL_UNKNOWN; } g_at_chat_send(data->uart, "AT+CMUX=0,0,5,127,10,3,30,10,2", NULL, cmux_cb, modem, NULL); } static void ate_cb(int ok, GAtResult *result, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); g_at_chat_send(data->uart, "AT+CGMM", cgmm_prefix, cgmm_cb, modem, NULL); } static void init_cmd_cb(gboolean ok, GAtResult *result, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); const char *rts_cts; DBG("%p", modem); if (!ok) return; rts_cts = ofono_modem_get_string(modem, "RtsCts"); if (strcmp(rts_cts, "on") == 0) g_at_chat_send(data->uart, "AT+IFC=2,2; E0", none_prefix, ate_cb, modem, NULL); else g_at_chat_send(data->uart, "ATE0", none_prefix, ate_cb, modem, NULL); l_timeout_remove(data->init_timeout); data->init_timeout = NULL; } static void init_timeout_cb(struct l_timeout *timeout, void *user_data) { struct ofono_modem *modem = user_data; struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); if (data->init_count++ >= 20) { ofono_error("failed to init modem after 20 attempts"); close_serial(modem); return; } g_at_chat_retry(data->uart, data->init_cmd); l_timeout_modify_ms(timeout, 500); } static int open_serial(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); const uint32_t gpio_value = 1; const char *rts_cts; ssize_t written; int fd; DBG("%p", modem); rts_cts = ofono_modem_get_string(modem, "RtsCts"); data->uart = at_util_open_device(modem, "Device", quectel_debug, "UART: ", "Baud", "115200", "Parity", "none", "StopBits", "1", "DataBits", "8", "XonXoff", "off", "Local", "on", "Read", "on", "RtsCts", rts_cts, NULL); if (data->uart == NULL) return -EINVAL; data->device = g_at_chat_get_channel(data->uart); g_io_channel_ref(data->device); /* * terminate gsm 0710 multiplexing on the modem side to make sure it * responds to plain AT commands * */ fd = g_io_channel_unix_get_fd(data->device); written = write(fd, gsm0710_terminate, sizeof(gsm0710_terminate)); if (written != sizeof(gsm0710_terminate)) ofono_warn("Failed to terminate gsm multiplexing"); if (data->gpio && !l_gpio_writer_set(data->gpio, 1, &gpio_value)) { close_serial(modem); return -EIO; } /* * there are three different power-up scenarios: * * 1) the gpio has just been toggled on, so the modem is not ready * until it prints RDY * * 2) the modem has been on for a while and ready to respond to * commands, so there will be no RDY notification * * 3) either of the previous to scenarious is the case, but the modem * UART is not configured to a fixed bitrate. In this case it needs * a few 'AT' bytes to detect the host UART bitrate, but the RDY is * lost. * * Handle all three cases by issuing a plain AT command. The modem * answers with OK when it is ready. Create a timer to re-issue * the AT command at regular intervals until the modem answers. */ data->init_count = 0; data->init_cmd = g_at_chat_send(data->uart, "AT", none_prefix, init_cmd_cb, modem, NULL); data->init_timeout = l_timeout_create_ms(500, init_timeout_cb, modem, NULL); return -EINPROGRESS; } static int quectel_enable(struct ofono_modem *modem) { DBG("%p", modem); if (ofono_modem_get_string(modem, "Device")) return open_serial(modem); else return open_ttys(modem); } static void cfun_disable(gboolean ok, GAtResult *result, gpointer user_data) { struct ofono_modem *modem = user_data; DBG("%p", modem); close_serial(modem); } static int quectel_disable(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBusConnection *conn = ofono_dbus_get_connection(); const char *path = ofono_modem_get_path(modem); DBG("%p", modem); g_at_chat_cancel_all(data->modem); g_at_chat_unregister_all(data->modem); g_at_chat_cancel_all(data->aux); g_at_chat_unregister_all(data->aux); if (g_dbus_unregister_interface(conn, path, dbus_hw_interface)) ofono_modem_remove_interface(modem, dbus_hw_interface); g_at_chat_send(data->aux, "AT+CFUN=0", cfun_prefix, cfun_disable, modem, NULL); return -EINPROGRESS; } static void set_online_cb(gboolean ok, GAtResult *result, gpointer user_data) { struct cb_data *cbd = user_data; ofono_modem_online_cb_t cb = cbd->cb; struct ofono_error error; DBG("%p", user_data); decode_at_error(&error, g_at_result_final_response(result)); cb(&error, cbd->data); } static void quectel_set_online(struct ofono_modem *modem, ofono_bool_t online, ofono_modem_online_cb_t cb, void *user_data) { struct quectel_data *data = ofono_modem_get_data(modem); struct cb_data *cbd = cb_data_new(cb, user_data); char const *command = online ? "AT+CFUN=1" : "AT+CFUN=4"; DBG("modem %p %s", modem, online ? "online" : "offline"); if (g_at_chat_send(data->aux, command, cfun_prefix, set_online_cb, cbd, g_free) > 0) return; CALLBACK_WITH_FAILURE(cb, cbd->data); g_free(cbd); } static void quectel_pre_sim(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); struct ofono_sim *sim; DBG("%p", modem); ofono_voicecall_create(modem, data->vendor, "atmodem", data->aux); sim = ofono_sim_create(modem, data->vendor, "atmodem", data->aux); if (data->sim_locked || data->sim_ready) ofono_sim_inserted_notify(sim, true); if (data->sim_ready) ofono_sim_initialized_notify(sim); } static void quectel_post_sim(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); struct ofono_gprs *gprs; struct ofono_gprs_context *gc; DBG("%p", modem); gprs = ofono_gprs_create(modem, data->vendor, "atmodem", data->aux); gc = ofono_gprs_context_create(modem, data->vendor, "atmodem", data->modem); if (gprs && gc) ofono_gprs_add_context(gprs, gc); ofono_sms_create(modem, data->vendor, "atmodem", data->aux); ofono_phonebook_create(modem, data->vendor, "atmodem", data->aux); ofono_call_volume_create(modem, data->vendor, "atmodem", data->aux); if (data->model == QUECTEL_EC21) { ofono_ussd_create(modem, data->vendor, "atmodem", data->aux); ofono_lte_create(modem, data->vendor, "atmodem", data->aux); } } static void quectel_post_online(struct ofono_modem *modem) { struct quectel_data *data = ofono_modem_get_data(modem); DBG("%p", modem); ofono_netreg_create(modem, 0, "atmodem", data->aux); } static struct ofono_modem_driver quectel_driver = { .name = "quectel", .probe = quectel_probe, .remove = quectel_remove, .enable = quectel_enable, .disable = quectel_disable, .set_online = quectel_set_online, .pre_sim = quectel_pre_sim, .post_sim = quectel_post_sim, .post_online = quectel_post_online, }; static int quectel_init(void) { return ofono_modem_driver_register(&quectel_driver); } static void quectel_exit(void) { ofono_modem_driver_unregister(&quectel_driver); } OFONO_PLUGIN_DEFINE(quectel, "Quectel driver", VERSION, OFONO_PLUGIN_PRIORITY_DEFAULT, quectel_init, quectel_exit)