43628b3df2
Using external explicit references to http://doc.dpdk.org makes older releases documentation point to the current master documentation pages. Switch to internal references. Fixes:59ad25fe21
("doc: add overview of qat guide") Fixes:30e7fbd628
("doc: add event timer adapter guide") Fixes:b7f859c9a9
("doc: add switch representation documentation") Fixes:f714a18885
("app/testbbdev: add test application for bbdev") Cc: stable@dpdk.org Signed-off-by: David Marchand <david.marchand@redhat.com> Acked-by: Stephen Hemminger <stephen@networkplumber.org>
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301 lines
11 KiB
ReStructuredText
.. SPDX-License-Identifier: BSD-3-Clause
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Copyright(c) 2017 Intel Corporation. All rights reserved.
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Event Timer Adapter Library
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===========================
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The DPDK :doc:`Event Device library <eventdev>`
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introduces an event driven programming model which presents applications with
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an alternative to the polling model traditionally used in DPDK
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applications. Event devices can be coupled with arbitrary components to provide
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new event sources by using **event adapters**. The Event Timer Adapter is one
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such adapter; it bridges event devices and timer mechanisms.
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The Event Timer Adapter library extends the event driven model
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by introducing a :ref:`new type of event <timer_expiry_event>` that represents
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a timer expiration, and providing an API with which adapters can be created or
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destroyed, and :ref:`event timers <event_timer>` can be armed and canceled.
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The Event Timer Adapter library is designed to interface with hardware or
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software implementations of the timer mechanism; it will query an eventdev PMD
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to determine which implementation should be used. The default software
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implementation manages timers using the DPDK
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:doc:`Timer library <timer_lib>`.
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Examples of using the API are presented in the `API Overview`_ and
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`Processing Timer Expiry Events`_ sections. Code samples are abstracted and
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are based on the example of handling a TCP retransmission.
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.. _event_timer:
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Event Timer struct
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------------------
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Event timers are timers that enqueue a timer expiration event to an event
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device upon timer expiration.
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The Event Timer Adapter API represents each event timer with a generic struct,
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which contains an event and user metadata. The ``rte_event_timer`` struct is
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defined in ``lib/librte_event/librte_event_timer_adapter.h``.
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.. _timer_expiry_event:
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Timer Expiry Event
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~~~~~~~~~~~~~~~~~~
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The event contained by an event timer is enqueued in the event device when the
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timer expires, and the event device uses the attributes below when scheduling
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it:
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* ``event_queue_id`` - Application should set this to specify an event queue to
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which the timer expiry event should be enqueued
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* ``event_priority`` - Application can set this to indicate the priority of the
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timer expiry event in the event queue relative to other events
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* ``sched_type`` - Application can set this to specify the scheduling type of
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the timer expiry event
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* ``flow_id`` - Application can set this to indicate which flow this timer
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expiry event corresponds to
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* ``op`` - Will be set to ``RTE_EVENT_OP_NEW`` by the event timer adapter
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* ``event_type`` - Will be set to ``RTE_EVENT_TYPE_TIMER`` by the event timer
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adapter
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Timeout Ticks
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~~~~~~~~~~~~~
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The number of ticks from now in which the timer will expire. The ticks value
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has a resolution (``timer_tick_ns``) that is specified in the event timer
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adapter configuration.
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State
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~~~~~
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Before arming an event timer, the application should initialize its state to
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RTE_EVENT_TIMER_NOT_ARMED. The event timer's state will be updated when a
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request to arm or cancel it takes effect.
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If the application wishes to rearm the timer after it has expired, it should
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reset the state back to RTE_EVENT_TIMER_NOT_ARMED before doing so.
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User Metadata
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~~~~~~~~~~~~~
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Memory to store user specific metadata. The event timer adapter implementation
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will not modify this area.
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API Overview
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------------
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This section will introduce the reader to the event timer adapter API, showing
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how to create and configure an event timer adapter and use it to manage event
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timers.
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From a high level, the setup steps are:
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* rte_event_timer_adapter_create()
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* rte_event_timer_adapter_start()
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And to start and stop timers:
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* rte_event_timer_arm_burst()
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* rte_event_timer_cancel_burst()
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Create and Configure an Adapter Instance
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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To create an event timer adapter instance, initialize an
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``rte_event_timer_adapter_conf`` struct with the desired values, and pass it
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to ``rte_event_timer_adapter_create()``.
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.. code-block:: c
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#define NSECPERSEC 1E9 // No of ns in 1 sec
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const struct rte_event_timer_adapter_conf adapter_config = {
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.event_dev_id = event_dev_id,
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.timer_adapter_id = 0,
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.clk_src = RTE_EVENT_TIMER_ADAPTER_CPU_CLK,
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.timer_tick_ns = NSECPERSEC / 10, // 100 milliseconds
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.max_tmo_nsec = 180 * NSECPERSEC // 2 minutes
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.nb_timers = 40000,
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.timer_adapter_flags = 0,
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};
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struct rte_event_timer_adapter *adapter = NULL;
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adapter = rte_event_timer_adapter_create(&adapter_config);
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if (adapter == NULL) { ... };
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Before creating an instance of a timer adapter, the application should create
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and configure an event device along with its event ports. Based on the event
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device capability, it might require creating an additional event port to be
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used by the timer adapter. If required, the
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``rte_event_timer_adapter_create()`` function will use a default method to
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configure an event port; it will examine the current event device
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configuration, determine the next available port identifier number, and create
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a new event port with a default port configuration.
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If the application desires to have finer control of event port allocation
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and setup, it can use the ``rte_event_timer_adapter_create_ext()`` function.
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This function is passed a callback function that will be invoked if the
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adapter needs to create an event port, giving the application the opportunity
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to control how it is done.
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Retrieve Event Timer Adapter Contextual Information
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The event timer adapter implementation may have constraints on tick resolution
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or maximum timer expiry timeout based on the given event timer adapter or
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system. In this case, the implementation may adjust the tick resolution or
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maximum timeout to the best possible configuration.
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Upon successful event timer adapter creation, the application can get the
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configured resolution and max timeout with
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``rte_event_timer_adapter_get_info()``. This function will return an
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``rte_event_timer_adapter_info`` struct, which contains the following members:
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* ``min_resolution_ns`` - Minimum timer adapter tick resolution in ns.
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* ``max_tmo_ns`` - Maximum timer timeout(expiry) in ns.
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* ``adapter_conf`` - Configured event timer adapter attributes
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Configuring the Service Component
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If the adapter uses a service component, the application is required to map
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the service to a service core before starting the adapter:
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.. code-block:: c
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uint32_t service_id;
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if (rte_event_timer_adapter_service_id_get(adapter, &service_id) == 0)
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rte_service_map_lcore_set(service_id, EVTIM_CORE_ID);
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An event timer adapter uses a service component if the event device PMD
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indicates that the adapter should use a software implementation.
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Starting the Adapter Instance
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The application should call ``rte_event_timer_adapter_start()`` to start
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running the event timer adapter. This function calls the start entry points
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defined by eventdev PMDs for hardware implementations or puts a service
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component into the running state in the software implementation.
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.. Note::
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The eventdev to which the event_timer_adapter is connected needs to
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be started before calling rte_event_timer_adapter_start().
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Arming Event Timers
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~~~~~~~~~~~~~~~~~~~
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Once an event timer adapter has been started, an application can begin to
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manage event timers with it.
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The application should allocate ``struct rte_event_timer`` objects from a
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mempool or huge-page backed application buffers of required size. Upon
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successful allocation, the application should initialize the event timer, and
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then set any of the necessary event attributes described in the
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`Timer Expiry Event`_ section. In the following example, assume ``conn``
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represents a TCP connection and that ``event_timer_pool`` is a mempool that
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was created previously:
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.. code-block:: c
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rte_mempool_get(event_timer_pool, (void **)&conn->evtim);
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if (conn->evtim == NULL) { ... }
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/* Set up the event timer. */
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conn->evtim->ev.op = RTE_EVENT_OP_NEW;
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conn->evtim->ev.queue_id = event_queue_id;
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conn->evtim->ev.sched_type = RTE_SCHED_TYPE_ATOMIC;
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conn->evtim->ev.priority = RTE_EVENT_DEV_PRIORITY_NORMAL;
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conn->evtim->ev.event_type = RTE_EVENT_TYPE_TIMER;
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conn->evtim->ev.event_ptr = conn;
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conn->evtim->state = RTE_EVENT_TIMER_NOT_ARMED;
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conn->evtim->timeout_ticks = 30; //3 sec Per RFC1122(TCP returns)
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Note that it is necessary to initialize the event timer state to
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RTE_EVENT_TIMER_NOT_ARMED. Also note that we have saved a pointer to the
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``conn`` object in the timer's event payload. This will allow us to locate
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the connection object again once we dequeue the timer expiry event from the
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event device later. As a convenience, the application may specify no value for
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ev.event_ptr, and the adapter will by default set it to point at the event
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timer itself.
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Now we can arm the event timer with ``rte_event_timer_arm_burst()``:
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.. code-block:: c
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ret = rte_event_timer_arm_burst(adapter, &conn->evtim, 1);
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if (ret != 1) { ... }
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Once an event timer expires, the application may free it or rearm it as
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necessary. If the application will rearm the timer, the state should be reset
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to RTE_EVENT_TIMER_NOT_ARMED by the application before rearming it.
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Multiple Event Timers with Same Expiry Value
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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In the special case that there is a set of event timers that should all expire
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at the same time, the application may call
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``rte_event_timer_arm_tmo_tick_burst()``, which allows the implementation to
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optimize the operation if possible.
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Canceling Event Timers
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~~~~~~~~~~~~~~~~~~~~~~
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An event timer that has been armed as described in `Arming Event Timers`_ can
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be canceled by calling ``rte_event_timer_cancel_burst()``:
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.. code-block:: c
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/* Ack for the previous tcp data packet has been received;
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* cancel the retransmission timer
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*/
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rte_event_timer_cancel_burst(adapter, &conn->timer, 1);
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Processing Timer Expiry Events
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------------------------------
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Once an event timer has successfully enqueued a timer expiry event in the event
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device, the application will subsequently dequeue it from the event device.
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The application can use the event payload to retrieve a pointer to the object
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associated with the event timer. It can then re-arm the event timer or free the
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event timer object as desired:
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.. code-block:: c
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void
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event_processing_loop(...)
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{
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while (...) {
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/* Receive events from the configured event port. */
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rte_event_dequeue_burst(event_dev_id, event_port, &ev, 1, 0);
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...
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switch(ev.event_type) {
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...
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case RTE_EVENT_TYPE_TIMER:
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process_timer_event(ev);
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...
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break;
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}
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}
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}
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uint8_t
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process_timer_event(...)
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{
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/* A retransmission timeout for the connection has been received. */
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conn = ev.event_ptr;
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/* Retransmit last packet (e.g. TCP segment). */
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...
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/* Re-arm timer using original values. */
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rte_event_timer_arm_burst(adapter_id, &conn->timer, 1);
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}
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Summary
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-------
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The Event Timer Adapter library extends the DPDK event-based programming model
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by representing timer expirations as events in the system and allowing
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applications to use existing event processing loops to arm and cancel event
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timers or handle timer expiry events.
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