namespace Xmpp { public class StanzaWriter { public signal void cancel(); private OutputStream output; private Queue queue = new Queue(); private bool running = false; public StanzaWriter.for_stream(OutputStream output) { this.output = output; } public async void write_node(StanzaNode node, int io_priority = Priority.DEFAULT, Cancellable? cancellable = null) throws IOError { yield write_data(node.to_xml().data, io_priority, cancellable); } public async void write_nodes(StanzaNode node1, StanzaNode node2, int io_priority = Priority.DEFAULT, Cancellable? cancellable = null) throws IOError { var data1 = node1.to_xml().data; var data2 = node2.to_xml().data; uint8[] concat = new uint8[data1.length + data2.length]; int i = 0; foreach (var datum in data1) { concat[i++] = datum; } foreach (var datum in data2) { concat[i++] = datum; } yield write_data(concat, io_priority, cancellable); } public async void write(string s, int io_priority = Priority.DEFAULT, Cancellable? cancellable = null) throws IOError { yield write_data(s.data, io_priority, cancellable); } private async void write_data(owned uint8[] data, int io_priority = Priority.DEFAULT, Cancellable? cancellable = null) throws IOError { if (running) { queue.push_tail(new SourceFuncWrapper(write_data.callback)); yield; } running = true; try { yield output.write_all_async(data, io_priority, cancellable, null); } catch (IOError e) { cancel(); throw e; } catch (GLib.Error e) { cancel(); throw new IOError.FAILED("Error in GLib: %s".printf(e.message)); } finally { SourceFuncWrapper? sfw = queue.pop_head(); if (sfw != null) { sfw.sfun(); } else { running = false; } } } } public class SourceFuncWrapper : Object { public SourceFunc sfun; public SourceFuncWrapper(owned SourceFunc sfun) { this.sfun = (owned)sfun; } } }