iface-modem-location: plug memleaks when updating gps raw variant

The helper method returning a variant from a MMLocationGpsRaw would
return already a full variant reference instead of a floating one, so
we were really increasing the refcount when doing g_variant_ref_sink()
in the location interface.

Fix this by consolidating all helper methods in libmm-glib that return
variants from the different MMLocationXX objects, so that they all
return full variants instead of floating ones.

libmm-glib/mm-location-3gpp.c

@@ -291,7 +291,7 @@ mm_location_3gpp_get_string_variant (MMLocation3gpp *self)
                                self->priv->cell_id,
                                self->priv->tracking_area_code);
 
-        variant = g_variant_new_string (str);
+        variant = g_variant_ref_sink (g_variant_new_string (str));
         g_free (str);
     }
 

libmm-glib/mm-location-gps-nmea.c

@@ -244,7 +244,7 @@ mm_location_gps_nmea_get_string_variant (MMLocationGpsNmea *self)
 
     traces = mm_location_gps_nmea_get_traces (self);
     built = g_strjoinv ("\r\n", traces);
-    return g_variant_new_string (built);
+    return g_variant_ref_sink (g_variant_new_string (built));
 }
 
 /*****************************************************************************/

src/mm-iface-modem-location.c

@@ -165,11 +165,10 @@ build_location_dictionary (GVariant *previous,
         if (location_3gpp_value)
             g_variant_unref (location_3gpp_value);
         location_3gpp_value = mm_location_3gpp_get_string_variant (location_3gpp);
-        if (location_3gpp_value)
-            g_variant_ref_sink (location_3gpp_value);
     }
 
     if (location_3gpp_value) {
+        g_assert (!g_variant_is_floating (location_3gpp_value));
         g_variant_builder_add (&builder,
                                "{uv}",
                                MM_MODEM_LOCATION_SOURCE_3GPP_LAC_CI,
@@ -182,11 +181,10 @@ build_location_dictionary (GVariant *previous,
         if (location_gps_nmea_value)
             g_variant_unref (location_gps_nmea_value);
         location_gps_nmea_value = mm_location_gps_nmea_get_string_variant (location_gps_nmea);
-        if (location_gps_nmea_value)
-            g_variant_ref_sink (location_gps_nmea_value);
     }
 
     if (location_gps_nmea_value) {
+        g_assert (!g_variant_is_floating (location_gps_nmea_value));
         g_variant_builder_add (&builder,
                                "{uv}",
                                MM_MODEM_LOCATION_SOURCE_GPS_NMEA,
@@ -199,11 +197,10 @@ build_location_dictionary (GVariant *previous,
         if (location_gps_raw_value)
             g_variant_unref (location_gps_raw_value);
         location_gps_raw_value = mm_location_gps_raw_get_dictionary (location_gps_raw);
-        if (location_gps_raw_value)
-            g_variant_ref_sink (location_gps_raw_value);
     }
 
     if (location_gps_raw_value) {
+        g_assert (!g_variant_is_floating (location_gps_raw_value));
         g_variant_builder_add (&builder,
                                "{uv}",
                                MM_MODEM_LOCATION_SOURCE_GPS_RAW,
@@ -216,11 +213,10 @@ build_location_dictionary (GVariant *previous,
         if (location_cdma_bs_value)
             g_variant_unref (location_cdma_bs_value);
         location_cdma_bs_value = mm_location_cdma_bs_get_dictionary (location_cdma_bs);
-        if (location_cdma_bs_value)
-            g_variant_ref_sink (location_cdma_bs_value);
     }
 
     if (location_cdma_bs_value) {
+        g_assert (!g_variant_is_floating (location_cdma_bs_value));
         g_variant_builder_add (&builder,
                                "{uv}",
                                MM_MODEM_LOCATION_SOURCE_CDMA_BS,