#!/bin/bash # SPDX-License-Identifier: GPL-2.0 # # Copyright (C) 2018 Uladzislau Rezki (Sony) # # This is a test script for the kernel test driver to analyse vmalloc # allocator. Therefore it is just a kernel module loader. You can specify # and pass different parameters in order to: # a) analyse performance of vmalloc allocations; # b) stressing and stability check of vmalloc subsystem. TEST_NAME="vmalloc" DRIVER="test_${TEST_NAME}" NUM_CPUS=`grep -c ^processor /proc/cpuinfo` # 1 if fails exitcode=1 # Kselftest framework requirement - SKIP code is 4. ksft_skip=4 # # Static templates for performance, stressing and smoke tests. # Also it is possible to pass any supported parameters manualy. # PERF_PARAM="sequential_test_order=1 test_repeat_count=3" SMOKE_PARAM="test_loop_count=10000 test_repeat_count=10" STRESS_PARAM="nr_threads=$NUM_CPUS test_repeat_count=20" check_test_requirements() { uid=$(id -u) if [ $uid -ne 0 ]; then echo "$0: Must be run as root" exit $ksft_skip fi if ! which modprobe > /dev/null 2>&1; then echo "$0: You need modprobe installed" exit $ksft_skip fi if ! modinfo $DRIVER > /dev/null 2>&1; then echo "$0: You must have the following enabled in your kernel:" echo "CONFIG_TEST_VMALLOC=m" exit $ksft_skip fi } run_perfformance_check() { echo "Run performance tests to evaluate how fast vmalloc allocation is." echo "It runs all test cases on one single CPU with sequential order." modprobe $DRIVER $PERF_PARAM > /dev/null 2>&1 echo "Done." echo "Ccheck the kernel message buffer to see the summary." } run_stability_check() { echo "Run stability tests. In order to stress vmalloc subsystem all" echo "available test cases are run by NUM_CPUS workers simultaneously." echo "It will take time, so be patient." modprobe $DRIVER $STRESS_PARAM > /dev/null 2>&1 echo "Done." echo "Check the kernel ring buffer to see the summary." } run_smoke_check() { echo "Run smoke test. Note, this test provides basic coverage." echo "Please check $0 output how it can be used" echo "for deep performance analysis as well as stress testing." modprobe $DRIVER $SMOKE_PARAM > /dev/null 2>&1 echo "Done." echo "Check the kernel ring buffer to see the summary." } usage() { echo -n "Usage: $0 [ performance ] | [ stress ] | | [ smoke ] | " echo "manual parameters" echo echo "Valid tests and parameters:" echo modinfo $DRIVER echo echo "Example usage:" echo echo "# Shows help message" echo "./${DRIVER}.sh" echo echo "# Runs 1 test(id_1), repeats it 5 times by NUM_CPUS workers" echo "./${DRIVER}.sh nr_threads=$NUM_CPUS run_test_mask=1 test_repeat_count=5" echo echo -n "# Runs 4 tests(id_1|id_2|id_4|id_16) on one CPU with " echo "sequential order" echo -n "./${DRIVER}.sh sequential_test_order=1 " echo "run_test_mask=23" echo echo -n "# Runs all tests by NUM_CPUS workers, shuffled order, repeats " echo "20 times" echo "./${DRIVER}.sh nr_threads=$NUM_CPUS test_repeat_count=20" echo echo "# Performance analysis" echo "./${DRIVER}.sh performance" echo echo "# Stress testing" echo "./${DRIVER}.sh stress" echo exit 0 } function validate_passed_args() { VALID_ARGS=`modinfo $DRIVER | awk '/parm:/ {print $2}' | sed 's/:.*//'` # # Something has been passed, check it. # for passed_arg in $@; do key=${passed_arg//=*/} val="${passed_arg:$((${#key}+1))}" valid=0 for valid_arg in $VALID_ARGS; do if [[ $key = $valid_arg ]] && [[ $val -gt 0 ]]; then valid=1 break fi done if [[ $valid -ne 1 ]]; then echo "Error: key or value is not correct: ${key} $val" exit $exitcode fi done } function run_manual_check() { # # Validate passed parameters. If there is wrong one, # the script exists and does not execute further. # validate_passed_args $@ echo "Run the test with following parameters: $@" modprobe $DRIVER $@ > /dev/null 2>&1 echo "Done." echo "Check the kernel ring buffer to see the summary." } function run_test() { if [ $# -eq 0 ]; then usage else if [[ "$1" = "performance" ]]; then run_perfformance_check elif [[ "$1" = "stress" ]]; then run_stability_check elif [[ "$1" = "smoke" ]]; then run_smoke_check else run_manual_check $@ fi fi } check_test_requirements run_test $@ exit 0