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Spdk/test/nvmf/common.sh
Michal Berger cba9514dec rxe_cfg: Drop librxe and port minimal rxe_cfg functionality to Bash 
Since rdma-core handles the entire libibverbs suite, and because it
dropped rxe_cfg in favor of iproute2's rdma tool, building librxe is
not needed anymore. That said, the functionality of the rxe_cfg that
our test suites are using is basic and useful enough to be preserved
in a form of a simple Bash script. This can be used to avoid full
overhaul of the code which would need to be adjusted for iproute2's
tooling. In case more complex rdma configuration link-wise is needed,
iproute2 dependency can be added then.

Additionally, some of the nvmf functions have been simplified to make
use of the rxe_cfg port.

The formatting of the status cmd is left compatible with the rxe_cfg.

Change-Id: I594a24b73472a16d51401bcd74fd30c415b24ddb
Signed-off-by: Michal Berger <michalx.berger@intel.com>
Reviewed-on: https://review.spdk.io/gerrit/c/spdk/spdk/+/1457
Tested-by: SPDK CI Jenkins <sys_sgci@intel.com>
Community-CI: Broadcom CI
Community-CI: Mellanox Build Bot
Reviewed-by: Tomasz Zawadzki <tomasz.zawadzki@intel.com>
Reviewed-by: Maciej Wawryk <maciejx.wawryk@intel.com>
Reviewed-by: Karol Latecki <karol.latecki@intel.com>
Reviewed-by: Aleksey Marchuk <alexeymar@mellanox.com>
2020-06-05 09:02:27 +00:00

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NVMF_PORT=4420
NVMF_IP_PREFIX="192.168.100"
NVMF_IP_LEAST_ADDR=8
NVMF_TCP_IP_ADDRESS="127.0.0.1"
NVMF_TRANSPORT_OPTS=""
NVMF_SERIAL=SPDK00000000000001
function build_nvmf_app_args() {
if [ $SPDK_RUN_NON_ROOT -eq 1 ]; then
NVMF_APP=(sudo -u "$USER" "${NVMF_APP[@]}")
NVMF_APP+=(-i "$NVMF_APP_SHM_ID" -e 0xFFFF)
else
NVMF_APP+=(-i "$NVMF_APP_SHM_ID" -e 0xFFFF)
fi
}
: ${NVMF_APP_SHM_ID="0"}
export NVMF_APP_SHM_ID
build_nvmf_app_args
have_pci_nics=0
function rxe_cfg() {
"$rootdir/scripts/rxe_cfg_small.sh" "$@"
}
function load_ib_rdma_modules() {
if [ $(uname) != Linux ]; then
return 0
fi
modprobe ib_cm
modprobe ib_core
# Newer kernels do not have the ib_ucm module
modprobe ib_ucm || true
modprobe ib_umad
modprobe ib_uverbs
modprobe iw_cm
modprobe rdma_cm
modprobe rdma_ucm
}
function detect_soft_roce_nics() {
rxe_cfg start
}
# args 1 and 2 represent the grep filters for finding our NICS.
# subsequent args are all drivers that should be loaded if we find these NICs.
# Those drivers should be supplied in the correct order.
function detect_nics_and_probe_drivers() {
NIC_VENDOR="$1"
NIC_CLASS="$2"
nvmf_nic_bdfs=$(lspci | grep Ethernet | grep "$NIC_VENDOR" | grep "$NIC_CLASS" | awk -F ' ' '{print "0000:"$1}')
if [ -z "$nvmf_nic_bdfs" ]; then
return 0
fi
have_pci_nics=1
if [ $# -ge 2 ]; then
# shift out the first two positional arguments.
shift 2
# Iterate through the remaining arguments.
for i; do
modprobe "$i"
done
fi
}
function detect_pci_nics() {
if ! hash lspci; then
return 0
fi
detect_nics_and_probe_drivers "Mellanox" "ConnectX-4" "mlx4_core" "mlx4_ib" "mlx4_en"
detect_nics_and_probe_drivers "Mellanox" "ConnectX-5" "mlx5_core" "mlx5_ib"
detect_nics_and_probe_drivers "Intel" "X722" "i40e" "i40iw"
detect_nics_and_probe_drivers "Chelsio" "Unified Wire" "cxgb4" "iw_cxgb4"
if [ "$have_pci_nics" -eq "0" ]; then
return 0
fi
# Provide time for drivers to properly load.
sleep 5
}
function detect_rdma_nics() {
detect_pci_nics
if [ "$have_pci_nics" -eq "0" ]; then
detect_soft_roce_nics
fi
}
function allocate_nic_ips() {
((count = NVMF_IP_LEAST_ADDR))
for nic_name in $(get_rdma_if_list); do
ip="$(get_ip_address $nic_name)"
if [ -z $ip ]; then
ip addr add $NVMF_IP_PREFIX.$count/24 dev $nic_name
ip link set $nic_name up
((count = count + 1))
fi
# dump configuration for debug log
ip addr show $nic_name
done
}
function get_available_rdma_ips() {
for nic_name in $(get_rdma_if_list); do
get_ip_address $nic_name
done
}
function get_rdma_if_list() {
for nic_type in /sys/class/infiniband/*; do
[[ -e "$nic_type" ]] || break
for nic_name in /sys/class/infiniband/"$(basename ${nic_type})"/device/net/*; do
[[ -e "$nic_name" ]] || break
basename "$nic_name"
done
done
}
function get_ip_address() {
interface=$1
ip -o -4 addr show $interface | awk '{print $4}' | cut -d"/" -f1
}
function nvmfcleanup() {
sync
set +e
for i in {1..20}; do
modprobe -v -r nvme-$TEST_TRANSPORT
if modprobe -v -r nvme-fabrics; then
set -e
return 0
fi
sleep 1
done
set -e
# So far unable to remove the kernel modules. Try
# one more time and let it fail.
# Allow the transport module to fail for now. See Jim's comment
# about the nvme-tcp module below.
modprobe -v -r nvme-$TEST_TRANSPORT || true
modprobe -v -r nvme-fabrics
}
function nvmftestinit() {
if [ -z $TEST_TRANSPORT ]; then
echo "transport not specified - use --transport= to specify"
return 1
fi
if [ "$TEST_MODE" == "iso" ]; then
$rootdir/scripts/setup.sh
if [ "$TEST_TRANSPORT" == "rdma" ]; then
rdma_device_init
fi
fi
NVMF_TRANSPORT_OPTS="-t $TEST_TRANSPORT"
if [ "$TEST_TRANSPORT" == "rdma" ]; then
RDMA_IP_LIST=$(get_available_rdma_ips)
NVMF_FIRST_TARGET_IP=$(echo "$RDMA_IP_LIST" | head -n 1)
NVMF_SECOND_TARGET_IP=$(echo "$RDMA_IP_LIST" | tail -n +2 | head -n 1)
if [ -z $NVMF_FIRST_TARGET_IP ]; then
echo "no NIC for nvmf test"
exit 0
fi
elif [ "$TEST_TRANSPORT" == "tcp" ]; then
NVMF_FIRST_TARGET_IP=127.0.0.1
NVMF_TRANSPORT_OPTS="$NVMF_TRANSPORT_OPTS -o"
fi
# currently we run the host/perf test for TCP even on systems without kernel nvme-tcp
# support; that's fine since the host/perf test uses the SPDK initiator
# maybe later we will enforce modprobe to succeed once we have systems in the test pool
# with nvme-tcp kernel support - but until then let this pass so we can still run the
# host/perf test with the tcp transport
modprobe nvme-$TEST_TRANSPORT || true
}
function nvmfappstart() {
timing_enter start_nvmf_tgt
"${NVMF_APP[@]}" "$@" &
nvmfpid=$!
trap 'process_shm --id $NVMF_APP_SHM_ID; nvmftestfini; exit 1' SIGINT SIGTERM EXIT
waitforlisten $nvmfpid
timing_exit start_nvmf_tgt
}
function nvmftestfini() {
nvmfcleanup || :
if [ -n "$nvmfpid" ]; then
killprocess $nvmfpid
fi
if [ "$TEST_MODE" == "iso" ]; then
$rootdir/scripts/setup.sh reset
if [ "$TEST_TRANSPORT" == "rdma" ]; then
rdma_device_init
fi
fi
}
function rdma_device_init() {
load_ib_rdma_modules
detect_rdma_nics
allocate_nic_ips
}
function revert_soft_roce() {
rxe_cfg stop
}
function check_ip_is_soft_roce() {
rxe_cfg status rxe | grep -wq "$1"
}
function nvme_connect() {
local init_count
init_count=$(nvme list | wc -l)
if ! nvme connect "$@"; then return $?; fi
for i in $(seq 1 10); do
if [ $(nvme list | wc -l) -gt $init_count ]; then
return 0
else
sleep 1s
fi
done
return 1
}
function get_nvme_devs() {
local dev rest
nvmes=()
while read -r dev rest; do
if [[ $dev == /dev/nvme* ]]; then
nvmes+=("$dev")
fi
if [[ $1 == print ]]; then
echo "$dev $rest"
fi
done < <(nvme list)
((${#nvmes[@]})) || return 1
echo "${#nvmes[@]}" >&2
}
function gen_nvmf_target_json() {
local subsystem config=()
for subsystem in "${@:-1}"; do
config+=(
"$(
cat <<- EOF
{
"params": {
"name": "Nvme$subsystem",
"trtype": "$TEST_TRANSPORT",
"traddr": "$NVMF_FIRST_TARGET_IP",
"adrfam": "ipv4",
"trsvcid": "$NVMF_PORT",
"subnqn": "nqn.2016-06.io.spdk:cnode$subsystem"
},
"method": "bdev_nvme_attach_controller"
}
EOF
)"
)
done
jq . <<- JSON
{
"subsystems": [
{
"subsystem": "bdev",
"config": [
$(
IFS=","
printf '%s\n' "${config[*]}"
)
]
}
]
}
JSON
}
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