X-Git-Url: http://git.ieval.ro/?p=linux-seccomp.git;a=blobdiff_plain;f=libseccomp%2Ftests%2Fregression;fp=libseccomp%2Ftests%2Fregression;h=53d26b2baeaf7f373483c20e94471bf2c1c05fcb;hp=0000000000000000000000000000000000000000;hb=8befd5cc4d2b478c697d81a5ac191083c203d081;hpb=bcf524c10c0ad85fcef711acffc3251bb8472352 diff --git a/libseccomp/tests/regression b/libseccomp/tests/regression new file mode 100755 index 0000000..53d26b2 --- /dev/null +++ b/libseccomp/tests/regression @@ -0,0 +1,1002 @@ +#!/bin/bash + +# +# libseccomp regression test automation script +# +# Copyright IBM Corp. 2012 +# Author: Corey Bryant +# + +# +# This library is free software; you can redistribute it and/or modify it +# under the terms of version 2.1 of the GNU Lesser General Public License as +# published by the Free Software Foundation. +# +# This library is distributed in the hope that it will be useful, but WITHOUT +# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or +# FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License +# for more details. +# +# You should have received a copy of the GNU Lesser General Public License +# along with this library; if not, see . +# + +GLBL_ARCH_LE_SUPPORT=" \ + x86 x86_64 x32 \ + arm aarch64 \ + mipsel mipsel64 mipsel64n32 \ + ppc64le" +GLBL_ARCH_BE_SUPPORT=" \ + mips mips64 mips64n32 \ + ppc ppc64 \ + s390 s390x" + +GLBL_SYS_ARCH="../tools/scmp_arch_detect" +GLBL_SYS_RESOLVER="../tools/scmp_sys_resolver" +GLBL_SYS_SIM="../tools/scmp_bpf_sim" + +#### +# functions + +# +# Dependency check +# +# Arguments: +# 1 Dependency to check for +# +function check_deps() { + [[ -z "$1" ]] && return + which "$1" >& /dev/null + return $? +} + +# +# Dependency verification +# +# Arguments: +# 1 Dependency to check for +# +function verify_deps() { + [[ -z "$1" ]] && return + if ! check_deps "$1"; then + echo "error: install \"$1\" and include it in your \$PATH" + exit 1 + fi +} + +# +# Print out script usage details +# +function usage() { +cat << EOF +usage: regression [-h] [-v] [-m MODE] [-a] [-b BATCH_NAME] [-l ] + [-s SINGLE_TEST] [-t ] [-T ] + +libseccomp regression test automation script +optional arguments: + -h show this help message and exit + -m MODE specified the test mode [c (default), python] + -a specifies all tests are to be run + -b BATCH_NAME specifies batch of tests to be run + -l [LOG] specifies log file to write test results to + -s SINGLE_TEST specifies individual test number to be run + -t [TEMP_DIR] specifies directory to create temporary files in + -T [TEST_TYPE] only run tests matching the specified type + -v specifies that verbose output be provided +EOF +} + +# +# Generate a string representing the test number +# +# Arguments: +# 1 string containing the batch name +# 2 value of the test number from the input test data file +# 3 value of the subtest number that corresponds to argument 1 +# +# The actual test number from the input test data file is 1 for the first +# test found in the file, 2 for the second, etc. +# +# The subtest number is useful for batches that generate multiple tests based +# on a single line of input from the test data file. The subtest number +# should be set to zero if the corresponding test data is actual test data +# that was read from the input file, and should be set to a value greater than +# zero if the corresponding test data is generated. +# +function generate_test_num() { + local testnumstr=$(printf '%s%%%%%03d-%05d' "$1" $2 $3) + echo "$testnumstr" +} + +# +# Print the test data to the log file +# +# Arguments: +# 1 string containing generated test number +# 2 string containing line of test data +# +function print_data() { + if [[ -n $verbose ]]; then + printf "Test %s data: %s\n" "$1" "$2" >&$logfd + fi +} + +# +# Print the test result to the log file +# +# Arguments: +# 1 string containing generated test number +# 2 string containing the test result (INFO, SUCCESS, ERROR, or FAILURE) +# 3 string containing addition details +# +function print_result() { + if [[ $2 == "INFO" && -z $verbose ]]; then + return + fi + if [[ $3 == "" ]]; then + printf "Test %s result: %s\n" "$1" "$2" >&$logfd + else + printf "Test %s result: %s %s\n" "$1" "$2" "$3" >&$logfd + fi +} + +# +# Print the valgrind header to the log file +# +# Arguments: +# 1 string containing generated test number +# +function print_valgrind() { + if [[ -n $verbose ]]; then + printf "Test %s valgrind output\n" "$1" >&$logfd + fi +} + +# +# Get the low or high range value from a range specification +# +# Arguments: +# 1 value specifying range value to retrieve: low (1) or high (2) +# 2 string containing dash-separated range or a single value +# +function get_range() { + if [[ $2 =~ ^[0-9a-fA-Fx]+-[0-9a-fA-Fx]+$ ]]; then + # if there's a dash, get the low or high range value + range_val=$(echo "$2" | cut -d'-' -f "$1") + else + # otherwise there should just be a single value + range_val="$2" + fi + echo "$range_val" +} + +# +# Get the number sequence for a given range with increments of 1, i.e. +# implement a specialized seq(1). +# +# We use our own implementation based on miniseq in favour to the standard seq +# tool as, at least, seq of coreutils v8.23 and v8.24 has problems on 32 bit +# ARM for large numbers (see the mailing thread at +# https://groups.google.com/forum/#!topic/libseccomp/VtrClkXxLGA). +# +# Arguments: +# 1 starting value +# 2 last value +# +function get_seq() { + # NOTE: this whole thing is a bit hacky, but we need to search around + # for miniseq to fix 'make distcheck', someday we should fix this + if [[ -x ./miniseq ]]; then + ./miniseq "$1" "$2" + elif [[ -x $basedir/miniseq ]]; then + $basedir/miniseq "$1" "$2" + else + # we're often run from a subshell, so we can't simply exit + echo "error: unable to find miniseq" >&2 + kill $pid + fi +} + +# +# Run the specified test command (with valgrind if requested) +# +# Arguments: +# 1 string containing generated test number +# 2 string containing command name +# 3 string containing command options +# 4 number for the stdout fd +# 5 number for the stderr fd +# +function run_test_command() { + local cmd + + if [[ $mode == "python" ]]; then + cmd="PYTHONPATH=$PYTHONPATH" + cmd="$cmd:$(cd $(pwd)/../src/python/build/lib.*; pwd)" + cmd="$cmd /usr/bin/env python $2.py $3" + else + cmd="$2 $3" + fi + + # setup the stdout/stderr redirects + local stdout=$4 + local stderr=$5 + [[ -z $stdout ]] && stdout=$logfd + [[ -z $stderr ]] && stderr=$logfd + + # run the command + eval "$cmd" 1>&$stdout 2>&$stderr + + # return the command's return code + return $? +} + +# +# Generate pseudo-random string of alphanumeric characters +# +# The generated string will be no larger than the corresponding +# architecture's register size. +# +function generate_random_data() { + local rcount + local rdata + if [[ $arch == "x86_64" ]]; then + rcount=$[ ($RANDOM % 16) + 1 ] + else + rcount=$[ ($RANDOM % 8) + 1 ] + fi + rdata=$(echo $($tmpfile + run_test_command "$testnumstr" "./$testname" "-b" 4 "" + rc=$? + exec 4>&- + if [[ $rc -ne 0 ]]; then + print_result $testnumstr "ERROR" "$testname rc=$rc" + stats_error=$(($stats_error+1)) + return + fi + + # simulate the fuzzed syscall data against the BPF filter, we + # don't verify the resulting action since we're just testing for + # stability + allow=$($GLBL_SYS_SIM -f $tmpfile -s $sys \ + ${arg[0]} ${arg[1]} ${arg[2]} ${arg[3]} ${arg[4]} \ + ${arg[5]}) + rc=$? + if [[ $rc -ne 0 ]]; then + print_result $testnumstr "ERROR" "bpf_sim rc=$rc" + stats_error=$(($stats_error+1)) + else + print_result $testnumstr "SUCCESS" "" + stats_success=$(($stats_success+1)) + fi + stats_all=$(($stats_all+1)) + done +} + +# +# Run the specified "bpf-sim" test +# +# Tests that belong to the "bpf-sim" test type generate a BPF filter and then +# run a simulated system call test to validate the filter. Tests that belong to +# this test type provide the following data on a single line in the input batch +# file: +# +# Testname - The executable test name (e.g. 01-allow, 02-basic, etc.) +# Arch - The architecture that the test should be run on (all, x86, x86_64) +# Syscall - The syscall to simulate against the generated filter +# Arg0-5 - The syscall arguments to simulate against the generated filter +# Result - The expected simulation result (ALLOW, KILL, etc.) +# +# If a range of syscall or argument values are specified (e.g. 1-9), a test is +# generated for every combination of range values. Otherwise, the individual +# test is run. +# +# Arguments: +# 1 string containing the batch name +# 2 value of test number from batch file +# 3 string containing line of test data from batch file +# +function run_test_bpf_sim() { + local rc + local LOW=1 + local HIGH=2 + local -a arg_empty=(false false false false false false) + + # begin splitting the test data from the line into individual variables + local line=($3) + local testname=${line[0]} + local testarch=${line[1]} + local low_syscall #line[2] + local high_syscall #line[2] + local -a low_arg #line[3-8] + local -a high_arg #line[3-8] + local result=${line[9]} + + # expand the architecture list + local simarch_tmp + local simarch_avoid + simarch_tmp="" + simarch_avoid="" + for arch_i in $(echo $testarch | sed -e 's/,/ /g'); do + case $arch_i in + all) + # add the native arch + simarch_tmp+=" $arch" + ;; + all_le) + # add the native arch only if it is little endian + if echo "$GLBL_ARCH_LE_SUPPORT" | grep -qw "$arch"; then + simarch_tmp+=" $arch" + fi + ;; + +all_le) + # add all of the little endian architectures + simarch_tmp+=" $GLBL_ARCH_LE_SUPPORT" + ;; + all_be) + # add the native arch only if it is big endian + if echo "$GLBL_ARCH_BE_SUPPORT" | grep -qw "$arch"; then + simarch_tmp+=" $arch" + fi + ;; + +all_be) + # add all of the big endian architectures + simarch_tmp+=" $GLBL_ARCH_BE_SUPPORT" + ;; + +*) + # add the architecture specified + simarch_tmp+=" ${arch_i:1}" + ;; + -*) + # remove the architecture specified + simarch_avoid+=" ${arch_i:1}" + ;; + *) + # add the architecture specified if it is native + if [[ "$arch_i" == "$arch" ]]; then + simarch_tmp+=" $arch_i" + fi + ;; + esac + done + + # make sure we remove any undesired architectures + local simarch_list + simarch_list="" + for arch_i in $simarch_tmp; do + if echo "$simarch_avoid" | grep -q -v -w "$arch_i"; then + simarch_list+=" $arch_i" + fi + done + simarch_list=$(echo $simarch_list | sed -e 's/ / /g;s/^ //;') + + # do we have any architectures remaining in the list? + if [[ $simarch_list == "" ]]; then + print_result $(generate_test_num "$1" $2 1) "INFO" \ + "Test skipped due to architecture difference" + stats_skipped=$(($stats_skipped+1)) + return + fi + + # get low and high range arg values + line_i=3 + for arg_i in {0..5}; do + low_arg[$arg_i]=$(get_range $LOW "${line[$line_i]}") + high_arg[$arg_i]=$(get_range $HIGH "${line[$line_i]}") + + # fix up empty arg values so the nested loops work + if [[ ${low_arg[$arg_i]} == "N" ]]; then + arg_empty[$arg_i]=true + low_arg[$arg_i]=0 + high_arg[$arg_i]=0 + fi + + line_i=$(($line_i+1)) + done + + # loop through the selected architectures + for simarch in $simarch_list; do + # print architecture header if necessary + if [[ $simarch != $simarch_list ]]; then + echo " test arch: $simarch" >&$logfd + fi + + # reset the subtest number + local subtestnum=1 + + # get low and high syscall values and convert them to numbers + low_syscall=$(get_range $LOW "${line[2]}") + if [[ ! $low_syscall =~ ^[0-9]+$ ]]; then + low_syscall=$($GLBL_SYS_RESOLVER -a $simarch -t \ + $low_syscall) + if [[ $? -ne 0 ]]; then + print_result $(generate_test_num "$1" $2 1) \ + "ERROR" "sys_resolver rc=$?" + stats_error=$(($stats_error+1)) + return + fi + fi + high_syscall=$(get_range $HIGH "${line[2]}") + if [[ ! $high_syscall =~ ^[0-9]+$ ]]; then + high_syscall=$($GLBL_SYS_RESOLVER -a $simarch -t \ + $high_syscall) + if [[ $? -ne 0 ]]; then + print_result $(generate_test_num "$1" $2 1) \ + "ERROR" "sys_resolver rc=$?" + stats_error=$(($stats_error+1)) + return + fi + fi + + # if ranges exist, the following will loop through all syscall + # and arg ranges and generate/run every combination of requested + # tests; if no ranges were specifed, then the single test is + # run + for sys in $(get_seq $low_syscall $high_syscall); do + for arg0 in $(get_seq ${low_arg[0]} ${high_arg[0]}); do + for arg1 in $(get_seq ${low_arg[1]} ${high_arg[1]}); do + for arg2 in $(get_seq ${low_arg[2]} ${high_arg[2]}); do + for arg3 in $(get_seq ${low_arg[3]} ${high_arg[3]}); do + for arg4 in $(get_seq ${low_arg[4]} ${high_arg[4]}); do + for arg5 in $(get_seq ${low_arg[5]} ${high_arg[5]}); do + local -a arg=($arg0 $arg1 $arg2 $arg3 $arg4 $arg5) + + # Get the generated sub-test num string + local testnumstr=$(generate_test_num "$1" $2 \ + $subtestnum) + + # format any empty args to print to log file + for i in {0..5}; do + if ${arg_empty[$i]}; then + arg[$i]="N" + fi + done + + # set up log file test data line for this + # individual test, spacing is added to align + # the output in the correct columns + local -a COL_WIDTH=(26 08 14 11 17 21 09 06 06) + local testdata=$(printf "%-${COL_WIDTH[0]}s" $testname) + testdata+=$(printf "%-${COL_WIDTH[1]}s" $simarch) + testdata+=$(printf "%-${COL_WIDTH[2]}s" $sys) + testdata+=$(printf "%-${COL_WIDTH[3]}s" ${arg[0]}) + testdata+=$(printf "%-${COL_WIDTH[4]}s" ${arg[1]}) + testdata+=$(printf "%-${COL_WIDTH[5]}s" ${arg[2]}) + testdata+=$(printf "%-${COL_WIDTH[6]}s" ${arg[3]}) + testdata+=$(printf "%-${COL_WIDTH[7]}s" ${arg[4]}) + testdata+=$(printf "%-${COL_WIDTH[8]}s" ${arg[5]}) + testdata+=$(printf "%-${COL_WIDTH[9]}s" $result) + + # print out the test data to the log file + print_data "$testnumstr" "$testdata" + + # set up the syscall arguments to be passed to bpf_sim + for i in {0..5}; do + if ${arg_empty[$i]}; then + arg[$i]="" + else + arg[$i]=" -$i ${arg[$i]} " + fi + done + + # run the test command and put the BPF in a temp file + exec 4>$tmpfile + run_test_command "$testnumstr" "./$testname" "-b" 4 "" + rc=$? + exec 4>&- + if [[ $rc -ne 0 ]]; then + print_result $testnumstr \ + "ERROR" "$testname rc=$rc" + stats_error=$(($stats_error+1)) + return + fi + + # simulate the specifed syscall against the BPF filter + # and verify the results + action=$($GLBL_SYS_SIM -a $simarch -f $tmpfile \ + -s $sys ${arg[0]} ${arg[1]} ${arg[2]} \ + ${arg[3]} ${arg[4]} ${arg[5]}) + rc=$? + if [[ $rc -ne 0 ]]; then + print_result $testnumstr \ + "ERROR" "bpf_sim rc=$rc" + stats_error=$(($stats_error+1)) + elif [[ "$action" != "$result" ]]; then + print_result $testnumstr "FAILURE" \ + "bpf_sim resulted in $action" + stats_failure=$(($stats_failure+1)) + else + print_result $testnumstr "SUCCESS" "" + stats_success=$(($stats_success+1)) + fi + stats_all=$(($stats_all+1)) + + subtestnum=$(($subtestnum+1)) + done # syscall + done # arg0 + done # arg1 + done # arg2 + done # arg3 + done # arg4 + done # arg5 + done # architecture +} + +# +# Run the specified "basic" test +# +# Tests that belong to the "basic" test type will simply have the command +# specified in the input batch file. The command must return zero for success +# and non-zero for failure. +# +# Arguments: +# 1 value of test number from batch file +# 2 string containing line of test data from batch file +# +function run_test_basic() { + local rc + + # print out the input test data to the log file + print_data "$1" "$2" + + # run the command + run_test_command "$1" "./$2" "" "" "" + rc=$? + if [[ $rc -ne 0 ]]; then + print_result $1 "FAILURE" "$2 rc=$rc" + stats_failure=$(($stats_failure+1)) + else + print_result $1 "SUCCESS" "" + stats_success=$(($stats_success+1)) + fi + stats_all=$(($stats_all+1)) +} + +# +# Run the specified "bpf-valgrind" test +# +# Tests that belong to the "bpf-valgrind" test type generate a BPF filter +# while running under valgrind to detect any memory errors. +# +# Arguments: +# 1 value of test number from batch file +# 2 string containing line of test data from batch file +# +function run_test_bpf_valgrind() { + local rc + + # we only support the native/c test mode here + if [[ $mode != "c" ]]; then + stats_skipped=$(($stats_skipped+1)) + return + fi + + # print out the input test data to the log file + print_data "$1" "$2" + + # build the command + testvalgrind="valgrind \ + --tool=memcheck \ + --error-exitcode=1 \ + --leak-check=full \ + --read-var-info=yes \ + --track-origins=yes \ + --suppressions=$basedir/valgrind_test.supp" + if [[ -n $logfile ]]; then + testvalgrind+=" --log-fd=$logfd" + fi + if [[ -z $verbose ]]; then + testvalgrind+=" --quiet --log-fd=4" + fi + + # run the command + exec 4>/dev/null + print_valgrind "$1" + run_test_command "$1" "$testvalgrind --" "./$2 -b" 4 2 + rc=$? + exec 4>&- + if [[ $rc -ne 0 ]]; then + print_result $1 "FAILURE" "$2 rc=$rc" + stats_failure=$(($stats_failure+1)) + else + print_result $1 "SUCCESS" "" + stats_success=$(($stats_success+1)) + fi + stats_all=$(($stats_all+1)) +} + +# +# Run the specified "live" test +# +# Tests that belong to the "live" test type will attempt to run a live test +# of the libseccomp library on the host system; for obvious reasons the host +# system must support seccomp mode 2 for this to work correctly. +# +# Arguments: +# 1 value of test number from batch file +# 2 string containing line of test data from batch file +# +function run_test_live() { + local rc + local line=($2) + + # parse the test line + line_cmd=${line[0]} + line_act=${line[1]} + line_test="$line_cmd $line_act" + + # print out the input test data to the log file + print_data "$1" "$2" + + # run the command + exec 4>/dev/null + run_test_command "$1" "./$line_cmd" "$line_act" "" 4 + rc=$? + exec 4>&- + stats_all=$(($stats_all+1)) + + # setup the arch specific return values + case "$arch" in + x86|x86_64|x32|arm|aarch64|ppc|ppc64|ppc64le|ppc|s390|s390x) + rc_kill=159 + rc_allow=160 + rc_trap=161 + rc_trace=162 + rc_errno=163 + ;; + mips|mipsel|mips64|mips64n32|mipsel64|mipsel64n32) + rc_kill=140 + rc_allow=160 + rc_trap=161 + rc_trace=162 + rc_errno=163 + ;; + *) + print_result $testnumstr "ERROR" "arch $arch not supported" + stats_error=$(($stats_error+1)) + return + ;; + esac + + # verify the results + if [[ $line_act == "KILL" && $rc -eq $rc_kill ]]; then + print_result $1 "SUCCESS" "" + stats_success=$(($stats_success+1)) + elif [[ $line_act == "ALLOW" && $rc -eq $rc_allow ]]; then + print_result $1 "SUCCESS" "" + stats_success=$(($stats_success+1)) + elif [[ $line_act == "TRAP" && $rc -eq $rc_trap ]]; then + print_result $1 "SUCCESS" "" + stats_success=$(($stats_success+1)) + elif [[ $line_act == "TRACE" ]]; then + print_result $1 "ERROR" "unsupported action \"$line_act\"" + stats_error=$(($stats_error+1)) + elif [[ $line_act == "ERRNO" && $rc -eq $rc_errno ]]; then + print_result $1 "SUCCESS" "" + stats_success=$(($stats_success+1)) + else + print_result $1 "FAILURE" "$line_test rc=$rc" + stats_failure=$(($stats_failure+1)) + fi +} + +# +# Run a single test from the specified batch +# +# Arguments: +# 1 string containing the batch name +# 2 value of test number from batch file +# 3 string containing line of test data from batch file +# 4 string containing test type that this test belongs to +# +function run_test() { + # generate the test number string for the line of batch test data + local testnumstr=$(generate_test_num "$1" $2 1) + + # ensure we only run tests which match the specified type + [[ -n $type && "$4" != "$type" ]] && return + + # execute the function corresponding to the test type + if [[ "$4" == "basic" ]]; then + run_test_basic "$testnumstr" "$3" + elif [[ "$4" == "bpf-sim" ]]; then + run_test_bpf_sim "$1" $2 "$3" + elif [[ "$4" == "bpf-sim-fuzz" ]]; then + run_test_bpf_sim_fuzz "$1" $2 "$3" + elif [[ "$4" == "bpf-valgrind" ]]; then + # only run this test if valgrind is installed + if check_deps valgrind; then + run_test_bpf_valgrind "$testnumstr" "$3" + else + stats_skipped=$(($stats_skipped+1)) + fi + elif [[ "$4" == "live" ]]; then + # only run this test if explicitly requested + if [[ -n $type ]]; then + run_test_live "$testnumstr" "$3" + else + stats_skipped=$(($stats_skipped+1)) + fi + else + print_result $testnumstr "ERROR" "test type $4 not supported" + stats_error=$(($stats_error+1)) + fi +} + +# +# Run the requested tests +# +function run_tests() { + # loop through all test files + for file in $basedir/*.tests; do + local testnum=1 + local batch_requested=false + local batch_name="" + + # extract the batch name from the file name + batch_name=$(basename $file .tests) + + # check if this batch was requested + if [[ ${batch_list[@]} ]]; then + for b in ${batch_list[@]}; do + if [[ $b == $batch_name ]]; then + batch_requested=true + break + fi + done + if ! $batch_requested; then + continue + fi + fi + + # print a test batch header + echo " batch name: $batch_name" >&$logfd + + # loop through each line and run the requested tests + while read line; do + # strip whitespace, comments, and blank lines + line=$(echo "$line" | \ + sed -e 's/^[\t ]*//;s/[\t ]*$//;' | \ + sed -e '/^[#].*$/d;/^$/d') + if [[ -z $line ]]; then + continue + fi + + if [[ $line =~ ^"test type": ]]; then + test_type=$(echo "$line" | \ + sed -e 's/^test type: //;') + # print a test mode and type header + echo " test mode: $mode" >&$logfd + echo " test type: $test_type" >&$logfd + continue + fi + + if [[ ${single_list[@]} ]]; then + for i in ${single_list[@]}; do + if [ $i -eq $testnum ]; then + # we're running a single test + run_test "$batch_name" \ + $testnum "$line" \ + "$test_type" + fi + done + else + # we're running a test from a batch + run_test "$batch_name" \ + $testnum "$line" "$test_type" + fi + testnum=$(($testnum+1)) + done < "$file" + done +} + +#### +# main + +# verify general script dependencies +verify_deps head +verify_deps sed +verify_deps awk +verify_deps tr + +# global variables +declare -a batch_list +declare -a single_list +arch= +batch_count=0 +logfile= +logfd= +mode_list="" +runall= +singlecount=0 +tmpfile="" +tmpdir="" +type= +verbose= +stats_all=0 +stats_skipped=0 +stats_success=0 +stats_failure=0 +stats_error=0 + +# set the test root directory +basedir=$(dirname $0) + +# set the test harness pid +pid=$$ + +# parse the command line +while getopts "ab:gl:m:s:t:T:vh" opt; do + case $opt in + a) + runall=1 + ;; + b) + batch_list[batch_count]="$OPTARG" + batch_count=$(($batch_count+1)) + ;; + l) + logfile="$OPTARG" + ;; + m) + case $OPTARG in + c) + mode_list="$mode_list c" + ;; + python) + verify_deps python + mode_list="$mode_list python" + ;; + *) + usage + exit 1 + esac + ;; + s) + single_list[single_count]=$OPTARG + single_count=$(($single_count+1)) + ;; + t) + tmpdir="$OPTARG" + ;; + T) + type="$OPTARG" + ;; + v) + verbose=1 + ;; + h|*) + usage + exit 1 + ;; + esac +done + +# determine the mode test automatically +if [[ -z $mode_list ]]; then + # always perform the native c tests + mode_list="c" + + # query the build configuration + if [[ -r "../configure.h" ]]; then + # python tests + [[ "$(grep "ENABLE_PYTHON" ../configure.h | \ + awk '{ print $3 }')" = "1" ]] && \ + mode_list="$mode_list python" + fi +fi + +# default to all tests if batch or single tests not requested +if [[ -z $batch_list ]] && [[ -z $single_list ]]; then + runall=1 +fi + +# drop any requested batch and single tests if all tests were requested +if [[ -n $runall ]]; then + batch_list=() + single_list=() +fi + +# open log file for append (default to stdout) +if [[ -n $logfile ]]; then + logfd=3 + exec 3>>"$logfile" +else + logfd=1 +fi + +# open temporary file +if [[ -n $tmpdir ]]; then + tmpfile=$(mktemp -t regression_XXXXXX --tmpdir=$tmpdir) +else + tmpfile=$(mktemp -t regression_XXXXXX) +fi + +# determine the current system's architecture +arch=$($GLBL_SYS_ARCH) + +# display the test output and run the requested tests +echo "=============== $(date) ===============" >&$logfd +echo "Regression Test Report (\"regression $*\")" >&$logfd +for mode in $mode_list; do + run_tests +done +echo "Regression Test Summary" >&$logfd +echo " tests run: $stats_all" >&$logfd +echo " tests skipped: $stats_skipped" >&$logfd +echo " tests passed: $stats_success" >&$logfd +echo " tests failed: $stats_failure" >&$logfd +echo " tests errored: $stats_error" >&$logfd +echo "============================================================" >&$logfd + +# cleanup and exit +rm -f $tmpfile +rc=0 +[[ $stats_failure -gt 0 ]] && rc=$(($rc + 2)) +[[ $stats_error -gt 0 ]] && rc=$(($rc + 4)) + +exit $rc