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linux-next/scripts/coccicheck

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#!/bin/bash
# Linux kernel coccicheck
#
# Read Documentation/dev-tools/coccinelle.rst
#
# This script requires at least spatch
# version 1.0.0-rc11.
DIR="$(dirname $(readlink -f $0))/.."
SPATCH="`which ${SPATCH:=spatch}`"
if [ ! -x "$SPATCH" ]; then
echo 'spatch is part of the Coccinelle project and is available at http://coccinelle.lip6.fr/'
exit 1
fi
SPATCH_VERSION=$($SPATCH --version | head -1 | awk '{print $3}')
SPATCH_VERSION_NUM=$(echo $SPATCH_VERSION | ${DIR}/scripts/ld-version.sh)
coccicheck: enable parmap support Coccinelle has had parmap support since 1.0.2, this means it supports --jobs, enabling built-in multithreaded functionality, instead of needing one to script it out. Just look for --jobs in the help output to determine if this is supported and use it only if your number of processors detected is > 1. If parmap is enabled also enable the load balancing to be dynamic, so that if a thread finishes early we keep feeding it. stderr is currently sent to /dev/null, addressing a way to capture that will be addressed next. If --jobs is not supported we fallback to the old mechanism. We expect to deprecate the old mechanism as soon as we can get confirmation all users are ready. While at it propagate back into the shell script any coccinelle error code. When used in serialized mode where all cocci files are run this also stops processing if an error has occured. This lets us handle some errors in coccinelle cocci files and if they bail out we should inspect the errors. This will be more useful later to help annotate coccinelle version dependency requirements. This will let you run only SmPL files that your system supports. Extend Documentation/coccinelle.txt as well. As a small example, prior to this change, on an 8-core system: Before: $ export COCCI=scripts/coccinelle/free/kfree.cocci $ time make coccicheck MODE=report ... real 29m14.912s user 103m1.796s sys 0m4.464s After: real 16m22.435s user 128m30.060s sys 0m2.712s v4: o expand Documentation/coccinelle.txt to reflect parmap support info o update commit log to reflect what we actually do now with stderr o split out DEBUG_FILE use into another patch o detect number of CPUs and if its 1 then skip parmap support, note that if you still support parmap, but have 1 CPU you will also go through the new branches, so the old complex multithreaded process is skipped as well. v3: o move USE_JOBS to avoid being overriden v2: o redirect coccinelle stderr to /dev/null by default and only if DEBUG_FILE is used do we pass it to a file o fix typo of paramap/parmap Signed-off-by: Luis R. Rodriguez <mcgrof@kernel.org> Acked-by: Nicolas Palix <nicolas.palix@imag.fr> Signed-off-by: Michal Marek <mmarek@suse.com>
2016-06-30 06:14:53 +08:00
USE_JOBS="no"
$SPATCH --help | grep "\-\-jobs" > /dev/null && USE_JOBS="yes"
# The verbosity may be set by the environmental parameter V=
# as for example with 'make V=1 coccicheck'
if [ -n "$V" -a "$V" != "0" ]; then
VERBOSE="$V"
else
VERBOSE=0
fi
if [ -z "$J" ]; then
NPROC=$(getconf _NPROCESSORS_ONLN)
else
NPROC="$J"
fi
FLAGS="--very-quiet"
# You can use SPFLAGS to append extra arguments to coccicheck or override any
# heuristics done in this file as Coccinelle accepts the last options when
# options conflict.
#
# A good example for use of SPFLAGS is if you want to debug your cocci script,
# you can for instance use the following:
#
# $ export COCCI=scripts/coccinelle/misc/irqf_oneshot.cocci
# $ make coccicheck MODE=report DEBUG_FILE="all.err" SPFLAGS="--profile --show-trying" M=./drivers/mfd/arizona-irq.c
#
# "--show-trying" should show you what rule is being processed as it goes to
# stdout, you do not need a debug file for that. The profile output will be
# be sent to stdout, if you provide a DEBUG_FILE the profiling data can be
# inspected there.
#
# --profile will not output if --very-quiet is used, so avoid it.
echo $SPFLAGS | egrep -e "--profile|--show-trying" 2>&1 > /dev/null
if [ $? -eq 0 ]; then
FLAGS="--quiet"
fi
# spatch only allows include directories with the syntax "-I include"
# while gcc also allows "-Iinclude" and "-include include"
COCCIINCLUDE=${LINUXINCLUDE//-I/-I }
COCCIINCLUDE=${COCCIINCLUDE// -include/ --include}
if [ "$C" = "1" -o "$C" = "2" ]; then
ONLINE=1
# Take only the last argument, which is the C file to test
shift $(( $# - 1 ))
OPTIONS="$COCCIINCLUDE $1"
else
ONLINE=0
if [ "$KBUILD_EXTMOD" = "" ] ; then
OPTIONS="--dir $srctree $COCCIINCLUDE"
else
OPTIONS="--dir $KBUILD_EXTMOD $COCCIINCLUDE"
fi
fi
if [ "$KBUILD_EXTMOD" != "" ] ; then
OPTIONS="--patch $srctree $OPTIONS"
fi
coccicheck: enable parmap support Coccinelle has had parmap support since 1.0.2, this means it supports --jobs, enabling built-in multithreaded functionality, instead of needing one to script it out. Just look for --jobs in the help output to determine if this is supported and use it only if your number of processors detected is > 1. If parmap is enabled also enable the load balancing to be dynamic, so that if a thread finishes early we keep feeding it. stderr is currently sent to /dev/null, addressing a way to capture that will be addressed next. If --jobs is not supported we fallback to the old mechanism. We expect to deprecate the old mechanism as soon as we can get confirmation all users are ready. While at it propagate back into the shell script any coccinelle error code. When used in serialized mode where all cocci files are run this also stops processing if an error has occured. This lets us handle some errors in coccinelle cocci files and if they bail out we should inspect the errors. This will be more useful later to help annotate coccinelle version dependency requirements. This will let you run only SmPL files that your system supports. Extend Documentation/coccinelle.txt as well. As a small example, prior to this change, on an 8-core system: Before: $ export COCCI=scripts/coccinelle/free/kfree.cocci $ time make coccicheck MODE=report ... real 29m14.912s user 103m1.796s sys 0m4.464s After: real 16m22.435s user 128m30.060s sys 0m2.712s v4: o expand Documentation/coccinelle.txt to reflect parmap support info o update commit log to reflect what we actually do now with stderr o split out DEBUG_FILE use into another patch o detect number of CPUs and if its 1 then skip parmap support, note that if you still support parmap, but have 1 CPU you will also go through the new branches, so the old complex multithreaded process is skipped as well. v3: o move USE_JOBS to avoid being overriden v2: o redirect coccinelle stderr to /dev/null by default and only if DEBUG_FILE is used do we pass it to a file o fix typo of paramap/parmap Signed-off-by: Luis R. Rodriguez <mcgrof@kernel.org> Acked-by: Nicolas Palix <nicolas.palix@imag.fr> Signed-off-by: Michal Marek <mmarek@suse.com>
2016-06-30 06:14:53 +08:00
# You can override by using SPFLAGS
if [ "$USE_JOBS" = "no" ]; then
trap kill_running SIGTERM SIGINT
declare -a SPATCH_PID
elif [ "$NPROC" != "1" ]; then
# Using 0 should work as well, refer to _SC_NPROCESSORS_ONLN use on
# https://github.com/rdicosmo/parmap/blob/master/setcore_stubs.c
OPTIONS="$OPTIONS --jobs $NPROC --chunksize 1"
fi
if [ "$MODE" = "" ] ; then
if [ "$ONLINE" = "0" ] ; then
echo 'You have not explicitly specified the mode to use. Using default "report" mode.'
echo 'Available modes are the following: patch, report, context, org'
echo 'You can specify the mode with "make coccicheck MODE=<mode>"'
echo 'Note however that some modes are not implemented by some semantic patches.'
fi
MODE="report"
fi
if [ "$MODE" = "chain" ] ; then
if [ "$ONLINE" = "0" ] ; then
echo 'You have selected the "chain" mode.'
echo 'All available modes will be tried (in that order): patch, report, context, org'
fi
elif [ "$MODE" = "report" -o "$MODE" = "org" ] ; then
FLAGS="--no-show-diff $FLAGS"
fi
if [ "$ONLINE" = "0" ] ; then
echo ''
echo 'Please check for false positives in the output before submitting a patch.'
echo 'When using "patch" mode, carefully review the patch before submitting it.'
echo ''
fi
coccicheck: enable parmap support Coccinelle has had parmap support since 1.0.2, this means it supports --jobs, enabling built-in multithreaded functionality, instead of needing one to script it out. Just look for --jobs in the help output to determine if this is supported and use it only if your number of processors detected is > 1. If parmap is enabled also enable the load balancing to be dynamic, so that if a thread finishes early we keep feeding it. stderr is currently sent to /dev/null, addressing a way to capture that will be addressed next. If --jobs is not supported we fallback to the old mechanism. We expect to deprecate the old mechanism as soon as we can get confirmation all users are ready. While at it propagate back into the shell script any coccinelle error code. When used in serialized mode where all cocci files are run this also stops processing if an error has occured. This lets us handle some errors in coccinelle cocci files and if they bail out we should inspect the errors. This will be more useful later to help annotate coccinelle version dependency requirements. This will let you run only SmPL files that your system supports. Extend Documentation/coccinelle.txt as well. As a small example, prior to this change, on an 8-core system: Before: $ export COCCI=scripts/coccinelle/free/kfree.cocci $ time make coccicheck MODE=report ... real 29m14.912s user 103m1.796s sys 0m4.464s After: real 16m22.435s user 128m30.060s sys 0m2.712s v4: o expand Documentation/coccinelle.txt to reflect parmap support info o update commit log to reflect what we actually do now with stderr o split out DEBUG_FILE use into another patch o detect number of CPUs and if its 1 then skip parmap support, note that if you still support parmap, but have 1 CPU you will also go through the new branches, so the old complex multithreaded process is skipped as well. v3: o move USE_JOBS to avoid being overriden v2: o redirect coccinelle stderr to /dev/null by default and only if DEBUG_FILE is used do we pass it to a file o fix typo of paramap/parmap Signed-off-by: Luis R. Rodriguez <mcgrof@kernel.org> Acked-by: Nicolas Palix <nicolas.palix@imag.fr> Signed-off-by: Michal Marek <mmarek@suse.com>
2016-06-30 06:14:53 +08:00
run_cmd_parmap() {
if [ $VERBOSE -ne 0 ] ; then
echo "Running ($NPROC in parallel): $@"
fi
if [ "$DEBUG_FILE" != "/dev/null" -a "$DEBUG_FILE" != "" ]; then
if [ -f $DEBUG_FILE ]; then
echo "Debug file $DEBUG_FILE exists, bailing"
exit
fi
else
DEBUG_FILE="/dev/null"
fi
$@ 2>$DEBUG_FILE
coccicheck: enable parmap support Coccinelle has had parmap support since 1.0.2, this means it supports --jobs, enabling built-in multithreaded functionality, instead of needing one to script it out. Just look for --jobs in the help output to determine if this is supported and use it only if your number of processors detected is > 1. If parmap is enabled also enable the load balancing to be dynamic, so that if a thread finishes early we keep feeding it. stderr is currently sent to /dev/null, addressing a way to capture that will be addressed next. If --jobs is not supported we fallback to the old mechanism. We expect to deprecate the old mechanism as soon as we can get confirmation all users are ready. While at it propagate back into the shell script any coccinelle error code. When used in serialized mode where all cocci files are run this also stops processing if an error has occured. This lets us handle some errors in coccinelle cocci files and if they bail out we should inspect the errors. This will be more useful later to help annotate coccinelle version dependency requirements. This will let you run only SmPL files that your system supports. Extend Documentation/coccinelle.txt as well. As a small example, prior to this change, on an 8-core system: Before: $ export COCCI=scripts/coccinelle/free/kfree.cocci $ time make coccicheck MODE=report ... real 29m14.912s user 103m1.796s sys 0m4.464s After: real 16m22.435s user 128m30.060s sys 0m2.712s v4: o expand Documentation/coccinelle.txt to reflect parmap support info o update commit log to reflect what we actually do now with stderr o split out DEBUG_FILE use into another patch o detect number of CPUs and if its 1 then skip parmap support, note that if you still support parmap, but have 1 CPU you will also go through the new branches, so the old complex multithreaded process is skipped as well. v3: o move USE_JOBS to avoid being overriden v2: o redirect coccinelle stderr to /dev/null by default and only if DEBUG_FILE is used do we pass it to a file o fix typo of paramap/parmap Signed-off-by: Luis R. Rodriguez <mcgrof@kernel.org> Acked-by: Nicolas Palix <nicolas.palix@imag.fr> Signed-off-by: Michal Marek <mmarek@suse.com>
2016-06-30 06:14:53 +08:00
if [[ $? -ne 0 ]]; then
echo "coccicheck failed"
exit $?
fi
}
run_cmd_old() {
local i
if [ $VERBOSE -ne 0 ] ; then
echo "Running ($NPROC in parallel): $@"
fi
for i in $(seq 0 $(( NPROC - 1)) ); do
eval "$@ --max $NPROC --index $i &"
SPATCH_PID[$i]=$!
if [ $VERBOSE -eq 2 ] ; then
echo "${SPATCH_PID[$i]} running"
fi
done
wait
}
coccicheck: enable parmap support Coccinelle has had parmap support since 1.0.2, this means it supports --jobs, enabling built-in multithreaded functionality, instead of needing one to script it out. Just look for --jobs in the help output to determine if this is supported and use it only if your number of processors detected is > 1. If parmap is enabled also enable the load balancing to be dynamic, so that if a thread finishes early we keep feeding it. stderr is currently sent to /dev/null, addressing a way to capture that will be addressed next. If --jobs is not supported we fallback to the old mechanism. We expect to deprecate the old mechanism as soon as we can get confirmation all users are ready. While at it propagate back into the shell script any coccinelle error code. When used in serialized mode where all cocci files are run this also stops processing if an error has occured. This lets us handle some errors in coccinelle cocci files and if they bail out we should inspect the errors. This will be more useful later to help annotate coccinelle version dependency requirements. This will let you run only SmPL files that your system supports. Extend Documentation/coccinelle.txt as well. As a small example, prior to this change, on an 8-core system: Before: $ export COCCI=scripts/coccinelle/free/kfree.cocci $ time make coccicheck MODE=report ... real 29m14.912s user 103m1.796s sys 0m4.464s After: real 16m22.435s user 128m30.060s sys 0m2.712s v4: o expand Documentation/coccinelle.txt to reflect parmap support info o update commit log to reflect what we actually do now with stderr o split out DEBUG_FILE use into another patch o detect number of CPUs and if its 1 then skip parmap support, note that if you still support parmap, but have 1 CPU you will also go through the new branches, so the old complex multithreaded process is skipped as well. v3: o move USE_JOBS to avoid being overriden v2: o redirect coccinelle stderr to /dev/null by default and only if DEBUG_FILE is used do we pass it to a file o fix typo of paramap/parmap Signed-off-by: Luis R. Rodriguez <mcgrof@kernel.org> Acked-by: Nicolas Palix <nicolas.palix@imag.fr> Signed-off-by: Michal Marek <mmarek@suse.com>
2016-06-30 06:14:53 +08:00
run_cmd() {
if [ "$USE_JOBS" = "yes" ]; then
run_cmd_parmap $@
else
run_cmd_old $@
fi
}
kill_running() {
for i in $(seq 0 $(( NPROC - 1 )) ); do
if [ $VERBOSE -eq 2 ] ; then
echo "Killing ${SPATCH_PID[$i]}"
fi
kill ${SPATCH_PID[$i]} 2>/dev/null
done
}
# You can override heuristics with SPFLAGS, these must always go last
OPTIONS="$OPTIONS $SPFLAGS"
coccinelle () {
COCCI="$1"
OPT=`grep "Option" $COCCI | cut -d':' -f2`
REQ=`grep "Requires" $COCCI | cut -d':' -f2 | sed "s| ||"`
REQ_NUM=$(echo $REQ | ${DIR}/scripts/ld-version.sh)
if [ "$REQ_NUM" != "0" ] ; then
if [ "$SPATCH_VERSION_NUM" -lt "$REQ_NUM" ] ; then
echo "Skipping coccinele SmPL patch: $COCCI"
echo "You have coccinelle: $SPATCH_VERSION"
echo "This SmPL patch requires: $REQ"
return
fi
fi
# The option '--parse-cocci' can be used to syntactically check the SmPL files.
#
# $SPATCH -D $MODE $FLAGS -parse_cocci $COCCI $OPT > /dev/null
if [ $VERBOSE -ne 0 -a $ONLINE -eq 0 ] ; then
FILE=`echo $COCCI | sed "s|$srctree/||"`
echo "Processing `basename $COCCI`"
echo "with option(s) \"$OPT\""
echo ''
echo 'Message example to submit a patch:'
sed -ne 's|^///||p' $COCCI
if [ "$MODE" = "patch" ] ; then
echo ' The semantic patch that makes this change is available'
elif [ "$MODE" = "report" ] ; then
echo ' The semantic patch that makes this report is available'
elif [ "$MODE" = "context" ] ; then
echo ' The semantic patch that spots this code is available'
elif [ "$MODE" = "org" ] ; then
echo ' The semantic patch that makes this Org report is available'
else
echo ' The semantic patch that makes this output is available'
fi
echo " in $FILE."
echo ''
echo ' More information about semantic patching is available at'
echo ' http://coccinelle.lip6.fr/'
echo ''
if [ "`sed -ne 's|^//#||p' $COCCI`" ] ; then
echo 'Semantic patch information:'
sed -ne 's|^//#||p' $COCCI
echo ''
fi
fi
if [ "$MODE" = "chain" ] ; then
run_cmd $SPATCH -D patch \
$FLAGS --cocci-file $COCCI $OPT $OPTIONS || \
run_cmd $SPATCH -D report \
$FLAGS --cocci-file $COCCI $OPT $OPTIONS --no-show-diff || \
run_cmd $SPATCH -D context \
$FLAGS --cocci-file $COCCI $OPT $OPTIONS || \
run_cmd $SPATCH -D org \
$FLAGS --cocci-file $COCCI $OPT $OPTIONS --no-show-diff || exit 1
elif [ "$MODE" = "rep+ctxt" ] ; then
run_cmd $SPATCH -D report \
$FLAGS --cocci-file $COCCI $OPT $OPTIONS --no-show-diff && \
run_cmd $SPATCH -D context \
$FLAGS --cocci-file $COCCI $OPT $OPTIONS || exit 1
else
run_cmd $SPATCH -D $MODE $FLAGS --cocci-file $COCCI $OPT $OPTIONS || exit 1
fi
}
if [ "$COCCI" = "" ] ; then
for f in `find $srctree/scripts/coccinelle/ -name '*.cocci' -type f | sort`; do
coccinelle $f
done
else
coccinelle $COCCI
fi