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From: "Wang, Yinan" <yinan.wang@intel.com>
To: "Mo, YufengX" <yufengx.mo@intel.com>, "dts@dpdk.org" <dts@dpdk.org>
Cc: "Mo, YufengX" <yufengx.mo@intel.com>
Subject: Re: [dts] [PATCH V3 1/2] test_plans/packet_capture: upload test plan
Date: Wed, 10 Jul 2019 03:19:48 +0000	[thread overview]
Message-ID: <E0CBA5A1980F1F408E1F28F9991B5B1D50EC1C96@SHSMSX104.ccr.corp.intel.com> (raw)
In-Reply-To: <1562728176-214925-2-git-send-email-yufengx.mo@intel.com>

Acked-by: Wang, Yinan <yinan.wang@intel.com>

> -----Original Message-----
> From: dts [mailto:dts-bounces@dpdk.org] On Behalf Of yufengmx
> Sent: 2019年7月10日 11:10
> To: dts@dpdk.org
> Cc: Mo, YufengX <yufengx.mo@intel.com>
> Subject: [dts] [PATCH V3 1/2] test_plans/packet_capture: upload test plan
> 
> 
> Packet capture framework feature support packet capturing on dpdk ethernet
> devices.
> DPDK provides dpdk-pdump tool under app/pdump directory for packet
> capturing on dpdk.
> 
> The  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.
> 
> The  tool depends on libpcap based PMD which is disabled by default in the
> build configuration files, owing to an external dependency on the libpcap
> development files which must be installed on the board. Once the libpcap
> development files are installed, the libpcap based PMD can be enabled by
> setting CONFIG_RTE_LIBRTE_PMD_PCAP=y and recompiling the DPDK.
> 
> Signed-off-by: yufengmx <yufengx.mo@intel.com>
> ---
>  test_plans/packet_capture_test_plan.rst | 542
> ++++++++++++++++++++++++++++++++
>  1 file changed, 542 insertions(+)
>  create mode 100644 test_plans/packet_capture_test_plan.rst
> 
> diff --git a/test_plans/packet_capture_test_plan.rst
> b/test_plans/packet_capture_test_plan.rst
> new file mode 100644
> index 0000000..05629d0
> --- /dev/null
> +++ b/test_plans/packet_capture_test_plan.rst
> @@ -0,0 +1,542 @@
> +.. Copyright (c) <2010-2019> Intel Corporation
> +   All rights reserved.
> +
> +   Redistribution and use in source and binary forms, with or without
> +   modification, are permitted provided that the following conditions
> +   are met:
> +
> +   - Redistributions of source code must retain the above copyright
> +     notice, this list of conditions and the following disclaimer.
> +
> +   - Redistributions in binary form must reproduce the above copyright
> +     notice, this list of conditions and the following disclaimer in
> +     the documentation and/or other materials provided with the
> +     distribution.
> +
> +   - Neither the name of Intel Corporation nor the names of its
> +     contributors may be used to endorse or promote products derived
> +     from this software without specific prior written permission.
> +
> +   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
> CONTRIBUTORS
> +   "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT
> NOT
> +   LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
> FITNESS
> +   FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
> +   COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
> INDIRECT,
> +   INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
> +   (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
> GOODS OR
> +   SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
> +   HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
> CONTRACT,
> +   STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
> +   ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
> ADVISED
> +   OF THE POSSIBILITY OF SUCH DAMAGE.
> +
> +==============
> +packet capture
> +==============
> +
> +Packet capture framework feature support packet capturing on dpdk
> +ethernet devices. DPDK provides dpdk-pdump tool under app/pdump
> +directory for packet capturing on dpdk.
> +
> +The dpdk-pdump application will act as the secondary process. The EAL
> +thread polls for packet capture fd. If fd polled matches packet capture
> +fd, it will initiate packet capture processing.
> +
> +The testpmd application will act as the primary process. The primary
> +process create socket for packet capture connection with the secondary
> +process and registers socket with packet capture epoll event. Packet
> +capture event will be polled as part of interrupt thread.
> +
> +The primary process creates mempool and two rte_rings for packets
> +duplication and sharing packet info with the secondary process respectively.
> +
> +Upon receiving packet capture event, the primary process receive either
> +register RX/TX callbacks or remove RX/TX callbacks message from the
> +secondary process on socket.If packet matches, reference count of
> +packet will be incremented and enqueued to second rte_ring for the
> secondary process to use.
> +
> +DPDK technical doc refer to::
> +
> +   dpdk/doc/guides/tools/pdump.rst
> +
> +Prerequisites
> +=============
> +
> +2x NICs (2 full duplex ports per NIC) plugged into the available slots
> +on a platform, another two nic ports are linked with cables.
> +
> +Connections ports between TESTER and DUT::
> +
> +       TESTER                                DUT
> +                    physical link
> +     .--------.                          .--------.
> +     | portA0 | <----------------------> | portB0 |
> +     |        |                          |        |
> +     | portA1 | <----------------------> | portB1 |
> +     '--------'                          |        |
> +                                 ------> | portB2 |
> +                                |        |        |
> +                                 ------> | portB3 |
> +                                         '--------'
> +
> +note: portB0/portB1 are the binded ports.
> +      portB2/portB3 keep link up status and don't bind to dpdk driver.
> +      Except portB0/portB1, DUT should have other two ports on link up
> +status
> +
> +Test cases
> +==========
> +
> +The testpmd application act as server process with port-topology
> +chained mode, the dpdk-pdump act as client process to dump capture
> +packet with different options setting. Select one port of tester as tx
> +port, another port of tester as rx port, send different type packets
> +from two ports, check pcap file content dumped by scapy and tcpdump to
> +confirm testpmd working correctly, check pcap file content dumped by
> +tcpdump and dpdk-pdump to confirm dpdk-pdump working correctly.
> +
> +dpdk-pdump command format
> +-------------------------
> +
> +#. packet capture framework tool dpdk-pdump command format, parameters
> +inside the parenthesis represents the mandatory parameters, parameters
> +inside the square brackets represents optional
> +
> +parameters::
> +
> +    ./app/dpdk-pdump -- --pdump=
> +    '(port = <port_id> |device_id = <pci address>),
> +    (queue=<queue number>),
> +    (rx-dev=<iface/path to pcap file> | tx-dev=<iface/path to pcap file>),
> +    [ring-size=<size>],
> +    [mbuf-size=<size>],
> +    [total-num-mbufs=<size>]'
> +
> +transmission packet format
> +--------------------------
> +
> +#. IP_RAW::
> +
> +    [Ether()/IP()/Raw('\0'*60)]
> +
> +#. TCP::
> +
> +    [Ether()/IP()/TCP()/Raw('\0'*60)]
> +
> +#. UDP::
> +
> +    [Ether()/IP()/UDP()/Raw('\0'*60)]
> +
> +#. SCTP::
> +
> +    [Ether()/IP()/SCTP()/Raw('\0'*40)]
> +
> +#. IPv6_TCP::
> +
> +    [Ether()/IPv6()/TCP()/Raw('\0'*60)]
> +
> +#. IPv6_UDP::
> +
> +    [Ether()/IPv6()/UDP()/Raw('\0'*60)]
> +
> +#. IPv6_SCTP::
> +
> +    [Ether()/IP()/IPv6()/SCTP()/Raw('\0'*40)]
> +
> +#. VLAN_UDP::
> +
> +    [Ether()/Dot1Q()/IP()/UDP()/Raw('\0'*40)]
> +
> +#. TIMESYNC::
> +
> +    [Ether(dst='FF:FF:FF:FF:FF:FF',type=0x88f7)/"\\x00\\x02"]
> +
> +#. ARP::
> +
> +    [Ether(dst='FF:FF:FF:FF:FF:FF')/ARP()]
> +
> +#. LLDP(LLDP()/LLDPManagementAddress() method are in dts/dep/lldp.py)::
> +
> +    [Ether()/LLDP()/LLDPManagementAddress()]
> +
> +port configuration
> +------------------
> +
> +#. confirm two NICs physical link on a platform::
> +
> +    dut port 0 <---> tester port 0
> +    dut port 1 <---> tester port 1
> +
> +#. Bind two port on DUT::
> +
> +    ./usertools/dpdk_nic_bind.py --bind=igb_uio <dut port 0 pci
> + address> <dut port 1 pci address>
> +
> +#. On dut, use port 0 as rx/tx port. If dut port 0 rx dump is set, scapy send
> +   packet from tester port 0 and tcpdump dumps tester port 1's packet. If dut
> +   port 0 tx dump is set, scapy send packet from tester port 1 and tcpdump
> dumps
> +   tester port 0's packet.
> +
> +#. If using interfaces as dpdk-pdump vdev, prepare two ports on DUT, which
> +   haven't been binded to dpdk and have been in linked status
> +
> +Test Case: test pdump port
> +==========================
> +
> +Test different port type definition options::
> +
> +    port=<dut port id>
> +    device_id=<dut pci address>
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump::
> +
> +    ./app/dpdk-pdump -- --pdump  '<port option>,queue=*,\
> +    tx-dev=/tmp/pdump-tx.pcap,rx-dev=/tmp/pdump-rx.pcap'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump.
> +Compare pcap file dumped by dpdk-pdump with pcap files dumped by
> tcpdump.
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump.
> +Compare pcap file dumped by dpdk-pdump with pcap files dumped by
> tcpdump::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> +
> +
> +Test Case: test pdump queue
> +===========================
> +
> +Capture first queue traffic.
> +
> +test different queue options::
> +
> +    first queue 'queue=0'
> +    all queue 'queue=*'
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump::
> +
> +    ./app/dpdk-pdump -- --pdump  'port=0,<queue option>,\
> +    tx-dev=/tmp/pdump-tx.pcap,rx-dev=/tmp/pdump-rx.pcap'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump.
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> +
> +
> +Test Case: test pdump dev pcap
> +==============================
> +
> +Dump rx/tx transmission packets into a specified pcap files.
> +
> +test different dump options::
> +
> +    tx-dev=/tmp/pdump-tx.pcap,rx-dev=/tmp/pdump-rx.pcap
> +    rx-dev=/tmp/pdump-rx.pcap
> +    tx-dev=/tmp/pdump-tx.pcap
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan(other packet
> ignore this step)::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump with pdump options::
> +
> +    ./app/dpdk-pdump -- --pdump  'port=0,queue=*,<dump object>'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump(ignore
> when only
> +   set tx-dev).
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump(ignore
> when only
> +   set rx-dev)::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> +
> +
> +Test Case: test pdump dev iface
> +===============================
> +
> +Dump rx/tx transmission packets to a specified port, which is on link status.
> +
> +test different dump options::
> +
> +    tx-dev=<dut tx port name>,rx-dev=<dut rx port name>
> +    rx-dev=<dut rx port name>
> +    tx-dev=<dut tx port name>
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan(other packet
> ignore this step)::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump with pdump options::
> +
> +    ./app/dpdk-pdump -- --pdump  'port=0,queue=*,<dump object>'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Set up linux's tcpdump to receiver packet of dpdk-pdump on Dut::
> +
> +    when rx-dev is set, use 'tcpdump -i <dut rx port name> -w
> /tmp/pdump-rx.pcap'
> +    when tx-dev is set, use 'tcpdump -i <dut tx port name> -w
> /tmp/pdump-tx.pcap'
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump(ignore
> when only
> +   set tx-dev).
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump(ignore
> when only
> +   set rx-dev)::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> +
> +
> +Test Case: test pdump ring size
> +===============================
> +
> +Test ring size option, set value within 2^[1~27].
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump with pdump options::
> +
> +    ./app/dpdk-pdump -- --pdump  'port=0,queue=*,\
> +
> tx-dev=/tmp/pdump-tx.pcap,rx-dev=/tmp/pdump-rx.pcap,ring-size=1024'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump.
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> +
> +
> +Test Case: test pdump mbuf size
> +===============================
> +
> +Test mbuf size option, set value within [252~50000]. min value is
> +decided by single packet size, max value is decided by test platform memory
> size.
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump with pdump options::
> +
> +    ./app/dpdk-pdump -- --pdump  'port=0,queue=*,\
> +
> tx-dev=/tmp/pdump-tx.pcap,rx-dev=/tmp/pdump-rx.pcap,mbuf-size=2048'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump.
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> +
> +
> +Test Case: test pdump total num mbufs
> +=====================================
> +
> +Test total-num-mbufs option, set value within [1025~65535]
> +
> +steps:
> +
> +#. Boot up dpdk's testpmd with chained option::
> +
> +    ./app/testpmd -c 0x6 -n 4 -- -i --port-topology=chained
> +    testpmd> set fwd io
> +    testpmd> start
> +
> +#. When test VLAN_UDP type packet transmission, set vlan::
> +
> +    testpmd> vlan set filter off 1
> +    testpmd> start
> +
> +#. Boot up dpdk-pdump with pdump options::
> +
> +    ./app/dpdk-pdump -- --pdump  'port=0,queue=*,\
> +
> tx-dev=/tmp/pdump-tx.pcap,rx-dev=/tmp/pdump-rx.pcap,total-num-mbufs=81
> 91'
> +
> +#. Set up linux's tcpdump to receiver packet on tester::
> +
> +    tcpdump -i <rx port name> -w /tmp/sniff-<rx port name>.pcap
> +    tcpdump -i <tx port name> -w /tmp/sniff-<tx port name>.pcap
> +
> +#. Send packet on tester by port 0::
> +
> +    sendp(<packet format>, iface=<port 0 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump.
> +
> +#. Send packet on tester by port 1::
> +
> +    sendp(<packet format>, iface=<port 1 name>)
> +
> +#. Compare pcap file of scapy with the pcap file dumped by tcpdump. Compare
> pcap
> +   file dumped by dpdk-pdump with pcap files dumped by tcpdump::
> +
> +    pkt=rdpcap('xxxx1.pcap')
> +    pkt[0].show2()
> +    pkt=rdpcap('xxxx2.pcap')
> +    pkt[0].show2()
> \ No newline at end of file
> --
> 1.9.3


  reply	other threads:[~2019-07-10  3:19 UTC|newest]

Thread overview: 8+ messages / expand[flat|nested]  mbox.gz  Atom feed  top
2019-07-10  3:09 [dts] [PATCH V3 0/2] " yufengmx
2019-07-10  3:09 ` [dts] [PATCH V3 1/2] " yufengmx
2019-07-10  3:19   ` Wang, Yinan [this message]
2019-08-06 10:07   ` Tu, Lijuan
2019-07-10  3:09 ` [dts] [PATCH V3 2/2] test_plans/index: add packet_capture_test_plan label yufengmx
2019-07-10  3:20   ` Wang, Yinan
2019-08-06 10:07   ` Tu, Lijuan
2019-07-10  3:20 ` [dts] [PATCH V3 0/2] test_plans/packet_capture: upload test plan Wang, Yinan

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