tools/testing/selftests/net/vrf_strict_mode_test.sh - linux - Git at Google

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

 # This test is designed for testing the new VRF strict_mode functionality.

 # Kselftest framework requirement - SKIP code is 4.
 ksft_skip=4

 ret=0

 # identifies the "init" network namespace which is often called root network
 # namespace.
 INIT_NETNS_NAME="init"

 PAUSE_ON_FAIL=${PAUSE_ON_FAIL:=no}

 log_test()
 {
 	local rc=$1
 	local expected=$2
 	local msg="$3"

 	if [ ${rc} -eq ${expected} ]; then
 		nsuccess=$((nsuccess+1))
 		printf "\n    TEST: %-60s  [ OK ]\n" "${msg}"
 	else
 		ret=1
 		nfail=$((nfail+1))
 		printf "\n    TEST: %-60s  [FAIL]\n" "${msg}"
 		if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
 			echo
 			echo "hit enter to continue, 'q' to quit"
 			read a
 			[ "$a" = "q" ] && exit 1
 		fi
 	fi
 }

 print_log_test_results()
 {
 	if [ "$TESTS" != "none" ]; then
 		printf "\nTests passed: %3d\n" ${nsuccess}
 		printf "Tests failed: %3d\n"   ${nfail}
 	fi
 }

 log_section()
 {
 	echo
 	echo "################################################################################"
 	echo "TEST SECTION: $*"
 	echo "################################################################################"
 }

 ip_expand_args()
 {
 	local nsname=$1
 	local nsarg=""

 	if [ "${nsname}" != "${INIT_NETNS_NAME}" ]; then
 		nsarg="-netns ${nsname}"
 	fi

 	echo "${nsarg}"
 }

 vrf_count()
 {
 	local nsname=$1
 	local nsarg="$(ip_expand_args ${nsname})"

 	ip ${nsarg} -o link show type vrf | wc -l
 }

 count_vrf_by_table_id()
 {
 	local nsname=$1
 	local tableid=$2
 	local nsarg="$(ip_expand_args ${nsname})"

 	ip ${nsarg} -d -o link show type vrf | grep "table ${tableid}" | wc -l
 }

 add_vrf()
 {
 	local nsname=$1
 	local vrfname=$2
 	local vrftable=$3
 	local nsarg="$(ip_expand_args ${nsname})"

 	ip ${nsarg} link add ${vrfname} type vrf table ${vrftable} &>/dev/null
 }

 add_vrf_and_check()
 {
 	local nsname=$1
 	local vrfname=$2
 	local vrftable=$3
 	local cnt
 	local rc

 	add_vrf ${nsname} ${vrfname} ${vrftable}; rc=$?

 	cnt=$(count_vrf_by_table_id ${nsname} ${vrftable})

 	log_test ${rc} 0 "${nsname}: add vrf ${vrfname}, ${cnt} vrfs for table ${vrftable}"
 }

 add_vrf_and_check_fail()
 {
 	local nsname=$1
 	local vrfname=$2
 	local vrftable=$3
 	local cnt
 	local rc

 	add_vrf ${nsname} ${vrfname} ${vrftable}; rc=$?

 	cnt=$(count_vrf_by_table_id ${nsname} ${vrftable})

 	log_test ${rc} 2 "${nsname}: CANNOT add vrf ${vrfname}, ${cnt} vrfs for table ${vrftable}"
 }

 del_vrf_and_check()
 {
 	local nsname=$1
 	local vrfname=$2
 	local nsarg="$(ip_expand_args ${nsname})"

 	ip ${nsarg} link del ${vrfname}
 	log_test $? 0 "${nsname}: remove vrf ${vrfname}"
 }

 config_vrf_and_check()
 {
 	local nsname=$1
 	local addr=$2
 	local vrfname=$3
 	local nsarg="$(ip_expand_args ${nsname})"

 	ip ${nsarg} link set dev ${vrfname} up && \
 		ip ${nsarg} addr add ${addr} dev ${vrfname}
 	log_test $? 0 "${nsname}: vrf ${vrfname} up, addr ${addr}"
 }

 read_strict_mode()
 {
 	local nsname=$1
 	local rval
 	local rc=0
 	local nsexec=""

 	if [ "${nsname}" != "${INIT_NETNS_NAME}" ]; then
 		# a custom network namespace is provided
 		nsexec="ip netns exec ${nsname}"
 	fi

 	rval="$(${nsexec} bash -c "cat /proc/sys/net/vrf/strict_mode" | \
 		grep -E "^[0-1]$")" &> /dev/null
 	if [ $? -ne 0 ]; then
 		# set errors
 		rval=255
 		rc=1
 	fi

 	# on success, rval can be only 0 or 1; on error, rval is equal to 255
 	echo ${rval}
 	return ${rc}
 }

 read_strict_mode_compare_and_check()
 {
 	local nsname=$1
 	local expected=$2
 	local res

 	res="$(read_strict_mode ${nsname})"
 	log_test ${res} ${expected} "${nsname}: check strict_mode=${res}"
 }

 set_strict_mode()
 {
 	local nsname=$1
 	local val=$2
 	local nsexec=""

 	if [ "${nsname}" != "${INIT_NETNS_NAME}" ]; then
 		# a custom network namespace is provided
 		nsexec="ip netns exec ${nsname}"
 	fi

 	${nsexec} bash -c "echo ${val} >/proc/sys/net/vrf/strict_mode" &>/dev/null
 }

 enable_strict_mode()
 {
 	local nsname=$1

 	set_strict_mode ${nsname} 1
 }

 disable_strict_mode()
 {
 	local nsname=$1

 	set_strict_mode ${nsname} 0
 }

 disable_strict_mode_and_check()
 {
 	local nsname=$1

 	disable_strict_mode ${nsname}
 	log_test $? 0 "${nsname}: disable strict_mode (=0)"
 }

 enable_strict_mode_and_check()
 {
 	local nsname=$1

 	enable_strict_mode ${nsname}
 	log_test $? 0 "${nsname}: enable strict_mode (=1)"
 }

 enable_strict_mode_and_check_fail()
 {
 	local nsname=$1

 	enable_strict_mode ${nsname}
 	log_test $? 1 "${nsname}: CANNOT enable strict_mode"
 }

 strict_mode_check_default()
 {
 	local nsname=$1
 	local strictmode
 	local vrfcnt

 	vrfcnt=$(vrf_count ${nsname})
 	strictmode=$(read_strict_mode ${nsname})
 	log_test ${strictmode} 0 "${nsname}: strict_mode=0 by default, ${vrfcnt} vrfs"
 }

 setup()
 {
 	modprobe vrf

 	ip netns add testns
 	ip netns exec testns ip link set lo up
 }

 cleanup()
 {
 	ip netns del testns 2>/dev/null

 	ip link del vrf100 2>/dev/null
 	ip link del vrf101 2>/dev/null
 	ip link del vrf102 2>/dev/null

 	echo 0 >/proc/sys/net/vrf/strict_mode 2>/dev/null
 }

 vrf_strict_mode_tests_init()
 {
 	vrf_strict_mode_check_support init

 	strict_mode_check_default init

 	add_vrf_and_check init vrf100 100
 	config_vrf_and_check init 172.16.100.1/24 vrf100

 	enable_strict_mode_and_check init

 	add_vrf_and_check_fail init vrf101 100

 	disable_strict_mode_and_check init

 	add_vrf_and_check init vrf101 100
 	config_vrf_and_check init 172.16.101.1/24 vrf101

 	enable_strict_mode_and_check_fail init

 	del_vrf_and_check init vrf101

 	enable_strict_mode_and_check init

 	add_vrf_and_check init vrf102 102
 	config_vrf_and_check init 172.16.102.1/24 vrf102

 	# the strict_modle is enabled in the init
 }

 vrf_strict_mode_tests_testns()
 {
 	vrf_strict_mode_check_support testns

 	strict_mode_check_default testns

 	enable_strict_mode_and_check testns

 	add_vrf_and_check testns vrf100 100
 	config_vrf_and_check testns 10.0.100.1/24 vrf100

 	add_vrf_and_check_fail testns vrf101 100

 	add_vrf_and_check_fail testns vrf102 100

 	add_vrf_and_check testns vrf200 200

 	disable_strict_mode_and_check testns

 	add_vrf_and_check testns vrf101 100

 	add_vrf_and_check testns vrf102 100

 	#the strict_mode is disabled in the testns
 }

 vrf_strict_mode_tests_mix()
 {
 	read_strict_mode_compare_and_check init 1

 	read_strict_mode_compare_and_check testns 0

 	del_vrf_and_check testns vrf101

 	del_vrf_and_check testns vrf102

 	disable_strict_mode_and_check init

 	enable_strict_mode_and_check testns

 	enable_strict_mode_and_check init
 	enable_strict_mode_and_check init

 	disable_strict_mode_and_check testns
 	disable_strict_mode_and_check testns

 	read_strict_mode_compare_and_check init 1

 	read_strict_mode_compare_and_check testns 0
 }

 vrf_strict_mode_tests()
 {
 	log_section "VRF strict_mode test on init network namespace"
 	vrf_strict_mode_tests_init

 	log_section "VRF strict_mode test on testns network namespace"
 	vrf_strict_mode_tests_testns

 	log_section "VRF strict_mode test mixing init and testns network namespaces"
 	vrf_strict_mode_tests_mix
 }

 vrf_strict_mode_check_support()
 {
 	local nsname=$1
 	local output
 	local rc

 	output="$(lsmod | grep '^vrf' | awk '{print $1}')"
 	if [ -z "${output}" ]; then
 		modinfo vrf || return $?
 	fi

 	# we do not care about the value of the strict_mode; we only check if
 	# the strict_mode parameter is available or not.
 	read_strict_mode ${nsname} &>/dev/null; rc=$?
 	log_test ${rc} 0 "${nsname}: net.vrf.strict_mode is available"

 	return ${rc}
 }

 if [ "$(id -u)" -ne 0 ];then
 	echo "SKIP: Need root privileges"
 	exit $ksft_skip
 fi

 if [ ! -x "$(command -v ip)" ]; then
 	echo "SKIP: Could not run test without ip tool"
 	exit $ksft_skip
 fi

 modprobe vrf &>/dev/null
 if [ ! -e /proc/sys/net/vrf/strict_mode ]; then
 	echo "SKIP: vrf sysctl does not exist"
 	exit $ksft_skip
 fi

 cleanup &> /dev/null

 setup
 vrf_strict_mode_tests
 cleanup

 print_log_test_results

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

	# This test is designed for testing the new VRF strict_mode functionality.

	# Kselftest framework requirement - SKIP code is 4.
	ksft_skip=4

	ret=0

	# identifies the "init" network namespace which is often called root network
	# namespace.
	INIT_NETNS_NAME="init"

	PAUSE_ON_FAIL=${PAUSE_ON_FAIL:=no}

	log_test()
	{
	local rc=$1
	local expected=$2
	local msg="$3"

	if [ ${rc} -eq ${expected} ]; then
	nsuccess=$((nsuccess+1))
	printf "\n TEST: %-60s [ OK ]\n" "${msg}"
	else
	ret=1
	nfail=$((nfail+1))
	printf "\n TEST: %-60s [FAIL]\n" "${msg}"
	if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
	echo
	echo "hit enter to continue, 'q' to quit"
	read a
	[ "$a" = "q" ] && exit 1
	fi
	fi
	}

	print_log_test_results()
	{
	if [ "$TESTS" != "none" ]; then
	printf "\nTests passed: %3d\n" ${nsuccess}
	printf "Tests failed: %3d\n" ${nfail}
	fi
	}

	log_section()
	{
	echo
	echo "################################################################################"
	echo "TEST SECTION: $*"
	echo "################################################################################"
	}

	ip_expand_args()
	{
	local nsname=$1
	local nsarg=""

	if [ "${nsname}" != "${INIT_NETNS_NAME}" ]; then
	nsarg="-netns ${nsname}"
	fi

	echo "${nsarg}"
	}

	vrf_count()
	{
	local nsname=$1
	local nsarg="$(ip_expand_args ${nsname})"

	ip ${nsarg} -o link show type vrf \| wc -l
	}

	count_vrf_by_table_id()
	{
	local nsname=$1
	local tableid=$2
	local nsarg="$(ip_expand_args ${nsname})"

	ip ${nsarg} -d -o link show type vrf \| grep "table ${tableid}" \| wc -l
	}

	add_vrf()
	{
	local nsname=$1
	local vrfname=$2
	local vrftable=$3
	local nsarg="$(ip_expand_args ${nsname})"

	ip ${nsarg} link add ${vrfname} type vrf table ${vrftable} &>/dev/null
	}

	add_vrf_and_check()
	{
	local nsname=$1
	local vrfname=$2
	local vrftable=$3
	local cnt
	local rc

	add_vrf ${nsname} ${vrfname} ${vrftable}; rc=$?

	cnt=$(count_vrf_by_table_id ${nsname} ${vrftable})

	log_test ${rc} 0 "${nsname}: add vrf ${vrfname}, ${cnt} vrfs for table ${vrftable}"
	}

	add_vrf_and_check_fail()
	{
	local nsname=$1
	local vrfname=$2
	local vrftable=$3
	local cnt
	local rc

	add_vrf ${nsname} ${vrfname} ${vrftable}; rc=$?

	cnt=$(count_vrf_by_table_id ${nsname} ${vrftable})

	log_test ${rc} 2 "${nsname}: CANNOT add vrf ${vrfname}, ${cnt} vrfs for table ${vrftable}"
	}

	del_vrf_and_check()
	{
	local nsname=$1
	local vrfname=$2
	local nsarg="$(ip_expand_args ${nsname})"

	ip ${nsarg} link del ${vrfname}
	log_test $? 0 "${nsname}: remove vrf ${vrfname}"
	}

	config_vrf_and_check()
	{
	local nsname=$1
	local addr=$2
	local vrfname=$3
	local nsarg="$(ip_expand_args ${nsname})"

	ip ${nsarg} link set dev ${vrfname} up && \
	ip ${nsarg} addr add ${addr} dev ${vrfname}
	log_test $? 0 "${nsname}: vrf ${vrfname} up, addr ${addr}"
	}

	read_strict_mode()
	{
	local nsname=$1
	local rval
	local rc=0
	local nsexec=""

	if [ "${nsname}" != "${INIT_NETNS_NAME}" ]; then
	# a custom network namespace is provided
	nsexec="ip netns exec ${nsname}"
	fi

	rval="$(${nsexec} bash -c "cat /proc/sys/net/vrf/strict_mode" \| \
	grep -E "^[0-1]$")" &> /dev/null
	if [ $? -ne 0 ]; then
	# set errors
	rval=255
	rc=1
	fi

	# on success, rval can be only 0 or 1; on error, rval is equal to 255
	echo ${rval}
	return ${rc}
	}

	read_strict_mode_compare_and_check()
	{
	local nsname=$1
	local expected=$2
	local res

	res="$(read_strict_mode ${nsname})"
	log_test ${res} ${expected} "${nsname}: check strict_mode=${res}"
	}

	set_strict_mode()
	{
	local nsname=$1
	local val=$2
	local nsexec=""

	if [ "${nsname}" != "${INIT_NETNS_NAME}" ]; then
	# a custom network namespace is provided
	nsexec="ip netns exec ${nsname}"
	fi

	${nsexec} bash -c "echo ${val} >/proc/sys/net/vrf/strict_mode" &>/dev/null
	}

	enable_strict_mode()
	{
	local nsname=$1

	set_strict_mode ${nsname} 1
	}

	disable_strict_mode()
	{
	local nsname=$1

	set_strict_mode ${nsname} 0
	}

	disable_strict_mode_and_check()
	{
	local nsname=$1

	disable_strict_mode ${nsname}
	log_test $? 0 "${nsname}: disable strict_mode (=0)"
	}

	enable_strict_mode_and_check()
	{
	local nsname=$1

	enable_strict_mode ${nsname}
	log_test $? 0 "${nsname}: enable strict_mode (=1)"
	}

	enable_strict_mode_and_check_fail()
	{
	local nsname=$1

	enable_strict_mode ${nsname}
	log_test $? 1 "${nsname}: CANNOT enable strict_mode"
	}

	strict_mode_check_default()
	{
	local nsname=$1
	local strictmode
	local vrfcnt

	vrfcnt=$(vrf_count ${nsname})
	strictmode=$(read_strict_mode ${nsname})
	log_test ${strictmode} 0 "${nsname}: strict_mode=0 by default, ${vrfcnt} vrfs"
	}

	setup()
	{
	modprobe vrf

	ip netns add testns
	ip netns exec testns ip link set lo up
	}

	cleanup()
	{
	ip netns del testns 2>/dev/null

	ip link del vrf100 2>/dev/null
	ip link del vrf101 2>/dev/null
	ip link del vrf102 2>/dev/null

	echo 0 >/proc/sys/net/vrf/strict_mode 2>/dev/null
	}

	vrf_strict_mode_tests_init()
	{
	vrf_strict_mode_check_support init

	strict_mode_check_default init

	add_vrf_and_check init vrf100 100
	config_vrf_and_check init 172.16.100.1/24 vrf100

	enable_strict_mode_and_check init

	add_vrf_and_check_fail init vrf101 100

	disable_strict_mode_and_check init

	add_vrf_and_check init vrf101 100
	config_vrf_and_check init 172.16.101.1/24 vrf101

	enable_strict_mode_and_check_fail init

	del_vrf_and_check init vrf101

	enable_strict_mode_and_check init

	add_vrf_and_check init vrf102 102
	config_vrf_and_check init 172.16.102.1/24 vrf102

	# the strict_modle is enabled in the init
	}

	vrf_strict_mode_tests_testns()
	{
	vrf_strict_mode_check_support testns

	strict_mode_check_default testns

	enable_strict_mode_and_check testns

	add_vrf_and_check testns vrf100 100
	config_vrf_and_check testns 10.0.100.1/24 vrf100

	add_vrf_and_check_fail testns vrf101 100

	add_vrf_and_check_fail testns vrf102 100

	add_vrf_and_check testns vrf200 200

	disable_strict_mode_and_check testns

	add_vrf_and_check testns vrf101 100

	add_vrf_and_check testns vrf102 100

	#the strict_mode is disabled in the testns
	}

	vrf_strict_mode_tests_mix()
	{
	read_strict_mode_compare_and_check init 1

	read_strict_mode_compare_and_check testns 0

	del_vrf_and_check testns vrf101

	del_vrf_and_check testns vrf102

	disable_strict_mode_and_check init

	enable_strict_mode_and_check testns

	enable_strict_mode_and_check init
	enable_strict_mode_and_check init

	disable_strict_mode_and_check testns
	disable_strict_mode_and_check testns

	read_strict_mode_compare_and_check init 1

	read_strict_mode_compare_and_check testns 0
	}

	vrf_strict_mode_tests()
	{
	log_section "VRF strict_mode test on init network namespace"
	vrf_strict_mode_tests_init

	log_section "VRF strict_mode test on testns network namespace"
	vrf_strict_mode_tests_testns

	log_section "VRF strict_mode test mixing init and testns network namespaces"
	vrf_strict_mode_tests_mix
	}

	vrf_strict_mode_check_support()
	{
	local nsname=$1
	local output
	local rc

	output="$(lsmod \| grep '^vrf' \| awk '{print $1}')"
	if [ -z "${output}" ]; then
	modinfo vrf \|\| return $?
	fi

	# we do not care about the value of the strict_mode; we only check if
	# the strict_mode parameter is available or not.
	read_strict_mode ${nsname} &>/dev/null; rc=$?
	log_test ${rc} 0 "${nsname}: net.vrf.strict_mode is available"

	return ${rc}
	}

	if [ "$(id -u)" -ne 0 ];then
	echo "SKIP: Need root privileges"
	exit $ksft_skip
	fi

	if [ ! -x "$(command -v ip)" ]; then
	echo "SKIP: Could not run test without ip tool"
	exit $ksft_skip
	fi

	modprobe vrf &>/dev/null
	if [ ! -e /proc/sys/net/vrf/strict_mode ]; then
	echo "SKIP: vrf sysctl does not exist"
	exit $ksft_skip
	fi

	cleanup &> /dev/null

	setup
	vrf_strict_mode_tests
	cleanup

	print_log_test_results

	exit $ret