From mboxrd@z Thu Jan 1 00:00:00 1970 From: lpechacek@suse.cz (Libor Pechacek) Date: Fri, 20 Apr 2018 14:56:05 +0200 Subject: [PATCH v3] selftests/livepatch: introduce tests In-Reply-To: <1523544871-29444-2-git-send-email-joe.lawrence@redhat.com> References: <1523544871-29444-1-git-send-email-joe.lawrence@redhat.com> <1523544871-29444-2-git-send-email-joe.lawrence@redhat.com> Message-ID: <20180420125605.e4eye7ncukyivleh@fm.suse.cz> Content-Type: text/plain; charset="UTF-8" Message-ID: <20180420125605.Wth_cAcb3wyreaUODRUkz38pFTdUwPi_-TV9u9v4SDw@z> Hi Joe, I know I am late to the party, yet have some questions about the code. On Thu 12-04-18 10:54:31, Joe Lawrence wrote: > Add a few livepatch modules and simple target modules that the included > regression suite can run tests against. > > Signed-off-by: Joe Lawrence > --- [...] > diff --git a/tools/testing/selftests/livepatch/functions.sh b/tools/testing/selftests/livepatch/functions.sh > new file mode 100644 > index 000000000000..7aaef80e9edb > --- /dev/null > +++ b/tools/testing/selftests/livepatch/functions.sh > @@ -0,0 +1,196 @@ > +#!/bin/bash > +# SPDX-License-Identifier: GPL-2.0 > +# Copyright (C) 2018 Joe Lawrence > + > +# Shell functions for the rest of the scripts. > + > +MAX_RETRIES=600 > +RETRY_INTERVAL=".1" # seconds > + > +# die(msg) - game over, man > +# msg - dying words > +function die() { > + echo "ERROR: $1" >&2 > + exit 1 > +} > + > +# set_dynamic_debug() - setup kernel dynamic debug > +# TODO - push and pop this config? > +function set_dynamic_debug() { > + cat << EOF > /sys/kernel/debug/dynamic_debug/control > +file kernel/livepatch/* +p > +func klp_try_switch_task -p > +EOF > +} > + > +# wait_for_transition(modname) > +# modname - livepatch module name > +wait_for_transition() { > + local mod="$1"; shift Why is the function waiting for a concrete module to finish the transition? Wouldn't checking all modules, and therefore watching the global transition state, be equally efficient without the need to provide module name? > + > + # Wait for livepatch transition ... > + local i=0 > + while [[ $(cat /sys/kernel/livepatch/"$mod"/transition) != "0" ]]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to complete transition for module $mod" FWIW, qa_test_klp tests dump blocking processes' stacks at this place for more efficient information exchange between tester and developer. (klp_dump_blocking_processes() in https://github.com/lpechacek/qa_test_klp, file klp_tc_functions.sh) > + fi > + sleep $RETRY_INTERVAL > + done > +} > + > +# load_mod(modname, params) - load a kernel module > +# modname - module name to load > +# params - module parameters to pass to modprobe > +function load_mod() { > + local mod="$1"; shift > + local args="$*" > + > + local msg="% modprobe $mod $args" > + echo "${msg%% }" > /dev/kmsg > + ret=$(modprobe "$mod" "$args" 2>&1) > + if [[ "$ret" != "" ]]; then > + echo "$ret" > /dev/kmsg > + die "$ret" > + fi > + > + # Wait for module in sysfs ... > + local i=0 > + while [ ! -e /sys/module/"$mod" ]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to load module $mod" > + fi > + sleep $RETRY_INTERVAL > + done > + > + # Wait for livepatch ... > + if [[ $(modinfo "$mod" | awk '/^livepatch:/{print $NF}') == "Y" ]]; then > + > + # Wait for livepatch in sysfs ... > + local i=0 > + while [ ! -e /sys/kernel/livepatch/"$mod" ]; do Hmmm! Good test! Never came to my mind... > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to load module $mod (sysfs)" > + fi > + sleep $RETRY_INTERVAL > + done > + fi > +} > + > +# load_failing_mod(modname, params) - load a kernel module, expect to fail > +# modname - module name to load > +# params - module parameters to pass to modprobe > +function load_failing_mod() { > + local mod="$1"; shift > + local args="$*" > + > + local msg="% modprobe $mod $args" > + echo "${msg%% }" > /dev/kmsg > + ret=$(modprobe "$mod" "$args" 2>&1) > + if [[ "$ret" == "" ]]; then > + echo "$mod unexpectedly loaded" > /dev/kmsg > + die "$mod unexpectedly loaded" I'm wondering why is the same message being logged to kernel buffer and console when in other cases it's written to console only. > + fi > + echo "$ret" > /dev/kmsg > +} > + > +# unload_mod(modname) - unload a kernel module > +# modname - module name to unload > +function unload_mod() { > + local mod="$1" > + > + # Wait for module reference count to clear ... > + local i=0 > + while [[ $(cat /sys/module/"$mod"/refcnt) != "0" ]]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to unload module $mod (refcnt)" > + fi > + sleep $RETRY_INTERVAL > + done The repeating pattern of "while ; do ; if ; then ..." seems to ask for encapsulation. > + > + echo "% rmmod $mod" > /dev/kmsg > + ret=$(rmmod "$mod" 2>&1) > + if [[ "$ret" != "" ]]; then > + echo "$ret" > /dev/kmsg > + die "$ret" Similarly "echo > /dev/kmsg; die " is a repeating pattern. How about introducing "klp_log_messsage()" or something like that? > + fi > + > + # Wait for module in sysfs ... > + local i=0 > + while [ -e /sys/module/"$mod" ]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to unload module $mod (/sys/module)" > + fi > + sleep $RETRY_INTERVAL > + done > + > + # Wait for livepatch sysfs if applicable ... > + if [[ $(modinfo "$mod" | awk '/^livepatch:/{print $NF}') == "Y" ]]; then > + > + local i=0 > + while [ -e /sys/kernel/livepatch/"$mod" ]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to unload module $mod (/sys/livepatch)" > + fi > + sleep $RETRY_INTERVAL > + done > + fi > +} > + > +# display_lp(modname) - disable a livepatch ^^^^^^^ typo > +# modname - module name to unload > +function disable_lp() { > + local mod="$1" ^^^VVVV - mixed indentation with tabs and spaces. Intentional? (same in set_pre_patch_ret and several other places) > + > + echo "% echo 0 > /sys/kernel/livepatch/$mod/enabled" > /dev/kmsg > + echo 0 > /sys/kernel/livepatch/"$mod"/enabled How about folding disable_lp functionality into module unload function? That would save extra invocation of disable_lp in test scripts. > + > + # Wait for livepatch enable to clear ... > + local i=0 > + while [[ $(cat /sys/kernel/livepatch/"$mod"/enabled) != "0" ]]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to disable livepatch $mod" > + fi > + sleep $RETRY_INTERVAL > + done > +} > + > +# set_pre_patch_ret(modname, pre_patch_ret) > +# modname - module name to set > +# pre_patch_ret - new pre_patch_ret value > +function set_pre_patch_ret { This function is used by single test in this patch set. Are there plans for reuse in other tests? > + local mod="$1"; shift > + local ret="$1" > + > + echo "% echo $1 > /sys/module/$mod/parameters/pre_patch_ret" > /dev/kmsg > + echo "$1" > /sys/module/"$mod"/parameters/pre_patch_ret > + > + local i=0 > + while [[ $(cat /sys/module/"$mod"/parameters/pre_patch_ret) != "$1" ]]; do > + i=$((i+1)) > + if [[ $i -eq $MAX_RETRIES ]]; then > + die "failed to set pre_patch_ret parameter for $mod module" > + fi > + sleep $RETRY_INTERVAL > + done > +} > + > +# filter_dmesg() - print a filtered dmesg > +# TODO - better filter, out of order msgs, etc? ^^^VVV - Mismatch between comment and function. > +function check_result { > + local expect="$*" > + local result=$(dmesg | grep -v 'tainting' | grep -e 'livepatch:' -e 'test_klp' | sed 's/^\[[ 0-9.]*\] //') > + > + if [[ "$expect" == "$result" ]] ; then > + echo "ok" > + else > + echo -e "not ok\n\n$(diff -upr --label expected --label result <(echo "$expect") <(echo "$result"))\n" > + die "livepatch kselftest(s) failed" > + fi > +} > diff --git a/tools/testing/selftests/livepatch/test-callbacks.sh b/tools/testing/selftests/livepatch/test-callbacks.sh > new file mode 100755 > index 000000000000..739d09bb3cff > --- /dev/null > +++ b/tools/testing/selftests/livepatch/test-callbacks.sh > @@ -0,0 +1,607 @@ > +#!/bin/bash > +# SPDX-License-Identifier: GPL-2.0 > +# Copyright (C) 2018 Joe Lawrence > + > +. functions.sh This assumes functions.sh is in $CWD. The rest looks good to me at the moment. Thanks! Libor > + > +MOD_LIVEPATCH=test_klp_callbacks_demo > +MOD_LIVEPATCH2=test_klp_callbacks_demo2 > +MOD_TARGET=test_klp_callbacks_mod > +MOD_TARGET_BUSY=test_klp_callbacks_busy > + > +set_dynamic_debug > + > + > +# TEST: target module before livepatch > +# > +# Test a combination of loading a kernel module and a livepatch that > +# patches a function in the first module. Load the target module > +# before the livepatch module. Unload them in the same order. > +# > +# - On livepatch enable, before the livepatch transition starts, > +# pre-patch callbacks are executed for vmlinux and $MOD_TARGET (those > +# klp_objects currently loaded). After klp_objects are patched > +# according to the klp_patch, their post-patch callbacks run and the > +# transition completes. > +# > +# - Similarly, on livepatch disable, pre-patch callbacks run before the > +# unpatching transition starts. klp_objects are reverted, post-patch > +# callbacks execute and the transition completes. > + > +echo -n "TEST: target module before livepatch ... " > +dmesg -C > + > +load_mod $MOD_TARGET > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH wait_for_transition is not needed here and at other few places. disable_lp waits for the transition to complete. > +disable_lp $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > +unload_mod $MOD_TARGET > + > +check_result "% modprobe $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_init > +% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit" > + > + > +# TEST: module_coming notifier > +# > +# This test is similar to the previous test, but (un)load the livepatch > +# module before the target kernel module. This tests the livepatch > +# core's module_coming handler. > +# > +# - On livepatch enable, only pre/post-patch callbacks are executed for > +# currently loaded klp_objects, in this case, vmlinux. > +# > +# - When a targeted module is subsequently loaded, only its > +# pre/post-patch callbacks are executed. > +# > +# - On livepatch disable, all currently loaded klp_objects' (vmlinux and > +# $MOD_TARGET) pre/post-unpatch callbacks are executed. > + > +echo -n "TEST: module_coming notifier ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +load_mod $MOD_TARGET > +disable_lp $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > +unload_mod $MOD_TARGET > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% modprobe $MOD_TARGET > +livepatch: applying patch '$MOD_LIVEPATCH' to loading module '$MOD_TARGET' > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_LIVEPATCH: post_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_TARGET: ${MOD_TARGET}_init > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit" > + > + > +# TEST: module_going notifier > +# > +# Test loading the livepatch after a targeted kernel module, then unload > +# the kernel module before disabling the livepatch. This tests the > +# livepatch core's module_going handler. > +# > +# - First load a target module, then the livepatch. > +# > +# - When a target module is unloaded, the livepatch is only reverted > +# from that klp_object ($MOD_TARGET). As such, only its pre and > +# post-unpatch callbacks are executed when this occurs. > +# > +# - When the livepatch is disabled, pre and post-unpatch callbacks are > +# run for the remaining klp_object, vmlinux. > + > +echo -n "TEST: module_going notifier ... " > +dmesg -C > + > +load_mod $MOD_TARGET > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_TARGET > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > + > +check_result "% modprobe $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_init > +% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit > +$MOD_LIVEPATCH: pre_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +livepatch: reverting patch '$MOD_LIVEPATCH' on unloading module '$MOD_TARGET' > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: module_coming and module_going notifiers > +# > +# This test is similar to the previous test, however the livepatch is > +# loaded first. This tests the livepatch core's module_coming and > +# module_going handlers. > +# > +# - First load the livepatch. > +# > +# - When a targeted kernel module is subsequently loaded, only its > +# pre/post-patch callbacks are executed. > +# > +# - When the target module is unloaded, the livepatch is only reverted > +# from the $MOD_TARGET klp_object. As such, only pre and > +# post-unpatch callbacks are executed when this occurs. > + > +echo -n "TEST: module_coming and module_going notifiers ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +load_mod $MOD_TARGET > +unload_mod $MOD_TARGET > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% modprobe $MOD_TARGET > +livepatch: applying patch '$MOD_LIVEPATCH' to loading module '$MOD_TARGET' > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_LIVEPATCH: post_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_TARGET: ${MOD_TARGET}_init > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit > +$MOD_LIVEPATCH: pre_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +livepatch: reverting patch '$MOD_LIVEPATCH' on unloading module '$MOD_TARGET' > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: target module not present > +# > +# A simple test of loading a livepatch without one of its patch target > +# klp_objects ever loaded ($MOD_TARGET). > +# > +# - Load the livepatch. > +# > +# - As expected, only pre/post-(un)patch handlers are executed for > +# vmlinux. > + > +echo -n "TEST: target module not present ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: pre-patch callback -ENODEV > +# > +# Test a scenario where a vmlinux pre-patch callback returns a non-zero > +# status (ie, failure). > +# > +# - First load a target module. > +# > +# - Load the livepatch module, setting its 'pre_patch_ret' value to -19 > +# (-ENODEV). When its vmlinux pre-patch callback executes, this > +# status code will propagate back to the module-loading subsystem. > +# The result is that the insmod command refuses to load the livepatch > +# module. > + > +echo -n "TEST: pre-patch callback -ENODEV ... " > +dmesg -C > + > +load_mod $MOD_TARGET > +load_failing_mod $MOD_LIVEPATCH pre_patch_ret=-19 > +unload_mod $MOD_TARGET > + > +check_result "% modprobe $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_init > +% modprobe $MOD_LIVEPATCH pre_patch_ret=-19 > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_LIVE] Normal state > +livepatch: pre-patch callback failed for object '$MOD_TARGET' > +livepatch: failed to enable patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': canceling patching transition, going to unpatch > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +modprobe: ERROR: could not insert '$MOD_LIVEPATCH': No such device > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit" > + > + > +# TEST: module_coming + pre-patch callback -ENODEV > +# > +# Similar to the previous test, setup a livepatch such that its vmlinux > +# pre-patch callback returns success. However, when a targeted kernel > +# module is later loaded, have the livepatch return a failing status > +# code. > +# > +# - Load the livepatch, vmlinux pre-patch callback succeeds. > +# > +# - Set a trap so subsequent pre-patch callbacks to this livepatch will > +# return -ENODEV. > +# > +# - The livepatch pre-patch callback for subsequently loaded target > +# modules will return failure, so the module loader refuses to load > +# the kernel module. No post-patch or pre/post-unpatch callbacks are > +# executed for this klp_object. > +# > +# - Pre/post-unpatch callbacks are run for the vmlinux klp_object. > + > +echo -n "TEST: module_coming + pre-patch callback -ENODEV ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +set_pre_patch_ret $MOD_LIVEPATCH -19 > +load_failing_mod $MOD_TARGET > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% echo -19 > /sys/module/$MOD_LIVEPATCH/parameters/pre_patch_ret > +% modprobe $MOD_TARGET > +livepatch: applying patch '$MOD_LIVEPATCH' to loading module '$MOD_TARGET' > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +livepatch: pre-patch callback failed for object '$MOD_TARGET' > +livepatch: patch '$MOD_LIVEPATCH' failed for module '$MOD_TARGET', refusing to load module '$MOD_TARGET' > +modprobe: ERROR: could not insert '$MOD_TARGET': No such device > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: multiple target modules > +# > +# Test loading multiple targeted kernel modules. This test-case is > +# mainly for comparing with the next test-case. > +# > +# - Load a target "busy" kernel module which kicks off a worker function > +# that immediately exits. > +# > +# - Proceed with loading the livepatch and another ordinary target > +# module. Post-patch callbacks are executed and the transition > +# completes quickly. > + > +echo -n "TEST: multiple target modules ... " > +dmesg -C > + > +load_mod $MOD_TARGET_BUSY sleep_secs=0 > +# give $MOD_TARGET_BUSY::busymod_work_func() a chance to run > +sleep 5 > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +load_mod $MOD_TARGET > +unload_mod $MOD_TARGET > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > +unload_mod $MOD_TARGET_BUSY > + > +check_result "% modprobe $MOD_TARGET_BUSY sleep_secs=0 > +$MOD_TARGET_BUSY: ${MOD_TARGET_BUSY}_init > +$MOD_TARGET_BUSY: busymod_work_func, sleeping 0 seconds ... > +$MOD_TARGET_BUSY: busymod_work_func exit > +% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET_BUSY -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: $MOD_TARGET_BUSY -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% modprobe $MOD_TARGET > +livepatch: applying patch '$MOD_LIVEPATCH' to loading module '$MOD_TARGET' > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_LIVEPATCH: post_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_TARGET: ${MOD_TARGET}_init > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit > +$MOD_LIVEPATCH: pre_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +livepatch: reverting patch '$MOD_LIVEPATCH' on unloading module '$MOD_TARGET' > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: $MOD_TARGET_BUSY -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET_BUSY -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH > +% rmmod $MOD_TARGET_BUSY > +$MOD_TARGET_BUSY: ${MOD_TARGET_BUSY}_exit" > + > + > + > +# TEST: busy target module > +# > +# A similar test as the previous one, but force the "busy" kernel module > +# to do longer work. > +# > +# The livepatching core will refuse to patch a task that is currently > +# executing a to-be-patched function -- the consistency model stalls the > +# current patch transition until this safety-check is met. Test a > +# scenario where one of a livepatch's target klp_objects sits on such a > +# function for a long time. Meanwhile, load and unload other target > +# kernel modules while the livepatch transition is in progress. > +# > +# - Load the "busy" kernel module, this time make it do 10 seconds worth > +# of work. > +# > +# - Meanwhile, the livepatch is loaded. Notice that the patch > +# transition does not complete as the targeted "busy" module is > +# sitting on a to-be-patched function. > +# > +# - Load a second target module (this one is an ordinary idle kernel > +# module). Note that *no* post-patch callbacks will be executed while > +# the livepatch is still in transition. > +# > +# - Request an unload of the simple kernel module. The patch is still > +# transitioning, so its pre-unpatch callbacks are skipped. > +# > +# - Finally the livepatch is disabled. Since none of the patch's > +# klp_object's post-patch callbacks executed, the remaining > +# klp_object's pre-unpatch callbacks are skipped. > + > +echo -n "TEST: busy target module ... " > +dmesg -C > + > +load_mod $MOD_TARGET_BUSY sleep_secs=10 > +load_mod $MOD_LIVEPATCH > +# Don't wait for transition, load $MOD_TARGET while the transition > +# is still stalled in $MOD_TARGET_BUSY::busymod_work_func() > +sleep 5 > +load_mod $MOD_TARGET > +unload_mod $MOD_TARGET > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > +unload_mod $MOD_TARGET_BUSY > + > +check_result "% modprobe $MOD_TARGET_BUSY sleep_secs=10 > +$MOD_TARGET_BUSY: ${MOD_TARGET_BUSY}_init > +$MOD_TARGET_BUSY: busymod_work_func, sleeping 10 seconds ... > +% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET_BUSY -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +% modprobe $MOD_TARGET > +livepatch: applying patch '$MOD_LIVEPATCH' to loading module '$MOD_TARGET' > +$MOD_LIVEPATCH: pre_patch_callback: $MOD_TARGET -> [MODULE_STATE_COMING] Full formed, running module_init > +$MOD_TARGET: ${MOD_TARGET}_init > +% rmmod $MOD_TARGET > +$MOD_TARGET: ${MOD_TARGET}_exit > +livepatch: reverting patch '$MOD_LIVEPATCH' on unloading module '$MOD_TARGET' > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET -> [MODULE_STATE_GOING] Going away > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': reversing transition from patching to unpatching > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: $MOD_TARGET_BUSY -> [MODULE_STATE_LIVE] Normal state > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH > +% rmmod $MOD_TARGET_BUSY > +$MOD_TARGET_BUSY: busymod_work_func exit > +$MOD_TARGET_BUSY: ${MOD_TARGET_BUSY}_exit" > + > + > +# TEST: multiple livepatches > +# > +# Test loading multiple livepatches. This test-case is mainly for comparing > +# with the next test-case. > +# > +# - Load and unload two livepatches, pre and post (un)patch callbacks > +# execute as each patch progresses through its (un)patching > +# transition. > + > +echo -n "TEST: multiple livepatches ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +load_mod $MOD_LIVEPATCH2 > +wait_for_transition $MOD_LIVEPATCH2 > +disable_lp $MOD_LIVEPATCH2 > +wait_for_transition $MOD_LIVEPATCH2 > +disable_lp $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH2 > +unload_mod $MOD_LIVEPATCH > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% modprobe $MOD_LIVEPATCH2 > +livepatch: enabling patch '$MOD_LIVEPATCH2' > +livepatch: '$MOD_LIVEPATCH2': initializing patching transition > +$MOD_LIVEPATCH2: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': starting patching transition > +livepatch: '$MOD_LIVEPATCH2': completing patching transition > +$MOD_LIVEPATCH2: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': patching complete > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH2/enabled > +livepatch: '$MOD_LIVEPATCH2': initializing unpatching transition > +$MOD_LIVEPATCH2: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH2': completing unpatching transition > +$MOD_LIVEPATCH2: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': unpatching complete > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +$MOD_LIVEPATCH: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +$MOD_LIVEPATCH: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH2 > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: atomic replace > +# > +# Load multiple livepatches, but the second as an 'atomic-replace' > +# patch. When the latter laods, the original livepatch should be > +# disabled and *none* of its pre/post-unpatch callbacks executed. On > +# the other hand, when the atomic-replace livepatch is disabled, its > +# pre/post-unpatch callbacks *should* be executed. > +# > +# - Load and unload two livepatches, the second of which has its > +# .replace flag set true. > +# > +# - Pre and post patch callbacks are executed for both livepatches. > +# > +# - Once the atomic replace module is loaded, only its pre and post > +# unpatch callbacks are executed. > + > +echo -n "TEST: atomic replace ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > +load_mod $MOD_LIVEPATCH2 replace=1 > +wait_for_transition $MOD_LIVEPATCH2 > +disable_lp $MOD_LIVEPATCH2 > +wait_for_transition $MOD_LIVEPATCH2 > +unload_mod $MOD_LIVEPATCH2 > +unload_mod $MOD_LIVEPATCH > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +$MOD_LIVEPATCH: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +$MOD_LIVEPATCH: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH': patching complete > +% modprobe $MOD_LIVEPATCH2 replace=1 > +livepatch: enabling patch '$MOD_LIVEPATCH2' > +livepatch: '$MOD_LIVEPATCH2': initializing patching transition > +$MOD_LIVEPATCH2: pre_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': starting patching transition > +livepatch: '$MOD_LIVEPATCH2': completing patching transition > +$MOD_LIVEPATCH2: post_patch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': patching complete > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH2/enabled > +livepatch: '$MOD_LIVEPATCH2': initializing unpatching transition > +$MOD_LIVEPATCH2: pre_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH2': completing unpatching transition > +$MOD_LIVEPATCH2: post_unpatch_callback: vmlinux > +livepatch: '$MOD_LIVEPATCH2': unpatching complete > +% rmmod $MOD_LIVEPATCH2 > +% rmmod $MOD_LIVEPATCH" > + > + > +exit 0 > diff --git a/tools/testing/selftests/livepatch/test-livepatch.sh b/tools/testing/selftests/livepatch/test-livepatch.sh > new file mode 100755 > index 000000000000..3e4b8072da84 > --- /dev/null > +++ b/tools/testing/selftests/livepatch/test-livepatch.sh > @@ -0,0 +1,173 @@ > +#!/bin/bash > +# SPDX-License-Identifier: GPL-2.0 > +# Copyright (C) 2018 Joe Lawrence > + > +. functions.sh > + > +MOD_LIVEPATCH=test_klp_livepatch > +MOD_REPLACE=test_klp_atomic_replace > + > +set_dynamic_debug > + > + > +# TEST: basic function patching > +# - load a livepatch that modifies the output from /proc/cmdline and > +# verify correct behavior > +# - unload the livepatch and make sure the patch was removed > + > +echo -n "TEST: basic function patching ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > + > +if [[ "$(cat /proc/cmdline)" != "$MOD_LIVEPATCH: this has been live patched" ]] ; then > + echo -e "FAIL\n\n" > + die "livepatch kselftest(s) failed" > +fi > + > +disable_lp $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > + > +if [[ "$(cat /proc/cmdline)" == "$MOD_LIVEPATCH: this has been live patched" ]] ; then > + echo -e "FAIL\n\n" > + die "livepatch kselftest(s) failed" > +fi > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +livepatch: '$MOD_LIVEPATCH': patching complete > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: multiple livepatches > +# - load a livepatch that modifies the output from /proc/cmdline and > +# verify correct behavior > +# - load another livepatch and verify that both livepatches are active > +# - unload the second livepatch and verify that the first is still active > +# - unload the first livepatch and verify none are active > + > +echo -n "TEST: multiple livepatches ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +load_mod $MOD_REPLACE replace=0 > +wait_for_transition $MOD_REPLACE > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +disable_lp $MOD_REPLACE > +unload_mod $MOD_REPLACE > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +disable_lp $MOD_LIVEPATCH > +unload_mod $MOD_LIVEPATCH > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +livepatch: '$MOD_LIVEPATCH': patching complete > +$MOD_LIVEPATCH: this has been live patched > +% modprobe $MOD_REPLACE replace=0 > +livepatch: enabling patch '$MOD_REPLACE' > +livepatch: '$MOD_REPLACE': initializing patching transition > +livepatch: '$MOD_REPLACE': starting patching transition > +livepatch: '$MOD_REPLACE': completing patching transition > +livepatch: '$MOD_REPLACE': patching complete > +$MOD_LIVEPATCH: this has been live patched > +$MOD_REPLACE: this has been live patched > +% echo 0 > /sys/kernel/livepatch/$MOD_REPLACE/enabled > +livepatch: '$MOD_REPLACE': initializing unpatching transition > +livepatch: '$MOD_REPLACE': starting unpatching transition > +livepatch: '$MOD_REPLACE': completing unpatching transition > +livepatch: '$MOD_REPLACE': unpatching complete > +% rmmod $MOD_REPLACE > +$MOD_LIVEPATCH: this has been live patched > +% echo 0 > /sys/kernel/livepatch/$MOD_LIVEPATCH/enabled > +livepatch: '$MOD_LIVEPATCH': initializing unpatching transition > +livepatch: '$MOD_LIVEPATCH': starting unpatching transition > +livepatch: '$MOD_LIVEPATCH': completing unpatching transition > +livepatch: '$MOD_LIVEPATCH': unpatching complete > +% rmmod $MOD_LIVEPATCH" > + > + > +# TEST: atomic replace livepatch > +# - load a livepatch that modifies the output from /proc/cmdline and > +# verify correct behavior > +# - load an atomic replace livepatch and verify that only the second is active > +# - remove the first livepatch and verify that the atomic replace livepatch > +# is still active > +# - remove the atomic replace livepatch and verify that none are active > + > +echo -n "TEST: atomic replace livepatch ... " > +dmesg -C > + > +load_mod $MOD_LIVEPATCH > +wait_for_transition $MOD_LIVEPATCH > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +load_mod $MOD_REPLACE replace=1 > +wait_for_transition $MOD_REPLACE > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +unload_mod $MOD_LIVEPATCH > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +disable_lp $MOD_REPLACE > +unload_mod $MOD_REPLACE > + > +grep 'live patched' /proc/cmdline > /dev/kmsg > +grep 'live patched' /proc/meminfo > /dev/kmsg > + > +check_result "% modprobe $MOD_LIVEPATCH > +livepatch: enabling patch '$MOD_LIVEPATCH' > +livepatch: '$MOD_LIVEPATCH': initializing patching transition > +livepatch: '$MOD_LIVEPATCH': starting patching transition > +livepatch: '$MOD_LIVEPATCH': completing patching transition > +livepatch: '$MOD_LIVEPATCH': patching complete > +$MOD_LIVEPATCH: this has been live patched > +% modprobe $MOD_REPLACE replace=1 > +livepatch: enabling patch '$MOD_REPLACE' > +livepatch: '$MOD_REPLACE': initializing patching transition > +livepatch: '$MOD_REPLACE': starting patching transition > +livepatch: '$MOD_REPLACE': completing patching transition > +livepatch: '$MOD_REPLACE': patching complete > +$MOD_REPLACE: this has been live patched > +% rmmod $MOD_LIVEPATCH > +$MOD_REPLACE: this has been live patched > +% echo 0 > /sys/kernel/livepatch/$MOD_REPLACE/enabled > +livepatch: '$MOD_REPLACE': initializing unpatching transition > +livepatch: '$MOD_REPLACE': starting unpatching transition > +livepatch: '$MOD_REPLACE': completing unpatching transition > +livepatch: '$MOD_REPLACE': unpatching complete > +% rmmod $MOD_REPLACE" > + > + > +exit 0 > diff --git a/tools/testing/selftests/livepatch/test-shadow-vars.sh b/tools/testing/selftests/livepatch/test-shadow-vars.sh > new file mode 100755 > index 000000000000..96390a21b15d > --- /dev/null > +++ b/tools/testing/selftests/livepatch/test-shadow-vars.sh > @@ -0,0 +1,60 @@ > +#!/bin/bash > +# SPDX-License-Identifier: GPL-2.0 > +# Copyright (C) 2018 Joe Lawrence > + > +. functions.sh > + > +MOD_TEST=test_klp_shadow_vars > + > +set_dynamic_debug > + > + > +# TEST: basic shadow variable API > +# - load a module that exercises the shadow variable API > + > +echo -n "TEST: basic shadow variable API ... " > +dmesg -C > + > +load_mod $MOD_TEST > +unload_mod $MOD_TEST > + > +check_result "% modprobe $MOD_TEST > +$MOD_TEST: klp_shadow_get(obj=PTR5, id=0x1234) = PTR0 > +$MOD_TEST: got expected NULL result > +$MOD_TEST: shadow_ctor: PTR6 -> PTR1 > +$MOD_TEST: klp_shadow_alloc(obj=PTR5, id=0x1234, size=8, gfp_flags=GFP_KERNEL), ctor=PTR7, ctor_data=PTR1 = PTR6 > +$MOD_TEST: shadow_ctor: PTR8 -> PTR2 > +$MOD_TEST: klp_shadow_alloc(obj=PTR9, id=0x1234, size=8, gfp_flags=GFP_KERNEL), ctor=PTR7, ctor_data=PTR2 = PTR8 > +$MOD_TEST: shadow_ctor: PTR10 -> PTR3 > +$MOD_TEST: klp_shadow_alloc(obj=PTR5, id=0x1235, size=8, gfp_flags=GFP_KERNEL), ctor=PTR7, ctor_data=PTR3 = PTR10 > +$MOD_TEST: klp_shadow_get(obj=PTR5, id=0x1234) = PTR6 > +$MOD_TEST: got expected PTR6 -> PTR1 result > +$MOD_TEST: klp_shadow_get(obj=PTR9, id=0x1234) = PTR8 > +$MOD_TEST: got expected PTR8 -> PTR2 result > +$MOD_TEST: klp_shadow_get(obj=PTR5, id=0x1235) = PTR10 > +$MOD_TEST: got expected PTR10 -> PTR3 result > +$MOD_TEST: shadow_ctor: PTR11 -> PTR4 > +$MOD_TEST: klp_shadow_get_or_alloc(obj=PTR12, id=0x1234, size=8, gfp_flags=GFP_KERNEL), ctor=PTR7, ctor_data=PTR4 = PTR11 > +$MOD_TEST: klp_shadow_get_or_alloc(obj=PTR12, id=0x1234, size=8, gfp_flags=GFP_KERNEL), ctor=PTR7, ctor_data=PTR4 = PTR11 > +$MOD_TEST: got expected PTR11 -> PTR4 result > +$MOD_TEST: shadow_dtor(obj=PTR5, shadow_data=PTR6) > +$MOD_TEST: klp_shadow_free(obj=PTR5, id=0x1234, dtor=PTR13) > +$MOD_TEST: klp_shadow_get(obj=PTR5, id=0x1234) = PTR0 > +$MOD_TEST: got expected NULL result > +$MOD_TEST: shadow_dtor(obj=PTR9, shadow_data=PTR8) > +$MOD_TEST: klp_shadow_free(obj=PTR9, id=0x1234, dtor=PTR13) > +$MOD_TEST: klp_shadow_get(obj=PTR9, id=0x1234) = PTR0 > +$MOD_TEST: got expected NULL result > +$MOD_TEST: shadow_dtor(obj=PTR12, shadow_data=PTR11) > +$MOD_TEST: klp_shadow_free(obj=PTR12, id=0x1234, dtor=PTR13) > +$MOD_TEST: klp_shadow_get(obj=PTR12, id=0x1234) = PTR0 > +$MOD_TEST: got expected NULL result > +$MOD_TEST: klp_shadow_get(obj=PTR5, id=0x1235) = PTR10 > +$MOD_TEST: got expected PTR10 -> PTR3 result > +$MOD_TEST: shadow_dtor(obj=PTR5, shadow_data=PTR10) > +$MOD_TEST: klp_shadow_free_all(id=0x1235, dtor=PTR13) > +$MOD_TEST: klp_shadow_get(obj=PTR5, id=0x1234) = PTR0 > +$MOD_TEST: shadow_get() got expected NULL result > +% rmmod test_klp_shadow_vars" > + > +exit 0 > -- > 1.8.3.1 > > -- Libor Pechacek SUSE Labs -- To unsubscribe from this list: send the line "unsubscribe linux-kselftest" in the body of a message to majordomo at vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html