2. dpdk-pdump Application
The dpdk-pdump
tool is a Data Plane Development Kit (DPDK) tool that runs as
a DPDK secondary process and is capable of enabling packet capture on dpdk ports.
Note
The
dpdk-pdump
tool can only be used in conjunction with a primary application which has the packet capture framework initialized already. In dpdk, only thetestpmd
is modified to initialize packet capture framework, other applications remain untouched. So, if thedpdk-pdump
tool has to be used with any application other than the testpmd, user needs to explicitly modify that application to call packet capture framework initialization code. Referapp/test-pmd/testpmd.c
code to see how this is done.The
dpdk-pdump
tool depends on DPDK pcap PMD, so the system should have libpcap development files installed and the pcap PMD not disabled in the build.The
dpdk-pdump
tool runs as a DPDK secondary process. It exits when the primary application exits.
2.1. Running the Application
The tool has a number of command line options:
./<build_dir>/app/dpdk-pdump --
[--multi]
--pdump '(port=<port id> | device_id=<pci id or vdev name>),
(queue=<queue_id>),
(rx-dev=<iface or pcap file> |
tx-dev=<iface or pcap file>),
[ring-size=<ring size>],
[mbuf-size=<mbuf data size>],
[total-num-mbufs=<number of mbufs>]'
The --multi
command line option is optional argument. If passed, capture
will be running on unique cores for all --pdump
options. If ignored,
capture will be running on single core for all --pdump
options.
The --pdump
command line option is mandatory and it takes various sub arguments which are described in
below section.
Note
Parameters inside the parentheses represents mandatory parameters.
Parameters inside the square brackets represents optional parameters.
Multiple instances of
--pdump
can be passed to capture packets on different port and queue combinations.
2.1.1. The --pdump
parameters
port
:
Port id of the eth device on which packets should be captured.
device_id
:
PCI address (or) name of the eth device on which packets should be captured.
Note
As of now the
dpdk-pdump
tool cannot capture the packets of virtual devices in the primary process due to a bug in the ethdev library. Due to this bug, in a multi process context, when the primary and secondary have different ports set, then the secondary process (here thedpdk-pdump
tool) overwrites therte_eth_devices[]
entries of the primary process.
queue
:
Queue id of the eth device on which packets should be captured. The user can pass a queue value of *
to enable
packet capture on all queues of the eth device.
rx-dev
:
Can be either a pcap file name or any Linux iface.
tx-dev
:
Can be either a pcap file name or any Linux iface.
Note
To receive ingress packets only,
rx-dev
should be passed.To receive egress packets only,
tx-dev
should be passed.To receive ingress and egress packets separately
rx-dev
andtx-dev
should both be passed with the different file names or the Linux iface names.To receive ingress and egress packets together,
rx-dev
andtx-dev
should both be passed with the same file name or the same Linux iface name.
ring-size
:
Size of the ring. This value is used internally for ring creation. The ring will be used to enqueue the packets from
the primary application to the secondary. This is an optional parameter with default size 16384.
mbuf-size
:
Size of the mbuf data. This is used internally for mempool creation. Ideally this value must be same as
the primary application’s mempool’s mbuf data size which is used for packet RX. This is an optional parameter with
default size 2176.
total-num-mbufs
:
Total number mbufs in mempool. This is used internally for mempool creation. This is an optional parameter with default
value 65535.
2.2. Example
$ sudo ./<build_dir>/app/dpdk-pdump -l 3 -- --pdump 'port=0,queue=*,rx-dev=/tmp/rx.pcap'
$ sudo ./<build_dir>/app/dpdk-pdump -l 3,4,5 -- --multi --pdump 'port=0,queue=*,rx-dev=/tmp/rx-1.pcap' --pdump 'port=1,queue=*,rx-dev=/tmp/rx-2.pcap'