[PATCH 21/21] Documentation: Add document for parallel execution in barebox

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Signed-off-by: Sascha Hauer <s.hauer@xxxxxxxxxxxxxx>
---
 Documentation/devel/background-execution.rst | 123 +++++++++++++++++++
 Documentation/devel/devel.rst                |  14 +++
 Documentation/index.rst                      |   1 +
 3 files changed, 138 insertions(+)
 create mode 100644 Documentation/devel/background-execution.rst
 create mode 100644 Documentation/devel/devel.rst

diff --git a/Documentation/devel/background-execution.rst b/Documentation/devel/background-execution.rst
new file mode 100644
index 0000000000..29ec2236e7
--- /dev/null
+++ b/Documentation/devel/background-execution.rst
@@ -0,0 +1,123 @@
+Background execution in barebox
+===============================
+
+barebox is single-threaded and doesn't support interrupts. Nevertheless it is
+sometimes desired to execute code "in the background", like for example polling
+for completion of transfers or to regularly blink a heartbeat LED.  For these
+scenarios barebox offers the techniques described below.
+
+Pollers
+-------
+
+Pollers are a way in barebox to frequently execute code in the background.
+barebox is single-threaded, so a poller is not executed as a separate thread,
+but instead pollers are executed whenever ``is_timeout()`` is called.  This has
+a few implications. First of all, pollers are not executed when
+``is_timeout()`` is not called. For this and other reasons, loops polling for
+hardware events should always use a timeout, which is best implemented with
+``is_timeout()``. Another thing to remember is that pollers can be executed
+anywhere in the middle of other device accesses whenever ``is_timeout()`` is
+called. Care must be taken that a poller doesn't access the very same device
+again itself. See "slices" below on how devices can safely be accessed from
+pollers. Some operations are entirely forbidden from pollers. For example it is
+forbidden to access the virtual filesystem, as this could trigger arbitrary
+device accesses.  The macro ``assert_command_context()`` is added to those
+places to make sure they are not called in the wrong context. The poller
+interface is declared in ``include/poller.h``.  ``poller_register()`` is used
+to register a poller. The ``struct poller_struct`` passed to
+``poller_register()`` needs to have the ``poller_struct.func()`` member
+populated with the function that shall be called. From the moment a poller is
+registered ``poller_struct.func()`` will be called regularly as long as someone
+calls ``is_timeout()``.  A special poller can be registered with
+``poller_async_register()``. A poller registered this way won't be called right
+away, instead running it can be triggered by calling ``poller_call_async()``.
+This will execute the poller after the ``@delay_ns`` argument.
+``poller_call_async()`` may also be called from with the poller, so with this
+it's possible to run a poller regularly with configurable delays.
+
+Pollers are limited in the things they can do. Poller code must always be
+prepared for the case that the resources it accesses are currently busy and
+handle this gracefully by trying again later. Most places in barebox either do
+not test for resources being busy or return with an error if they are busy.
+Calling into the filesystem potentially uses arbitrary other devices, so
+calling into the filesystem from pollers is forbidden. For the same reason it
+is forbidden to execute barebox commands from pollers.
+
+Workqueues
+----------
+
+Sometimes code wants to access files from poller context or even wants to
+execute barebox commands from poller context. The fastboot implementation is an
+example for such a case. The fastboot commands come in via USB or network and
+the completion and packet receive handlers are executed in poller context. Here
+workqueues come into play. They allow to queue work items from poller context.
+These work items are executed later at the point where the shell fetches its
+next command. At this point we implicitly know that it's allowed to execute
+commands or to access the filesystem, because otherwise the shell could not do
+it. This means that execution of the next shell command will be delayed until
+all work items are being done. Likewise the work items will only be executed
+when the current shell command has finished.
+
+The workqueue interface is declared in ``include/work.h``.
+
+``wq_register()`` is the first step to use the workqueue interface.
+``wq_register()`` registers a workqueue to which work items can be attached.
+Before registering a workqueue a ``struct work_queue`` has to be populated with
+two function callbacks.  ``work_queue.fn()`` is the callback that actually does
+the work once it is scheduled.  ``work_queue.cancel()`` is a callback which is
+executed when the pending work shall be cancelled. This is primarily for
+freeing the memory associated to a work item.  ``wq_queue_work()`` is for
+actually queueing a work item on a work queue. This can be called from poller
+code. Usually a work item is allocated by the poller and then freed either in
+``work_queue.fn()`` or in ``work_queue.cancel()``.
+
+Slices
+------
+
+Slices are a way to check if a device is currently busy and thus may not be
+called into currently. Pollers wanting to access a device must call
+``slice_busy()`` on the slice provided by the device before calling into it.
+When the slice is acquired (which can only happen inside a poller) the poller
+can't continue at this moment and must try again next time it is executed.
+Drivers whose devices provide a slice must call ``slice_busy()`` before
+accessing the device and ``slice_release()`` afterwards. Slices can have
+dependencies to other slices, for example a USB network controller uses the
+corresponding USB host controller. A dependency can be expressed with
+``slice_depends_on()``. With this the USB network controller can add a
+dependency from the network device it provides itself to the USB host
+controller it depends on.  With this ``slice_busy()`` on the network device
+will return ``true`` when the USB host controller is busy.
+
+The usual pattern for using slices is that the device driver for a device
+calls ``slice_acquire()`` when entering the driver and ``slice_release()``
+before leaving the driver. The driver also provides a function returning
+the slice for a device, for example the ethernet support code provides
+``struct slice *eth_device_slice(struct eth_device *edev)``. Poller code
+which wants to use the ethernet device checks for the availability doing
+``slice_busy(eth_device_slice(edev))`` before accessing the ethernet
+device.
+
+Limitations
+-----------
+
+What barebox does is best described as cooperative multitasking. As pollers
+can't be interrupted, it will directly affect the user experience when they
+take too long. When barebox reacts sluggishly to key presses, then probably
+pollers likely take too long to execute. A first test if this is the case can
+be done by executing ``poller -t`` on the command line. This command will print
+how many times we can execute all registered pollers in one second. When this
+number is too low then pollers are guilty responsible. Workqueues help to run
+schedule/execute longer running code, but during the time while workqueues are
+executed nothing else happens. This means that when fastboot flashes an image
+in a workqueue then barebox won't react to any key presses on the command line.
+The usage of the interfaces described in this document is not yet very
+widespread in barebox. The interfaces are used in the places where we need
+them, but there are other places which do not use them but should. For example
+using a LED driven by a I2C GPIO exander used as hearbeat LED won't work
+properly currently. Consider the I2C driver accesses an unrelated I2C device,
+like an EEPROM. After having initiated the transfer the driver polls for the
+transfer being completed using a ``is_timeout()`` loop. The call to
+``is_timeout()`` then calls into the registered pollers from which one accesses
+the same I2C bus whose driver is just polling for completion of another
+transfer. With this the I2C driver is in an undefined state and will likely not
+work anymore.
diff --git a/Documentation/devel/devel.rst b/Documentation/devel/devel.rst
new file mode 100644
index 0000000000..f559512ca3
--- /dev/null
+++ b/Documentation/devel/devel.rst
@@ -0,0 +1,14 @@
+.. highlight:: console
+
+barebox programming
+===================
+
+Contents:
+
+.. toctree::
+   :maxdepth: 2
+
+   background-execution
+
+* :ref:`search`
+* :ref:`genindex`
diff --git a/Documentation/index.rst b/Documentation/index.rst
index b7dae2396b..836dc41af2 100644
--- a/Documentation/index.rst
+++ b/Documentation/index.rst
@@ -19,6 +19,7 @@ Contents:
    boards
    glossary
    devicetree/*
+   devel/devel.rst
 
 * :ref:`search`
 * :ref:`genindex`
-- 
2.27.0


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