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numam-dpdk/doc/guides/testpmd_app_ug/run_app.rst
Andrew Rybchenko 5007ac1318 ethdev: remove deprecated Flow Director configuration 
Remove deprecated fdir_conf from device configuration.
Assume that mode is equal to RTE_FDIR_MODE_NONE.

Add internal Flow Director configuration copy in ixgbe and txgbe device
private data since flow API supports requires it. Initialize mode to
the first flow rule mode on the rule validation or creation.

Since Flow Director configuration data types are still used by some
drivers internally, move it from public API to ethdev driver internal
API.

Signed-off-by: Andrew Rybchenko <andrew.rybchenko@oktetlabs.ru>
Acked-by: Dongdong Liu <liudongdong3@huawei.com>
2022-08-31 15:24:23 +02:00

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.. SPDX-License-Identifier: BSD-3-Clause
Copyright(c) 2010-2014 Intel Corporation.
Running the Application
=======================
EAL Command-line Options
------------------------
Please refer to :doc:`EAL parameters (Linux) <../linux_gsg/linux_eal_parameters>`
or :doc:`EAL parameters (FreeBSD) <../freebsd_gsg/freebsd_eal_parameters>` for
a list of available EAL command-line options.
Testpmd Command-line Options
----------------------------
The following are the command-line options for the testpmd applications.
They must be separated from the EAL options, shown in the previous section, with a ``--`` separator:
.. code-block:: console
sudo ./dpdk-testpmd -l 0-3 -n 4 -- -i --portmask=0x1 --nb-cores=2
The command line options are:
* ``-i, --interactive``
Run testpmd in interactive mode.
In this mode, the testpmd starts with a prompt that can be used to start and stop forwarding,
configure the application and display stats on the current packet processing session.
See :ref:`testpmd_runtime` for more details.
In non-interactive mode,
the application starts with the configuration specified on the command-line and
immediately enters forwarding mode.
* ``-h, --help``
Display a help message and quit.
* ``-a, --auto-start``
Start forwarding on initialization.
* ``--tx-first``
Start forwarding, after sending a burst of packets first.
.. Note::
This flag should be only used in non-interactive mode.
* ``--stats-period PERIOD``
Display statistics every PERIOD seconds, if interactive mode is disabled.
The default value is 0, which means that the statistics will not be displayed.
* ``--display-xstats xstat_name1[,...]``
Display comma-separated list of extended statistics every PERIOD seconds
as specified in ``--stats-period`` or when used with interactive commands
that show Rx/Tx statistics (i.e. 'show port stats').
* ``--nb-cores=N``
Set the number of forwarding cores,
where 1 <= N <= "number of cores" or ``RTE_MAX_LCORE`` from the configuration file.
The default value is 1.
* ``--nb-ports=N``
Set the number of forwarding ports,
where 1 <= N <= "number of ports" on the board or ``RTE_MAX_ETHPORTS`` from the configuration file.
The default value is the number of ports on the board.
* ``--coremask=0xXX``
Set the hexadecimal bitmask of the cores running the packet forwarding test.
The main lcore is reserved for command line parsing only and cannot be masked on for packet forwarding.
* ``--portmask=0xXX``
Set the hexadecimal bitmask of the ports used by the packet forwarding test.
* ``--portlist=X``
Set the forwarding ports based on the user input used by the packet forwarding test.
'-' denotes a range of ports to set including the two specified port IDs
',' separates multiple port values.
Possible examples like --portlist=0,1 or --portlist=0-2 or --portlist=0,1-2 etc
* ``--numa``
Enable NUMA-aware allocation of RX/TX rings and of RX memory buffers
(mbufs). [Default setting]
* ``--no-numa``
Disable NUMA-aware allocation of RX/TX rings and of RX memory buffers (mbufs).
* ``--port-numa-config=(port,socket)[,(port,socket)]``
Specify the socket on which the memory pool to be used by the port will be allocated.
* ``--ring-numa-config=(port,flag,socket)[,(port,flag,socket)]``
Specify the socket on which the TX/RX rings for the port will be allocated.
Where flag is 1 for RX, 2 for TX, and 3 for RX and TX.
* ``--socket-num=N``
Set the socket from which all memory is allocated in NUMA mode,
where 0 <= N < number of sockets on the board.
* ``--mbuf-size=N[,N1[,...Nn]``
Set the data size of the mbufs used to N bytes, where N < 65536.
The default value is 2048. If multiple mbuf-size values are specified the
extra memory pools will be created for allocating mbufs to receive packets
with buffer splitting features.
* ``--total-num-mbufs=N``
Set the number of mbufs to be allocated in the mbuf pools, where N > 1024.
* ``--max-pkt-len=N``
Set the maximum packet size to N bytes, where N >= 64. The default value is 1518.
* ``--max-lro-pkt-size=N``
Set the maximum LRO aggregated packet size to N bytes, where N >= 64.
* ``--eth-peers-configfile=name``
Use a configuration file containing the Ethernet addresses of the peer ports.
The configuration file should contain the Ethernet addresses on separate lines::
XX:XX:XX:XX:XX:01
XX:XX:XX:XX:XX:02
...
* ``--eth-peer=N,XX:XX:XX:XX:XX:XX``
Set the MAC address ``XX:XX:XX:XX:XX:XX`` of the peer port N,
where 0 <= N < ``RTE_MAX_ETHPORTS``.
* ``--tx-ip=SRC,DST``
Set the source and destination IP address used when doing transmit only test.
The defaults address values are source 198.18.0.1 and
destination 198.18.0.2. These are special purpose addresses
reserved for benchmarking (RFC 5735).
* ``--tx-udp=SRC[,DST]``
Set the source and destination UDP port number for transmit test only test.
The default port is the port 9 which is defined for the discard protocol
(RFC 863).
* ``--disable-crc-strip``
Disable hardware CRC stripping.
* ``--enable-lro``
Enable large receive offload.
* ``--enable-rx-cksum``
Enable hardware RX checksum offload.
* ``--enable-scatter``
Enable scatter (multi-segment) RX.
* ``--enable-hw-vlan``
Enable hardware VLAN.
* ``--enable-hw-vlan-filter``
Enable hardware VLAN filter.
* ``--enable-hw-vlan-strip``
Enable hardware VLAN strip.
* ``--enable-hw-vlan-extend``
Enable hardware VLAN extend.
* ``--enable-hw-qinq-strip``
Enable hardware QINQ strip.
* ``--enable-drop-en``
Enable per-queue packet drop for packets with no descriptors.
* ``--disable-rss``
Disable RSS (Receive Side Scaling).
* ``--port-topology=mode``
Set port topology, where mode is ``paired`` (the default), ``chained`` or ``loop``.
In ``paired`` mode, the forwarding is between pairs of ports, for example: (0,1), (2,3), (4,5).
In ``chained`` mode, the forwarding is to the next available port in the port mask, for example: (0,1), (1,2), (2,0).
The ordering of the ports can be changed using the portlist testpmd runtime function.
In ``loop`` mode, ingress traffic is simply transmitted back on the same interface.
* ``--forward-mode=mode``
Set the forwarding mode where ``mode`` is one of the following::
io (the default)
mac
macswap
flowgen
rxonly
txonly
csum
icmpecho
ieee1588
tm
noisy
5tswap
shared-rxq
* ``--rss-ip``
Set RSS functions for IPv4/IPv6 only.
* ``--rss-udp``
Set RSS functions for IPv4/IPv6 and UDP.
* ``--rxq=N``
Set the number of RX queues per port to N, where 1 <= N <= 65535.
The default value is 1.
* ``--rxd=N``
Set the number of descriptors in the RX rings to N, where N > 0.
The default value is 128.
* ``--txq=N``
Set the number of TX queues per port to N, where 1 <= N <= 65535.
The default value is 1.
* ``--txd=N``
Set the number of descriptors in the TX rings to N, where N > 0.
The default value is 512.
* ``--hairpinq=N``
Set the number of hairpin queues per port to N, where 1 <= N <= 65535.
The default value is 0. The number of hairpin queues are added to the
number of TX queues and to the number of RX queues. then the first
RX hairpin is binded to the first TX hairpin, the second RX hairpin is
binded to the second TX hairpin and so on. The index of the first
RX hairpin queue is the number of RX queues as configured using --rxq.
The index of the first TX hairpin queue is the number of TX queues
as configured using --txq.
* ``--burst=N``
Set the number of packets per burst to N, where 1 <= N <= 512.
The default value is 32.
If set to 0, driver default is used if defined. Else, if driver
default is not defined, default of 32 is used.
* ``--flowgen-clones=N``
Set the number of each packet clones to be sent in `flowgen` mode.
Sending clones reduces host CPU load on creating packets and may help
in testing extreme speeds or maxing out Tx packet performance.
N should be not zero, but less than 'burst' parameter.
* ``--flowgen-flows=N``
Set the number of flows to be generated in `flowgen` mode, where
1 <= N <= INT32_MAX.
* ``--mbcache=N``
Set the cache of mbuf memory pools to N, where 0 <= N <= 512.
The default value is 16.
* ``--rxpt=N``
Set the prefetch threshold register of RX rings to N, where N >= 0.
The default value is 8.
* ``--rxht=N``
Set the host threshold register of RX rings to N, where N >= 0.
The default value is 8.
* ``--rxfreet=N``
Set the free threshold of RX descriptors to N, where 0 <= N < value of --rxd.
The default value is 0.
* ``--rxwt=N``
Set the write-back threshold register of RX rings to N, where N >= 0.
The default value is 4.
* ``--txpt=N``
Set the prefetch threshold register of TX rings to N, where N >= 0.
The default value is 36.
* ``--txht=N``
Set the host threshold register of TX rings to N, where N >= 0.
The default value is 0.
* ``--txwt=N``
Set the write-back threshold register of TX rings to N, where N >= 0.
The default value is 0.
* ``--txfreet=N``
Set the transmit free threshold of TX rings to N, where 0 <= N <= value of ``--txd``.
The default value is 0.
* ``--txrst=N``
Set the transmit RS bit threshold of TX rings to N, where 0 <= N <= value of ``--txd``.
The default value is 0.
* ``--no-flush-rx``
Don't flush the RX streams before starting forwarding. Used mainly with the PCAP PMD.
* ``--rxoffs=X[,Y]``
Set the offsets of packet segments on receiving if split
feature is engaged. Affects only the queues configured
with split offloads (currently BUFFER_SPLIT is supported only).
* ``--rxpkts=X[,Y]``
Set the length of segments to scatter packets on receiving if split
feature is engaged. Affects only the queues configured
with split offloads (currently BUFFER_SPLIT is supported only).
Optionally the multiple memory pools can be specified with --mbuf-size
command line parameter and the mbufs to receive will be allocated
sequentially from these extra memory pools.
* ``--txpkts=X[,Y]``
Set TX segment sizes or total packet length. Valid for ``tx-only``
and ``flowgen`` forwarding modes.
* ``--txonly-multi-flow``
Generate multiple flows in txonly mode.
* ``--rxq-share=[X]``
Create queues in shared Rx queue mode if device supports.
Shared Rx queues are grouped per X ports. X defaults to UINT32_MAX,
implies all ports join share group 1. Forwarding engine "shared-rxq"
should be used for shared Rx queues. This engine does Rx only and
update stream statistics accordingly.
* ``--eth-link-speed``
Set a forced link speed to the ethernet port::
10 - 10Mbps (not supported)
100 - 100Mbps (not supported)
1000 - 1Gbps
10000 - 10Gbps
25000 - 25Gbps
40000 - 40Gbps
50000 - 50Gbps
100000 - 100Gbps
200000 - 200Gbps
...
* ``--disable-link-check``
Disable check on link status when starting/stopping ports.
* ``--disable-device-start``
Do not automatically start all ports. This allows testing
configuration of rx and tx queues before device is started
for the first time.
* ``--no-lsc-interrupt``
Disable LSC interrupts for all ports, even those supporting it.
* ``--no-rmv-interrupt``
Disable RMV interrupts for all ports, even those supporting it.
* ``--bitrate-stats=N``
Set the logical core N to perform bitrate calculation.
* ``--print-event <unknown|intr_lsc|queue_state|intr_reset|vf_mbox|macsec|intr_rmv|dev_probed|dev_released|flow_aged|all>``
Enable printing the occurrence of the designated event. Using all will
enable all of them.
* ``--mask-event <unknown|intr_lsc|queue_state|intr_reset|vf_mbox|macsec|intr_rmv|dev_probed|dev_released|flow_aged|all>``
Disable printing the occurrence of the designated event. Using all will
disable all of them.
* ``--flow-isolate-all``
Providing this parameter requests flow API isolated mode on all ports at
initialization time. It ensures all traffic is received through the
configured flow rules only (see flow command).
Ports that do not support this mode are automatically discarded.
* ``--tx-offloads=0xXXXXXXXX``
Set the hexadecimal bitmask of TX queue offloads.
The default value is 0.
* ``--rx-offloads=0xXXXXXXXX``
Set the hexadecimal bitmask of RX queue offloads.
The default value is 0.
* ``--hot-plug``
Enable device event monitor mechanism for hotplug.
* ``--vxlan-gpe-port=N``
Set the UDP port number of tunnel VXLAN-GPE to N.
The default value is 4790.
* ``--geneve-parsed-port=N``
Set the UDP port number that is used for parsing the GENEVE protocol to N.
HW may be configured with another tunnel Geneve port.
The default value is 6081.
* ``--mlockall``
Enable locking all memory.
* ``--no-mlockall``
Disable locking all memory.
* ``--mp-alloc <native|anon|xmem|xmemhuge>``
Select mempool allocation mode:
* native: create and populate mempool using native DPDK memory
* anon: create mempool using native DPDK memory, but populate using
anonymous memory
* xmem: create and populate mempool using externally and anonymously
allocated area
* xmemhuge: create and populate mempool using externally and anonymously
allocated hugepage area
* ``--noisy-tx-sw-buffer-size``
Set the number of maximum elements of the FIFO queue to be created
for buffering packets. Only available with the noisy forwarding mode.
The default value is 0.
* ``--noisy-tx-sw-buffer-flushtime=N``
Set the time before packets in the FIFO queue is flushed.
Only available with the noisy forwarding mode. The default value is 0.
* ``--noisy-lkup-memory=N``
Set the size of the noisy neighbor simulation memory buffer in MB to N.
Only available with the noisy forwarding mode. The default value is 0.
* ``--noisy-lkup-num-reads=N``
Set the number of reads to be done in noisy neighbor simulation memory buffer to N.
Only available with the noisy forwarding mode. The default value is 0.
* ``--noisy-lkup-num-writes=N``
Set the number of writes to be done in noisy neighbor simulation memory buffer to N.
Only available with the noisy forwarding mode. The default value is 0.
* ``--noisy-lkup-num-reads-writes=N``
Set the number of r/w accesses to be done in noisy neighbor simulation memory buffer to N.
Only available with the noisy forwarding mode. The default value is 0.
* ``--no-iova-contig``
Enable to create mempool which is not IOVA contiguous. Valid only with --mp-alloc=anon.
The default value is 0.
* ``--rx-mq-mode``
Set the hexadecimal bitmask of RX multi queue mode which can be enabled.
The default value is 0x7::
RTE_ETH_MQ_RX_RSS_FLAG | RTE_ETH_MQ_RX_DCB_FLAG | RTE_ETH_MQ_RX_VMDQ_FLAG
* ``--record-core-cycles``
Enable measurement of CPU cycles per packet.
* ``--record-burst-stats``
Enable display of RX and TX burst stats.
* ``--hairpin-mode=0xXX``
Set the hairpin port mode with bitmask, only valid when hairpin queues number is set::
bit 4 - explicit Tx flow rule
bit 1 - two hairpin ports paired
bit 0 - two hairpin ports loop
The default value is 0. Hairpin will use single port mode and implicit Tx flow mode.
Testpmd Multi-Process Command-line Options
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The following are the command-line options for testpmd multi-process support:
* primary process:
.. code-block:: console
sudo ./dpdk-testpmd -a xxx --proc-type=auto -l 0-1 -- -i --rxq=4 --txq=4 \
--num-procs=2 --proc-id=0
* secondary process:
.. code-block:: console
sudo ./dpdk-testpmd -a xxx --proc-type=auto -l 2-3 -- -i --rxq=4 --txq=4 \
--num-procs=2 --proc-id=1
The command line options are:
* ``--num-procs=N``
The number of processes which will be used.
* ``--proc-id=ID``
The ID of the current process (ID < num-procs). ID should be different in
primary process and secondary process, which starts from '0'.
Calculation rule for queue:
All queues are allocated to different processes based on ``proc_num`` and
``proc_id``.
Calculation rule for the testpmd to allocate queues to each process:
* start(queue start id) = proc_id * nb_q / num_procs
* end(queue end id) = start + nb_q / num_procs
For example, if testpmd is configured to have 4 Tx and Rx queues,
queues 0 and 1 will be used by the primary process and
queues 2 and 3 will be used by the secondary process.
The number of queues should be a multiple of the number of processes. If not,
redundant queues will exist after queues are allocated to processes. If RSS
is enabled, packet loss occurs when traffic is sent to all processes at the same
time. Some traffic goes to redundant queues and cannot be forwarded.
All the dev ops is supported in primary process. While secondary process is
not permitted to allocate or release shared memory, so some ops are not supported
as follows:
- ``dev_configure``
- ``dev_start``
- ``dev_stop``
- ``rx_queue_setup``
- ``tx_queue_setup``
- ``rx_queue_release``
- ``tx_queue_release``
So, any command from testpmd which calls those APIs will not be supported in
secondary process, like:
.. code-block:: console
port config all rxq|txq|rxd|txd <value>
port config <port_id> rx_offload xxx on/off
port config <port_id> tx_offload xxx on/off
etc.
When secondary is running, port in primary is not permitted to be stopped.
Reconfigure operation is only valid in primary.
Stats is supported, stats will not change when one quits and starts, as they
share the same buffer to store the stats. Flow rules are maintained in process
level: primary and secondary has its own flow list (but one flow list in HW).
The two can see all the queues, so setting the flow rules for the other is OK.
But in the testpmd primary process receiving or transmitting packets from the
queue allocated for secondary process is not permitted, and same for secondary
process.
Flow API and RSS are supported.
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