[dts] [PATCH v3]test plan: add ddp gtp qregion test plan

Lin, Xueqin xueqin.lin at intel.com
Thu Mar 8 10:02:07 CET 2018


Sorry, title is ddp gtp ipv6, just notice it, I will submit diff patch soon.

Best regards,
Xueqin


-----Original Message-----
From: Liu, Yong 
Sent: Thursday, March 8, 2018 5:00 PM
To: Lin, Xueqin <xueqin.lin at intel.com>; dts at dpdk.org
Cc: Lin, Xueqin <xueqin.lin at intel.com>
Subject: RE: [dts] [PATCH v3]test plan: add ddp gtp qregion test plan

Xueqin,
I have merged your v2 patch into DTS, could you please submit the diff patch?

Thanks,
Marvin

> -----Original Message-----
> From: dts [mailto:dts-bounces at dpdk.org] On Behalf Of Xueqin Lin
> Sent: Thursday, March 08, 2018 10:55 AM
> To: dts at dpdk.org
> Cc: Lin, Xueqin <xueqin.lin at intel.com>
> Subject: [dts] [PATCH v3]test plan: add ddp gtp qregion test plan
> 
> ---
>  test_plans/ddp_gtp_qregion_test_plan.rst | 700
> +++++++++++++++++++++++++++++++
>  1 file changed, 700 insertions(+)
>  create mode 100644 test_plans/ddp_gtp_qregion_test_plan.rst
> 
> diff --git a/test_plans/ddp_gtp_qregion_test_plan.rst
> b/test_plans/ddp_gtp_qregion_test_plan.rst
> new file mode 100644
> index 0000000..0e845bd
> --- /dev/null
> +++ b/test_plans/ddp_gtp_qregion_test_plan.rst
> @@ -0,0 +1,700 @@
> +.. Copyright (c) <2017>, 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.
> +
> +===============
> +DDP GTP Qregion
> +===============
> +
> +DDP profile 0x80000008 adds support for GTP with IPv4 or IPv6 payload.
> +The test case plan focus on more DDP GTP requirements as below. For 
> +DDP GTP introduction, please refer to DDP GTP test plan.
> +
> +Requirements
> +============
> +1. GTP-C distributed to control plane queues region using outer IP
> +   destination address as hash input set (there is no inner IP headers
> +   for GTP-C packets)
> +2. GTP-U distributed to data plane queues region using inner IP source
> +   address as hash input set.
> +3. GTP-C distributed to control plane queues region using TEID as hash
> +   input set.
> +4. GTP-U distributed to data plane queues region using TEID and inner
> +   packet 5-tuple as hash input set.
> +
> +FVL supports queue regions configuration for RSS, so different 
> +traffic classes or different packet classification types can be 
> +separated to different queue regions which includes several queues. 
> +Support to set hash input set info for RSS flexible payload, then 
> +enable new protocols' RSS.
> +Dynamic flow type feature introduces GTP pctype and flow type, design 
> +and add queue region/queue range mapping as below table. For more
> detailed
> +and relative information, please refer to dynamic flow type and queue 
> +region test plan::
> +
> +    
> + +-------------+------------+------------+--------------+------------
> + -
> +
> +    | Packet Type |   PCTypes  | Flow Types | Queue region | Queue range
> |
> +    
> + +-------------+------------+------------+--------------+------------
> + -
> +
> +    | GTP-U IPv4  |     22     |    26      |      0       |     1~8
> |
> +    
> + +-------------+------------+------------+--------------+------------
> + -
> +
> +    | GTP-U IPv6  |     23     |    23      |      1       |     10~25
> |
> +    
> + +-------------+------------+------------+--------------+------------
> + -
> +
> +    | GTP-U PAY4  |     24     |    24      |      2       |     30~37
> |
> +    
> + +-------------+------------+------------+--------------+------------
> + -
> +
> +    | GTP-C PAY4  |     25     |    25      |      3       |     40~55
> |
> +    
> + +-------------+------------+------------+--------------+------------
> + -
> +
> +
> +Prerequisites
> +=============
> +
> +1. Host PF in DPDK driver::
> +
> +    ./tools/dpdk-devbind.py -b igb_uio 81:00.0
> +
> +2. Start testpmd on host, set chained port topology mode, add txq/rxq to
> +   enable multi-queues. In general, PF's max queue is 64::
> +
> +    ./testpmd -c f -n 4 -- -i --port-topology=chained --txq=64 
> + --rxq=64
> +
> +Load/delete dynamic device personalization 
> +==========================================
> +
> +1. Stop testpmd port before loading profile::
> +
> +    testpmd > port stop all
> +
> +2. Load gtp.pkgo file to the memory buffer, save original configuration
> +   and return in the same buffer to the gtp.bak file::
> +
> +    testpmd > ddp add (port_id) /tmp/gtp.pkgo,/tmp/gtp.bak
> +
> +3. Remove profile from the network adapter and restore original
> +   configuration::
> +
> +    testpmd > ddp del (port_id) /tmp/gtp.bak
> +
> +4. Start testpmd port::
> +
> +    testpmd > port start all
> +
> +Note:
> +
> +1. Gtp.pkgo profile is not released by ND yet, only have engineer 
> +version
> for
> +   internal use so far. Plan to keep public reference profiles at Intel
> +   Developer Zone, release versions of profiles and supply link later.
> +
> +2. Loading DDP is the prerequisite for below GTP relative cases. Load
> +   profile again once restarting testpmd to let software detect this
> +   event, although has “profile has already existed” reminder. Operate
> +   global reset or lanconf tool to recover original setting. Global reset
> +   trigger reg is 0xb8190, first cmd is core reset, second cmd is global
> +   reset::
> +
> +    testpmd > write reg 0 0xb8190 1
> +    testpmd > write reg 0 0xb8190 2
> +
> +
> +Flow type and queue region mapping setting 
> +==========================================
> +1. As above mapping table, set queue region on a port::
> +
> +    testpmd> set port 0 queue-region region_id 0 queue_start_index 1
> queue_num 8
> +    testpmd> set port 0 queue-region region_id 1 queue_start_index 10
> queue_num 16
> +    testpmd> set port 0 queue-region region_id 2 queue_start_index 30
> queue_num 8
> +    testpmd> set port 0 queue-region region_id 3 queue_start_index 40
> queue_num 16
> +
> +2. Set the mapping of flow type to region index on a port::
> +
> +    testpmd> set port 0 queue-region region_id 0 flowtype 26
> +    testpmd> set port 0 queue-region region_id 1 flowtype 23
> +    testpmd> set port 0 queue-region region_id 2 flowtype 24
> +    testpmd> set port 0 queue-region region_id 3 flowtype 25
> +    testpmd> set port 0 queue-region flush on
> +
> +3. flush all queue regions::
> +
> +    testpmd> set port 0 queue-region flush off
> +
> +
> +Test Case: Outer IPv6 dst controls GTP-C queue in queue region 
> +==============================================================
> +
> +1. Check flow ptype to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-C flow type id 25 to pcytpe id 25 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 25 25
> +
> +3. Check flow ptype to pctype mapping adds 25 this mapping
> +
> +4. Reset GTP-C hash configure::
> +
> +    testpmd> port config 0 pctype 25 hash_inset clear all
> +
> +5. Outer dst address words are 50~57, enable hash input set for outer
> dst::
> +
> +    testpmd> port config 0 pctype 25 hash_inset set field 50
> +    testpmd> port config 0 pctype 25 hash_inset set field 51
> +    testpmd> port config 0 pctype 25 hash_inset set field 52
> +    testpmd> port config 0 pctype 25 hash_inset set field 53
> +    testpmd> port config 0 pctype 25 hash_inset set field 54
> +    testpmd> port config 0 pctype 25 hash_inset set field 55
> +    testpmd> port config 0 pctype 25 hash_inset set field 56
> +    testpmd> port config 0 pctype 25 hash_inset set field 57
> +
> +6. Enable flow type id 25's RSS::
> +
> +    testpmd> port config all rss 25
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send outer dst GTP-C packet, check RSS could work, verify the queue is
> +   between 40 and 55, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0001",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0001")/UDP(dport=2123)/
> +    GTP_U_Header()/Raw('x'*20)
> +
> +9. Send different outer dst GTP-C packet, check pmd receives packet from
> +   different queue but between 40 and 55::
> +
> +    p=Ether()/IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0001",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0002")/UDP(dport=2123)/
> +    GTP_U_Header()/Raw('x'*20)
> +
> +10. Send different outer src GTP-C packet, check pmd receives packet from
> +    same queue::
> +
> +    p=Ether()/IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0002",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0001")/
> +    UDP(dport=2123)/GTP_U_Header()/Raw('x'*20)
> +
> +
> +Test Case: TEID controls GTP-C queue in queue region 
> +====================================================
> +
> +1. Check flow ptype to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-C flow type id 25 to pcytpe id 25 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 25 25
> +
> +3. Check flow ptype to pctype mapping adds 25 this mapping
> +
> +4. Reset GTP-C hash configure::
> +
> +    testpmd> port config 0 pctype 25 hash_inset clear all
> +
> +5. Teid words are 44 and 45, enable hash input set for teid::
> +
> +    testpmd> port config 0 pctype 25 hash_inset set field 44
> +    testpmd> port config 0 pctype 25 hash_inset set field 45
> +
> +6. Enable flow type id 25's RSS::
> +
> +    testpmd> port config all rss 25
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send teid GTP-C packet, check RSS could work, verify the queue is
> +   between 40 and 55, print PKT_RX_RSS_HASH::
> +
> +    
> + p=Ether()/IPv6()/UDP(dport=2123)/GTP_U_Header(teid=0xfe)/Raw('x'*20)
> +
> +9. Send different teid GTP-C packet, check receive packet from different
> +   queue but between 40 and 55::
> +
> +    
> + p=Ether()/IPv6()/UDP(dport=2123)/GTP_U_Header(teid=0xff)/Raw('x'*20)
> +
> +
> +Test Case: TEID controls GTP-U IPv4 queue in queue region 
> +=========================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv4 flow type id 26 to pcytpe id 22 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 22 26
> +
> +3. Check flow ptype to pctype mapping adds 26 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv4 hash configure::
> +
> +    testpmd> port config 0 pctype 22 hash_inset clear all
> +
> +5. Teid words are 44 and 45, enable hash input set for teid::
> +
> +    testpmd> port config 0 pctype 22 hash_inset set field 44
> +    testpmd> port config 0 pctype 22 hash_inset set field 45
> +
> +6. Enable flow type id 26's RSS::
> +
> +    testpmd> port config all rss 26
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send teid GTP-U IPv4 packet, check RSS could work, verify the queue is
> +   between 1 and 8, print PKT_RX_RSS_HASH::
> +
> +
> p=Ether()/IPv6()/UDP(dport=2152)/GTP_U_Header(teid=0xfe)/IP()/Raw('x'*
> 20)
> +
> +9. Send different teid GTP-U IPv4 packet, check receive packet from
> different
> +   queue but between 1 and 8::
> +
> +
> p=Ether()/IPv6()/UDP(dport=2152)/GTP_U_Header(teid=0xff)/IP()/Raw('x'*
> 20)
> +
> +
> +Test Case: Sport controls GTP-U IPv4 queue in queue region 
> +==========================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv4 flow type id 26 to pcytpe id 22 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 22 26
> +
> +3. Check flow ptype to pctype mapping adds 26 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv4 hash configure::
> +
> +    testpmd> port config 0 pctype 22 hash_inset clear all
> +
> +5. Sport words are 29 and 30, enable hash input set for sport::
> +
> +    testpmd> port config 0 pctype 22 hash_inset set field 29
> +    testpmd> port config 0 pctype 22 hash_inset set field 30
> +
> +6. Enable flow type id 26's RSS::
> +
> +    testpmd> port config all rss 26
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send sport GTP-U IPv4 packet, check RSS could work, verify the 
> +queue
> is
> +   between 1 and 8, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IPv6()/UDP(dport=2152)/GTP_U_Header(teid=30)/IP()/
> +    UDP(sport=100,dport=200)/Raw('x'*20)
> +
> +9. Send different sport GTP-U IPv4 packet, check pmd receives packet from
> +   different queue but between 1 and 8::
> +
> +    p=Ether()/IPv6()/UDP(dport=2152)/GTP_U_Header(teid=30)/IP()/
> +    UDP(sport=101,dport=200)/Raw('x'*20)
> +
> +
> +Test Case: Dport controls GTP-U IPv4 queue in queue region 
> +==========================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv4 flow type id 26 to pcytpe id 22 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 22 26
> +
> +3. Check flow ptype to pctype mapping adds 26 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv4 hash configure::
> +
> +    testpmd> port config 0 pctype 22 hash_inset clear all
> +
> +5. Dport words are 29 and 30, enable hash input set for dport::
> +
> +    testpmd> port config 0 pctype 22 hash_inset set field 29
> +    testpmd> port config 0 pctype 22 hash_inset set field 30
> +
> +6. Enable flow type id 26's RSS::
> +
> +    testpmd> port config all rss 26
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send dprot GTP-U IPv4 packet, check RSS could work, verify the 
> +queue
> is
> +   between 1 and 8, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IPv6()/UDP(dport=2152)/GTP_U_Header(teid=30)/IP()/
> +    UDP(sport=100,dport=200)/Raw('x'*20)
> +
> +9. Send different dport GTP-U IPv4 packet, check receive packet from
> different
> +   queue but between 1 and 8::
> +
> +    p=Ether()/IPv6()/UDP(dport=2152)/GTP_U_Header(teid=30)/IP()/
> +    UDP(sport=100,dport=201)/Raw('x'*20)
> +
> +
> +Test Case: Inner IP src controls GTP-U IPv4 queue in queue region 
> +=================================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv4 flow type id 26 to pcytpe id 22 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 22 26
> +
> +3. Check flow ptype to pctype mapping adds 26 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv4 hash configure::
> +
> +    testpmd> port config 0 pctype 22 hash_inset clear all
> +
> +5. Inner source words are 15 and 16, enable hash input set for inner src::
> +
> +    testpmd> port config 0 pctype 22 hash_inset set field 15
> +    testpmd> port config 0 pctype 22 hash_inset set field 16
> +
> +6. Enable flow type id 26's RSS::
> +
> +    testpmd> port config all rss 26
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send inner src GTP-U IPv4 packet, check RSS could work, verify the
> queue is
> +   between 1 and 8, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IP(src="1.1.1.1",dst="2.2.2.2")/UDP()/Raw('x'*20)
> +
> +9. Send different src GTP-U IPv4 packet, check pmd receives packet 
> +from
> different
> +   queue but between 1 and 8::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IP(src="1.1.1.2",dst="2.2.2.2")/UDP()/Raw('x'*20)
> +
> +10. Send different dst GTP-U IPv4 packet, check pmd receives packet 
> +from
> same
> +    queue::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IP(src="1.1.1.1",dst="2.2.2.3")/UDP()/Raw('x'*20)
> +
> +
> +Test Case: Inner IP dst controls GTP-U IPv4 queue in queue region 
> +=================================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv4 flow type id 26 to pcytpe id 22 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 22 26
> +
> +3. Check flow ptype to pctype mapping adds 26 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv4 hash configure::
> +
> +    testpmd> port config 0 pctype 22 hash_inset clear all
> +
> +5. Inner dst words are 27 and 28, enable hash input set for inner dst::
> +
> +    testpmd> port config 0 pctype 22 hash_inset set field 27
> +    testpmd> port config 0 pctype 22 hash_inset set field 28
> +
> +6. Enable flow type id 26's RSS::
> +
> +    testpmd> port config all rss 26
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send inner dst GTP-U IPv4 packet, check RSS could work, verify the
> queue is
> +   between 1 and 8, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IP(src="1.1.1.1",dst="2.2.2.2")/UDP()/Raw('x'*20)
> +
> +9. Send different dst address GTP-U IPv4 packet, check pmd receives
> packet
> +   from different queue but between 1 and 8::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IP(src="1.1.1.1",dst="2.2.2.3")/UDP()/Raw('x'*20)
> +
> +10. Send different src address, check pmd receives packet from same
> queue::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IP(src="1.1.1.2",dst="2.2.2.2")/UDP()/Raw('x'*20)
> +
> +
> +Test Case: TEID controls GTP-U IPv6 queue in queue region 
> +=========================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv6 flow type id 23 to pcytpe id 23 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 23 23
> +
> +3. Check flow ptype to pctype mapping adds 23 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv6 hash configure::
> +
> +    testpmd> port config 0 pctype 23 hash_inset clear all
> +
> +5. Teid words are 44 and 45, enable hash input set for teid::
> +
> +    testpmd> port config 0 pctype 23 hash_inset set field 44
> +    testpmd> port config 0 pctype 23 hash_inset set field 45
> +
> +6. Enable flow type id 23's RSS::
> +
> +    testpmd> port config all rss 23
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send teid GTP-U IPv6 packet, check RSS could work, verify the queue is
> +   between 10 and 25, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=0xfe)/IPv6()/
> +    UDP(sport=100,dport=200)/Raw('x'*20)
> +
> +9. Send different teid GTP-U IPv4 packet, check pmd receives packet from
> +   different queue but between 10 and 25::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=0xff)/IPv6()/
> +    UDP(sport=100,dport=200)/Raw('x'*20)
> +
> +
> +Test Case: Sport controls GTP-U IPv6 queue in queue region 
> +==========================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv6 flow type id 23 to pcytpe id 23 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 23 23
> +
> +3. Check flow ptype to pctype mapping adds 23 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv6 hash configure::
> +
> +    testpmd> port config 0 pctype 23 hash_inset clear all
> +
> +5. Sport words are 29 and 30, enable hash input set for sport::
> +
> +    testpmd> port config 0 pctype 23 hash_inset set field 29
> +    testpmd> port config 0 pctype 23 hash_inset set field 30
> +
> +6. Enable flow type id 23's RSS::
> +
> +    testpmd> port config all rss 23
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send sport GTP-U IPv6 packet, check RSS could work, verify the 
> +queue
> is
> +   between 10 and 25, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/IPv6()/
> +    UDP(sport=100,dport=200)/Raw('x'*20)
> +
> +9. Send different sport GTP-U IPv6 packet, check pmd receives packet from
> +   different queue but between 10 and 25::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/IPv6()/
> +    UDP(sport=101,dport=200)/Raw('x'*20)
> +
> +
> +Test Case: Dport controls GTP-U IPv6 queue in queue region 
> +==========================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv6 flow type id 23 to pcytpe id 23 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 23 23
> +
> +3. Check flow ptype to pctype mapping adds 23 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv6 hash configure::
> +
> +    testpmd> port config 0 pctype 23 hash_inset clear all
> +
> +5. Dport words are 29 and 30, enable hash input set for dport::
> +
> +    testpmd> port config 0 pctype 23 hash_inset set field 29
> +    testpmd> port config 0 pctype 23 hash_inset set field 30
> +
> +6. Enable flow type id 23's RSS::
> +
> +    testpmd> port config all rss 23
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send dport GTP-U IPv6 packet, check RSS could work, verify the queue
> +   is between 10 and 25, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/IPv6()/
> +    UDP(sport=100,dport=200)/Raw('x'*20)
> +
> +9. Send different dport GTP-U IPv6 packet, check pmd receives packet from
> +   different queue but between 10 and 25::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/IPv6()/
> +    UDP(sport=100,dport=201)/Raw('x'*20)
> +
> +
> +
> +Test Case: Inner IPv6 src controls GTP-U IPv6 queue in queue region 
> +===================================================================
> +1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv6 flow type id 23 to pcytpe id 23 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 23 23
> +
> +3. Check flow ptype to pctype mapping adds 23 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv6 hash configure::
> +
> +    testpmd> port config 0 pctype 23 hash_inset clear all
> +
> +5. Inner IPv6 src words are 13~20, enable hash input set for inner src::
> +
> +    testpmd> port config 0 pctype 23 hash_inset set field 13
> +    testpmd> port config 0 pctype 23 hash_inset set field 14
> +    testpmd> port config 0 pctype 23 hash_inset set field 15
> +    testpmd> port config 0 pctype 23 hash_inset set field 16
> +    testpmd> port config 0 pctype 23 hash_inset set field 17
> +    testpmd> port config 0 pctype 23 hash_inset set field 18
> +    testpmd> port config 0 pctype 23 hash_inset set field 19
> +    testpmd> port config 0 pctype 23 hash_inset set field 20
> +
> +6. Enable flow type id 23's RSS::
> +
> +    testpmd> port config all rss 23
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send inner src address GTP-U IPv6 packets, check RSS could work,
> verify
> +   the queue is between 10 and 25, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0001",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0001")/UDP()/Raw('x'*20)
> +
> +9. Send different inner src GTP-U IPv6 packet, check pmd receives packet
> +   from different queue but dbetween 10 and 25::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0002",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0001")/UDP()/Raw('x'*20)
> +
> +10. Send different inner dst GTP-U IPv6 packet, check pmd receives packet
> +    from same queue::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0001",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0002)/UDP()/Raw('x'*20)
> +
> +
> +
> +Test Case: Inner IPv6 dst controls GTP-U IPv6 queue in queue region 
> +=====================================================================
> +==== 1. Check flow type to pctype mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +2. Update GTP-U IPv6 flow type id 23 to pcytpe id 23 mapping item::
> +
> +    testpmd> port config 0 pctype mapping update 23 23
> +
> +3. Check flow ptype to pctype mapping adds 23 this mapping::
> +
> +    testpmd> show port 0 pctype mapping
> +
> +4. Reset GTP-U IPv6 hash configure::
> +
> +    testpmd> port config 0 pctype 23 hash_inset clear all
> +
> +5. Inner IPv6 dst words are 21~28, enable hash input set for inner dst::
> +
> +    testpmd> port config 0 pctype 23 hash_inset set field 21
> +    testpmd> port config 0 pctype 23 hash_inset set field 22
> +    testpmd> port config 0 pctype 23 hash_inset set field 23
> +    testpmd> port config 0 pctype 23 hash_inset set field 24
> +    testpmd> port config 0 pctype 23 hash_inset set field 25
> +    testpmd> port config 0 pctype 23 hash_inset set field 26
> +    testpmd> port config 0 pctype 23 hash_inset set field 27
> +    testpmd> port config 0 pctype 23 hash_inset set field 28
> +
> +6. Enable flow type id 23's RSS::
> +
> +    testpmd> port config all rss 23
> +
> +7. Start testpmd, set fwd rxonly, enable output print
> +
> +8. Send inner dst GTP-U IPv6 packets, check RSS could work, verify the
> +   queue is between 10 and 25, print PKT_RX_RSS_HASH::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0001",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0001")/UDP()/Raw('x'*20)
> +
> +9. Send different inner dst GTP-U IPv6 packets, check pmd receives packet
> +   from different queue but between 10 and 25::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0001",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0002")/UDP()/Raw('x'*20)
> +
> +10. Send different inner src GTP-U IPv6 packets, check pmd receives
> packet
> +    from same queue::
> +
> +    p=Ether()/IP()/UDP(dport=2152)/GTP_U_Header(teid=30)/
> +    IPv6(src="1001:0db8:85a3:0000:0000:8a2e:0370:0002",
> +    dst="2001:0db8:85a3:0000:0000:8a2e:0370:0001")/UDP()/Raw('x'*20)
> --
> 2.5.5



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