160 lines
5.3 KiB
ReStructuredText
160 lines
5.3 KiB
ReStructuredText
.. _net_mgmt_interface:
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Network Management
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##################
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.. contents::
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:local:
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:depth: 2
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Overview
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********
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The Network Management APIs allow applications, as well as network
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layer code itself, to call defined network routines at any level in
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the IP stack, or receive notifications on relevant network events. For
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example, by using these APIs, code can request a scan be done on a
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Wi-Fi- or Bluetooth-based network interface, or request notification if
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a network interface IP address changes.
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The Network Management API implementation is designed to save memory
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by eliminating code at build time for management routines that are not
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used. Distinct and statically defined APIs for network management
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procedures are not used. Instead, defined procedure handlers are
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registered by using a :c:macro:`NET_MGMT_REGISTER_REQUEST_HANDLER`
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macro. Procedure requests are done through a single :cpp:func:`net_mgmt()` API
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that invokes the registered handler for the corresponding request.
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The current implementation is experimental and may change and improve
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in future releases.
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Requesting a defined procedure
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******************************
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All network management requests are of the form
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``net_mgmt(mgmt_request, ...)``. The ``mgmt_request`` parameter is a bit
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mask that tells which stack layer is targeted, if a ``net_if`` object is
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implied, and the specific management procedure being requested. The
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available procedure requests depend on what has been implemented in
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the stack.
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To avoid extra cost, all :cpp:func:`net_mgmt()` calls are direct. Though this
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may change in a future release, it will not affect the users of this
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function.
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Listening to network events
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***************************
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You can receive notifications on network events by registering a
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callback function and specifying a set of events used to filter when
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your callback is invoked. The callback will have to be unique for a
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pair of layer and code, whereas on the command part it will be a mask of
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events.
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Two functions are available, :cpp:func:`net_mgmt_add_event_callback()` for
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registering the callback function, and
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:cpp:func:`net_mgmt_del_event_callback()`
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for unregistering a callback. A helper function,
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:cpp:func:`net_mgmt_init_event_callback()`, can
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be used to ease the initialization of the callback structure.
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When an event occurs that matches a callback's event set, the
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associated callback function is invoked with the actual event
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code. This makes it possible for different events to be handled by the
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same callback function, if desired.
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.. warning::
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Event set filtering allows false positives for events that have the same
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layer and layer code. A callback handler function **must** check
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the event code (passed as an argument) against the specific network
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events it will handle, **regardless** of how many events were in the
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set passed to :cpp:func:`net_mgmt_init_event_callback()`.
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(False positives can occur for events which have the same layer and
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layer code.)
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An example follows.
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.. code-block:: c
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/*
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* Set of events to handle.
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* See e.g. include/net/net_event.h for some NET_EVENT_xxx values.
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*/
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#define EVENT_SET (NET_EVENT_xxx | NET_EVENT_yyy)
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struct net_mgmt_event_callback callback;
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void callback_handler(struct net_mgmt_event_callback *cb, u32_t mgmt_event,
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struct net_if *iface)
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{
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if (mgmt_event == NET_EVENT_xxx) {
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/* Handle NET_EVENT_xxx */
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} else if (mgmt_event == NET_EVENT_yyy) {
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/* Handle NET_EVENT_yyy */
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} else {
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/* Spurious (false positive) invocation. */
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}
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}
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void register_cb(void)
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{
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net_mgmt_init_event_callback(&callback, callback_handler, EVENT_SET);
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net_mgmt_add_event_callback(&callback);
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}
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See :zephyr_file:`include/net/net_event.h` for available generic core events that
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can be listened to.
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Defining a network management procedure
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***************************************
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You can provide additional management procedures specific to your
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stack implementation by defining a handler and registering it with an
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associated mgmt_request code.
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Management request code are defined in relevant places depending on
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the targeted layer or eventually, if l2 is the layer, on the
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technology as well. For instance, all IP layer management request code
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will be found in the :zephyr_file:`include/net/net_event.h` header file. But in case
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of an L2 technology, let's say Ethernet, these would be found in
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:zephyr_file:`include/net/ethernet.h`
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You define your handler modeled with this signature:
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.. code-block:: c
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static int your_handler(u32_t mgmt_event, struct net_if *iface,
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void *data, size_t len);
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and then register it with an associated mgmt_request code:
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.. code-block:: c
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NET_MGMT_REGISTER_REQUEST_HANDLER(<mgmt_request code>, your_handler);
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This new management procedure could then be called by using:
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.. code-block:: c
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net_mgmt(<mgmt_request code>, ...);
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Signaling a network event
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*************************
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You can signal a specific network event using the :cpp:func:`net_mgmt_notify()`
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function and provide the network event code. See
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:zephyr_file:`include/net/net_mgmt.h` for details. As for the management request
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code, event code can be also found on specific L2 technology mgmt headers,
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for example :zephyr_file:`include/net/ieee802154_mgmt.h` would be the right place if
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802.15.4 L2 is the technology one wants to listen to events.
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API Reference
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*************
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.. doxygengroup:: net_mgmt
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:project: Zephyr
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