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Diffstat (limited to '')
-rw-r--r-- | plugins/eos-updater/gs-plugin-eos-updater.c | 1134 |
1 files changed, 1134 insertions, 0 deletions
diff --git a/plugins/eos-updater/gs-plugin-eos-updater.c b/plugins/eos-updater/gs-plugin-eos-updater.c new file mode 100644 index 0000000..e4c6260 --- /dev/null +++ b/plugins/eos-updater/gs-plugin-eos-updater.c @@ -0,0 +1,1134 @@ +/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- + * vi:set noexpandtab tabstop=8 shiftwidth=8: + * + * Copyright (C) 2016-2019 Endless Mobile, Inc + * + * Authors: + * Joaquim Rocha <jrocha@endlessm.com> + * Philip Withnall <withnall@endlessm.com> + * + * Licensed under the GNU General Public License Version 2 + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * 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 Street, Fifth Floor, Boston, MA 02110-1301 USA. + */ + +#include <config.h> +#include <gio/gio.h> +#include <glib.h> +#include <glib/gi18n.h> +#include <glib-object.h> +#include <gnome-software.h> +#include <gs-plugin.h> +#include <gs-utils.h> +#include <math.h> +#include <ostree.h> + +#include "gs-eos-updater-generated.h" +#include "gs-plugin-eos-updater.h" +#include "gs-plugin-private.h" + +/* + * SECTION: + * Plugin to poll for, download and apply OS updates using the `eos-updater` + * service when running on Endless OS. + * + * This plugin is only useful on Endless OS. + * + * It creates a proxy for the `eos-updater` D-Bus service, which implements a + * basic state machine which progresses through several states in order to + * download updates: `Ready` (doing nothing) → `Poll` (checking for updates) → + * `Fetch` (downloading an update) → `Apply` (deploying the update’s OSTree, + * before a reboot). Any state may transition to the `Error` state at any time, + * and the daemon may disappear at any time. + * + * This plugin follows the state transitions signalled by the daemon, and + * updates the state of a single #GsApp instance (`os_upgrade`) to reflect the + * OS upgrade in the UI. + * + * Calling gs_plugin_eos_updater_refresh_metadata_async() will result in this + * plugin calling the `Poll()` method on the `eos-updater` daemon to check for a + * new update. + * + * Calling gs_plugin_app_upgrade_download() will result in this plugin calling + * a sequence of methods on the `eos-updater` daemon to check for, download and + * apply an update. Typically, gs_plugin_app_upgrade_download() should be called + * once `eos-updater` is already in the `UpdateAvailable` state. It will report + * progress information, with the first 75 percentage points of the progress + * reporting the download progress, and the final 25 percentage points reporting + * the OSTree deployment progress. The final 25 percentage points are currently + * faked because we can’t get reasonable progress data out of OSTree. + * + * The proxy object (`updater_proxy`) uses the thread-default main context from + * the gs_plugin_eos_updater_setup() function, which is currently the global default main + * context from gnome-software’s main thread. This means all the signal + * callbacks from the proxy will be executed in the main thread, and *must not + * block*. + * + * Asynchronous plugin vfuncs (such as + * gs_plugin_eos_updater_refresh_metadata_async()) are run in gnome-software’s + * main thread and *must not block*. As they all call D-Bus methods, the work + * they do is minimal and hence is OK to happen in the main thread. + * + * The other functions (gs_plugin_app_upgrade_download(), + * etc.) are called in #GTask worker threads. They are allowed to call methods + * on the proxy; the main thread is only allowed to receive signals and check + * properties on the proxy, to avoid blocking. Consequently, worker threads need + * to block on the main thread receiving state change signals from + * `eos-updater`. Receipt of these signals is notified through + * `state_change_cond`. This means that all functions which access + * `GsPluginEosUpdater` must lock it using the `mutex`. + * + * `updater_proxy`, `os_upgrade` and `cancellable` are only set in + * gs_plugin_eos_updater_setup(), and are both internally thread-safe — so they can both be + * dereferenced and have their methods called from any thread without + * necessarily holding `mutex`. + * + * Cancellation of any operations on the `eos-updater` daemon (polling, fetching + * or applying) is implemented by calling the `Cancel()` method on it. This is + * permanently connected to the private `cancellable` #GCancellable instance, + * which persists for the lifetime of the plugin. The #GCancellable instances + * for various operations can be temporarily chained to it for the duration of + * each operation. + * + * FIXME: Once all methods are made asynchronous, the locking can be dropped + * from this plugin. + */ + +static const guint max_progress_for_update = 75; /* percent */ + +typedef enum { + EOS_UPDATER_STATE_NONE = 0, + EOS_UPDATER_STATE_READY, + EOS_UPDATER_STATE_ERROR, + EOS_UPDATER_STATE_POLLING, + EOS_UPDATER_STATE_UPDATE_AVAILABLE, + EOS_UPDATER_STATE_FETCHING, + EOS_UPDATER_STATE_UPDATE_READY, + EOS_UPDATER_STATE_APPLYING_UPDATE, + EOS_UPDATER_STATE_UPDATE_APPLIED, +} EosUpdaterState; +#define EOS_UPDATER_N_STATES (EOS_UPDATER_STATE_UPDATE_APPLIED + 1) + +static const gchar * +eos_updater_state_to_str (EosUpdaterState state) +{ + const gchar * const eos_updater_state_str[] = { + "None", + "Ready", + "Error", + "Polling", + "UpdateAvailable", + "Fetching", + "UpdateReady", + "ApplyingUpdate", + "UpdateApplied", + }; + + G_STATIC_ASSERT (G_N_ELEMENTS (eos_updater_state_str) == EOS_UPDATER_N_STATES); + + g_return_val_if_fail ((gint) state < EOS_UPDATER_N_STATES, "unknown"); + return eos_updater_state_str[state]; +} + +static void +gs_eos_updater_error_convert (GError **perror) +{ + GError *error = perror != NULL ? *perror : NULL; + + /* not set */ + if (error == NULL) + return; + + /* parse remote eos-updater error */ + if (g_dbus_error_is_remote_error (error)) { + g_autofree gchar *remote_error = g_dbus_error_get_remote_error (error); + + g_dbus_error_strip_remote_error (error); + + if (g_str_equal (remote_error, "com.endlessm.Updater.Error.WrongState")) { + error->code = GS_PLUGIN_ERROR_FAILED; + } else if (g_str_equal (remote_error, "com.endlessm.Updater.Error.LiveBoot") || + g_str_equal (remote_error, "com.endlessm.Updater.Error.NotOstreeSystem") || + g_str_equal (remote_error, "org.freedesktop.DBus.Error.ServiceUnknown")) { + error->code = GS_PLUGIN_ERROR_NOT_SUPPORTED; + } else if (g_str_equal (remote_error, "com.endlessm.Updater.Error.WrongConfiguration")) { + error->code = GS_PLUGIN_ERROR_FAILED; + } else if (g_str_equal (remote_error, "com.endlessm.Updater.Error.Fetching")) { + error->code = GS_PLUGIN_ERROR_DOWNLOAD_FAILED; + } else if (g_str_equal (remote_error, "com.endlessm.Updater.Error.MalformedAutoinstallSpec") || + g_str_equal (remote_error, "com.endlessm.Updater.Error.UnknownEntryInAutoinstallSpec") || + g_str_equal (remote_error, "com.endlessm.Updater.Error.FlatpakRemoteConflict")) { + error->code = GS_PLUGIN_ERROR_FAILED; + } else if (g_str_equal (remote_error, "com.endlessm.Updater.Error.MeteredConnection")) { + error->code = GS_PLUGIN_ERROR_NO_NETWORK; + } else if (g_str_equal (remote_error, "com.endlessm.Updater.Error.Cancelled")) { + error->code = GS_PLUGIN_ERROR_CANCELLED; + } else { + g_warning ("Can’t reliably fixup remote error ‘%s’", remote_error); + error->code = GS_PLUGIN_ERROR_FAILED; + } + error->domain = GS_PLUGIN_ERROR; + return; + } + + /* this is allowed for low-level errors */ + if (gs_utils_error_convert_gio (perror)) + return; + + /* this is allowed for low-level errors */ + if (gs_utils_error_convert_gdbus (perror)) + return; +} + +/* the percentage of the progress bar to use for applying the OS upgrade; + * we need to fake the progress in this percentage because applying the OS upgrade + * can take a long time and we don't want the user to think that the upgrade has + * stalled */ +static const guint upgrade_apply_progress_range = 100 - max_progress_for_update; /* percent */ +static const gfloat upgrade_apply_max_time = 600.0; /* sec */ +static const gfloat upgrade_apply_step_time = 0.250; /* sec */ + +static void sync_state_from_updater_unlocked (GsPluginEosUpdater *self); + +struct _GsPluginEosUpdater +{ + GsPlugin parent; + + /* These members are only set once in gs_plugin_eos_updater_setup(), and are + * internally thread-safe, so can be accessed without holding @mutex: */ + GsEosUpdater *updater_proxy; /* (owned) */ + GsApp *os_upgrade; /* (owned) */ + GCancellable *cancellable; /* (owned) */ + gulong cancelled_id; + + /* These members must only ever be accessed from the main thread, so + * can be accessed without holding @mutex: */ + gfloat upgrade_fake_progress; + guint upgrade_fake_progress_handler; + + /* State synchronisation between threads: */ + GMutex mutex; + GCond state_change_cond; /* locked by @mutex */ +}; + +G_DEFINE_TYPE (GsPluginEosUpdater, gs_plugin_eos_updater, GS_TYPE_PLUGIN) + +static void +os_upgrade_cancelled_cb (GCancellable *cancellable, + gpointer user_data) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (user_data); + + g_debug ("%s: Cancelling upgrade", G_STRFUNC); + gs_eos_updater_call_cancel (self->updater_proxy, NULL, NULL, NULL); +} + +static gboolean +should_add_os_upgrade (GsAppState state) +{ + switch (state) { + case GS_APP_STATE_AVAILABLE: + case GS_APP_STATE_AVAILABLE_LOCAL: + case GS_APP_STATE_UPDATABLE: + case GS_APP_STATE_QUEUED_FOR_INSTALL: + case GS_APP_STATE_INSTALLING: + case GS_APP_STATE_UPDATABLE_LIVE: + return TRUE; + case GS_APP_STATE_UNKNOWN: + case GS_APP_STATE_INSTALLED: + case GS_APP_STATE_UNAVAILABLE: + case GS_APP_STATE_REMOVING: + default: + return FALSE; + } +} + +/* Wrapper around gs_app_set_state() which ensures we also notify of update + * changes if we change between non-upgradable and upgradable states, so that + * the app is notified to appear in the UI. */ +static void +app_set_state (GsPlugin *plugin, + GsApp *app, + GsAppState new_state) +{ + GsAppState old_state = gs_app_get_state (app); + + if (new_state == old_state) + return; + + gs_app_set_state (app, new_state); + + if (should_add_os_upgrade (old_state) != + should_add_os_upgrade (new_state)) { + g_debug ("%s: Calling gs_plugin_updates_changed()", G_STRFUNC); + gs_plugin_updates_changed (plugin); + } +} + +static gboolean +eos_updater_error_is_cancelled (const gchar *error_name) +{ + return (g_strcmp0 (error_name, "com.endlessm.Updater.Error.Cancelled") == 0); +} + +/* This will be invoked in the main thread. */ +static void +updater_state_changed (GsPluginEosUpdater *self) +{ + g_autoptr(GMutexLocker) locker = g_mutex_locker_new (&self->mutex); + + g_debug ("%s", G_STRFUNC); + + sync_state_from_updater_unlocked (self); + + /* Signal any blocked threads; typically this will be + * gs_plugin_app_upgrade_download() in a #GTask worker thread. */ + g_cond_broadcast (&self->state_change_cond); +} + +/* This will be invoked in the main thread. */ +static void +updater_downloaded_bytes_changed (GsPluginEosUpdater *self) +{ + g_autoptr(GMutexLocker) locker = g_mutex_locker_new (&self->mutex); + + sync_state_from_updater_unlocked (self); +} + +/* This will be invoked in the main thread, but doesn’t currently need to hold + * `mutex` since it only accesses `self->updater_proxy` and `self->os_upgrade`, + * both of which are internally thread-safe. */ +static void +updater_version_changed (GsPluginEosUpdater *self) +{ + const gchar *version = gs_eos_updater_get_version (self->updater_proxy); + + /* If eos-updater goes away, we want to retain the previously set value + * of the version, for use in error messages. */ + if (version != NULL) + gs_app_set_version (self->os_upgrade, version); +} + +/* This will be invoked in the main thread, but doesn’t currently need to hold + * `mutex` since `self->updater_proxy` and `self->os_upgrade` are both + * thread-safe, and `self->upgrade_fake_progress` and + * `self->upgrade_fake_progress_handler` are only ever accessed from the main + * thread. */ +static gboolean +fake_os_upgrade_progress_cb (gpointer user_data) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (user_data); + gfloat normal_step; + guint new_progress; + const gfloat fake_progress_max = 99.0; + + if (gs_eos_updater_get_state (self->updater_proxy) != EOS_UPDATER_STATE_APPLYING_UPDATE || + self->upgrade_fake_progress > fake_progress_max) { + self->upgrade_fake_progress = 0; + self->upgrade_fake_progress_handler = 0; + return G_SOURCE_REMOVE; + } + + normal_step = (gfloat) upgrade_apply_progress_range / + (upgrade_apply_max_time / upgrade_apply_step_time); + + self->upgrade_fake_progress += normal_step; + + new_progress = max_progress_for_update + + (guint) round (self->upgrade_fake_progress); + gs_app_set_progress (self->os_upgrade, + MIN (new_progress, (guint) fake_progress_max)); + + g_debug ("OS upgrade fake progress: %f", self->upgrade_fake_progress); + + return G_SOURCE_CONTINUE; +} + +/* This method deals with the synchronization between the EOS updater's states + * (D-Bus service) and the OS upgrade's states (GsApp), in order to show the user + * what is happening and what they can do. + * + * It must be called with self->mutex already locked. */ +static void +sync_state_from_updater_unlocked (GsPluginEosUpdater *self) +{ + GsPlugin *plugin = GS_PLUGIN (self); + GsApp *app = self->os_upgrade; + EosUpdaterState state; + GsAppState previous_app_state = gs_app_get_state (app); + GsAppState current_app_state; + + /* in case the OS upgrade has been disabled */ + if (self->updater_proxy == NULL) { + g_debug ("%s: Updater disabled", G_STRFUNC); + return; + } + + state = gs_eos_updater_get_state (self->updater_proxy); + g_debug ("EOS Updater state changed: %s", eos_updater_state_to_str (state)); + + switch (state) { + case EOS_UPDATER_STATE_NONE: + case EOS_UPDATER_STATE_READY: { + app_set_state (plugin, app, GS_APP_STATE_UNKNOWN); + break; + } case EOS_UPDATER_STATE_POLLING: { + /* Nothing to do here. */ + break; + } case EOS_UPDATER_STATE_UPDATE_AVAILABLE: { + gint64 total_size; + + app_set_state (plugin, app, GS_APP_STATE_AVAILABLE); + + /* The property returns -1 to indicate unknown size */ + total_size = gs_eos_updater_get_download_size (self->updater_proxy); + if (total_size >= 0) + gs_app_set_size_download (app, GS_SIZE_TYPE_VALID, total_size); + else + gs_app_set_size_download (app, GS_SIZE_TYPE_UNKNOWN, 0); + + break; + } + case EOS_UPDATER_STATE_FETCHING: { + gint64 total_size = 0; + gint64 downloaded = 0; + guint progress = 0; + + /* FIXME: Set to QUEUED_FOR_INSTALL if we’re waiting for metered + * data permission. */ + app_set_state (plugin, app, GS_APP_STATE_INSTALLING); + + downloaded = gs_eos_updater_get_downloaded_bytes (self->updater_proxy); + total_size = gs_eos_updater_get_download_size (self->updater_proxy); + + if (total_size == 0) { + g_debug ("OS upgrade %s total size is 0!", + gs_app_get_unique_id (app)); + progress = GS_APP_PROGRESS_UNKNOWN; + } else if (downloaded < 0 || total_size < 0) { + /* Both properties return -1 to indicate unknown */ + progress = GS_APP_PROGRESS_UNKNOWN; + } else { + /* set progress only up to a max percentage, leaving the + * remaining for applying the update */ + progress = (gfloat) downloaded / (gfloat) total_size * + (gfloat) max_progress_for_update; + } + gs_app_set_progress (app, progress); + + break; + } + case EOS_UPDATER_STATE_UPDATE_READY: { + app_set_state (plugin, app, GS_APP_STATE_UPDATABLE); + break; + } + case EOS_UPDATER_STATE_APPLYING_UPDATE: { + /* set as 'installing' because if it is applying the update, we + * want to show the progress bar */ + app_set_state (plugin, app, GS_APP_STATE_INSTALLING); + + /* set up the fake progress to inform the user that something + * is still being done (we don't get progress reports from + * deploying updates) */ + if (self->upgrade_fake_progress_handler != 0) + g_source_remove (self->upgrade_fake_progress_handler); + self->upgrade_fake_progress = 0; + self->upgrade_fake_progress_handler = + g_timeout_add ((guint) (1000.0 * upgrade_apply_step_time), + (GSourceFunc) fake_os_upgrade_progress_cb, + self); + + break; + } + case EOS_UPDATER_STATE_UPDATE_APPLIED: { + app_set_state (plugin, app, GS_APP_STATE_UPDATABLE); + + break; + } + case EOS_UPDATER_STATE_ERROR: { + const gchar *error_name; + const gchar *error_message; + + error_name = gs_eos_updater_get_error_name (self->updater_proxy); + error_message = gs_eos_updater_get_error_message (self->updater_proxy); + + /* unless the error is because the user cancelled the upgrade, + * we should make sure it gets in the journal */ + if (!eos_updater_error_is_cancelled (error_name)) + g_warning ("Got OS upgrade error state with name '%s': %s", + error_name, error_message); + + /* We can’t recover the app state since eos-updater needs to + * go through the ready → poll → fetch → apply loop again in + * order to recover its state. So go back to ‘unknown’. */ + app_set_state (plugin, app, GS_APP_STATE_UNKNOWN); + + /* Cancelling anything in the updater will result in a + * transition to the Error state. Use that as a cue to reset + * our #GCancellable ready for next time. */ + g_cancellable_reset (self->cancellable); + + break; + } + default: + g_warning ("Encountered unknown eos-updater state: %u", state); + break; + } + + current_app_state = gs_app_get_state (app); + + g_debug ("%s: Old app state: %s; new app state: %s", + G_STRFUNC, gs_app_state_to_string (previous_app_state), + gs_app_state_to_string (current_app_state)); + + /* if the state changed from or to 'unknown', we need to notify that a + * new update should be shown */ + if (should_add_os_upgrade (previous_app_state) != + should_add_os_upgrade (current_app_state)) { + g_debug ("%s: Calling gs_plugin_updates_changed()", G_STRFUNC); + gs_plugin_updates_changed (plugin); + } +} + +static void proxy_new_cb (GObject *source_object, + GAsyncResult *result, + gpointer user_data); + +/* This is called in the main thread, so will end up creating an @updater_proxy + * which is tied to the main thread’s #GMainContext. */ +static void +gs_plugin_eos_updater_setup_async (GsPlugin *plugin, + GCancellable *cancellable, + GAsyncReadyCallback callback, + gpointer user_data) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (plugin); + g_autoptr(GMutexLocker) locker = NULL; + g_autoptr(GTask) task = NULL; + + task = g_task_new (plugin, cancellable, callback, user_data); + g_task_set_source_tag (task, gs_plugin_eos_updater_setup_async); + + g_debug ("%s", G_STRFUNC); + + g_mutex_init (&self->mutex); + g_cond_init (&self->state_change_cond); + + locker = g_mutex_locker_new (&self->mutex); + + self->cancellable = g_cancellable_new (); + self->cancelled_id = + g_cancellable_connect (self->cancellable, + G_CALLBACK (os_upgrade_cancelled_cb), + self, NULL); + + /* Check that the proxy exists (and is owned; it should auto-start) so + * we can disable the plugin for systems which don’t have eos-updater. + * Throughout the rest of the plugin, errors from the daemon + * (particularly where it has disappeared off the bus) are ignored, and + * the poll/fetch/apply sequence is run through again to recover from + * the error. This is the only point in the plugin where we consider an + * error from eos-updater to be fatal to the plugin. */ + gs_eos_updater_proxy_new (gs_plugin_get_system_bus_connection (plugin), + G_DBUS_PROXY_FLAGS_NONE, + "com.endlessm.Updater", + "/com/endlessm/Updater", + cancellable, + proxy_new_cb, + g_steal_pointer (&task)); +} + +static void +proxy_new_cb (GObject *source_object, + GAsyncResult *result, + gpointer user_data) +{ + g_autoptr(GTask) task = g_steal_pointer (&user_data); + GsPluginEosUpdater *self = g_task_get_source_object (task); + g_autofree gchar *name_owner = NULL; + g_autoptr(GsApp) app = NULL; + g_autoptr(GIcon) ic = NULL; + g_autofree gchar *background_filename = NULL; + g_autofree gchar *css = NULL; + g_autofree gchar *summary = NULL; + g_autofree gchar *version = NULL; + g_autoptr(GsOsRelease) os_release = NULL; + g_autoptr(GMutexLocker) locker = NULL; + g_autoptr(GError) local_error = NULL; + const gchar *os_name; + + locker = g_mutex_locker_new (&self->mutex); + + self->updater_proxy = gs_eos_updater_proxy_new_finish (result, &local_error); + if (self->updater_proxy == NULL) { + gs_eos_updater_error_convert (&local_error); + g_task_return_error (task, g_steal_pointer (&local_error)); + return; + } + + name_owner = g_dbus_proxy_get_name_owner (G_DBUS_PROXY (self->updater_proxy)); + + if (name_owner == NULL) { + g_task_return_new_error (task, GS_PLUGIN_ERROR, GS_PLUGIN_ERROR_NOT_SUPPORTED, + "Couldn’t create EOS Updater proxy: couldn’t get name owner"); + return; + } + + g_signal_connect_object (self->updater_proxy, "notify::state", + G_CALLBACK (updater_state_changed), + self, G_CONNECT_SWAPPED); + g_signal_connect_object (self->updater_proxy, + "notify::downloaded-bytes", + G_CALLBACK (updater_downloaded_bytes_changed), + self, G_CONNECT_SWAPPED); + g_signal_connect_object (self->updater_proxy, "notify::version", + G_CALLBACK (updater_version_changed), + self, G_CONNECT_SWAPPED); + + /* prepare EOS upgrade app + sync initial state */ + + /* use stock icon */ + ic = g_themed_icon_new ("system-component-addon"); + + /* Check for a background image in the standard location. */ + background_filename = gs_utils_get_upgrade_background (NULL); + + if (background_filename != NULL) + css = g_strconcat ("background: url('file://", background_filename, "');" + "background-size: 100% 100%;", NULL); + + os_release = gs_os_release_new (&local_error); + if (local_error) { + g_warning ("Failed to get OS release information: %s", local_error->message); + /* Just a fallback, do not localize */ + os_name = "Endless OS"; + g_clear_error (&local_error); + } else { + os_name = gs_os_release_get_name (os_release); + } + + g_object_get (G_OBJECT (self->updater_proxy), + "version", &version, + "update-message", &summary, + NULL); + + if (summary == NULL || *summary == '\0') { + g_clear_pointer (&summary, g_free); + g_object_get (G_OBJECT (self->updater_proxy), + "update-label", &summary, + NULL); + } + + if (summary == NULL || *summary == '\0') { + g_clear_pointer (&summary, g_free); + /* Translators: The '%s' is replaced with the OS name, like "Endless OS" */ + summary = g_strdup_printf (_("%s update with new features and fixes."), os_name); + } + + /* create the OS upgrade */ + app = gs_app_new ("com.endlessm.EOS.upgrade"); + gs_app_add_icon (app, ic); + gs_app_set_scope (app, AS_COMPONENT_SCOPE_SYSTEM); + gs_app_set_kind (app, AS_COMPONENT_KIND_OPERATING_SYSTEM); + gs_app_set_name (app, GS_APP_QUALITY_LOWEST, os_name); + gs_app_set_summary (app, GS_APP_QUALITY_NORMAL, summary); + gs_app_set_version (app, version == NULL ? "" : version); + gs_app_add_quirk (app, GS_APP_QUIRK_NEEDS_REBOOT); + gs_app_add_quirk (app, GS_APP_QUIRK_PROVENANCE); + gs_app_add_quirk (app, GS_APP_QUIRK_NOT_REVIEWABLE); + gs_app_set_management_plugin (app, GS_PLUGIN (self)); + gs_app_set_metadata (app, "GnomeSoftware::UpgradeBanner-css", css); + + self->os_upgrade = g_steal_pointer (&app); + + /* sync initial state */ + sync_state_from_updater_unlocked (self); + + g_task_return_boolean (task, TRUE); +} + +static gboolean +gs_plugin_eos_updater_setup_finish (GsPlugin *plugin, + GAsyncResult *result, + GError **error) +{ + return g_task_propagate_boolean (G_TASK (result), error); +} + +static void +gs_plugin_eos_updater_init (GsPluginEosUpdater *self) +{ +} + +static void +gs_plugin_eos_updater_dispose (GObject *object) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (object); + + if (self->upgrade_fake_progress_handler != 0) { + g_source_remove (self->upgrade_fake_progress_handler); + self->upgrade_fake_progress_handler = 0; + } + + if (self->updater_proxy != NULL) { + g_signal_handlers_disconnect_by_func (self->updater_proxy, + G_CALLBACK (updater_state_changed), + self); + g_signal_handlers_disconnect_by_func (self->updater_proxy, + G_CALLBACK (updater_downloaded_bytes_changed), + self); + g_signal_handlers_disconnect_by_func (self->updater_proxy, + G_CALLBACK (updater_version_changed), + self); + } + + g_cancellable_cancel (self->cancellable); + if (self->cancellable != NULL && self->cancelled_id != 0) + g_cancellable_disconnect (self->cancellable, self->cancelled_id); + g_clear_object (&self->cancellable); + + g_clear_object (&self->updater_proxy); + + g_clear_object (&self->os_upgrade); + + G_OBJECT_CLASS (gs_plugin_eos_updater_parent_class)->dispose (object); +} + +static void +gs_plugin_eos_updater_finalize (GObject *object) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (object); + + g_cond_clear (&self->state_change_cond); + g_mutex_clear (&self->mutex); + + G_OBJECT_CLASS (gs_plugin_eos_updater_parent_class)->finalize (object); +} + +static void poll_cb (GObject *source_object, + GAsyncResult *result, + gpointer user_data); + +/* Called in the main thread. */ +static void +gs_plugin_eos_updater_refresh_metadata_async (GsPlugin *plugin, + guint64 cache_age_secs, + GsPluginRefreshMetadataFlags flags, + GCancellable *cancellable, + GAsyncReadyCallback callback, + gpointer user_data) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (plugin); + EosUpdaterState updater_state; + g_autoptr(GTask) task = NULL; + + task = g_task_new (plugin, cancellable, callback, user_data); + g_task_set_source_tag (task, gs_plugin_eos_updater_refresh_metadata_async); + + /* We let the eos-updater daemon do its own caching, so ignore the + * @cache_age_secs, unless it’s %G_MAXUINT64, which signifies startup of g-s. + * In that case, it’s probably just going to load the system too much to + * do an update check now. We can wait. */ + g_debug ("%s: cache_age_secs: %" G_GUINT64_FORMAT, G_STRFUNC, cache_age_secs); + + if (cache_age_secs == G_MAXUINT64) { + g_task_return_boolean (task, TRUE); + return; + } + + /* check if the OS upgrade has been disabled */ + if (self->updater_proxy == NULL) { + g_debug ("%s: Updater disabled", G_STRFUNC); + g_task_return_boolean (task, TRUE); + return; + } + + /* poll in the error/none/ready states to check if there's an + * update available */ + updater_state = gs_eos_updater_get_state (self->updater_proxy); + switch (updater_state) { + case EOS_UPDATER_STATE_ERROR: + case EOS_UPDATER_STATE_NONE: + case EOS_UPDATER_STATE_READY: + gs_eos_updater_call_poll (self->updater_proxy, + cancellable, + poll_cb, + g_steal_pointer (&task)); + return; + default: + g_debug ("%s: Updater in state %s; not polling", + G_STRFUNC, eos_updater_state_to_str (updater_state)); + g_task_return_boolean (task, TRUE); + return; + } +} + +static void +poll_cb (GObject *source_object, + GAsyncResult *result, + gpointer user_data) +{ + GsEosUpdater *updater_proxy = GS_EOS_UPDATER (source_object); + g_autoptr(GTask) task = g_steal_pointer (&user_data); + g_autoptr(GError) local_error = NULL; + + if (!gs_eos_updater_call_poll_finish (updater_proxy, result, &local_error)) { + gs_eos_updater_error_convert (&local_error); + g_task_return_error (task, g_steal_pointer (&local_error)); + } else { + g_task_return_boolean (task, TRUE); + } +} + +static gboolean +gs_plugin_eos_updater_refresh_metadata_finish (GsPlugin *plugin, + GAsyncResult *result, + GError **error) +{ + return g_task_propagate_boolean (G_TASK (result), error); +} + +/* Called in the main thread. */ +static void +gs_plugin_eos_updater_list_distro_upgrades_async (GsPlugin *plugin, + GsPluginListDistroUpgradesFlags flags, + GCancellable *cancellable, + GAsyncReadyCallback callback, + gpointer user_data) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (plugin); + g_autoptr(GTask) task = NULL; + g_autoptr(GsAppList) list = gs_app_list_new (); + + task = g_task_new (plugin, cancellable, callback, user_data); + g_task_set_source_tag (task, gs_plugin_eos_updater_list_distro_upgrades_async); + + g_debug ("%s", G_STRFUNC); + + /* if we are testing the plugin, then always add the OS upgrade */ + if (g_getenv ("GS_PLUGIN_EOS_TEST") != NULL) { + gs_app_set_state (self->os_upgrade, GS_APP_STATE_AVAILABLE); + gs_app_list_add (list, self->os_upgrade); + g_task_return_pointer (task, g_steal_pointer (&list), g_object_unref); + return; + } + + /* check if the OS upgrade has been disabled */ + if (self->updater_proxy == NULL) { + g_debug ("%s: Updater disabled", G_STRFUNC); + g_task_return_pointer (task, g_steal_pointer (&list), g_object_unref); + return; + } + + if (should_add_os_upgrade (gs_app_get_state (self->os_upgrade))) { + g_debug ("Adding EOS upgrade: %s", + gs_app_get_unique_id (self->os_upgrade)); + gs_app_list_add (list, self->os_upgrade); + } else { + g_debug ("Not adding EOS upgrade"); + } + + g_task_return_pointer (task, g_steal_pointer (&list), g_object_unref); +} + +static GsAppList * +gs_plugin_eos_updater_list_distro_upgrades_finish (GsPlugin *plugin, + GAsyncResult *result, + GError **error) +{ + return g_task_propagate_pointer (G_TASK (result), error); +} + +/* Must be called with self->mutex already locked. */ +static gboolean +wait_for_state_change_unlocked (GsPluginEosUpdater *self, + GCancellable *cancellable, + GError **error) +{ + EosUpdaterState old_state, new_state; + + old_state = new_state = gs_eos_updater_get_state (self->updater_proxy); + g_debug ("%s: Old state ‘%s’", G_STRFUNC, eos_updater_state_to_str (old_state)); + + while (new_state == old_state && + !g_cancellable_is_cancelled (cancellable)) { + g_cond_wait (&self->state_change_cond, &self->mutex); + new_state = gs_eos_updater_get_state (self->updater_proxy); + } + + if (!g_cancellable_set_error_if_cancelled (cancellable, error)) { + g_debug ("%s: New state ‘%s’", G_STRFUNC, eos_updater_state_to_str (new_state)); + return TRUE; + } else { + g_debug ("%s: Cancelled", G_STRFUNC); + return FALSE; + } +} + +/* Could be executed in any thread. No need to hold `self->mutex` since we don’t + * access anything which is not thread-safe. */ +static void +cancelled_cb (GCancellable *ui_cancellable, + gpointer user_data) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (user_data); + + /* Chain cancellation. */ + g_debug ("Propagating OS download cancellation from %p to %p", + ui_cancellable, self->cancellable); + g_cancellable_cancel (self->cancellable); + + /* And wake up anything blocking on a state change. */ + g_cond_broadcast (&self->state_change_cond); +} + +/* Called in a #GTask worker thread, and it needs to hold `self->mutex` due to + * synchronising on state with the main thread. */ +gboolean +gs_plugin_app_upgrade_download (GsPlugin *plugin, + GsApp *app, + GCancellable *cancellable, + GError **error) +{ + GsPluginEosUpdater *self = GS_PLUGIN_EOS_UPDATER (plugin); + gulong cancelled_id = 0; + EosUpdaterState state; + gboolean done, allow_restart; + g_autoptr(GMutexLocker) locker = g_mutex_locker_new (&self->mutex); + + /* only process this app if was created by this plugin */ + if (!gs_app_has_management_plugin (app, plugin)) + return TRUE; + + /* if the OS upgrade has been disabled */ + if (self->updater_proxy == NULL) { + g_set_error (error, GS_PLUGIN_ERROR, GS_PLUGIN_ERROR_FAILED, + "The OS upgrade has been disabled in the EOS plugin"); + return FALSE; + } + + g_assert (app == self->os_upgrade); + + /* Set up cancellation. */ + g_debug ("Chaining cancellation from %p to %p", cancellable, self->cancellable); + if (cancellable != NULL) { + cancelled_id = g_cancellable_connect (cancellable, + G_CALLBACK (cancelled_cb), + plugin, NULL); + } + + /* Step through the state machine until we are finished downloading and + * applying the update, or until an error occurs. All of the D-Bus calls + * here will block until the method call is complete. */ + state = gs_eos_updater_get_state (self->updater_proxy); + + done = FALSE; + allow_restart = (state == EOS_UPDATER_STATE_NONE || + state == EOS_UPDATER_STATE_READY || + state == EOS_UPDATER_STATE_ERROR); + + while (!done && !g_cancellable_is_cancelled (cancellable)) { + state = gs_eos_updater_get_state (self->updater_proxy); + g_debug ("%s: State ‘%s’", G_STRFUNC, eos_updater_state_to_str (state)); + + switch (state) { + case EOS_UPDATER_STATE_NONE: + case EOS_UPDATER_STATE_READY: { + /* Poll for an update. This typically only happens if + * we’ve drifted out of sync with the updater process + * due to it dying. In that case, only restart once + * before giving up, so we don’t end up in an endless + * loop (say, if eos-updater always died 50% of the way + * through a download). */ + if (allow_restart) { + allow_restart = FALSE; + g_debug ("Restarting OS upgrade from none/ready state"); + if (!gs_eos_updater_call_poll_sync (self->updater_proxy, + cancellable, error)) { + gs_eos_updater_error_convert (error); + return FALSE; + } + } else { + /* Display an error to the user. */ + g_autoptr(GError) error_local = NULL; + g_autoptr(GsPluginEvent) event = NULL; + + g_set_error_literal (&error_local, GS_PLUGIN_ERROR, + GS_PLUGIN_ERROR_FAILED, + _("EOS update service could not fetch and apply the update.")); + gs_eos_updater_error_convert (&error_local); + + event = gs_plugin_event_new ("app", app, + "action", GS_PLUGIN_ACTION_UPGRADE_DOWNLOAD, + "error", error_local, + NULL); + gs_plugin_event_add_flag (event, GS_PLUGIN_EVENT_FLAG_WARNING); + gs_plugin_report_event (plugin, event); + + /* Error out. */ + done = TRUE; + } + + break; + } case EOS_UPDATER_STATE_POLLING: { + /* Nothing to do here. */ + break; + } case EOS_UPDATER_STATE_UPDATE_AVAILABLE: { + g_auto(GVariantDict) options_dict = G_VARIANT_DICT_INIT (NULL); + + /* when the OS upgrade was started by the user and the + * updater reports an available update, (meaning we were + * polling before), we should readily call fetch */ + g_variant_dict_insert (&options_dict, "force", "b", TRUE); + + if (!gs_eos_updater_call_fetch_full_sync (self->updater_proxy, + g_variant_dict_end (&options_dict), + cancellable, error)) { + gs_eos_updater_error_convert (error); + return FALSE; + } + + break; + } + case EOS_UPDATER_STATE_FETCHING: { + /* Nothing to do here. */ + break; + } + case EOS_UPDATER_STATE_UPDATE_READY: { + /* if there's an update ready to deployed, and it was started by + * the user, we should proceed to applying the upgrade */ + gs_app_set_progress (app, max_progress_for_update); + + if (!gs_eos_updater_call_apply_sync (self->updater_proxy, + cancellable, error)) { + gs_eos_updater_error_convert (error); + return FALSE; + } + + break; + } + case EOS_UPDATER_STATE_APPLYING_UPDATE: { + /* Nothing to do here. */ + break; + } + case EOS_UPDATER_STATE_UPDATE_APPLIED: { + /* Done! */ + done = TRUE; + break; + } + case EOS_UPDATER_STATE_ERROR: { + const gchar *error_name; + const gchar *error_message; + g_autoptr(GError) error_local = NULL; + + error_name = gs_eos_updater_get_error_name (self->updater_proxy); + error_message = gs_eos_updater_get_error_message (self->updater_proxy); + error_local = g_dbus_error_new_for_dbus_error (error_name, error_message); + + /* Display an error to the user, unless they cancelled + * the download. */ + if (!eos_updater_error_is_cancelled (error_name)) { + g_autoptr(GsPluginEvent) event = NULL; + + gs_eos_updater_error_convert (&error_local); + + event = gs_plugin_event_new ("app", app, + "action", GS_PLUGIN_ACTION_UPGRADE_DOWNLOAD, + "error", error_local, + NULL); + gs_plugin_event_add_flag (event, GS_PLUGIN_EVENT_FLAG_WARNING); + gs_plugin_report_event (plugin, event); + } + + /* Unconditionally call Poll() to get the updater out + * of the error state and to allow the update to be + * displayed in the UI again and retried. Exit the + * state change loop immediately, though, to prevent + * possible endless loops between the Poll/Error + * states. */ + allow_restart = FALSE; + g_debug ("Restarting OS upgrade on error"); + if (!gs_eos_updater_call_poll_sync (self->updater_proxy, + cancellable, error)) { + gs_eos_updater_error_convert (error); + return FALSE; + } + + /* Error out. */ + done = TRUE; + + break; + } + default: + g_warning ("Encountered unknown eos-updater state: %u", state); + break; + } + + /* Block on the next state change. */ + if (!done && + !wait_for_state_change_unlocked (self, cancellable, error)) { + gs_eos_updater_error_convert (error); + return FALSE; + } + } + + if (cancellable != NULL && cancelled_id != 0) { + g_debug ("Disconnecting cancellable %p", cancellable); + g_cancellable_disconnect (cancellable, cancelled_id); + } + + /* Process the final state. */ + if (gs_eos_updater_get_state (self->updater_proxy) == EOS_UPDATER_STATE_ERROR) { + const gchar *error_name; + const gchar *error_message; + g_autoptr(GError) error_local = NULL; + + error_name = gs_eos_updater_get_error_name (self->updater_proxy); + error_message = gs_eos_updater_get_error_message (self->updater_proxy); + error_local = g_dbus_error_new_for_dbus_error (error_name, error_message); + gs_eos_updater_error_convert (&error_local); + g_propagate_error (error, g_steal_pointer (&error_local)); + + return FALSE; + } else if (g_cancellable_set_error_if_cancelled (cancellable, error)) { + gs_eos_updater_error_convert (error); + return FALSE; + } + + return TRUE; +} + +static void +gs_plugin_eos_updater_class_init (GsPluginEosUpdaterClass *klass) +{ + GObjectClass *object_class = G_OBJECT_CLASS (klass); + GsPluginClass *plugin_class = GS_PLUGIN_CLASS (klass); + + object_class->dispose = gs_plugin_eos_updater_dispose; + object_class->finalize = gs_plugin_eos_updater_finalize; + + plugin_class->setup_async = gs_plugin_eos_updater_setup_async; + plugin_class->setup_finish = gs_plugin_eos_updater_setup_finish; + plugin_class->refresh_metadata_async = gs_plugin_eos_updater_refresh_metadata_async; + plugin_class->refresh_metadata_finish = gs_plugin_eos_updater_refresh_metadata_finish; + plugin_class->list_distro_upgrades_async = gs_plugin_eos_updater_list_distro_upgrades_async; + plugin_class->list_distro_upgrades_finish = gs_plugin_eos_updater_list_distro_upgrades_finish; +} + +GType +gs_plugin_query_type (void) +{ + return GS_TYPE_PLUGIN_EOS_UPDATER; +} |