5.4. Communication across Anaconda threads

Some of the actions that you need to perform during the installation process may take a long time. For example, scanning disks for existing partitions or downloading package metadata. To prevent you from waiting and remaining responsive, Anaconda runs these actions in separate threads.

The Gtk toolkit does not support element changes from multiple threads. The main event loop of Gtk runs in the main thread of the Anaconda process. Therefore, all actions pertaining to the GUI must be performed in the main thread. To do so, use GLib.idle_add, which is not always easy or desired. Several helper functions and decorators that are defined in the pyanaconda.ui.gui.utils module may add to the difficulty.

The @gtk_action_wait and @gtk_action_nowait decorators change the decorated function or method in such a way that when this function or method is called, it is automatically queued into Gtk’s main loop that runs in the main thread. The return value is either returned to the caller or dropped, respectively.

In a spoke and hub communication, a spoke announces when it is ready and is not blocked. The hubQ message queue handles this function, and periodically checks the main event loop. When a spoke becomes accessible, it sends a message to the queue announcing the change and that it should no longer be blocked.

The same applies in a situation where a spoke needs to refresh its status or complete a flag. The Configuration and Progress hub has a different queue called progressQ which serves as a medium to transfer installation progress updates.

These mechanisms are also used for the text-based interface. In the text mode, there is no main loop, but the keyboard input takes most of the time.