42. Event Timer Adapter Library
The DPDK Event Device library introduces an event driven programming model which presents applications with an alternative to the polling model traditionally used in DPDK applications. Event devices can be coupled with arbitrary components to provide new event sources by using event adapters. The Event Timer Adapter is one such adapter; it bridges event devices and timer mechanisms.
The Event Timer Adapter library extends the event driven model by introducing a new type of event that represents a timer expiration, and providing an API with which adapters can be created or destroyed, and event timers can be armed and canceled.
The Event Timer Adapter library is designed to interface with hardware or software implementations of the timer mechanism; it will query an eventdev PMD to determine which implementation should be used. The default software implementation manages timers using the DPDK Timer library.
Examples of using the API are presented in the API Overview and Processing Timer Expiry Events sections. Code samples are abstracted and are based on the example of handling a TCP retransmission.
42.1. Event Timer struct
Event timers are timers that enqueue a timer expiration event to an event device upon timer expiration.
The Event Timer Adapter API represents each event timer with a generic struct,
which contains an event and user metadata. The rte_event_timer
struct is
defined in rte_event_timer_adapter.h
.
42.1.1. Timer Expiry Event
The event contained by an event timer is enqueued in the event device when the timer expires, and the event device uses the attributes below when scheduling it:
event_queue_id
- Application should set this to specify an event queue to which the timer expiry event should be enqueuedevent_priority
- Application can set this to indicate the priority of the timer expiry event in the event queue relative to other eventssched_type
- Application can set this to specify the scheduling type of the timer expiry eventflow_id
- Application can set this to indicate which flow this timer expiry event corresponds toop
- Will be set toRTE_EVENT_OP_NEW
by the event timer adapterevent_type
- Will be set toRTE_EVENT_TYPE_TIMER
by the event timer adapter
42.1.2. Timeout Ticks
The number of ticks from now in which the timer will expire. The ticks value
has a resolution (timer_tick_ns
) that is specified in the event timer
adapter configuration.
42.1.3. State
Before arming an event timer, the application should initialize its state to RTE_EVENT_TIMER_NOT_ARMED. The event timer’s state will be updated when a request to arm or cancel it takes effect.
If the application wishes to rearm the timer after it has expired, it should reset the state back to RTE_EVENT_TIMER_NOT_ARMED before doing so.
42.1.4. User Metadata
Memory to store user specific metadata. The event timer adapter implementation will not modify this area.
42.2. API Overview
This section will introduce the reader to the event timer adapter API, showing how to create and configure an event timer adapter and use it to manage event timers.
From a high level, the setup steps are:
- rte_event_timer_adapter_create()
- rte_event_timer_adapter_start()
And to start and stop timers:
- rte_event_timer_arm_burst()
- rte_event_timer_cancel_burst()
42.2.1. Create and Configure an Adapter Instance
To create an event timer adapter instance, initialize an
rte_event_timer_adapter_conf
struct with the desired values, and pass it
to rte_event_timer_adapter_create()
.
#define NSECPERSEC 1E9
const struct rte_event_timer_adapter_conf adapter_config = {
.event_dev_id = event_dev_id,
.timer_adapter_id = 0,
.socket_id = rte_socket_id(),
.clk_src = RTE_EVENT_TIMER_ADAPTER_CPU_CLK,
.timer_tick_ns = NSECPERSEC / 10,
.max_tmo_ns = 180 * NSECPERSEC,
.nb_timers = 40000,
.flags = 0,
};
struct rte_event_timer_adapter *adapter;
adapter = rte_event_timer_adapter_create(&adapter_config);
if (adapter == NULL) { ... };
Before creating an instance of a timer adapter, the application should create
and configure an event device along with its event ports. Based on the event
device capability, it might require creating an additional event port to be
used by the timer adapter. If required, the
rte_event_timer_adapter_create()
function will use a default method to
configure an event port; it will examine the current event device
configuration, determine the next available port identifier number, and create
a new event port with a default port configuration.
If the application desires to have finer control of event port allocation
and setup, it can use the rte_event_timer_adapter_create_ext()
function.
This function is passed a callback function that will be invoked if the
adapter needs to create an event port, giving the application the opportunity
to control how it is done.
42.2.2. Retrieve Event Timer Adapter Contextual Information
The event timer adapter implementation may have constraints on tick resolution or maximum timer expiry timeout based on the given event timer adapter or system. In this case, the implementation may adjust the tick resolution or maximum timeout to the best possible configuration.
Upon successful event timer adapter creation, the application can get the
configured resolution and max timeout with
rte_event_timer_adapter_get_info()
. This function will return an
rte_event_timer_adapter_info
struct, which contains the following members:
min_resolution_ns
- Minimum timer adapter tick resolution in ns.max_tmo_ns
- Maximum timer timeout(expiry) in ns.adapter_conf
- Configured event timer adapter attributes
42.2.3. Configuring the Service Component
If the adapter uses a service component, the application is required to map the service to a service core before starting the adapter:
uint32_t service_id;
if (rte_event_timer_adapter_service_id_get(adapter, &service_id) == 0)
rte_service_map_lcore_set(service_id, EVTIM_CORE_ID);
An event timer adapter uses a service component if the event device PMD indicates that the adapter should use a software implementation.
42.2.4. Starting the Adapter Instance
The application should call rte_event_timer_adapter_start()
to start
running the event timer adapter. This function calls the start entry points
defined by eventdev PMDs for hardware implementations or puts a service
component into the running state in the software implementation.
Note
The eventdev to which the event_timer_adapter is connected needs to be started before calling rte_event_timer_adapter_start().
42.2.5. Arming Event Timers
Once an event timer adapter has been started, an application can begin to manage event timers with it.
The application should allocate struct rte_event_timer
objects from a
mempool or huge-page backed application buffers of required size. Upon
successful allocation, the application should initialize the event timer, and
then set any of the necessary event attributes described in the
Timer Expiry Event section. In the following example, assume conn
represents a TCP connection and that event_timer_pool
is a mempool that
was created previously:
rte_mempool_get(event_timer_pool, (void **)&conn->evtim);
if (conn->evtim == NULL) { ... }
/* Set up the event timer. */
conn->evtim->ev.op = RTE_EVENT_OP_NEW;
conn->evtim->ev.queue_id = event_queue_id;
conn->evtim->ev.sched_type = RTE_SCHED_TYPE_ATOMIC;
conn->evtim->ev.priority = RTE_EVENT_DEV_PRIORITY_NORMAL;
conn->evtim->ev.event_type = RTE_EVENT_TYPE_TIMER;
conn->evtim->ev.event_ptr = conn;
conn->evtim->state = RTE_EVENT_TIMER_NOT_ARMED;
conn->evtim->timeout_ticks = 30; //3 sec Per RFC1122(TCP returns)
Note that it is necessary to initialize the event timer state to
RTE_EVENT_TIMER_NOT_ARMED. Also note that we have saved a pointer to the
conn
object in the timer’s event payload. This will allow us to locate
the connection object again once we dequeue the timer expiry event from the
event device later.
Now we can arm the event timer with rte_event_timer_arm_burst()
:
ret = rte_event_timer_arm_burst(adapter, &conn->evtim, 1);
if (ret != 1) { ... }
Once an event timer expires, the application may free it or rearm it as necessary. If the application will rearm the timer, the state should be reset to RTE_EVENT_TIMER_NOT_ARMED by the application before rearming it.
42.2.5.1. Multiple Event Timers with Same Expiry Value
In the special case that there is a set of event timers that should all expire
at the same time, the application may call
rte_event_timer_arm_tmo_tick_burst()
, which allows the implementation to
optimize the operation if possible.
42.2.6. Canceling Event Timers
An event timer that has been armed as described in Arming Event Timers can
be canceled by calling rte_event_timer_cancel_burst()
:
/* Ack for the previous tcp data packet has been received;
* cancel the retransmission timer
*/
rte_event_timer_cancel_burst(adapter, &conn->timer, 1);
42.3. Processing Timer Expiry Events
Once an event timer has successfully enqueued a timer expiry event in the event device, the application will subsequently dequeue it from the event device. The application can use the event payload to retrieve a pointer to the object associated with the event timer. It can then re-arm the event timer or free the event timer object as desired:
void
event_processing_loop(...)
{
while (...) {
/* Receive events from the configured event port. */
rte_event_dequeue_burst(event_dev_id, event_port, &ev, 1, 0);
...
switch(ev.event_type) {
...
case RTE_EVENT_TYPE_TIMER:
process_timer_event(ev);
...
break;
}
}
}
uint8_t
process_timer_event(...)
{
/* A retransmission timeout for the connection has been received. */
conn = ev.event_ptr;
/* Retransmit last packet (e.g. TCP segment). */
...
/* Re-arm timer using original values. */
rte_event_timer_arm_burst(adapter_id, &conn->timer, 1);
}
42.4. Summary
The Event Timer Adapter library extends the DPDK event-based programming model by representing timer expirations as events in the system and allowing applications to use existing event processing loops to arm and cancel event timers or handle timer expiry events.