## Development performance test {#libmemif_devperftest_doc} Simle test cases using ICMP. icmpr-epoll example app generates and transmits packets over memif interface. #### TC1: LIB-VPP Start icmpr-epoll example app and VPP. VPP-side config: ``` DBGvpp# create memif id 0 master DBGvpp# set int state memif0/0 up DBGvpp# set int ip address memif0/0 192.168.1.1/24 ``` icmpr-epoll: ``` conn 0 0 1 ``` > Last argument specifies interrupt function to use. This function only respondes to ARP requests. This is important because, packet generation and transmitting is handled by a separate thread. Calling memif_tx_burst from multiple threads writing on same queue could transmit uninitialized buffers. Once connection is established, you can send ping from VPP to icmpr-epoll app to learn its mac address. ``` DBGvpp# ping 192.168.1.2 ``` > There should be no ICMP response. Only ARP response. Now send ICMP requests from icmpr-epoll: ``` send send 0 5 192.168.1.1 02:fe:ff:ff:ff:ff ``` this command will create new thread which will generate icmp packets and transmit them over memif connection with specified index. Once the sequence is finished status will be printed. ###### Example results (owerview of test data) (This test was run with modofication in VPP-memif plugin. The modification disallows memif tx node to allocate last ring buffer) lib-tx: 200M (if ring full don't drop packets) vpp-rx: 200M vpp-tx: 200M - 50K (if ring full drop packets) lib-rx: =vpp-tx drop: ~0.025% (full ring) pps: ~650K multiple interfaces: pps: divided drop: constant #### TC2: LIB-LIB This test case will not drop packets if memif ring is full. Instead it will loop until all required packets have been sent. Start two instances of icmpr-epoll example app. instance 1: ``` conn 0 1 0 ``` instance 2: ``` conn 0 0 1 send 0 5 192.168.1.1 aa:aa:aa:aa:aa:aa ``` > icmpr-epoll example app doesn't check ip or mac address so as long as the format is correct you can type anything as ip_daddr and hw_daddr arguments. ###### Example results (owerview of test data) lib1-tx: 200M (if ring full don't drop packets) lib2-rx: 200M lib2-tx: 200M (if ring full don't drop packets) lib1-rx: 200M drop: obsolete pps: 4.5M multiple interfaces: not tested (excpected same as TC1) #### TC3: LIB-LIB Start two instances of icmpr-epoll example app. instance 1: ``` conn 0 1 ``` instance 2: ``` conn 0 0 1 send 0 5 192.168.1.1 aa:aa:aa:aa:aa:aa ``` ###### Example results (owerview of test data) lib1-tx: 200M (if ring full don't drop packets) lib2-rx: 200M lib2-tx: 169626182 (if ring full drop packets) lib1-rx: =lib2-tx drop: ~15% pps: ~6M multiple interfaces: not tested (excpected same as TC1)