.. note::
- Some examples in this document are too long to fit on one line are are shown wrapped at `"\\"` for display purposes::
+ Some examples in this document are too long to fit on one line are shown wrapped at `"\\"` for display purposes::
testpmd> set flow_ctrl rx (on|off) tx (on|off) (high_water) (low_water) \
(pause_time) (send_xon) (port_id)
Maximum number of MAC addresses: 64
Maximum number of MAC addresses of hash filtering: 0
VLAN offload:
- strip on
- filter on
- qinq(extend) off
+ strip on, filter on, extend off, qinq strip off
Redirection table size: 512
Supported flow types:
ipv4-frag
testpmd> show (rxq|txq) info (port_id) (queue_id)
+show desc status(rxq|txq)
+~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Display information for a given port's RX/TX descriptor status::
+
+ testpmd> show port (port_id) (rxq|txq) (queue_id) desc (desc_id) status
+
+
show config
~~~~~~~~~~~
testpmd> show port (port_id) tx_metadata
+show port supported ptypes
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Show ptypes supported for a specific port::
+
+ testpmd> show port (port_id) ptypes
+
+set port supported ptypes
+~~~~~~~~~~~~~~~~~~~~~~~~~
+
+set packet types classification for a specific port::
+
+ testpmd> set port (port_id) ptypes_mask (mask)
+
+show port mac addresses info
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Show mac addresses added for a specific port::
+
+ testpmd> show port (port_id) macs
+
+
+show port multicast mac addresses info
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Show multicast mac addresses added for a specific port::
+
+ testpmd> show port (port_id) mcast_macs
+
show device info
~~~~~~~~~~~~~~~~
testpmd> dump_log_types
+show (raw_encap|raw_decap)
+~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Display content of raw_encap/raw_decap buffers in hex::
+
+ testpmd> show <raw_encap|raw_decap> <index>
+ testpmd> show <raw_encap|raw_decap> all
+
+For example::
+
+ testpmd> show raw_encap 6
+
+ index: 6 at [0x1c565b0], len=50
+ 00000000: 00 00 00 00 00 00 16 26 36 46 56 66 08 00 45 00 | .......&6FVf..E.
+ 00000010: 00 00 00 00 00 00 00 11 00 00 C0 A8 01 06 C0 A8 | ................
+ 00000020: 03 06 00 00 00 FA 00 00 00 00 08 00 00 00 00 00 | ................
+ 00000030: 06 00 | ..
+
+
Configuration Functions
-----------------------
testpmd> set vf broadcast (port_id) (vf_id) (on|off)
-vlan set strip
-~~~~~~~~~~~~~~
-
-Set the VLAN strip on a port::
-
- testpmd> vlan set strip (on|off) (port_id)
-
vlan set stripq
~~~~~~~~~~~~~~~
testpmd> set vf vlan antispoof (port_id) (vf_id) (on|off)
-vlan set filter
-~~~~~~~~~~~~~~~
-
-Set the VLAN filter on a port::
-
- testpmd> vlan set filter (on|off) (port_id)
-
-vlan set qinq
-~~~~~~~~~~~~~
-
-Set the VLAN QinQ (extended queue in queue) on for a port::
+vlan set (strip|filter|qinq_strip|extend)
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Set the VLAN strip/filter/QinQ strip/extend on for a port::
- testpmd> vlan set qinq (on|off) (port_id)
+ testpmd> vlan set (strip|filter|qinq_strip|extend) (on|off) (port_id)
vlan set tpid
~~~~~~~~~~~~~
vlan_strip, ipv4_cksum, udp_cksum, tcp_cksum, tcp_lro,
qinq_strip, outer_ipv4_cksum, macsec_strip,
header_split, vlan_filter, vlan_extend, jumbo_frame,
- crc_strip, scatter, timestamp, security, keep_crc
+ scatter, timestamp, security, keep_crc, rss_hash
This command should be run when the port is stopped, or else it will fail.
vlan_strip, ipv4_cksum, udp_cksum, tcp_cksum, tcp_lro,
qinq_strip, outer_ipv4_cksum, macsec_strip,
header_split, vlan_filter, vlan_extend, jumbo_frame,
- crc_strip, scatter, timestamp, security, keep_crc
+ scatter, timestamp, security, keep_crc
This command should be run when the port is stopped, or else it will fail.
sctp_cksum, tcp_tso, udp_tso, outer_ipv4_cksum,
qinq_insert, vxlan_tnl_tso, gre_tnl_tso,
ipip_tnl_tso, geneve_tnl_tso, macsec_insert,
- mt_lockfree, multi_segs, mbuf_fast_free, security,
- match_metadata
+ mt_lockfree, multi_segs, mbuf_fast_free, security
This command should be run when the port is stopped, or else it will fail.
Configure the raw data to be used when encapsulating a packet by
rte_flow_action_raw_encap::
+ set raw_encap {index} {item} [/ {item} [...]] / end_set
+
+There are multiple global buffers for ``raw_encap``, this command will set one
+internal buffer index by ``{index}``.
+If there is no ``{index}`` specified::
+
set raw_encap {item} [/ {item} [...]] / end_set
-This command will set an internal buffer inside testpmd, any following flow rule
-using the action raw_encap will use the last configuration set.
-To have a different encapsulation header, this command must be called before the
-flow rule creation.
+the default index ``0`` is used.
+In order to use different encapsulating header, ``index`` must be specified
+during the flow rule creation::
+
+ testpmd> flow create 0 egress pattern eth / ipv4 / end actions
+ raw_encap index 2 / end
+
+Otherwise the default index ``0`` is used.
Config Raw Decapsulation
~~~~~~~~~~~~~~~~~~~~~~~~
Configure the raw data to be used when decapsulating a packet by
rte_flow_action_raw_decap::
+ set raw_decap {index} {item} [/ {item} [...]] / end_set
+
+There are multiple global buffers for ``raw_decap``, this command will set
+one internal buffer index by ``{index}``.
+If there is no ``{index}`` specified::
+
set raw_decap {item} [/ {item} [...]] / end_set
-This command will set an internal buffer inside testpmd, any following flow rule
-using the action raw_decap will use the last configuration set.
+the default index ``0`` is used.
+In order to use different decapsulating header, ``index`` must be specified
+during the flow rule creation::
+
+ testpmd> flow create 0 egress pattern eth / ipv4 / end actions
+ raw_encap index 3 / end
+
+Otherwise the default index ``0`` is used.
Port Functions
--------------
This is equivalent to the ``--max-pkt-len`` command-line option.
+port config - max-lro-pkt-size
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+Set the maximum LRO aggregated packet size::
+
+ testpmd> port config all max-lro-pkt-size (value)
+
+This is equivalent to the ``--max-lro-pkt-size`` command-line option.
+
port config - Drop Packets
~~~~~~~~~~~~~~~~~~~~~~~~~~
------------------
The following section shows functions for configuring traffic management on
-on the ethernet device through the use of generic TM API.
+the ethernet device through the use of generic TM API.
show port traffic management capability
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
- ``proto_id {unsigned}``: PPP protocol identifier.
+- ``l2tpv3oip``: match L2TPv3 over IP header.
+
+ - ``session_id {unsigned}``: L2TPv3 over IP session identifier.
+
Actions list
^^^^^^^^^^^^
- ``value {unsigned}``: Value to decrease TCP acknowledgment number by.
+- ``set_ipv4_dscp``: Set IPv4 DSCP value with specified value
+
+ - ``dscp_value {unsigned}``: The new DSCP value to be set
+
+- ``set_ipv6_dscp``: Set IPv6 DSCP value with specified value
+
+ - ``dscp_value {unsigned}``: The new DSCP value to be set
+
Destroying flow rules
~~~~~~~~~~~~~~~~~~~~~
Before creating QinQ rule(s) the following commands should be issued to enable QinQ::
testpmd> port stop 0
- testpmd> vlan set qinq on 0
+ testpmd> vlan set qinq_strip on 0
The above command sets the inner and outer TPID's to 0x8100.
Eecapsulating VxLAN::
- testpmd> set raw_encap eth src is 10:11:22:33:44:55 / vlan tci is 1
+ testpmd> set raw_encap 4 eth src is 10:11:22:33:44:55 / vlan tci is 1
inner_type is 0x0800 / ipv4 / udp dst is 4789 / vxlan vni
is 2 / end_set
testpmd> flow create 0 egress pattern eth / ipv4 / end actions
- raw_encap / end
+ raw_encap index 4 / end
Sample Raw decapsulation rule
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
testpmd> flow create 0 ingress pattern eth / ipv4 / udp / vxlan / eth / ipv4 /
end actions raw_decap / queue index 0 / end
+Sample ESP rules
+~~~~~~~~~~~~~~~~
+
+ESP rules can be created by the following commands::
+
+ testpmd> flow create 0 ingress pattern eth / ipv4 / esp spi is 1 / end actions
+ queue index 3 / end
+ testpmd> flow create 0 ingress pattern eth / ipv4 / udp / esp spi is 1 / end
+ actions queue index 3 / end
+ testpmd> flow create 0 ingress pattern eth / ipv6 / esp spi is 1 / end actions
+ queue index 3 / end
+ testpmd> flow create 0 ingress pattern eth / ipv6 / udp / esp spi is 1 / end
+ actions queue index 3 / end
+
BPF Functions
--------------