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/*
* Copyright (C) 2005-2009 Alex Murray <murray.alex@gmail.com>
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif /* HAVE_CONFIG_H */
#include "sensors-applet.h"
#include "sensors-applet-mateconf.h"
#define DEFAULT_TIMEOUT 2000
#define DEFAULT_GRAPH_SIZE 42
static const gchar * const compatible_versions[] = {
PACKAGE_VERSION, /* always list current version */
"2.2.6",
"2.2.5",
"2.2.4",
"2.2.3",
"2.2.2",
};
#define NUM_COMPATIBLE_VERSIONS G_N_ELEMENTS(compatible_versions)
typedef enum {
SENSORS_APPLET_MATECONF_ERROR = 0,
SENSORS_APPLET_VERSION_ERROR,
} SensorsAppletMateConfError;
static const gchar * const error_titles[] = {
N_("An error occurred loading the stored sensors data"),
N_("Incompatible sensors configuration found")
};
static const gchar * const error_messages[] = {
N_("An error has occurred when loading the stored sensors data. "
"The default values will be used to recover from this error."),
N_("Unfortunately the previous configuration for MATE Sensors Applet "
"is not compatible with this version. The existing sensors data "
"will be overwritten with the default values for this new version.")
};
/* function to be called if an error occurs
when loading values from mateconf */
static void sensors_applet_mateconf_error_occurred(SensorsAppletMateConfError error) {
GtkWidget *dialog;
gchar *markup;
g_debug("Error occurred: %s", error_titles[error]);
markup = g_markup_printf_escaped("<span size=\"large\" weight=\"bold\">%s</span>\n\n%s", _(error_titles[error]), _(error_messages[error]));
dialog = gtk_message_dialog_new_with_markup(NULL, /* no parent window */
GTK_DIALOG_MODAL,
GTK_MESSAGE_WARNING,
GTK_BUTTONS_OK,
"%s", markup);
g_free(markup);
/* runs dialog as modal and doesn't return until user clicks
* button */
gtk_dialog_run(GTK_DIALOG(dialog));
gtk_widget_destroy(GTK_WIDGET(dialog));
}
static void sensors_applet_mateconf_set_defaults(SensorsApplet *sensors_applet) {
mate_panel_applet_mateconf_set_int(sensors_applet->applet, DISPLAY_MODE, DISPLAY_ICON_WITH_VALUE, NULL);
mate_panel_applet_mateconf_set_int(sensors_applet->applet, LAYOUT_MODE, VALUE_BESIDE_LABEL, NULL);
mate_panel_applet_mateconf_set_int(sensors_applet->applet, TEMPERATURE_SCALE, CELSIUS, NULL);
mate_panel_applet_mateconf_set_int(sensors_applet->applet, TIMEOUT, DEFAULT_TIMEOUT, NULL);
mate_panel_applet_mateconf_set_int(sensors_applet->applet, GRAPH_SIZE, DEFAULT_GRAPH_SIZE, NULL);
#ifdef HAVE_LIBMATENOTIFY
mate_panel_applet_mateconf_set_bool(sensors_applet->applet, DISPLAY_NOTIFICATIONS, TRUE, NULL);
#endif
mate_panel_applet_mateconf_set_bool(sensors_applet->applet, IS_SETUP, FALSE, NULL);
}
/**
* Returns TRUE is old_version is one of the compatible versions
*/
static gboolean sensors_applet_mateconf_is_compatible(const gchar *old_version) {
guint i;
for (i = 0; i < NUM_COMPATIBLE_VERSIONS; i++) {
if (g_ascii_strcasecmp(old_version, compatible_versions[i]) == 0) {
return TRUE;
}
}
return FALSE;
}
void sensors_applet_mateconf_setup(SensorsApplet *sensors_applet) {
gboolean setup = FALSE;
gchar *old_version;
GError *error = NULL;
/* need to convert old num_samples value to new GRAPH_SIZE
* parameter */
gint num_samples;
if ((num_samples = mate_panel_applet_mateconf_get_int(sensors_applet->applet,
"num_samples",
NULL))) {
g_debug("Convering old num_samples value %d into graph_size", num_samples);
mate_panel_applet_mateconf_set_int(sensors_applet->applet,
GRAPH_SIZE,
(num_samples + GRAPH_FRAME_EXTRA_WIDTH),
NULL);
/* reset num_samples to zero */
mate_panel_applet_mateconf_set_int(sensors_applet->applet,
"num_samples",
0,
NULL);
}
/* convert old alarm_commands to high and low if exist */
GSList *alarm_commands;
if ((alarm_commands = mate_panel_applet_mateconf_get_list(sensors_applet->applet,
"alarm_commands",
MATECONF_VALUE_STRING,
NULL))) {
g_debug("Converting old alarm commands to new high and low commands");
mate_panel_applet_mateconf_set_list(sensors_applet->applet,
LOW_ALARM_COMMANDS,
MATECONF_VALUE_STRING,
alarm_commands,
NULL);
mate_panel_applet_mateconf_set_list(sensors_applet->applet,
HIGH_ALARM_COMMANDS,
MATECONF_VALUE_STRING,
alarm_commands,
NULL);
/* reset old list to null */
mate_panel_applet_mateconf_set_list(sensors_applet->applet,
"alarm_commands",
MATECONF_VALUE_STRING,
NULL,
NULL);
g_slist_foreach(alarm_commands, (GFunc)g_free, NULL);
g_slist_free(alarm_commands);
}
setup = mate_panel_applet_mateconf_get_bool(sensors_applet->applet,
IS_SETUP, &error);
if (error) {
g_debug("Previous configuration not found: %s, setting up manually", error->message);
g_error_free(error);
error = NULL;
setup = FALSE;
}
if (setup) {
/* see if setup version matches */
old_version = mate_panel_applet_mateconf_get_string(sensors_applet->applet,
SENSORS_APPLET_VERSION,
&error);
/* if versions don't match or there is no saved
* version string then need to overwrite old config */
if (error) {
g_debug("Error getting old version string: %s", error->message);
g_error_free(error);
error = NULL;
old_version = NULL;
}
if (old_version) {
if (sensors_applet_mateconf_is_compatible(old_version)) {
/* previously setup and versions match so use
* old values */
g_debug("MateConf data is compatible. Trying to set up sensors from mateconf data");
if (sensors_applet_mateconf_setup_sensors(sensors_applet)) {
g_debug("done setting up from mateconf");
} else {
g_debug("Setting mateconf defaults only");
sensors_applet_mateconf_set_defaults(sensors_applet);
}
g_free(old_version);
return;
}
g_free(old_version);
}
sensors_applet_notify(sensors_applet, MATECONF_READ_ERROR);
sensors_applet_mateconf_error_occurred(SENSORS_APPLET_VERSION_ERROR);
}
/* use defaults */
g_debug("Setting mateconf defaults only");
sensors_applet_mateconf_set_defaults(sensors_applet);
}
enum {
PATHS_INDEX = 0,
IDS_INDEX,
LABELS_INDEX,
INTERFACES_INDEX,
SENSOR_TYPES_INDEX,
ENABLES_INDEX,
LOW_VALUES_INDEX,
HIGH_VALUES_INDEX,
ALARM_ENABLES_INDEX,
LOW_ALARM_COMMANDS_INDEX,
HIGH_ALARM_COMMANDS_INDEX,
ALARM_TIMEOUTS_INDEX,
MULTIPLIERS_INDEX,
OFFSETS_INDEX,
ICON_TYPES_INDEX,
GRAPH_COLORS_INDEX,
NUM_KEYS
};
const gchar * const keys[NUM_KEYS] = {
PATHS,
IDS,
LABELS,
INTERFACES,
SENSOR_TYPES,
ENABLES,
LOW_VALUES,
HIGH_VALUES,
ALARM_ENABLES,
LOW_ALARM_COMMANDS,
HIGH_ALARM_COMMANDS,
ALARM_TIMEOUTS,
MULTIPLIERS,
OFFSETS,
ICON_TYPES,
GRAPH_COLORS,
};
/* MUST CORRESPOND TO ABOVE KEYS */
const MateConfValueType key_types[NUM_KEYS] = {
MATECONF_VALUE_STRING, /* PATHS */
MATECONF_VALUE_STRING, /* IDS, */
MATECONF_VALUE_STRING, /* LABELS */
MATECONF_VALUE_STRING, /* INTERFACES, */
MATECONF_VALUE_INT, /* SENSOR_TYPES, */
MATECONF_VALUE_BOOL, /* ENABLES, */
MATECONF_VALUE_INT, /* LOW_VALUES, */
MATECONF_VALUE_INT, /* HIGH_VALUES, */
MATECONF_VALUE_BOOL, /* ALARM_ENABLES, */
MATECONF_VALUE_STRING, /* LOW_ALARM_COMMANDS, */
MATECONF_VALUE_STRING, /* HIGH_ALARM_COMMANDS, */
MATECONF_VALUE_INT, /* ALARM_TIMEOUTS, */
MATECONF_VALUE_INT, /* MULTIPLIERS, */
MATECONF_VALUE_INT, /* OFFSETS, */
MATECONF_VALUE_INT, /* ICON_TYPES, */
MATECONF_VALUE_STRING /* GRAPH_COLORS, */
};
void sensors_applet_mateconf_set_current_to_lists(GSList *current[],
GSList *lists[],
int len) {
for (len--; len >= 0; len--) {
current[len] = lists[len];
}
}
int sensors_applet_mateconf_current_not_null(GSList *current[],
int len) {
for (len--; len >= 0; len--) {
if (NULL == current[len]) {
return FALSE;
}
}
return TRUE;
}
void sensors_applet_mateconf_current_get_next(GSList *current[],
int len) {
for (len--; len >= 0; len--) {
current[len] = g_slist_next(current[len]);
}
}
void sensors_applet_mateconf_free_lists(GSList *lists[],
int len) {
for (len--; len >= 0; len--) {
if (key_types[len] == MATECONF_VALUE_STRING) {
g_slist_foreach(lists[len], (GFunc)g_free, NULL);
}
g_slist_free(lists[len]);
}
}
/* gets called if are already setup so we don't have to manually go
through and find sensors etc again */
gboolean sensors_applet_mateconf_setup_sensors(SensorsApplet *sensors_applet) {
/* everything gets stored except alarm timeout indexes, which
we set to -1, and visible which we set to false for all
parent nodes and true for all child nodes */
int i;
GSList *lists[NUM_KEYS] = {NULL};
GSList *current[NUM_KEYS] = {NULL};
GError *error = NULL;
for (i = 0; i < NUM_KEYS; i++) {
lists[i] = mate_panel_applet_mateconf_get_list(sensors_applet->applet,
keys[i],
key_types[i],
&error);
if (error || NULL == lists[i]) {
sensors_applet_notify(sensors_applet, MATECONF_READ_ERROR);
sensors_applet_mateconf_error_occurred(SENSORS_APPLET_MATECONF_ERROR);
if (error) {
g_error_free(error);
}
return FALSE;
}
}
for (sensors_applet_mateconf_set_current_to_lists(current,
lists,
NUM_KEYS);
sensors_applet_mateconf_current_not_null(current,
NUM_KEYS);
sensors_applet_mateconf_current_get_next(current,
NUM_KEYS)) {
g_debug("trying to add sensor from mateconf data: %s\n", (gchar *)(current[IDS_INDEX]->data));
/* need to ensure correct order */
sensors_applet_add_sensor(sensors_applet,
(gchar *)(current[PATHS_INDEX]->data),
(gchar *)(current[IDS_INDEX]->data),
(gchar *)(current[LABELS_INDEX]->data),
(gchar *)(current[INTERFACES_INDEX]->data),
GPOINTER_TO_UINT(current[SENSOR_TYPES_INDEX]->data),
GPOINTER_TO_INT(current[ENABLES_INDEX]->data),
(gdouble)(GPOINTER_TO_INT(current[LOW_VALUES_INDEX]->data) / 1000.0),
(gdouble)(GPOINTER_TO_INT(current[HIGH_VALUES_INDEX]->data) / 1000.0),
GPOINTER_TO_INT(current[ALARM_ENABLES_INDEX]->data),
(gchar *)(current[LOW_ALARM_COMMANDS_INDEX]->data),
(gchar *)(current[HIGH_ALARM_COMMANDS_INDEX]->data),
GPOINTER_TO_INT(current[ALARM_TIMEOUTS_INDEX]->data),
(gdouble)(GPOINTER_TO_INT(current[MULTIPLIERS_INDEX]->data) / 1000.0),
(gdouble)(GPOINTER_TO_INT(current[OFFSETS_INDEX]->data) / 1000.0),
(SensorType)GPOINTER_TO_UINT(current[ICON_TYPES_INDEX]->data),
(gchar *)(current[GRAPH_COLORS_INDEX]->data)
);
}
sensors_applet_mateconf_free_lists(lists,
NUM_KEYS);
return TRUE;
}
gboolean sensors_applet_mateconf_save_sensors(SensorsApplet *sensors_applet) {
/* write everything to mateconf except VISIBLE and
ALARM_TIMEOUT_INDEX */
/* for stepping through GtkTreeStore data structure */
GtkTreeIter interfaces_iter, sensors_iter;
gboolean not_end_of_interfaces = TRUE, not_end_of_sensors = TRUE;
/* make sure all are initialized to null - since list of
* intializers is horter than number of element, rest get set
* to 0 (ie NULL) */
GSList *lists[NUM_KEYS] = {NULL};
int i;
gchar *current_path, *current_id, *current_label, *current_interface,
*current_low_alarm_command, *current_high_alarm_command,
*current_graph_color;
gboolean current_enable, current_alarm_enable;
gdouble current_low_value, current_high_value, current_multiplier,
current_offset;
guint current_alarm_timeout, current_sensor_type,
current_icon_type;
GError *error = NULL;
/* now step through the GtkTreeStore sensors to
find which sensors are enabled */
for (gtk_tree_model_get_iter_first(GTK_TREE_MODEL(sensors_applet->sensors), &interfaces_iter); not_end_of_interfaces; not_end_of_interfaces = gtk_tree_model_iter_next(GTK_TREE_MODEL(sensors_applet->sensors), &interfaces_iter)) {
// store a mateconf key for this interface
gtk_tree_model_get(GTK_TREE_MODEL(sensors_applet->sensors),
&interfaces_iter,
ID_COLUMN, ¤t_id,
-1);
mate_panel_applet_mateconf_set_bool(sensors_applet->applet, current_id, TRUE, NULL);
g_free(current_id);
/* reset sensors sentinel */
not_end_of_sensors = TRUE;
for (gtk_tree_model_iter_children(GTK_TREE_MODEL(sensors_applet->sensors), &sensors_iter, &interfaces_iter); not_end_of_sensors; not_end_of_sensors = gtk_tree_model_iter_next(GTK_TREE_MODEL(sensors_applet->sensors), &sensors_iter)) {
gtk_tree_model_get(GTK_TREE_MODEL(sensors_applet->sensors),
&sensors_iter,
PATH_COLUMN, ¤t_path,
ID_COLUMN, ¤t_id,
LABEL_COLUMN, ¤t_label,
INTERFACE_COLUMN, ¤t_interface,
SENSOR_TYPE_COLUMN, ¤t_sensor_type,
ENABLE_COLUMN, ¤t_enable,
LOW_VALUE_COLUMN, ¤t_low_value,
HIGH_VALUE_COLUMN, ¤t_high_value,
ALARM_ENABLE_COLUMN, ¤t_alarm_enable,
LOW_ALARM_COMMAND_COLUMN, ¤t_low_alarm_command,
HIGH_ALARM_COMMAND_COLUMN, ¤t_high_alarm_command,
ALARM_TIMEOUT_COLUMN, ¤t_alarm_timeout,
MULTIPLIER_COLUMN, ¤t_multiplier,
OFFSET_COLUMN, ¤t_offset,
ICON_TYPE_COLUMN, ¤t_icon_type,
GRAPH_COLOR_COLUMN, ¤t_graph_color,
-1);
/* prepend values as this is faster then just
reverse list when finished */
lists[PATHS_INDEX] = g_slist_prepend(lists[PATHS_INDEX], current_path);
lists[IDS_INDEX] = g_slist_prepend(lists[IDS_INDEX], current_id);
lists[LABELS_INDEX] = g_slist_prepend(lists[LABELS_INDEX], current_label);
lists[INTERFACES_INDEX] = g_slist_prepend(lists[INTERFACES_INDEX], current_interface);
lists[ENABLES_INDEX] = g_slist_prepend(lists[ENABLES_INDEX], GINT_TO_POINTER(current_enable));
lists[LOW_VALUES_INDEX] = g_slist_prepend(lists[LOW_VALUES_INDEX], GINT_TO_POINTER((gint)(current_low_value * 1000)));
lists[HIGH_VALUES_INDEX] = g_slist_prepend(lists[HIGH_VALUES_INDEX], GINT_TO_POINTER((gint)(current_high_value * 1000)));
lists[ALARM_ENABLES_INDEX] = g_slist_prepend(lists[ALARM_ENABLES_INDEX], GINT_TO_POINTER(current_alarm_enable));
lists[LOW_ALARM_COMMANDS_INDEX] = g_slist_prepend(lists[LOW_ALARM_COMMANDS_INDEX], current_low_alarm_command);
lists[HIGH_ALARM_COMMANDS_INDEX] = g_slist_prepend(lists[HIGH_ALARM_COMMANDS_INDEX], current_high_alarm_command);
lists[ALARM_TIMEOUTS_INDEX] = g_slist_prepend(lists[ALARM_TIMEOUTS_INDEX], GINT_TO_POINTER(current_alarm_timeout));
lists[SENSOR_TYPES_INDEX] = g_slist_prepend(lists[SENSOR_TYPES_INDEX], GUINT_TO_POINTER(current_sensor_type));
lists[MULTIPLIERS_INDEX] = g_slist_prepend(lists[MULTIPLIERS_INDEX], GINT_TO_POINTER((gint)(current_multiplier * 1000)));
lists[OFFSETS_INDEX] = g_slist_prepend(lists[OFFSETS_INDEX], GINT_TO_POINTER((gint)(current_offset * 1000)));
lists[ICON_TYPES_INDEX] = g_slist_prepend(lists[ICON_TYPES_INDEX], GUINT_TO_POINTER(current_icon_type));
lists[GRAPH_COLORS_INDEX] = g_slist_prepend(lists[GRAPH_COLORS_INDEX], current_graph_color);
}
}
/* keep lists in original order */
for (i = 0; i < NUM_KEYS; i++) {
if (lists[i] != NULL) {
lists[i] = g_slist_reverse(lists[i]);
mate_panel_applet_mateconf_set_list(sensors_applet->applet,
keys[i],
key_types[i],
lists[i], &error);
if (error) {
sensors_applet_notify(sensors_applet, MATECONF_WRITE_ERROR);
g_error_free(error);
return FALSE;
}
} else {
g_debug("list %s is NULL", keys[i]);
}
}
sensors_applet_mateconf_free_lists(lists,
NUM_KEYS);
/* store current version to identify config data */
mate_panel_applet_mateconf_set_string(sensors_applet->applet,
SENSORS_APPLET_VERSION,
PACKAGE_VERSION, &error);
return TRUE;
}
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