linux-stable/tools/testing/selftests/net/gro.sh

#!/bin/bash
# SPDX-License-Identifier: GPL-2.0

readonly SERVER_MAC="aa:00:00:00:00:02"
readonly CLIENT_MAC="aa:00:00:00:00:01"
readonly TESTS=("data" "ack" "flags" "tcp" "ip" "large")
readonly PROTOS=("ipv4" "ipv6")
dev=""
test="all"
proto="ipv4"

run_test() {
  local server_pid=0
  local exit_code=0
  local protocol=$1
  local test=$2
  local ARGS=( "--${protocol}" "--dmac" "${SERVER_MAC}" \
  "--smac" "${CLIENT_MAC}" "--test" "${test}" "--verbose" )

  setup_ns
  # Each test is run 3 times to deflake, because given the receive timing,
  # not all packets that should coalesce will be considered in the same flow
  # on every try.
  for tries in {1..3}; do
    # Actual test starts here
    ip netns exec server_ns ./gro "${ARGS[@]}" "--rx" "--iface" "server" \
      1>>log.txt &
    server_pid=$!
    sleep 0.5  # to allow for socket init
    ip netns exec client_ns ./gro "${ARGS[@]}" "--iface" "client" \
      1>>log.txt
    wait "${server_pid}"
    exit_code=$?
    if [[ "${exit_code}" -eq 0 ]]; then
        break;
    fi
  done
  cleanup_ns
  echo ${exit_code}
}

run_all_tests() {
  local failed_tests=()
  for proto in "${PROTOS[@]}"; do
    for test in "${TESTS[@]}"; do
      echo "running test ${proto} ${test}" >&2
      exit_code=$(run_test $proto $test)
      if [[ "${exit_code}" -ne 0 ]]; then
        failed_tests+=("${proto}_${test}")
      fi;
    done;
  done
  if [[ ${#failed_tests[@]} -ne 0 ]]; then
    echo "failed tests: ${failed_tests[*]}. \
    Please see log.txt for more logs"
    exit 1
  else
    echo "All Tests Succeeded!"
  fi;
}

usage() {
  echo "Usage: $0 \
  [-i <DEV>] \
  [-t data|ack|flags|tcp|ip|large] \
  [-p <ipv4|ipv6>]" 1>&2;
  exit 1;
}

while getopts "i:t:p:" opt; do
  case "${opt}" in
    i)
      dev="${OPTARG}"
      ;;
    t)
      test="${OPTARG}"
      ;;
    p)
      proto="${OPTARG}"
      ;;
    *)
      usage
      ;;
  esac
done

if [ -n "$dev" ]; then
	source setup_loopback.sh
else
	source setup_veth.sh
fi

setup
trap cleanup EXIT
if [[ "${test}" == "all" ]]; then
  run_all_tests
else
  run_test "${proto}" "${test}"
fi;
selftests/net: GRO coalesce test Implement a GRO testsuite that expects Linux kernel GRO behavior. All tests pass with the kernel software GRO stack. Run against a device with hardware GRO to verify that it matches the software stack. gro.c generates packets and sends them out through a packet socket. The receiver in gro.c (run separately) receives the packets on a packet socket, filters them by destination ports using BPF and checks the packet geometry to see whether GRO was applied. gro.sh provides a wrapper to run the gro.c in NIC loopback mode. It is not included in continuous testing because it modifies network configuration around a physical NIC: gro.sh sets the NIC in loopback mode, creates macvlan devices on the physical device in separate namespaces, and sends traffic generated by gro.c between the two namespaces to observe coalescing behavior. GRO coalescing is time sensitive. Some tests may prove flaky on some hardware. Note that this test suite tests for software GRO unless hardware GRO is enabled (ethtool -K $DEV rx-gro-hw on). To test, run ./gro.sh. The wrapper will output success or failed test names, and generate log.txt and stderr. Sample log.txt result: ... pure data packet of same size: Test succeeded large data packets followed by a smaller one: Test succeeded small data packets followed by a larger one: Test succeeded ... Sample stderr result: ... carrier ready running test ipv4 data Expected {200 }, Total 1 packets Received {200 }, Total 1 packets. ... Signed-off-by: Coco Li <lixiaoyan@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-08-05 07:36:40 +00:00			`#!/bin/bash`
			`# SPDX-License-Identifier: GPL-2.0`

			`readonly SERVER_MAC="aa:00:00:00:00:02"`
			`readonly CLIENT_MAC="aa:00:00:00:00:01"`
			`readonly TESTS=("data" "ack" "flags" "tcp" "ip" "large")`
			`readonly PROTOS=("ipv4" "ipv6")`
selftests/net: allow GRO coalesce test on veth This change extends the existing GRO coalesce test to allow running on top of a veth pair, so that no H/W dep is required to run them. By default gro.sh will use the veth backend, and will try to use exiting H/W in loopback mode if a specific device name is provided with the '-i' command line option. No functional change is intended for the loopback-based tests, just move all the relevant initialization/cleanup code into the related script. Introduces a new initialization helper script for the veth backend, and plugs the correct helper script according to the provided command line. Additionally, enable veth-based tests by default. v1 -> v2: - drop unused code in setup_veth_ns() - Willem Signed-off-by: Paolo Abeni <pabeni@redhat.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-08-26 07:30:42 +00:00			`dev=""`
selftests/net: GRO coalesce test Implement a GRO testsuite that expects Linux kernel GRO behavior. All tests pass with the kernel software GRO stack. Run against a device with hardware GRO to verify that it matches the software stack. gro.c generates packets and sends them out through a packet socket. The receiver in gro.c (run separately) receives the packets on a packet socket, filters them by destination ports using BPF and checks the packet geometry to see whether GRO was applied. gro.sh provides a wrapper to run the gro.c in NIC loopback mode. It is not included in continuous testing because it modifies network configuration around a physical NIC: gro.sh sets the NIC in loopback mode, creates macvlan devices on the physical device in separate namespaces, and sends traffic generated by gro.c between the two namespaces to observe coalescing behavior. GRO coalescing is time sensitive. Some tests may prove flaky on some hardware. Note that this test suite tests for software GRO unless hardware GRO is enabled (ethtool -K $DEV rx-gro-hw on). To test, run ./gro.sh. The wrapper will output success or failed test names, and generate log.txt and stderr. Sample log.txt result: ... pure data packet of same size: Test succeeded large data packets followed by a smaller one: Test succeeded small data packets followed by a larger one: Test succeeded ... Sample stderr result: ... carrier ready running test ipv4 data Expected {200 }, Total 1 packets Received {200 }, Total 1 packets. ... Signed-off-by: Coco Li <lixiaoyan@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-08-05 07:36:40 +00:00			`test="all"`
			`proto="ipv4"`

			`run_test() {`
			`local server_pid=0`
			`local exit_code=0`
			`local protocol=$1`
			`local test=$2`
			`local ARGS=( "--${protocol}" "--dmac" "${SERVER_MAC}" \`
			`"--smac" "${CLIENT_MAC}" "--test" "${test}" "--verbose" )`

			`setup_ns`
			`# Each test is run 3 times to deflake, because given the receive timing,`
			`# not all packets that should coalesce will be considered in the same flow`
			`# on every try.`
			`for tries in {1..3}; do`
			`# Actual test starts here`
			`ip netns exec server_ns ./gro "${ARGS[@]}" "--rx" "--iface" "server" \`
			`1>>log.txt &`
			`server_pid=$!`
			`sleep 0.5 # to allow for socket init`
			`ip netns exec client_ns ./gro "${ARGS[@]}" "--iface" "client" \`
			`1>>log.txt`
			`wait "${server_pid}"`
			`exit_code=$?`
			`if [[ "${exit_code}" -eq 0 ]]; then`
			`break;`
			`fi`
			`done`
			`cleanup_ns`
			`echo ${exit_code}`
			`}`

			`run_all_tests() {`
			`local failed_tests=()`
			`for proto in "${PROTOS[@]}"; do`
			`for test in "${TESTS[@]}"; do`
			`echo "running test ${proto} ${test}" >&2`
			`exit_code=$(run_test $proto $test)`
			`if [[ "${exit_code}" -ne 0 ]]; then`
			`failed_tests+=("${proto}_${test}")`
			`fi;`
			`done;`
			`done`
			`if [[ ${#failed_tests[@]} -ne 0 ]]; then`
			`echo "failed tests: ${failed_tests[*]}. \`
			`Please see log.txt for more logs"`
			`exit 1`
			`else`
			`echo "All Tests Succeeded!"`
			`fi;`
			`}`

			`usage() {`
			`echo "Usage: $0 \`
			`[-i <DEV>] \`
			`[-t data\|ack\|flags\|tcp\|ip\|large] \`
			`[-p <ipv4\|ipv6>]" 1>&2;`
			`exit 1;`
			`}`

			`while getopts "i:t:p:" opt; do`
			`case "${opt}" in`
			`i)`
			`dev="${OPTARG}"`
			`;;`
			`t)`
			`test="${OPTARG}"`
			`;;`
			`p)`
			`proto="${OPTARG}"`
			`;;`
			`*)`
			`usage`
			`;;`
			`esac`
			`done`

selftests/net: allow GRO coalesce test on veth This change extends the existing GRO coalesce test to allow running on top of a veth pair, so that no H/W dep is required to run them. By default gro.sh will use the veth backend, and will try to use exiting H/W in loopback mode if a specific device name is provided with the '-i' command line option. No functional change is intended for the loopback-based tests, just move all the relevant initialization/cleanup code into the related script. Introduces a new initialization helper script for the veth backend, and plugs the correct helper script according to the provided command line. Additionally, enable veth-based tests by default. v1 -> v2: - drop unused code in setup_veth_ns() - Willem Signed-off-by: Paolo Abeni <pabeni@redhat.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-08-26 07:30:42 +00:00			`if [ -n "$dev" ]; then`
			`source setup_loopback.sh`
			`else`
			`source setup_veth.sh`
			`fi`

selftests/net: GRO coalesce test Implement a GRO testsuite that expects Linux kernel GRO behavior. All tests pass with the kernel software GRO stack. Run against a device with hardware GRO to verify that it matches the software stack. gro.c generates packets and sends them out through a packet socket. The receiver in gro.c (run separately) receives the packets on a packet socket, filters them by destination ports using BPF and checks the packet geometry to see whether GRO was applied. gro.sh provides a wrapper to run the gro.c in NIC loopback mode. It is not included in continuous testing because it modifies network configuration around a physical NIC: gro.sh sets the NIC in loopback mode, creates macvlan devices on the physical device in separate namespaces, and sends traffic generated by gro.c between the two namespaces to observe coalescing behavior. GRO coalescing is time sensitive. Some tests may prove flaky on some hardware. Note that this test suite tests for software GRO unless hardware GRO is enabled (ethtool -K $DEV rx-gro-hw on). To test, run ./gro.sh. The wrapper will output success or failed test names, and generate log.txt and stderr. Sample log.txt result: ... pure data packet of same size: Test succeeded large data packets followed by a smaller one: Test succeeded small data packets followed by a larger one: Test succeeded ... Sample stderr result: ... carrier ready running test ipv4 data Expected {200 }, Total 1 packets Received {200 }, Total 1 packets. ... Signed-off-by: Coco Li <lixiaoyan@google.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Signed-off-by: David S. Miller <davem@davemloft.net> 2021-08-05 07:36:40 +00:00			`setup`
			`trap cleanup EXIT`
			`if [[ "${test}" == "all" ]]; then`
			`run_all_tests`
			`else`
			`run_test "${proto}" "${test}"`
			`fi;`