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For change log, see: https://github.com/linux-rdma/rdma-core/releases/tag/v48.0 Signed-off-by: Julien Olivain <ju.o@free.fr> Signed-off-by: Yann E. MORIN <yann.morin.1998@free.fr> |
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Config.in | ||
rdma-core.hash | ||
rdma-core.mk | ||
readme.txt |
Testing rdma-core userspace tools ================================= Testing rdma-core using Linux software RoCE implementation: https://en.wikipedia.org/wiki/RDMA_over_Converged_Ethernet Using two systems with working TCP/IP configuration, for example: - Server IP: 192.168.123.10 - Client IP: 192.168.123.20 Make sure firewall configurations are appropriate. Routable RoCE v2 uses udp/4791. ibv_rc_pingpong uses tcp/18515 for initial synchronization. Note: this test can be executed in two qemu virtual machines with bridged networking. Kernel configuration -------------------- The Linux Kernel needs some InfiniBand configuration. In this example the kernel "rdma_rxe" driver is needed (CONFIG_RDMA_RXE=y). The Kernel config fragment file used for package test can be used as a starting point. See: support/testing/tests/package/test_rdma_core/linux-rdma.fragment Buildroot package configuration ------------------------------- For setting up a software RoCE link, the "rdma" program is needed. It is provided by the "iproute2" package, when "libmnl" is also selected. Make sure to have in your Buildroot configuration: BR2_PACKAGE_IPROUTE2=y BR2_PACKAGE_LIBMNL=y BR2_PACKAGE_RDMA_CORE=y Setting up the rdma link ------------------------ On both server and client: modprobe rdma_rxe rdma link add rxe0 type rxe netdev eth0 Testing with rping ------------------ On the server side, run the command: rping -s -v On the client side, run the command: rping -c -v -a 192.168.123.10 Testing with ibv_rc_pingpong ---------------------------- To test with the pingpong example using the reliable connected (RC) transport: On the server side, run the command: ibv_rc_pingpong -d rxe0 -g 1 On the client side, run the command: ibv_rc_pingpong -d rxe0 -g 1 192.168.123.10