/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * libmm -- Access modem status & information from glib applications * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301 USA. * * Copyright (C) 2011 Aleksander Morgado */ #include #include "mm-modem.h" /** * mm_modem_get_path: * @self: A #MMModem. * * Gets the DBus path of the #MMModem object. * * Returns: (transfer none): The DBus path of the #MMModem object. */ const gchar * mm_modem_get_path (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return g_dbus_object_get_object_path (G_DBUS_OBJECT (self)); } /** * mm_modem_get_sim_path: * @self: A #MMModem. * * Gets the DBus path of the #MMSim handled in this #MMModem. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_sim_path() if on another thread. * * Returns: (transfer none): The DBus path of the #MMSim handled in this #MMModem, or %NULL if none available. */ const gchar * mm_modem_get_sim_path (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_sim ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_sim_path: * @self: A #MMModem. * * Gets a copy of the DBus path of the #MMSim handled in this #MMModem. * * Returns: (transfer full): The DBus path of the #MMSim handled in this #MMModem, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_sim_path (MMModem *self) { gchar *sim_path; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); sim_path = mm_gdbus_modem_dup_sim (modem); g_object_unref (modem); return sim_path; } /** * mm_modem_get_modem_capabilities: * @self: A #MMModem. * * Gets the list of generic families of access technologies supported by this #MMModem. * * Not all capabilities are available at the same time however; some * modems require a firmware reload or other reinitialization to switch * between e.g. CDMA/EVDO and GSM/UMTS. * * Returns: A bitmask of #MMModemCapability flags. */ MMModemCapability mm_modem_get_modem_capabilities (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_CAPABILITY_NONE); return (mm_gdbus_modem_get_modem_capabilities ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_current_capabilities: * @self: A #MMModem. * * Gets the list of generic families of access technologies supported by this #MMModem * without a firmware reload or reinitialization. * * Returns: A bitmask of #MMModemCapability flags. */ MMModemCapability mm_modem_get_current_capabilities (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_CAPABILITY_NONE); return (mm_gdbus_modem_get_current_capabilities ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_max_bearers: * @self: a #MMModem. * * Gets the maximum number of defined packet data bearers this #MMModem supports. * * This is not the number of active/connected bearers the modem supports, * but simply the number of bearers that may be defined at any given time. * For example, POTS and CDMA2000-only devices support only one bearer, * while GSM/UMTS devices typically support three or more, and any * LTE-capable device (whether LTE-only, GSM/UMTS-capable, and/or * CDMA2000-capable) also typically support three or more. * * Returns: the maximum number of defined packet data bearers. */ guint mm_modem_get_max_bearers (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), 0); return (mm_gdbus_modem_get_max_bearers ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_max_bearers: * @self: a #MMModem. * * Gets the maximum number of active packet data bearers this #MMModem supports. * * POTS and CDMA2000-only devices support one active bearer, while GSM/UMTS * and LTE-capable devices (including LTE/CDMA devices) typically support * at least two active bearers. * * Returns: the maximum number of defined packet data bearers. */ guint mm_modem_get_max_active_bearers (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), 0); return (mm_gdbus_modem_get_max_active_bearers ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_manufacturer: * @self: A #MMModem. * * Gets the equipment manufacturer, as reported by this #MMModem. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_manufacturer() if on another thread. * * Returns: (transfer none): The equipment manufacturer, or %NULL if none available. */ const gchar * mm_modem_get_manufacturer (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_manufacturer ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_manufacturer: * @self: A #MMModem. * * Gets a copy of the equipment manufacturer, as reported by this #MMModem. * * Returns: (transfer full): The equipment manufacturer, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_manufacturer (MMModem *self) { gchar *manufacturer; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); manufacturer = mm_gdbus_modem_dup_manufacturer (modem); g_object_unref (modem); return manufacturer; } /** * mm_modem_get_model: * @self: A #MMModem. * * Gets the equipment model, as reported by this #MMModem. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_model() if on another thread. * * Returns: (transfer none): The equipment model, or %NULL if none available. */ const gchar * mm_modem_get_model (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_model ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_model: * @self: A #MMModem. * * Gets a copy of the equipment model, as reported by this #MMModem. * * Returns: (transfer full): The equipment model, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_model (MMModem *self) { gchar *model; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); model = mm_gdbus_modem_dup_model (modem); g_object_unref (modem); return model; } /** * mm_modem_get_revision: * @self: A #MMModem. * * Gets the equipment revision, as reported by this #MMModem. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_revision() if on another thread. * * Returns: (transfer none): The equipment revision, or %NULL if none available. */ const gchar * mm_modem_get_revision (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_revision ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_revision: * @self: A #MMModem. * * Gets a copy of the equipment revision, as reported by this #MMModem. * * Returns: (transfer full): The equipment revision, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_revision (MMModem *self) { gchar *revision; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); revision = mm_gdbus_modem_dup_revision (modem); g_object_unref (modem); return revision; } /** * mm_modem_get_device_identifier: * @self: A #MMModem. * * Gets a best-effort device identifier based on various device information like * model name, firmware revision, USB/PCI/PCMCIA IDs, and other properties. * * This ID is not guaranteed to be unique and may be shared between * identical devices with the same firmware, but is intended to be "unique * enough" for use as a casual device identifier for various user * experience operations. * * This is not the device's IMEI or ESN since those may not be available * before unlocking the device via a PIN. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_device_identifier() if on another thread. * * Returns: (transfer none): The device identifier, or %NULL if none available. */ const gchar * mm_modem_get_device_identifier (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_device_identifier ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_device_identifier: * @self: A #MMModem. * * Gets a copy of a best-effort device identifier based on various device information * like model name, firmware revision, USB/PCI/PCMCIA IDs, and other properties. * * This ID is not guaranteed to be unique and may be shared between * identical devices with the same firmware, but is intended to be "unique * enough" for use as a casual device identifier for various user * experience operations. * * This is not the device's IMEI or ESN since those may not be available * before unlocking the device via a PIN. * * Returns: (transfer full): The device identifier, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_device_identifier (MMModem *self) { gchar *device_identifier; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); device_identifier = mm_gdbus_modem_dup_device_identifier (modem); g_object_unref (modem); return device_identifier; } /** * mm_modem_get_device: * @self: A #MMModem. * * Gets the physical modem device reference (ie, USB, PCI, PCMCIA device), which * may be dependent upon the operating system. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_device() if on another thread. * * Returns: (transfer none): The device, or %NULL if none available. */ const gchar * mm_modem_get_device (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_device ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_device: * @self: A #MMModem. * * Gets a copy of the physical modem device reference (ie, USB, PCI, PCMCIA device), which * may be dependent upon the operating system. * * Returns: (transfer full): The device, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_device (MMModem *self) { gchar *device; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); device = mm_gdbus_modem_dup_device (modem); g_object_unref (modem); return device; } /** * mm_modem_get_driver: * @self: A #MMModem. * * Gets the Operating System device driver handling communication with the modem * hardware. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_driver() if on another thread. * * Returns: (transfer none): The driver, or %NULL if none available. */ const gchar * mm_modem_get_driver (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_driver ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_driver: * @self: A #MMModem. * * Gets a copy of the Operating System device driver handling communication with the modem * hardware. * * Returns: (transfer full): The driver, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_driver (MMModem *self) { gchar *driver; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); driver = mm_gdbus_modem_dup_driver (modem); g_object_unref (modem); return driver; } /** * mm_modem_get_plugin: * @self: A #MMModem. * * Gets the name of the plugin handling this #MMModem. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_plugin() if on another thread. * * Returns: (transfer none): The name of the plugin, or %NULL if none available. */ const gchar * mm_modem_get_plugin (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_plugin ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_plugin: * @self: A #MMModem. * * Gets a copy of the name of the plugin handling this #MMModem. * * Returns: (transfer full): The name of the plugin, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_plugin (MMModem *self) { gchar *plugin; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); plugin = mm_gdbus_modem_dup_plugin (modem); g_object_unref (modem); return plugin; } /** * mm_modem_get_equipment_identifier: * @self: A #MMModem. * * Gets the identity of the #MMModem. * * This will be the IMEI number for GSM devices and the hex-format ESN/MEID * for CDMA devices. * * It is only safe to use this function on the thread where @self was constructed. Use mm_modem_dup_equipment_identifier() if on another thread. * * Returns: (transfer none): The equipment identifier, or %NULL if none available. */ const gchar * mm_modem_get_equipment_identifier (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); return (mm_gdbus_modem_get_equipment_identifier ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_dup_equipment_identifier: * @self: A #MMModem. * * Gets a copy of the identity of the #MMModem. * * This will be the IMEI number for GSM devices and the hex-format ESN/MEID * for CDMA devices. * * Returns: (transfer full): The equipment identifier, or %NULL if none available. The returned value should be freed with g_free(). */ gchar * mm_modem_dup_equipment_identifier (MMModem *self) { gchar *equipment_identifier; MmGdbusModem *modem; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); modem = mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)); equipment_identifier = mm_gdbus_modem_dup_equipment_identifier (modem); g_object_unref (modem); return equipment_identifier; } /** * mm_modem_get_unlock_required: * @self: A #MMModem. * * Gets current lock state of the #MMModemm. * * Returns: A #MMModemLock value, specifying the current lock state. */ MMModemLock mm_modem_get_unlock_required (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_LOCK_UNKNOWN); return (mm_gdbus_modem_get_unlock_required ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_unlock_retries: * @self: A #MMModem. * * Gets the number of unlock retries remaining for the lock code given by the * UnlockRequired property (if any), or 999 if the device does not support reporting * unlock retries. * * Returns: The number of unlock retries. */ guint mm_modem_get_unlock_retries (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), 0); return (mm_gdbus_modem_get_unlock_retries ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_state: * @self: A #MMModem. * * Gets the overall state of the #MMModem. * * Returns: A #MMModemState value. */ MMModemState mm_modem_get_state (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_STATE_UNKNOWN); return (mm_gdbus_modem_get_state ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_access_technology: * @self: A #MMModem. * * Gets the current network access technology used by the #MMModem to communicate * with the network. * * Returns: A ##MMModemAccessTech value. */ MMModemAccessTech mm_modem_get_access_technology (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_ACCESS_TECH_UNKNOWN); return (mm_gdbus_modem_get_access_technology ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_signal_quality: * @self: A #MMModem. * @recent: (out): Return location for the flag specifying if the signal quality value was recent or not. * * Gets the signal quality value in percent (0 - 100) of the dominant access technology * the #MMModem is using to communicate with the network. * * Always 0 for POTS devices. * * Returns: The signal quality. */ guint mm_modem_get_signal_quality (MMModem *self, gboolean *recent) { GVariant *variant; gboolean is_recent = FALSE; guint quality = 0; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), 0); variant = (mm_gdbus_modem_get_signal_quality ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); if (variant) { g_variant_get (variant, "(ub)", &quality, &is_recent); } if (recent) *recent = is_recent; return quality; } /** * mm_modem_get_supported_modes: * @self: A #MMModem. * * Gets the list of modes specifying the access technologies supported by the #MMModem. * * For POTS devices, only #MM_MODEM_MODE_ANY will be returned. * * Returns: A bitmask of #MMModemMode values. */ MMModemMode mm_modem_get_supported_modes (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_MODE_NONE); return (mm_gdbus_modem_get_supported_modes ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_allowed_modes: * @self: A #MMModem. * * Gets the list of modes specifying the access technologies (eg 2G/3G/4G preference) * the #MMModem is currently allowed to use when connecting to a network. * * For POTS devices, only the #MM_MODEM_MODE_ANY is supported. * * Returns: A bitmask of #MMModemMode values. */ MMModemMode mm_modem_get_allowed_modes (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_MODE_NONE); return (mm_gdbus_modem_get_allowed_modes ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_preferred_mode: * @self: A #MMModem. * * Get the preferred access technology (eg 2G/3G/4G preference), among * the ones defined in the allowed modes. * * Returns: A single #MMModemMode value. */ MMModemMode mm_modem_get_preferred_mode (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_MODE_NONE); return (mm_gdbus_modem_get_preferred_mode ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_supported_bands: * @self: A #MMModem. * * Gets the list of radio frequency and technology bands supported by the #MMModem. * * For POTS devices, only #MM_MODEM_BAND_ANY will be returned. * * Returns: A bitmask of #MMModemBand values. */ MMModemBand mm_modem_get_supported_bands (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_MODE_NONE); return (mm_gdbus_modem_get_supported_bands ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } /** * mm_modem_get_allowed_bands: * @self: A #MMModem. * * Gets the list of radio frequency and technology bands the #MMModem is currently * allowed to use when connecting to a network. * * For POTS devices, only the #MM_MODEM_BAND_ANY band is supported. * * Returns: A bitmask of #MMModemBand values. */ MMModemBand mm_modem_get_allowed_bands (MMModem *self) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), MM_MODEM_MODE_NONE); return (mm_gdbus_modem_get_allowed_bands ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))); } #define BOOL_REPLY_READY_FN(NAME) \ static void \ common_##NAME##_ready (MmGdbusModem *modem_iface_proxy, \ GAsyncResult *res, \ GSimpleAsyncResult *simple) \ { \ GError *error = NULL; \ \ if (mm_gdbus_modem_call_##NAME##_finish ( \ modem_iface_proxy, \ res, \ &error)) \ g_simple_async_result_take_error (simple, error); \ else \ g_simple_async_result_set_op_res_gboolean (simple, TRUE); \ \ /* balance ref count */ \ g_object_unref (modem_iface_proxy); \ g_simple_async_result_complete (simple); \ g_object_unref (simple); \ } #define BOOL_REPLY_FINISH_FN(NAME) \ gboolean \ mm_modem_##NAME##_finish (MMModem *self, \ GAsyncResult *res, \ GError **error) \ { \ g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), FALSE); \ \ if (g_simple_async_result_propagate_error (G_SIMPLE_ASYNC_RESULT (res), error)) \ return FALSE; \ \ return g_simple_async_result_get_op_res_gboolean (G_SIMPLE_ASYNC_RESULT (res)); \ } BOOL_REPLY_READY_FN (enable) /** * mm_modem_enable_finish: * @self: A #MMModem. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to mm_modem_enable(). * @error: Return location for error or %NULL. * * Finishes an operation started with mm_modem_enable(). * * Returns: (skip): %TRUE if the modem was properly enabled, %FALSE if @error is set. */ BOOL_REPLY_FINISH_FN (enable) /** * mm_modem_enable: * @self: A #MMModem. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously tries to enable the #MMModem. When enabled, the modem's radio is * powered on and data sessions, voice calls, location services, and Short Message * Service may be available. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call mm_modem_enable_finish() to get the result of the operation. * * See mm_modem_enable_sync() for the synchronous, blocking version of this method. */ void mm_modem_enable (MMModem *self, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_enable); mm_gdbus_modem_call_enable ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ TRUE, cancellable, (GAsyncReadyCallback)common_enable_ready, result); } /** * mm_modem_enable_sync: * @self: A #MMModem. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously tries to enable the #MMModem. When enabled, the modem's radio is * powered on and data sessions, voice calls, location services, and Short Message * Service may be available. * * The calling thread is blocked until a reply is received. See mm_modem_enable() * for the asynchronous version of this method. * * Returns: (skip): %TRUE if the modem was properly enabled, %FALSE if @error is set. */ gboolean mm_modem_enable_sync (MMModem *self, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_enable_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), TRUE, cancellable, error)); } static void modem_disable_ready (MmGdbusModem *modem_iface_proxy, GAsyncResult *res, GSimpleAsyncResult *simple) { GError *error = NULL; if (mm_gdbus_modem_call_enable_finish ( modem_iface_proxy, res, &error)) g_simple_async_result_take_error (simple, error); else g_simple_async_result_set_op_res_gboolean (simple, TRUE); /* balance ref count */ g_object_unref (modem_iface_proxy); g_simple_async_result_complete (simple); g_object_unref (simple); } /** * mm_modem_disable_finish: * @self: A #MMModem. * @res: The #GAsyncResult obtained from the #GAsyncReadyCallback passed to mm_modem_disable(). * @error: Return location for error or %NULL. * * Finishes an operation started with mm_modem_disable(). * * Returns: (skip): %TRUE if the modem was properly disabled, %FALSE if @error is set. */ BOOL_REPLY_FINISH_FN (disable) /** * mm_modem_disable: * @self: A #MMModem. * @cancellable: (allow-none): A #GCancellable or %NULL. * @callback: A #GAsyncReadyCallback to call when the request is satisfied or %NULL. * @user_data: User data to pass to @callback. * * Asynchronously tries to disable the #MMModem. When disabled, the modem enters * low-power state and no network-related operations are available. * * When the operation is finished, @callback will be invoked in the thread-default main loop of the thread you are calling this method from. * You can then call mm_modem_disable_finish() to get the result of the operation. * * See mm_modem_disable_sync() for the synchronous, blocking version of this method. */ void mm_modem_disable (MMModem *self, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_disable); mm_gdbus_modem_call_enable ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ FALSE, cancellable, (GAsyncReadyCallback)modem_disable_ready, result); } /** * mm_modem_disable_sync: * @self: A #MMModem. * @cancellable: (allow-none): A #GCancellable or %NULL. * @error: Return location for error or %NULL. * * Synchronously tries to disable the #MMModem. When disabled, the modem enters * low-power state and no network-related operations are available. * * The calling thread is blocked until a reply is received. See mm_modem_disable() * for the asynchronous version of this method. * * Returns: (skip): %TRUE if the modem was properly disabled, %FALSE if @error is set. */ gboolean mm_modem_disable_sync (MMModem *self, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_enable_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), FALSE, cancellable, error)); } static void create_bearer_ready (MmGdbusModem *modem_iface_proxy, GAsyncResult *res, GSimpleAsyncResult *simple) { GError *error = NULL; gchar *path = NULL; if (mm_gdbus_modem_call_create_bearer_finish ( modem_iface_proxy, &path, res, &error)) { g_simple_async_result_take_error (simple, error); g_free (path); } else g_simple_async_result_set_op_res_gpointer (simple, path, NULL); /* balance ref count */ g_object_unref (modem_iface_proxy); g_simple_async_result_complete (simple); g_object_unref (simple); } void mm_modem_create_bearer (MMModem *self, GVariant *properties, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_create_bearer); mm_gdbus_modem_call_create_bearer ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ properties, cancellable, (GAsyncReadyCallback)create_bearer_ready, result); } gboolean mm_modem_create_bearer_finish (MMModem *self, gchar **out_path, GAsyncResult *res, GError **error) { gchar *path; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), FALSE); if (g_simple_async_result_propagate_error (G_SIMPLE_ASYNC_RESULT (res), error)) return FALSE; path = g_simple_async_result_get_op_res_gpointer (G_SIMPLE_ASYNC_RESULT (res)); if (!out_path) g_free (path); else *out_path = path; return TRUE; } gboolean mm_modem_create_bearer_sync (MMModem *self, GVariant *properties, gchar **out_path, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_create_bearer_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), properties, out_path, cancellable, error)); } BOOL_REPLY_READY_FN (delete_bearer) BOOL_REPLY_FINISH_FN (delete_bearer) void mm_modem_delete_bearer (MMModem *self, const gchar *bearer, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_delete_bearer); mm_gdbus_modem_call_delete_bearer ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ bearer, cancellable, (GAsyncReadyCallback)common_delete_bearer_ready, result); } gboolean mm_modem_delete_bearer_sync (MMModem *self, const gchar *bearer, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_delete_bearer_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), bearer, cancellable, error)); } BOOL_REPLY_READY_FN (reset) BOOL_REPLY_FINISH_FN (reset) void mm_modem_reset (MMModem *self, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_reset); mm_gdbus_modem_call_reset ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ cancellable, (GAsyncReadyCallback)common_reset_ready, result); } gboolean mm_modem_reset_sync (MMModem *self, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_reset_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), cancellable, error)); } BOOL_REPLY_READY_FN (factory_reset) BOOL_REPLY_FINISH_FN (factory_reset) void mm_modem_factory_reset (MMModem *self, const gchar *code, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_factory_reset); mm_gdbus_modem_call_factory_reset ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ code, cancellable, (GAsyncReadyCallback)common_factory_reset_ready, result); } gboolean mm_modem_factory_reset_sync (MMModem *self, const gchar *code, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_factory_reset_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), code, cancellable, error)); } BOOL_REPLY_READY_FN (set_allowed_modes) BOOL_REPLY_FINISH_FN (set_allowed_modes) void mm_modem_set_allowed_modes (MMModem *self, MMModemMode modes, MMModemMode preferred, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_set_allowed_modes); mm_gdbus_modem_call_set_allowed_modes ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ modes, preferred, cancellable, (GAsyncReadyCallback)common_set_allowed_modes_ready, result); } gboolean mm_modem_set_allowed_modes_sync (MMModem *self, MMModemMode modes, MMModemMode preferred, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_set_allowed_modes_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), modes, preferred, cancellable, error)); } BOOL_REPLY_READY_FN (set_allowed_bands) BOOL_REPLY_FINISH_FN (set_allowed_bands) void mm_modem_set_allowed_bands (MMModem *self, MMModemBand bands, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_set_allowed_bands); mm_gdbus_modem_call_set_allowed_bands ( mm_gdbus_object_get_modem (MM_GDBUS_OBJECT (self)), /* unref later */ bands, cancellable, (GAsyncReadyCallback)common_set_allowed_bands_ready, result); } gboolean mm_modem_set_allowed_bands_sync (MMModem *self, MMModemBand bands, GCancellable *cancellable, GError **error) { return (mm_gdbus_modem_call_set_allowed_bands_sync ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)), bands, cancellable, error)); } static void modem_get_sim_ready (GDBusConnection *connection, GAsyncResult *res, GSimpleAsyncResult *simple) { GError *error = NULL; MMSim *sim; sim = mm_gdbus_sim_proxy_new_finish (res, &error); if (error) g_simple_async_result_take_error (simple, error); else g_simple_async_result_set_op_res_gpointer (simple, sim, NULL); g_simple_async_result_complete (simple); g_object_unref (simple); } void mm_modem_get_sim (MMModem *self, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GSimpleAsyncResult *result; const gchar *sim_path; g_return_if_fail (MM_GDBUS_IS_OBJECT (self)); result = g_simple_async_result_new (G_OBJECT (self), callback, user_data, mm_modem_get_sim); sim_path = mm_modem_get_sim_path (self); if (!sim_path) { g_simple_async_result_set_op_res_gpointer (result, NULL, NULL); g_simple_async_result_complete_in_idle (result); g_object_unref (result); return; } mm_gdbus_sim_proxy_new ( g_dbus_object_proxy_get_connection ( G_DBUS_OBJECT_PROXY ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))), G_DBUS_PROXY_FLAGS_DO_NOT_AUTO_START, MM_DBUS_SERVICE, sim_path, cancellable, (GAsyncReadyCallback)modem_get_sim_ready, result); } MMSim * mm_modem_get_sim_finish (MMModem *self, GAsyncResult *res, GError **error) { g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); if (g_simple_async_result_propagate_error (G_SIMPLE_ASYNC_RESULT (res), error)) return NULL; return g_simple_async_result_get_op_res_gpointer (G_SIMPLE_ASYNC_RESULT (res)); } MMSim * mm_modem_get_sim_sync (MMModem *self, GCancellable *cancellable, GError **error) { const gchar *sim_path; g_return_val_if_fail (MM_GDBUS_IS_OBJECT (self), NULL); sim_path = mm_modem_get_sim_path (self); if (!sim_path) return NULL; return (mm_gdbus_sim_proxy_new_sync ( g_dbus_object_proxy_get_connection ( G_DBUS_OBJECT_PROXY ( mm_gdbus_object_peek_modem (MM_GDBUS_OBJECT (self)))), G_DBUS_PROXY_FLAGS_DO_NOT_AUTO_START, MM_DBUS_SERVICE, sim_path, cancellable, error)); }