10. dpdk-test-eventdev Application
The dpdk-test-eventdev
tool is a Data Plane Development Kit (DPDK)
application that allows exercising various eventdev use cases.
This application has a generic framework to add new eventdev based test cases to
verify functionality and measure the performance parameters of DPDK eventdev
devices.
10.1. Running the Application
The application has a number of command line options:
dpdk-test-eventdev [EAL Options] -- [application options]
10.1.1. EAL Options
The following are the EAL command-line options that can be used in conjunction
with the dpdk-test-eventdev
application.
See the DPDK Getting Started Guides for more information on these options.
-c <COREMASK>
or-l <CORELIST>
Set the hexadecimal bitmask of the cores to run on. The corelist is a list of cores to use.
--vdev <driver><id>
Add a virtual eventdev device.
10.1.2. Application Options
The following are the application command-line options:
--verbose
Set verbose level. Default is 1. Value > 1 displays more details.
--dev <n>
Set the device id of the event device.
--test <name>
Set test name, where
name
is one of the following:order_queue order_atq perf_queue perf_atq pipeline_atq pipeline_queue
--socket_id <n>
Set the socket id of the application resources.
--pool-sz <n>
Set the number of mbufs to be allocated from the mempool.
--plcores <CORELIST>
Set the list of cores to be used as producers.
--wlcores <CORELIST>
Set the list of cores to be used as workers.
--stlist <type_list>
Set the scheduled type of each stage where
type_list
size determines the number of stages used in the test application. Each type_list member can be one of the following:P or p : Parallel schedule type O or o : Ordered schedule type A or a : Atomic schedule type
Application expects the
type_list
in comma separated form (i.e.--stlist o,a,a,a
)--nb_flows <n>
Set the number of flows to produce.
--nb_pkts <n>
Set the number of packets to produce. 0 implies no limit.
--worker_deq_depth <n>
Set the dequeue depth of the worker.
--fwd_latency
Perform forward latency measurement.
--queue_priority
Enable queue priority.
--prod_type_ethdev
Use ethernet device as producer.
--prod_type_timerdev
Use event timer adapter as producer.
--prod_type_timerdev_burst
Use burst mode event timer adapter as producer.
--timer_tick_nsec
Used to dictate number of nano seconds between bucket traversal of the event timer adapter. Refer rte_event_timer_adapter_conf.
--max_tmo_nsec
Used to configure event timer adapter max arm timeout in nano seconds.
--expiry_nsec
Dictate the number of nano seconds after which the event timer expires.
--nb_timers
Number of event timers each producer core will generate.
--nb_timer_adptrs
Number of event timer adapters to be used. Each adapter is used in round robin manner by the producer cores.
--deq_tmo_nsec
Global dequeue timeout for all the event ports if the provided dequeue timeout is out of the supported range of event device it will be adjusted to the highest/lowest supported dequeue timeout supported.
--mbuf_sz
Set packet mbuf size. Can be used to configure Jumbo Frames. Only applicable for pipeline_atq and pipeline_queue tests.
--max_pkt_sz
Set max packet mbuf size. Can be used configure Rx/Tx scatter gather. Only applicable for pipeline_atq and pipeline_queue tests.
10.2. Eventdev Tests
10.2.1. ORDER_QUEUE Test
This is a functional test case that aims at testing the following:
Verify the ingress order maintenance.
Verify the exclusive(atomic) access to given atomic flow per eventdev port.
# |
Items |
Value |
Comments |
---|---|---|---|
1 |
nb_queues |
2 |
q0(ordered), q1(atomic) |
2 |
nb_producers |
1 |
|
3 |
nb_workers |
>= 1 |
|
4 |
nb_ports |
nb_workers + 1 |
Workers use port 0 to port n-1. Producer uses port n |
The order queue test configures the eventdev with two queues and an event producer to inject the events to q0(ordered) queue. Both q0(ordered) and q1(atomic) are linked to all the workers.
The event producer maintains a sequence number per flow and injects the events to the ordered queue. The worker receives the events from ordered queue and forwards to atomic queue. Since the events from an ordered queue can be processed in parallel on the different workers, the ingress order of events might have changed on the downstream atomic queue enqueue. On enqueue to the atomic queue, the eventdev PMD driver reorders the event to the original ingress order(i.e producer ingress order).
When the event is dequeued from the atomic queue by the worker, this test verifies the expected sequence number of associated event per flow by comparing the free running expected sequence number per flow.
10.2.1.1. Application options
Supported application command line options are following:
--verbose
--dev
--test
--socket_id
--pool_sz
--plcores
--wlcores
--nb_flows
--nb_pkts
--worker_deq_depth
--deq_tmo_nsec
10.2.1.2. Example
Example command to run order queue test:
sudo <build_dir>/app/dpdk-test-eventdev --vdev=event_sw0 -- \
--test=order_queue --plcores 1 --wlcores 2,3
10.2.2. ORDER_ATQ Test
This test verifies the same aspects of order_queue
test, the difference is
the number of queues used, this test operates on a single all types queue(atq)
instead of two different queues for ordered and atomic.
# |
Items |
Value |
Comments |
---|---|---|---|
1 |
nb_queues |
1 |
q0(all types queue) |
2 |
nb_producers |
1 |
|
3 |
nb_workers |
>= 1 |
|
4 |
nb_ports |
nb_workers + 1 |
Workers use port 0 to port n-1.Producer uses port n. |
10.2.2.1. Application options
Supported application command line options are following:
--verbose
--dev
--test
--socket_id
--pool_sz
--plcores
--wlcores
--nb_flows
--nb_pkts
--worker_deq_depth
--deq_tmo_nsec
10.2.2.2. Example
Example command to run order all types queue
test:
sudo <build_dir>/app/dpdk-test-eventdev --vdev=event_octeontx -- \
--test=order_atq --plcores 1 --wlcores 2,3
10.2.3. PERF_QUEUE Test
This is a performance test case that aims at testing the following:
Measure the number of events can be processed in a second.
Measure the latency to forward an event.
# |
Items |
Value |
Comments |
---|---|---|---|
1 |
nb_queues |
nb_producers * nb_stages |
Queues will be configured based on the user requested sched type list(–stlist) |
2 |
nb_producers |
>= 1 |
Selected through –plcores command line argument. |
3 |
nb_workers |
>= 1 |
Selected through –wlcores command line argument |
4 |
nb_ports |
nb_workers + nb_producers |
Workers use port 0 to port n-1. Producers use port n to port p |
The perf queue test configures the eventdev with Q queues and P ports, where Q and P is a function of the number of workers, the number of producers and number of stages as mentioned in Table 10.3.
The user can choose the number of workers, the number of producers and number of
stages through the --wlcores
, --plcores
and the --stlist
application
command line arguments respectively.
The producer(s) injects the events to eventdev based the first stage sched type
list requested by the user through --stlist
the command line argument.
Based on the number of stages to process(selected through --stlist
),
The application forwards the event to next upstream queue and terminates when it
reaches the last stage in the pipeline. On event termination, application
increments the number events processed and print periodically in one second
to get the number of events processed in one second.
When --fwd_latency
command line option selected, the application inserts
the timestamp in the event on the first stage and then on termination, it
updates the number of cycles to forward a packet. The application uses this
value to compute the average latency to a forward packet.
When --prod_type_ethdev
command line option is selected, the application
uses the probed ethernet devices as producers by configuring them as Rx
adapters instead of using synthetic producers.
10.2.3.1. Application options
Supported application command line options are following:
--verbose
--dev
--test
--socket_id
--pool_sz
--plcores
--wlcores
--stlist
--nb_flows
--nb_pkts
--worker_deq_depth
--fwd_latency
--queue_priority
--prod_type_ethdev
--prod_type_timerdev_burst
--prod_type_timerdev
--timer_tick_nsec
--max_tmo_nsec
--expiry_nsec
--nb_timers
--nb_timer_adptrs
--deq_tmo_nsec
10.2.3.2. Example
Example command to run perf queue test:
sudo <build_dir>/app/dpdk-test-eventdev -c 0xf -s 0x1 --vdev=event_sw0 -- \
--test=perf_queue --plcores=2 --wlcore=3 --stlist=p --nb_pkts=0
Example command to run perf queue test with ethernet ports:
sudo build/app/dpdk-test-eventdev --vdev=event_sw0 -- \
--test=perf_queue --plcores=2 --wlcore=3 --stlist=p --prod_type_ethdev
Example command to run perf queue test with event timer adapter:
sudo <build_dir>/app/dpdk-test-eventdev --vdev="event_octeontx" -- \
--wlcores 4 --plcores 12 --test perf_queue --stlist=a \
--prod_type_timerdev --fwd_latency
10.2.4. PERF_ATQ Test
This is a performance test case that aims at testing the following with
all types queue
eventdev scheme.
Measure the number of events can be processed in a second.
Measure the latency to forward an event.
# |
Items |
Value |
Comments |
---|---|---|---|
1 |
nb_queues |
nb_producers |
Queues will be configured based on the user requested sched type list(–stlist) |
2 |
nb_producers |
>= 1 |
Selected through –plcores command line argument. |
3 |
nb_workers |
>= 1 |
Selected through –wlcores command line argument |
4 |
nb_ports |
nb_workers + nb_producers |
Workers use port 0 to port n-1. Producers use port n to port p |
The all types queues(atq)
perf test configures the eventdev with Q queues
and P ports, where Q and P is a function of the number of workers and number of
producers as mentioned in Table 10.4.
The atq queue test functions as same as perf_queue
test. The difference
is, It uses, all type queue scheme
instead of separate queues for each
stage and thus reduces the number of queues required to realize the use case
and enables flow pinning as the event does not move to the next queue.
10.2.4.1. Application options
Supported application command line options are following:
--verbose
--dev
--test
--socket_id
--pool_sz
--plcores
--wlcores
--stlist
--nb_flows
--nb_pkts
--worker_deq_depth
--fwd_latency
--prod_type_ethdev
--prod_type_timerdev_burst
--prod_type_timerdev
--timer_tick_nsec
--max_tmo_nsec
--expiry_nsec
--nb_timers
--nb_timer_adptrs
--deq_tmo_nsec
10.2.4.2. Example
Example command to run perf all types queue
test:
sudo <build_dir>/app/dpdk-test-eventdev --vdev=event_octeontx -- \
--test=perf_atq --plcores=2 --wlcore=3 --stlist=p --nb_pkts=0
Example command to run perf all types queue
test with event timer adapter:
sudo <build_dir>/app/dpdk-test-eventdev --vdev="event_octeontx" -- \
--wlcores 4 --plcores 12 --test perf_atq --verbose 20 \
--stlist=a --prod_type_timerdev --fwd_latency
10.2.5. PIPELINE_QUEUE Test
This is a pipeline test case that aims at testing the following:
Measure the end-to-end performance of an event dev with a ethernet dev.
Maintain packet ordering from Rx to Tx.
# |
Items |
Value |
Comments |
---|---|---|---|
1 |
nb_queues |
(nb_producers * nb_stages) + nb_producers |
Queues will be configured based on the user requested sched type list(–stlist) At the last stage of the schedule list the event is enqueued onto per port unique queue which is then Transmitted. |
2 |
nb_producers |
>= 1 |
Producers will be configured based on the number of detected ethernet devices. Each ethdev will be configured as an Rx adapter. |
3 |
nb_workers |
>= 1 |
Selected through –wlcores command line argument |
4 |
nb_ports |
nb_workers + (nb_produces * 2) |
Workers use port 0 to port n. Producers use port n+1 to port n+m, depending on the Rx adapter capability. Consumers use port n+m+1 to port n+o depending on the Tx adapter capability. |
The pipeline queue test configures the eventdev with Q queues and P ports, where Q and P is a function of the number of workers, the number of producers and number of stages as mentioned in Table 10.5.
The user can choose the number of workers and number of stages through the
--wlcores
and the --stlist
application command line arguments
respectively.
The number of producers depends on the number of ethernet devices detected and each ethernet device is configured as a event_eth_rx_adapter that acts as a producer.
The producer(s) injects the events to eventdev based the first stage sched type
list requested by the user through --stlist
the command line argument.
Based on the number of stages to process(selected through --stlist
),
The application forwards the event to next upstream queue and when it reaches
the last stage in the pipeline if the event type is atomic
it is enqueued
onto ethdev Tx queue else to maintain ordering the event type is set to
atomic
and enqueued onto the last stage queue.
If the ethdev and eventdev pair have RTE_EVENT_ETH_TX_ADAPTER_CAP_INTERNAL_PORT
capability then the worker cores enqueue the packets to the eventdev directly
using rte_event_eth_tx_adapter_enqueue
else the worker cores enqueue the
packet onto the SINGLE_LINK_QUEUE
that is managed by the Tx adapter.
The Tx adapter dequeues the packet and transmits it.
On packet Tx, application increments the number events processed and print periodically in one second to get the number of events processed in one second.
10.2.5.1. Application options
Supported application command line options are following:
--verbose
--dev
--test
--socket_id
--pool_sz
--wlcores
--stlist
--worker_deq_depth
--prod_type_ethdev
--deq_tmo_nsec
Note
The
--prod_type_ethdev
is mandatory for running this test.
10.2.5.2. Example
Example command to run pipeline queue test:
sudo <build_dir>/app/dpdk-test-eventdev -c 0xf -s 0x8 --vdev=event_sw0 -- \
--test=pipeline_queue --wlcore=1 --prod_type_ethdev --stlist=a
10.2.6. PIPELINE_ATQ Test
This is a pipeline test case that aims at testing the following with
all types queue
eventdev scheme.
Measure the end-to-end performance of an event dev with a ethernet dev.
Maintain packet ordering from Rx to Tx.
# |
Items |
Value |
Comments |
---|---|---|---|
1 |
nb_queues |
nb_producers + x |
Queues will be configured based on the user requested sched type list(–stlist) where x = nb_producers in generic pipeline and 0 if all the ethdev being used have Internal port capability |
2 |
nb_producers |
>= 1 |
Producers will be configured based on the number of detected ethernet devices. Each ethdev will be configured as an Rx adapter. |
3 |
nb_workers |
>= 1 |
Selected through –wlcores command line argument |
4 |
nb_ports |
nb_workers + nb_producers + x |
Workers use port 0 to port n. Producers use port n+1 to port n+m, depending on the Rx adapter capability. x = nb_producers in generic pipeline and 0 if all the ethdev being used have Internal port capability. Consumers may use port n+m+1 to port n+o depending on the Tx adapter capability. |
The pipeline atq test configures the eventdev with Q queues and P ports, where Q and P is a function of the number of workers, the number of producers and number of stages as mentioned in Table 10.6.
The atq queue test functions as same as pipeline_queue
test. The difference
is, It uses, all type queue scheme
instead of separate queues for each
stage and thus reduces the number of queues required to realize the use case.
10.2.6.1. Application options
Supported application command line options are following:
--verbose
--dev
--test
--socket_id
--pool_sz
--wlcores
--stlist
--worker_deq_depth
--prod_type_ethdev
--deq_tmo_nsec
Note
The
--prod_type_ethdev
is mandatory for running this test.
10.2.6.2. Example
Example command to run pipeline queue test:
sudo <build_dir>/app/dpdk-test-eventdev -c 0xf -s 0x8 --vdev=event_sw0 -- \
--test=pipeline_atq --wlcore=1 --prod_type_ethdev --stlist=a