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+.. SPDX-License-Identifier: GPL-3.0-or-later
+
+Timers and events reference
+^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The timer represents exactly the thing described in the examples - it allows you to execute closures_
+after specified time, or event recurrent events. Time is always described in milliseconds,
+but there are convenient variables that you can use - ``sec, minute, hour``.
+For example, ``5 * hour`` represents five hours, or 5*60*60*100 milliseconds.
+
+.. function:: event.after(time, function)
+
+   :return: event id
+
+   Execute function after the specified time has passed.
+   The first parameter of the callback is the event itself.
+
+   Example:
+
+   .. code-block:: lua
+
+      event.after(1 * minute, function() print('Hi!') end)
+
+.. function:: event.recurrent(interval, function)
+
+   :return: event id
+
+   Execute function immediately and then periodically after each ``interval``.
+
+   Example:
+
+   .. code-block:: lua
+
+      msg_count = 0
+      event.recurrent(5 * sec, function(e)
+         msg_count = msg_count + 1
+         print('Hi #'..msg_count)
+      end)
+
+.. function:: event.reschedule(event_id, timeout)
+
+   Reschedule a running event, it has no effect on canceled events.
+   New events may reuse the event_id, so the behaviour is undefined if the function
+   is called after another event is started.
+
+   Example:
+
+   .. code-block:: lua
+
+      local interval = 1 * minute
+      event.after(1 * minute, function (ev)
+         print('Good morning!')
+         -- Halve the interval for each iteration
+         interval = interval / 2
+         event.reschedule(ev, interval)
+      end)
+
+.. function:: event.cancel(event_id)
+
+   Cancel running event, it has no effect on already canceled events.
+   New events may reuse the event_id, so the behaviour is undefined if the function
+   is called after another event is started.
+
+   Example:
+
+   .. code-block:: lua
+
+      e = event.after(1 * minute, function() print('Hi!') end)
+      event.cancel(e)
+
+Watch for file descriptor activity. This allows embedding other event loops or simply
+firing events when a pipe endpoint becomes active. In another words, asynchronous
+notifications for daemon.
+
+.. function:: event.socket(fd, cb)
+
+   :param number fd: file descriptor to watch
+   :param cb: closure or callback to execute when fd becomes active
+   :return: event id
+
+   Execute function when there is activity on the file descriptor and calls a closure
+   with event id as the first parameter, status as second and number of events as third.
+
+   Example:
+
+   .. code-block:: lua
+
+      e = event.socket(0, function(e, status, nevents)
+         print('activity detected')
+      end)
+      e.cancel(e)
+
+Asynchronous function execution
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+
+The `event` package provides a very basic mean for non-blocking execution - it allows running code when activity on a file descriptor is detected, and when a certain amount of time passes. It doesn't however provide an easy to use abstraction for non-blocking I/O. This is instead exposed through the `worker` package (if `cqueues` Lua package is installed in the system).
+
+.. function:: worker.coroutine(function)
+
+   Start a new coroutine with given function (closure). The function can do I/O or run timers without blocking the main thread. See cqueues_ for documentation of possible operations and synchronization primitives. The main limitation is that you can't wait for a finish of a coroutine from processing layers, because it's not currently possible to suspend and resume execution of processing layers.
+
+   Example:
+
+   .. code-block:: lua
+
+      worker.coroutine(function ()
+        for i = 0, 10 do
+          print('executing', i)
+          worker.sleep(1)
+        end
+      end)
+
+.. function:: worker.sleep(seconds)
+
+   Pause execution of current function (asynchronously if running inside a worker coroutine).
+
+Example:
+
+.. code-block:: lua
+
+     function async_print(testname, sleep)
+             log(testname .. ': system time before sleep' .. tostring(os.time())
+             worker.sleep(sleep)  -- other coroutines continue execution now
+             log(testname .. ': system time AFTER sleep' .. tostring(os.time())
+     end
+
+     worker.coroutine(function() async_print('call #1', 5) end)
+     worker.coroutine(function() async_print('call #2', 3) end)
+
+Output from this example demonstrates that both calls to function ``async_print`` were executed asynchronously:
+
+
+.. code-block:: none
+
+     call #2: system time before sleep 1578065073
+     call #1: system time before sleep 1578065073
+     call #2: system time AFTER  sleep 1578065076
+     call #1: system time AFTER  sleep 1578065078
+