File: udisks2-plugin.c

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mate-sensors-applet 1.20.3-1
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/*
 * Copyright (C) 2009 Pramod Dematagoda <pmd.lotr.gandalf@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., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 */

/*
Udisks2 plugin for the mate-sensors-applet

written by info@cppsp.de using the structure and code of the previous version
from above author

fd1 - from doc1 - dbus-glib documentation
https://dbus.freedesktop.org/doc/dbus-glib/
fd2 - from doc2 - GDBUS documentation
https://developer.gnome.org/gio/stable/index.html

I couldn't figure out debug, so I used syslog
syslog(LOG_ERR, "hellodd");
-> /var/log/syslog
*/



#ifdef HAVE_CONFIG_H
#include "config.h"
#endif /* HAVE_CONFIG_H */

#include <stdio.h>
#include <gio/gio.h>
#include "udisks2-plugin.h"


// remove // from next line for syslog debug
//#define UD2PD              1

#ifdef UD2PD
#include <syslog.h>
#endif


#define UDISKS2_BUS_NAME              "org.freedesktop.UDisks2"
#define UDISKS2_INTERFACE_NAME        "org.freedesktop.DBus.ObjectManager"
#define UDISKS2_DEVICE_INTERFACE_NAME "org.freedesktop.UDisks2.Drive"
#define UDISKS2_DEVICE_INTERFACE2_NAME "org.freedesktop.UDisks2.Drive.Ata"

#define UDISKS2_PROPERTIES_INTERFACE  "org.freedesktop.DBus.Properties"
#define UDISKS2_OBJECT_PATH           "/org/freedesktop/UDisks2"


/*
 * Info about a single sensor
 */
typedef struct _DevInfo{
    gchar *path;
    gchar *id;
    gdouble temp;
    GDBusProxy *sensor_proxy;       // dbus object
    GError *error;
} DevInfo;


const gchar *plugin_name = "udisks2";

// a container for the devices found to have smart enabled
GHashTable *devices = NULL;

/* This is a global variable for convenience */
GDBusConnection *connection = NULL;


static void update_device(DevInfo *info) {
    GError *error = NULL;
    GVariant *tempgvar = NULL;
    GVariant *tempgvar2 = NULL;
    gdouble temp;

    // check valid input parameter
    g_return_if_fail(info != NULL);

    // check connection too
    g_return_if_fail(connection != NULL);

    g_clear_error(&info->error);

// for the udisks plugin a new sensor_proxy was created here, which seems stupid, as one is already stored in the DevInfo struct
// I only create one direct connect proxy here in this function

    // check for sensor_proxy, which should exist at this point, make one if necessary and save it into DevInfo
    // this is used to get the temp value the direct way
    if(NULL == info->sensor_proxy) {
        info->sensor_proxy = g_dbus_proxy_new_sync(connection, G_DBUS_PROXY_FLAGS_NONE, NULL,
                                                  UDISKS2_BUS_NAME,
                                                  info->path,
                                                  UDISKS2_PROPERTIES_INTERFACE,
                                                  NULL, &error );

        // check, just to be sure
        if (NULL == info->sensor_proxy) {

#ifdef UD2PD
syslog(LOG_ERR, "Failed to get drive temperature 1");
#endif
            g_debug("Failed to get drive temperature 1: %s", error->message);
            g_clear_error(&error);
            return;
        }
    }

// "DriveAtaSmartTimeCollected" in ud2 is "drive ata SmartUpdated"
// fd: The point in time (seconds since the Unix Epoch) that the SMART status was updated or 0 if never updated.
// should we bother getting this time??

/*
    if (!g_dbus_proxy_call_sync(sensor_proxy, "Get", NULL,
                   G_TYPE_STRING, UDISKS2_BUS_NAME,
                   G_TYPE_STRING, "DriveAtaSmartTimeCollected", G_TYPE_INVALID,
                   G_TYPE_VALUE, &smart_time,
                   G_TYPE_INVALID) || !g_value_get_uint64(&smart_time)) {

        g_object_unref(sensor_proxy);
        return;
    }
*/


// reading "DriveAtaSmartBlob" doesn't make it refresh
// it seems to me that smart updates occur automatically every 10 minutes
// mate-sensor-applet has a default refresh of 2 seconds...
// it is possible to force a smart update with udisks2: SmartUpdate (IN  a{sv} options);

// fd: A blob containing the ATA SMART data. This blob can be used with libatasmart to get more information. This property is only valid if DriveAtaSmartTimeCollected is greater than zero.
// this smartblob was needed, bc there was no other way to get the smart temperature from udisks
/*

    if (!g_dbus_proxy_call_sync(sensor_proxy, "Get", &info->error,
                  G_TYPE_STRING, UDISKS2_BUS_NAME,
                  G_TYPE_STRING, "DriveAtaSmartBlob", G_TYPE_INVALID,
                  G_TYPE_VALUE, &smart_blob_val,
                  G_TYPE_INVALID)) {

        g_debug("Error getting DriveAtaSmartBlob %s", info->error ? info->error->message : "NULL");
        g_object_unref(sensor_proxy);
        return;
    }
    smart_blob = g_value_get_boxed(&smart_blob_val);

    sk_disk_open(NULL, &sk_disk);
    sk_disk_set_blob(sk_disk, smart_blob->data, smart_blob->len);
    if (sk_disk_smart_get_temperature(sk_disk, &temperature) < 0) {
        g_debug("Error getting temperature from AtaSmartBlob");
        g_free(sk_disk);
        g_array_free(smart_blob, TRUE);
        g_object_unref(sensor_proxy);
        return;
    }
*/

    // directly asking the device's DBus object for the temp
    tempgvar = g_dbus_proxy_call_sync(info->sensor_proxy, "Get",
                g_variant_new ("(ss)",
                    UDISKS2_DEVICE_INTERFACE2_NAME,
                    "SmartTemperature"),                // parameters
                G_DBUS_CALL_FLAGS_NONE,        // flags
                -1,                // timeout
                NULL,                // cancellable
                &error);

    if (NULL == tempgvar) {

#ifdef UD2PD
syslog(LOG_ERR, "Failed to get drive temperature 2");
#endif
        g_debug("Failed to get drive temperature 2: %s", error->message);
        g_clear_error(&error);
        // throw away proxy, maybe next time it will be better
        g_clear_object(&info->sensor_proxy);
        return;
    } else {

#ifdef UD2PD
syslog(LOG_ERR, "tempgvar value: %s", g_variant_print(tempgvar, TRUE));
// leaks memory!
//syslog(LOG_ERR, "tempgvar value: %s", g_variant_print(g_variant_get_variant(g_variant_get_child_value(tempgvar, 0)), TRUE));
#endif

        // tempgvar comes back as sg along the lines of array(gvariant(tempasdouble))
        // hence unpacking
        // need to free up every param / return value, so can't do it like:
        //temp = g_variant_get_double(g_variant_get_variant(g_variant_get_child_value(tempgvar, 0)));
        tempgvar2 = g_variant_get_child_value(tempgvar, 0);
        g_variant_unref(tempgvar);
        tempgvar = g_variant_get_variant(tempgvar2);
        g_variant_unref(tempgvar2);
        temp = g_variant_get_double(tempgvar);
        g_variant_unref(tempgvar);

        // temp in K
        info->temp = temp - 273.15;

#ifdef UD2PD
syslog(LOG_ERR, "Refresh udisks2 device temp: '%f'\n", info->temp);
#endif

    }


}



/* This is the handler for the Changed() signal emitted by UDisks. */
/*
static void udisks2_changed_signal_cb(GDBusProxy *sensor_proxy) {
    const gchar *path;
    DevInfo *info;

    // fd2: Gets the object path sensor_proxy is for.
    path = g_dbus_proxy_get_object_path(sensor_proxy);
    g_debug("%s changed()", path);
    info = g_hash_table_lookup(devices, path);

//    update_device(info);
}
*/


// in this function we would like to get a list of device (hdd/ssd) paths
// then with each path we get the temperature
// it is possible with udisks2 to get all the above information in one g_dbus_proxy_call_sync(), so that is how I did it
// a better version would be to use GDBusObjectManager Server + Client ??
static void udisks2_plugin_get_sensors(GList **sensors) {

#ifdef UD2PD
syslog(LOG_ERR, "fstart");
#endif

    GDBusProxy *proxy = NULL;
    GError *error = NULL;

    DevInfo *info;

    /* This connection will be used for everything, including the obtaining
     * of sensor data
     */
    // fd1: Returns a connection to the given bus. The connection is a global variable shared with other callers of this function.
    // fd2: Synchronously connects to the message bus specified by bus_type . Note that the returned object may shared with other callers, e.g. if two separate parts of a process calls this function with the same bus_type , they will share the same object.
    connection = g_bus_get_sync(G_BUS_TYPE_SYSTEM, NULL, &error);
    if (NULL == connection) {

#ifdef UD2PD
syslog(LOG_ERR, "dbus conn fail");
#endif

        g_debug("Failed to open connection to DBUS: %s", error->message);
        g_clear_error(&error);
        return;
    }

#ifdef UD2PD
syslog(LOG_ERR, "dbus conn success");
#endif

    /* This was the proxy which is only used once during the enumeration of
     * the device object paths
     */
    // I use it to get all info of all devices at once
    // fd1: Creates a new proxy for a remote interface exported by a connection on a message bus.
    // fd2: Creates a proxy for accessing interface_name on the remote object at object_path owned by name at connection and synchronously loads D-Bus properties unless the G_DBUS_PROXY_FLAGS_DO_NOT_LOAD_PROPERTIES flag is used.
    proxy = g_dbus_proxy_new_sync(connection, G_DBUS_PROXY_FLAGS_NONE, NULL,
                                  UDISKS2_BUS_NAME,
                                  UDISKS2_OBJECT_PATH,
                                  UDISKS2_INTERFACE_NAME,
                                  NULL, &error );

    if (NULL == proxy) {

#ifdef UD2PD
syslog(LOG_ERR, "dbus conn proxy fail");
#endif
        g_debug("dbus conn proxy fail: %s", error->message);
        g_clear_error(&error);
        g_clear_object(&connection);
        return;
    }

#ifdef UD2PD
syslog(LOG_ERR, "dbus conn proxy success");
#endif

    /* The object paths of the disks are enumerated and placed in an array
     * of object paths
     */
    // fd1: Function for synchronously invoking a method and receiving reply values.
    // fd2: Synchronously invokes the method_name method on proxy.
    // called "EnumerateDevices" method on UDisks object through dbus
    // which returned an array of objectpaths
    // "GetManagedObjects" returns dict of (objectpath, (dict of (string [ie. if. name], dict of(string [ie. property name], variant [ie. prop. value]))))

    // g_dbus_proxy_call_sync() returns NULL on error, GVariant * otherwise
    // need second param to prevent memory leak
    GVariant *managed_objects, *managed_objects2;


    managed_objects2 = g_dbus_proxy_call_sync(proxy, "GetManagedObjects",
                                            NULL,                // parameters
                                            G_DBUS_CALL_FLAGS_NONE,        // flags
                                            -1,                // timeout
                                            NULL,                // cancellable
                                            &error);

    if (NULL == managed_objects2) {

#ifdef UD2PD
syslog(LOG_ERR, "Failed to enumerate disk devices");
#endif

        g_debug("Failed to enumerate disk devices: %s", error->message);
        g_clear_error(&error);
        g_clear_object(&proxy);
        g_clear_object(&connection);
        return;
    }

    // the result dictionary is enclosed in an array, unpack
    managed_objects = g_variant_get_child_value(managed_objects2, 0);
    g_variant_unref(managed_objects2);

#ifdef UD2PD
//syslog(LOG_ERR, "managed_objects type: %s", g_variant_print(managed_objects, TRUE));
syslog(LOG_ERR, "success to enumerate disk devices");
#endif

    // iterator for the result dictionary

    // iterator code is based on the g_variant_iter_next() documentation
    // iter is freed if the GVariant is, when using g_variant_iter_init()
    GVariantIter iter;
    gchar *key;         // object path (like '/org/freedesktop/UDisks2/drives/Samsung_SSD_840_EVO_250GB_*insert drive serial nr.*')
    GVariant *value;

#ifdef UD2PD
// log collection size
syslog(LOG_ERR, "iter init count: %d", (int) g_variant_iter_init(&iter, managed_objects));
#else
    g_variant_iter_init(&iter, managed_objects);
#endif

    // "{sv}"  is a GVariant format string
    // {} dictionary of, s string, v GVariant
    // changed to "{oa{sa{sv}}}" on error message 'the GVariant format string '{sv}' has a type of '{sv}' but the given value has a type of 'a{oa{sa{sv}}}''
    // a is array, o is object path
    // NOO!! the right format string is "{o@*}", which means get an object path into the 1st variable (key)
    // and get 'everything else' (as a GVariant) into the 2nd variable (value)
    // needs the & before the key and value params!
    while (g_variant_iter_next(&iter, "{o@*}", &key, &value)) {

#ifdef UD2PD
syslog(LOG_ERR, "in iter while loop");
syslog(LOG_ERR, "key value: %s", key);
//syslog(LOG_ERR, "value type: %s", g_variant_print(value, TRUE));
#endif

        // level 2
        // create a dictionary of value
        // the two interface names that we are searching for are known and defined
        // can't use GVariantDict, it only supports '{sv}' but the given value has a type of '{sa{sv}}'
        // using general lookup

        GVariant *propdict;        // drive data
        GVariant *propdict2;    // drive smart data

        // make two dictionaries that contain the properties of the drive interfaces
        propdict = g_variant_lookup_value(value, UDISKS2_DEVICE_INTERFACE_NAME, G_VARIANT_TYPE_DICTIONARY);
        propdict2 = g_variant_lookup_value(value, UDISKS2_DEVICE_INTERFACE2_NAME, G_VARIANT_TYPE_DICTIONARY);


        // do we have the right ifname keys?
        if((NULL != propdict) && (NULL != propdict2)) {

#ifdef UD2PD
syslog(LOG_ERR, "propdict type: %s", g_variant_print(propdict, TRUE));
syslog(LOG_ERR, "propdict2 type: %s", g_variant_print(propdict2, TRUE));
#endif

            // get data
            gchar *id;
            gchar *model;

            gboolean smartenabled;
            gdouble temp;

            // NULL, bc we don't care about the length of the string
            // typecast bc g_variant_get_string() returns const char*
            id = (gchar *) g_variant_get_string(g_variant_lookup_value(propdict, "Id", G_VARIANT_TYPE_STRING), NULL);
            model = (gchar *) g_variant_get_string(g_variant_lookup_value(propdict, "Model", G_VARIANT_TYPE_STRING), NULL);

            smartenabled = g_variant_get_boolean(g_variant_lookup_value(propdict2, "SmartEnabled", G_VARIANT_TYPE_BOOLEAN));
            temp = g_variant_get_double(g_variant_lookup_value(propdict2, "SmartTemperature", G_VARIANT_TYPE_DOUBLE));

#ifdef UD2PD
syslog(LOG_ERR, "Found udisks2 device id: '%s'\n", id);
syslog(LOG_ERR, "Found udisks2 device model: '%s'\n", model);
syslog(LOG_ERR, "Found udisks2 device smartenabled: '%d'\n", smartenabled);
syslog(LOG_ERR, "Found udisks2 device temp: '%f'\n", temp);
#endif


            // only go on if smart is enabled
            // save data
            if(smartenabled) {

                info = g_malloc0(sizeof(DevInfo));
                if (NULL == devices) {
                    devices = g_hash_table_new(g_str_hash, g_str_equal);
                }

                info->id =  g_strdup(id);
                info->path =  g_strdup(key);

                // temp in K
                // this could be left at 0.0, 2 seconds later it will be refreshed anyway
                info->temp = (gdouble)temp - 273.15;
                g_hash_table_insert(devices, info->id, info);

                // Write the sensor data
                sensors_applet_plugin_add_sensor(sensors,
                                                 id,
                                                 "Disk Temperature",
                                                 model,
                                                 TEMP_SENSOR,
                                                 FALSE,
                                                 HDD_ICON,
                                                 DEFAULT_GRAPH_COLOR);

                g_debug("Added %s", id);

#ifdef UD2PD
syslog(LOG_ERR, "Added %s", id);
#endif

            } else {

#ifdef UD2PD
syslog(LOG_ERR, "No temp data for device: %s\n", key);
#endif

                g_debug ("No temp data for device: %s\n", key);
            }

#ifdef UD2PD
syslog(LOG_ERR, "b4 free1");
#endif

            g_free(id);
            g_free(model);

        }

#ifdef UD2PD
syslog(LOG_ERR, "b4 free2");
#endif

        // free propdict, propdict2
        // g_variant_dict_unref() may not work a few times, gives error
        // this one seems to do fine
        if(NULL != propdict) {g_variant_unref(propdict);}
        if(NULL != propdict2) {g_variant_unref(propdict2);}

#ifdef UD2PD
syslog(LOG_ERR, "b4 free3");
#endif

        g_free(key);
        g_variant_unref(value);

    }       // end of while loop


    g_variant_unref(managed_objects);
    g_clear_object(&proxy);
    if (NULL == devices) {
        g_clear_object(&connection);
    }
}

// this is the function called every refresh cycle
static gdouble udisks2_plugin_get_sensor_value(const gchar *path,
                                               const gchar *id,
                                               SensorType type,
                                               GError **error) {
    DevInfo *info;

    // get device stuct from data store
    info = (DevInfo *) g_hash_table_lookup(devices, path);
    if (NULL == info) {
        g_set_error(error, SENSORS_APPLET_PLUGIN_ERROR, 0, "Error finding disk with path %s", path);
        return 0.0;
    }

    if (info->error) {
        *error = info->error;
        info->error = NULL;
        return 0.0;
    }

    // refresh device temp
    /* update value since Changed() signal doesn't fire manually enough so
     * poll instead */
    update_device(info);
    return info->temp;
}


// API functions
const gchar *sensors_applet_plugin_name(void)
{
    return plugin_name;
}

static GList *udisks2_plugin_init(void) {
    GList *sensors = NULL;

    udisks2_plugin_get_sensors(&sensors);

    return sensors;
}

GList *sensors_applet_plugin_init(void)
{
    return udisks2_plugin_init();
}

gdouble sensors_applet_plugin_get_sensor_value(const gchar *path,
                                               const gchar *id,
                                               SensorType type,
                                               GError **error) {

    return udisks2_plugin_get_sensor_value(path, id, type, error);
}