blob: 08811f604193b6f66845dbc2f8099a8f582f8385 [file] [log] [blame]
#!/usr/bin/env ksh
# this will fail if run with bash!
#==================================================================================
# Copyright (c) 2019 Nokia
# Copyright (c) 2018-2019 AT&T Intellectual Property.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#==================================================================================
#
# Mnemonic: unit_test.ksh
# Abstract: Execute unit test(s) in the directory and produce a more
# meaningful summary than gcov gives by default (exclude
# coverage on the unit test functions).
#
# Test files must be named *_test.c, or must explicitly be
# supplied on the command line. Functions in the test
# files will not be reported on provided that they have
# their prototype (all on the SAME line) as:
# static type name() {
#
# Functions with coverage less than 80% will be reported as
# [LOW] in the output. A file is considered to pass if the
# overall execution percentage for the file is >= 80% regardless
# of the number of functions that reported low.
#
# Test programmes are built prior to execution. Plan-9 mk is
# the preferred builder, but as it's not widly adopted (sigh)
# make is assumed and -M will shift to Plan-9. Use -C xxx to
# invoke a customised builder.
#
# For a module which does not pass, we will attempt to boost
# the coverage by discounting the unexecuted lines which are
# inside of if() statements that are checking return from
# (m)alloc() calls or are checking for nil pointers as these
# cases are likely impossible to drive. When discount testing
# is done both the failure message from the original analysis
# and a pass/fail message from the discount test are listed,
# but only the result of the discount test is taken into
# consideration with regard to overall success.
#
# Overall Pass/Fail
# By default the overall state is based only on the success
# or failure of the unit tests and NOT on the perceived
# state of coverage. If the -s (strict) option is given, then
# overall state will be failure if code coverage expectations
# are not met.
#
# Date: 16 January 2018
# Author: E. Scott Daniels
# -------------------------------------------------------------------------
function usage {
echo "usage: $0 [-G|-M|-C custom-command-string] [-c cov-target] [-f] [-F] [-v] [-x] [files]"
echo " if -C is used to provide a custom build command then it must "
echo " contain a %s which will be replaced with the unit test file name."
echo ' e.g.: -C "mk -a %s"'
echo " -c allows user to set the target coverage for a module to pass; default is 80"
echo " -f forces a discount check (normally done only if coverage < target)"
echo " -F show only failures at the function level"
echo " -s strict mode; code coverage must also pass to result in a good exit code"
echo " -v will write additional information to the tty and save the disccounted file if discount run or -f given"
echo " -x generates the coverage XML files for Sonar (implies -f)"
}
# read through the given file and add any functions that are static to the
# ignored list. Only test and test tools files should be parsed.
#
function add_ignored_func {
if [[ ! -r $1 ]]
then
return
fi
typeset f=""
grep "^static.*(.*).*{" $1 | awk ' # get list of test functions to ignore
{
gsub( "[(].*", "" )
print $3
}
' | while read f
do
iflist="${iflist}$f "
done
}
# Merge two coverage files to preserve the total lines covered by different
# test programmes.
#
function merge_cov {
if [[ -z $1 || -z $2 ]]
then
return
fi
if [[ ! -e $1 || ! -e $2 ]]
then
return
fi
(
cat $1
echo "==merge=="
cat $2
) | awk '
/^==merge==/ {
merge = 1
next
}
merge && /#####:/ {
line = $2+0
if( executed[line] ) {
$1 = sprintf( "%9d:", executed[line] )
}
}
merge {
print
next
}
{
line = $2+0
if( $1+0 > 0 ) {
executed[line] = $1+0
}
}
'
}
#
# Parse the .gcov file and discount any unexecuted lines which are in if()
# blocks that are testing the result of alloc/malloc calls, or testing for
# nil pointers. The feeling is that these might not be possible to drive
# and shoudn't contribute to coverage deficiencies.
#
# In verbose mode, the .gcov file is written to stdout and any unexecuted
# line which is discounted is marked with ===== replacing the ##### marking
# that gcov wrote.
#
# The return value is 0 for pass; non-zero for fail.
function discount_an_checks {
typeset f="$1"
mct=$( get_mct ${1%.gcov} ) # see if a special coverage target is defined for this
if [[ ! -f $1 ]]
then
if [[ -f ${1##*/} ]]
then
f=${1##*/}
else
echo "cant find: $f"
return
fi
fi
awk -v module_cov_target=$mct \
-v cfail=${cfail:-WARN} \
-v show_all=$show_all \
-v full_name="${1}" \
-v module="${f%.*}" \
-v chatty=$chatty \
-v replace_flags=$replace_flags \
'
function spit_line( ) {
if( chatty ) {
printf( "%s\n", $0 )
}
}
/-:/ { # skip unexecutable lines
spit_line()
seq++ # allow blank lines in a sequence group
next
}
{
nexec++ # number of executable lines
}
/#####:/ {
unexec++;
if( $2+0 != seq+1 ) {
prev_malloc = 0
prev_if = 0
seq = 0
spit_line()
next
}
if( prev_if && prev_malloc ) {
if( prev_malloc ) {
#printf( "allow discount: %s\n", $0 )
if( replace_flags ) {
gsub( "#####", " 1", $0 )
//gsub( "#####", "=====", $0 )
}
discount++;
}
}
seq++;;
spit_line()
next;
}
/if[(].*alloc.*{/ { # if( (x = malloc( ... )) != NULL ) or if( (p = sym_alloc(...)) != NULL )
seq = $2+0
prev_malloc = 1
prev_if = 1
spit_line()
next
}
/if[(].* == NULL/ { # a nil check likely not easily forced if it wasnt driven
prev_malloc = 1
prev_if = 1
spit_line()
seq = $2+0
next
}
/if[(]/ {
if( seq+1 == $2+0 && prev_malloc ) { // malloc on previous line
prev_if = 1
} else {
prev_malloc = 0
prev_if = 0
}
spit_line()
next
}
/alloc[(]/ {
seq = $2+0
prev_malloc = 1
spit_line()
next
}
{
spit_line()
}
END {
net = unexec - discount
orig_cov = ((nexec-unexec)/nexec)*100 # original coverage
adj_cov = ((nexec-net)/nexec)*100 # coverage after discount
pass_fail = adj_cov < module_cov_target ? cfail : "PASS"
rc = adj_cov < module_cov_target ? 1 : 0
if( pass_fail == cfail || show_all ) {
if( chatty ) {
printf( "[%s] %s executable=%d unexecuted=%d discounted=%d net_unex=%d cov=%d%% ==> %d%% target=%d%%\n",
pass_fail, full_name ? full_name : module, nexec, unexec, discount, net, orig_cov, adj_cov, module_cov_target )
} else {
printf( "[%s] %d%% (%d%%) %s\n", pass_fail, adj_cov, orig_cov, full_name ? full_name : module )
}
}
exit( rc )
}
' $f
}
# Given a file name ($1) see if it is in the ./.targets file. If it is
# return the coverage listed, else return (echo) the default $module_cov_target
#
function get_mct {
typeset v=$module_cov_target
if [[ -f ./.targets ]]
then
grep "^$1 " ./.targets | head -1 | read junk tv
fi
echo ${tv:-$v}
}
# Remove unneeded coverage files, then generate the xml files that can be given
# to sonar. gcov.xml is based on the "raw" coverage and dcov.xml is based on
# the discounted coverage.
#
function mk_xml {
rm -fr *_test.c.gcov test_*.c.gcov *_test.c.dcov test_*.c.dcov # we don't report on the unit test code, so ditch
cat *.gcov | cov2xml.ksh >gcov.xml
cat *.dcov | cov2xml.ksh >dcov.xml
}
# -----------------------------------------------------------------------------------------------------------------
# we assume that the project has been built in the ../[.]build directory
if [[ -d ../build ]]
then
export LD_LIBRARY_PATH=../build/lib:../build/lib64
else
if [[ -d ../.build ]]
then
export LD_LIBRARY_PATH=../.build/lib:../.build/lib64
export C_INCLUDE_PATH=../.build/include
else
echo "[WARN] cannot find build directory (tried ../build and ../.build); things might not work"
echo ""
fi
fi
export LIBRARY_PATH=$LD_LIBRARY_PATH
export C_INCLUDE_PATH="../src/rmr/common/include:$C_INCLUDE_PATH"
module_cov_target=80
builder="make -B %s" # default to plain ole make
verbose=0
show_all=1 # show all things -F sets to show failures only
strict=0 # -s (strict) will set; when off, coverage state ignored in final pass/fail
show_output=0 # show output from each test execution (-S)
quiet=0
gen_xml=0
replace_flags=1 # replace ##### in gcov for discounted lines
run_nano_tests=0
export RMR_WARNING=1 # turn on warnings
ulimit -c unlimited
while [[ $1 == "-"* ]]
do
case $1 in
-C) builder="$2"; shift;; # custom build command
-G) builder="gmake %s";;
-M) builder="mk -a %s";; # use plan-9 mk (better, but sadly not widly used)
-N) run_nano_tests=1;;
-c) module_cov_target=$2; shift;;
-e) capture_file=$2; >$capture_file; shift;; # capture errors from failed tests rather than spewing on tty
-f) force_discounting=1;
trigger_discount_str="WARN|FAIL|PASS" # check all outcomes for each module
;;
-F) show_all=0;;
-s) strict=1;; # coverage counts toward pass/fail state
-S) show_output=1;; # test output shown even on success
-v) (( verbose++ ));;
-q) quiet=1;; # less chatty when spilling error log files
-x) gen_xml=1
force_discounting=1
trigger_discount_str="WARN|FAIL|PASS" # check all outcomes for each module
rm -fr *cov.xml
;;
-h) usage; exit 0;;
--help) usage; exit 0;;
-\?) usage; exit 0;;
*) echo "unrecognised option: $1" >&2
usage >&2
exit 1
;;
esac
shift
done
if (( strict )) # if in strict mode, coverage shortcomings are failures
then
cfail="FAIL"
else
cfail="WARN"
fi
if [[ -z $trigger_discount_str ]]
then
trigger_discount_str="$cfail"
fi
if [[ -z $1 ]]
then
flist=""
for tfile in *_test.c
do
if [[ $tfile != *"static_test.c" ]]
then
if(( ! run_nano_tests )) && [[ $tfile == *"nano"* ]]
then
continue
fi
flist="${flist}$tfile "
fi
done
else
flist="$@"
fi
rm -fr *.gcov # ditch the previous coverage files
ut_errors=0 # unit test errors (not coverage errors)
errors=0
for tfile in $flist
do
for x in *.gcov
do
if [[ -e $x ]]
then
cp $x $x-
fi
done
echo "$tfile --------------------------------------"
bcmd=$( printf "$builder" "${tfile%.c}" )
if ! $bcmd >/tmp/PID$$.log 2>&1
then
echo "[FAIL] cannot build $tfile"
cat /tmp/PID$$.log
rm -f /tmp/PID$$
exit 1
fi
iflist="main sig_clean_exit " # ignore external functions from our tools
add_ignored_func $tfile # ignore all static functions in our test driver
add_ignored_func test_support.c # ignore all static functions in our test tools
add_ignored_func test_nng_em.c # the nng/nano emulated things
for f in *_static_test.c # all static modules here
do
if(( ! run_nano_tests )) && [[ $f == *"nano"* ]]
then
continue
fi
add_ignored_func $f
done
if ! ./${tfile%.c} >/tmp/PID$$.log 2>&1
then
echo "[FAIL] unit test failed for: $tfile"
if [[ -n $capture_file ]]
then
echo "all errors captured in $capture_file, listing only fail message on tty"
echo "$tfile --------------------------------------" >>$capture_file
cat /tmp/PID$$.log >>$capture_file
grep "^<FAIL>" /tmp/PID$$.log
echo ""
else
if (( quiet ))
then
grep "^<" /tmp/PID$$.log|grep -v "^<EM>" # in quiet mode just dump <...> messages which are assumed from the test programme not appl
else
cat /tmp/PID$$.log
fi
fi
(( ut_errors++ )) # cause failure even if not in strict mode
continue # skip coverage tests for this
else
if (( show_output ))
then
printf "\n============= test programme output =======================\n"
cat /tmp/PID$$.log
printf "===========================================================\n"
fi
fi
(
touch ./.targets
sed '/^#/ d; /^$/ d; s/^/TARGET: /' ./.targets
gcov -f ${tfile%.c} | sed "s/'//g"
) | awk \
-v cfail=$cfail \
-v show_all=$show_all \
-v ignore_list="$iflist" \
-v module_cov_target=$module_cov_target \
-v chatty=$verbose \
'
BEGIN {
announce_target = 1;
nignore = split( ignore_list, ignore, " " )
for( i = 1; i <= nignore; i++ ) {
imap[ignore[i]] = 1
}
exit_code = 0 # assume good
}
/^TARGET:/ {
if( NF > 1 ) {
target[$2] = $NF
}
next;
}
/File.*_test/ || /File.*test_/ { # dont report on test files
skip = 1
file = 1
fname = $2
next
}
/File/ {
skip = 0
file = 1
fname = $2
next
}
/Function/ {
fname = $2
file = 0
if( imap[fname] ) {
fname = "skipped: " fname # should never see and make it smell if we do
skip = 1
} else {
skip = 0
}
next
}
skip { next }
/Lines executed/ {
split( $0, a, ":" )
pct = a[2]+0
if( file ) {
if( announce_target ) { # announce default once at start
announce_target = 0;
printf( "\n[INFO] default target coverage for modules is %d%%\n", module_cov_target )
}
if( target[fname] ) {
mct = target[fname]
announce_target = 1;
} else {
mct = module_cov_target
}
if( announce_target ) { # annoucne for module if different from default
printf( "[INFO] target coverage for %s is %d%%\n", fname, mct )
}
if( pct < mct ) {
printf( "[%s] %3d%% %s\n", cfail, pct, fname ) # CAUTION: write only 3 things here
exit_code = 1
} else {
printf( "[PASS] %3d%% %s\n", pct, fname )
}
announce_target = 0;
} else {
if( pct < 70 ) {
printf( "[LOW] %3d%% %s\n", pct, fname )
} else {
if( pct < 80 ) {
printf( "[MARG] %3d%% %s\n", pct, fname )
} else {
if( show_all ) {
printf( "[OK] %3d%% %s\n", pct, fname )
}
}
}
}
}
END {
printf( "\n" );
exit( exit_code )
}
' >/tmp/PID$$.log # capture output to run discount on failures
rc=$?
cat /tmp/PID$$.log
if (( rc || force_discounting )) # didn't pass, or forcing, see if discounting helps
then
if (( ! verbose ))
then
echo "[INFO] checking to see if discounting improves coverage for failures listed above"
fi
egrep "$trigger_discount_str" /tmp/PID$$.log | while read state junk name
do
if ! discount_an_checks $name.gcov >/tmp/PID$$.disc
then
(( errors++ ))
fi
tail -1 /tmp/PID$$.disc | grep '\['
if (( verbose > 1 )) # updated file was generated, keep here
then
echo "[INFO] discounted coverage info in: ${tfile##*/}.dcov"
fi
mv /tmp/PID$$.disc ${name##*/}.dcov
done
fi
for x in *.gcov # merge any previous coverage file with this one
do
if [[ -e $x && -e $x- ]]
then
merge_cov $x $x- >/tmp/PID$$.mc
cp /tmp/PID$$.mc $x
rm $x-
fi
done
done
echo ""
echo "[INFO] final discount checks on merged gcov files"
show_all=1
for xx in *.gcov
do
if [[ $xx != *"test"* ]]
then
of=${xx%.gcov}.dcov
discount_an_checks $xx >$of
tail -1 $of | grep '\['
fi
done
state=0 # final state
rm -f /tmp/PID$$.*
if (( strict )) # fail if some coverage failed too
then
if (( errors + ut_errors ))
then
state=1
fi
else # not strict; fail only if unit tests themselves failed
if (( ut_errors ))
then
state=1
fi
fi
echo""
if (( state ))
then
echo "[FAIL] overall unit testing fails: coverage errors=$errors unit test errors=$ut_errors"
else
echo "[PASS] overall unit testing passes"
if (( gen_xml ))
then
mk_xml
fi
fi
exit $state