bolt/utils/bughunter.sh - llvm-project - Git at Google

 #!/bin/bash
 ##===- bolt/utils/bughunter.sh - Help locate BOLT bugs -------*- Script -*-===##
 #
 # Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 # See https://llvm.org/LICENSE.txt for license information.
 # SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 # details.
 #
 ##===----------------------------------------------------------------------===##
 #
 # This script attempts to narrow down llvm-bolt bug to a single function in the
 # input binary.
 #
 # If such a function is found, llvm-bolt could be run just on this function
 # to mitigate debugging process.
 #
 # The following envvars are used by this script:
 #
 #   BOLT              - path to llvm-bolt
 #
 #   BOLT_OPTIONS      - options to be used by llvm-bolt
 #
 #   INPUT_BINARY      - input for llvm-bolt
 #
 #   PRE_COMMAND       - command to execute prior to running optimized binary
 #
 #   POST_COMMAND      - command to filter results of running optimized binary
 #
 #   TIMEOUT_OR_CMD    - optional timeout or command on optimized binary command
 #                       if the value is a number with an optional trailing letter
 #                       [smhd] it is considered a paramter to "timeout",
 #                       otherwise it's a shell command that wraps the optimized
 #                       binary command.
 #
 #   COMMAND_LINE      - command line options to run optimized binary with
 #
 #   IGNORE_ERROR      - ignore error codes returned from optimized binary
 #
 #   GOLD_FILE         - file containing expected output from optimized binary
 #
 #   FUNC_NAMES        - if set, path to an initial list of function names to
 #                       search.  Otherwise, nm is used on the original binary.
 #
 #   OFFLINE           - if set, bughunter will produce the binaries but will not
 #                       run them, and will depend on you telling whether it
 #                       succeeded or not.
 #
 #   MAX_FUNCS         - if set, use -max-funcs to narrow down the offending
 #                       function.  if non-zero, start -max-funcs at $MAX_FUNCS
 #                       otherwise, count the number of symbols in the binary.
 #
 #   MAX_FUNCS_FLAG    - BOLT command line option to use for MAX_FUNCS search.
 #                       Default is -max-funcs.  Can also be used for relocation
 #                       debugging, e.g. -max-data-relocations.
 #
 #   VERBOSE           - if non-empty, set the script to echo mode.
 #
 ##===----------------------------------------------------------------------===##

 BOLT=${BOLT:=llvm-bolt}

 ulimit -c 0
 set -o pipefail

 if [[ -n "$VERBOSE" ]]; then
     set -x
 fi

 if [[ ! -x $INPUT_BINARY ]] ; then
     echo "INPUT_BINARY must be set to an executable file"
     exit 1
 fi

 if [[ -z "$PRE_COMMAND" ]] ; then
     PRE_COMMAND=':'
 fi

 if [[ -z "$POST_COMMAND" ]] ; then
     POST_COMMAND='cat'
 fi

 if [[ -n "$TIMEOUT_OR_CMD" && $TIMEOUT_OR_CMD =~ ^[0-9]+[smhd]?$ ]] ; then
     TIMEOUT_OR_CMD="timeout -s KILL $TIMEOUT_OR_CMD"
 fi

 if [[ -z "$MAX_FUNCS_FLAG" ]] ; then
     MAX_FUNCS_FLAG="-max-funcs"
 fi

 OPTIMIZED_BINARY=$(mktemp -t -u --suffix=.bolt $(basename ${INPUT_BINARY}).XXX)
 OUTPUT_FILE="${OPTIMIZED_BINARY}.out"
 BOLT_LOG=$(mktemp -t -u --suffix=.log boltXXX)

 if [[ -z $OFFLINE ]]; then
     echo "Verify input binary passes"
     echo "  INPUT_BINARY: $PRE_COMMAND && $TIMEOUT_OR_CMD $INPUT_BINARY $COMMAND_LINE |& $POST_COMMAND >& $OUTPUT_FILE"
     ($PRE_COMMAND && $TIMEOUT_OR_CMD $INPUT_BINARY $COMMAND_LINE |& $POST_COMMAND >& $OUTPUT_FILE)
     STATUS=$?
     if [[ "$IGNORE_ERROR" == "1" ]]; then
         FAIL=0
     else
         FAIL=$STATUS
     fi
     if [[ -e "$GOLD_FILE" ]] ; then
         cmp -s "$OUTPUT_FILE" "$GOLD_FILE"
         FAIL=$?
     fi
     if [[ $FAIL -ne "0" ]] ; then
         echo "  Warning: input binary failed"
     else
         echo "  Input binary passes."
     fi
 fi

 echo "Verify optimized binary fails"
 ($BOLT $BOLT_OPTIONS $INPUT_BINARY -o $OPTIMIZED_BINARY >& $BOLT_LOG)
 FAIL=$?
 if [[ $FAIL -eq "0" ]]; then
     if [[ -z $OFFLINE ]]; then
         echo "  OPTIMIZED_BINARY: $PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE |& $POST_COMMAND >& $OUTPUT_FILE"
         ($PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE |& $POST_COMMAND >& $OUTPUT_FILE)
         STATUS=$?
         if [[ "$IGNORE_ERROR" == "1" ]]; then
             FAIL=0
         else
             FAIL=$STATUS
         fi
         if [[ -e "$GOLD_FILE" ]] ; then
             cmp -s "$OUTPUT_FILE" "$GOLD_FILE"
             FAIL=$?
         fi
     else
         echo "Did it pass? Type the return code [0 = pass, 1 = fail]"
         read -n1 PASS
     fi
     if [[ $FAIL -eq "0" ]] ; then
         echo "  Warning: optimized binary passes."
     else
         echo "  Optimized binary fails as expected."
     fi
 else
     echo "  Bolt crashes while generating optimized binary."
 fi

 # Collect function names
 FF=$(mktemp -t -u --suffix=.txt func-names.XXX)
 nm --defined-only -p $INPUT_BINARY | grep " [TtWw] " | cut -d ' ' -f 3 | egrep -v "\._" | egrep -v '^$' | sort -u > $FF

 # Use function names or numbers
 if [[ -z "$MAX_FUNCS" ]] ; then
     # Do binary search on function names
     if [[ -n "$FUNC_NAMES" ]]; then
         FF=$FUNC_NAMES
     fi
     NUM_FUNCS=$(wc -l $FF | cut -d ' ' -f 1)
     HALF=$(expr \( $NUM_FUNCS + 1 \) / 2)
     PREFIX=$(mktemp -t -u --suffix=.txt func-names.XXX)
     FF0=$PREFIX\aa
     FF1=$PREFIX\ab
     split -a 2 -l $HALF $FF $PREFIX
     FF=$FF0
     NUM_FUNCS=$(wc -l $FF | cut -d ' ' -f 1)
     CONTINUE=$(expr $NUM_FUNCS \> 0)
 else
     P=0
     if [[ "$MAX_FUNCS" -eq "0" ]]; then
         Q=$(wc -l $FF | cut -d ' ' -f 1)
     else
         Q=$MAX_FUNCS
     fi
     I=$Q
     CONTINUE=$(expr \( $Q - $P \) \> 1)
 fi

 ITER=0
 while [[ "$CONTINUE" -ne "0" ]] ; do
     rm -f $OPTIMIZED_BINARY
     if [[ -z "$MAX_FUNCS" ]] ; then
         echo "Iteration $ITER, trying $FF / $HALF functions"
         SEARCH_OPT="-funcs-file-no-regex=$FF"
     else
         I=$(expr \( $Q + $P \) / 2)
         echo "Iteration $ITER, P=$P, Q=$Q, I=$I"
         SEARCH_OPT="$MAX_FUNCS_FLAG=$I"
     fi
     echo "  BOLT: $BOLT $BOLT_OPTIONS $INPUT_BINARY $SEARCH_OPT -o $OPTIMIZED_BINARY >& $BOLT_LOG"
     ($BOLT $BOLT_OPTIONS $INPUT_BINARY $SEARCH_OPT -o $OPTIMIZED_BINARY >& $BOLT_LOG)
     FAIL=$?
     echo "  BOLT failure=$FAIL"
     rm -f $OUTPUT_FILE
     if [[ $FAIL -eq "0" ]] ; then
         if [[ -z $OFFLINE ]]; then
             echo "  OPTIMIZED_BINARY: $PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE |& $POST_COMMAND >& $OUTPUT_FILE"
             ($PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE |& $POST_COMMAND >& $OUTPUT_FILE)
             STATUS=$?
             if [[ "$IGNORE_ERROR" == "1" ]]; then
                 FAIL=0
             else
                 FAIL=$STATUS
             fi
             if [[ -e "$GOLD_FILE" ]] ; then
                 cmp -s "$OUTPUT_FILE" "$GOLD_FILE"
                 FAIL=$?
             fi
             echo "  OPTIMIZED_BINARY failure=$FAIL"
         else
             echo "Did it pass? Type the return code [0 = pass, 1 = fail]"
             read -n1 PASS
         fi
     else
         FAIL=1
     fi

     if [[ -z "$MAX_FUNCS" ]] ; then
         if [[ $FAIL -eq "0" ]] ; then
             if [[ "$FF" == "$FF1" ]]; then
                 NUM_FUNCS=0
                 break;
             fi
             FF=$FF1
             NUM_FUNCS=$(wc -l $FF | cut -d ' ' -f 1)
         else
             HALF=$(expr \( $NUM_FUNCS + 1 \) / 2)
             PREFIX=$(mktemp -t -u --suffix=.txt func-names.XXX)
             split -a 2 -l $HALF $FF $PREFIX
             FF0=$PREFIX\aa
             FF1=$PREFIX\ab
             FF=$FF0
             NUM_FUNCS=$(wc -l $FF | cut -d ' ' -f 1)
             if [[ $NUM_FUNCS -eq "1" && ! -e $FF1 ]]; then
                 break;
             fi
         fi
         CONTINUE=$(expr $NUM_FUNCS \> 0)
     else
         if [[ $FAIL -eq "0" ]] ; then
             P=$I
         else
             Q=$I
         fi
         FF=$I
         HALF=$I
         CONTINUE=$(expr \( $Q - $P \) \> 1)
     fi
     ITER=$(expr $ITER + 1)
 done

 if [[ -z "$MAX_FUNCS" ]] ; then
     if [[ "$NUM_FUNCS" -ne "0" ]] ; then
         FAILED="The function(s) that failed are in $FF"
     fi
 else
     if [[ $P -ne $Q ]] ; then
         FF=$(grep "processing ending" $BOLT_LOG | sed -e "s/BOLT-INFO: processing ending on \(.*\)/\1/g" | tail -1)
         FAILED="The item that failed is $FF @ $Q"
     fi
 fi

 if [[ -n "$FAILED" ]] ; then
     echo "$FAILED"
     echo "To reproduce, run: $BOLT $BOLT_OPTIONS $INPUT_BINARY $SEARCH_OPT -o $OPTIMIZED_BINARY"
 else
     echo "Unable to reproduce bug."
 fi

 rm $OPTIMIZED_BINARY $OUTPUT_FILE $BOLT_LOG
	#!/bin/bash
	##===- bolt/utils/bughunter.sh - Help locate BOLT bugs -------- Script --===##
	#
	# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	# See https://llvm.org/LICENSE.txt for license information.
	# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	# details.
	#
	##===----------------------------------------------------------------------===##
	#
	# This script attempts to narrow down llvm-bolt bug to a single function in the
	# input binary.
	#
	# If such a function is found, llvm-bolt could be run just on this function
	# to mitigate debugging process.
	#
	# The following envvars are used by this script:
	#
	# BOLT - path to llvm-bolt
	#
	# BOLT_OPTIONS - options to be used by llvm-bolt
	#
	# INPUT_BINARY - input for llvm-bolt
	#
	# PRE_COMMAND - command to execute prior to running optimized binary
	#
	# POST_COMMAND - command to filter results of running optimized binary
	#
	# TIMEOUT_OR_CMD - optional timeout or command on optimized binary command
	# if the value is a number with an optional trailing letter
	# [smhd] it is considered a paramter to "timeout",
	# otherwise it's a shell command that wraps the optimized
	# binary command.
	#
	# COMMAND_LINE - command line options to run optimized binary with
	#
	# IGNORE_ERROR - ignore error codes returned from optimized binary
	#
	# GOLD_FILE - file containing expected output from optimized binary
	#
	# FUNC_NAMES - if set, path to an initial list of function names to
	# search. Otherwise, nm is used on the original binary.
	#
	# OFFLINE - if set, bughunter will produce the binaries but will not
	# run them, and will depend on you telling whether it
	# succeeded or not.
	#
	# MAX_FUNCS - if set, use -max-funcs to narrow down the offending
	# function. if non-zero, start -max-funcs at $MAX_FUNCS
	# otherwise, count the number of symbols in the binary.
	#
	# MAX_FUNCS_FLAG - BOLT command line option to use for MAX_FUNCS search.
	# Default is -max-funcs. Can also be used for relocation
	# debugging, e.g. -max-data-relocations.
	#
	# VERBOSE - if non-empty, set the script to echo mode.
	#
	##===----------------------------------------------------------------------===##

	BOLT=${BOLT:=llvm-bolt}

	ulimit -c 0
	set -o pipefail

	if [[ -n "$VERBOSE" ]]; then
	set -x
	fi

	if [[ ! -x $INPUT_BINARY ]] ; then
	echo "INPUT_BINARY must be set to an executable file"
	exit 1
	fi

	if [[ -z "$PRE_COMMAND" ]] ; then
	PRE_COMMAND=':'
	fi

	if [[ -z "$POST_COMMAND" ]] ; then
	POST_COMMAND='cat'
	fi

	if [[ -n "$TIMEOUT_OR_CMD" && $TIMEOUT_OR_CMD =~ ^[0-9]+[smhd]?$ ]] ; then
	TIMEOUT_OR_CMD="timeout -s KILL $TIMEOUT_OR_CMD"
	fi

	if [[ -z "$MAX_FUNCS_FLAG" ]] ; then
	MAX_FUNCS_FLAG="-max-funcs"
	fi

	OPTIMIZED_BINARY=$(mktemp -t -u --suffix=.bolt $(basename ${INPUT_BINARY}).XXX)
	OUTPUT_FILE="${OPTIMIZED_BINARY}.out"
	BOLT_LOG=$(mktemp -t -u --suffix=.log boltXXX)

	if [[ -z $OFFLINE ]]; then
	echo "Verify input binary passes"
	echo " INPUT_BINARY: $PRE_COMMAND && $TIMEOUT_OR_CMD $INPUT_BINARY $COMMAND_LINE \|& $POST_COMMAND >& $OUTPUT_FILE"
	($PRE_COMMAND && $TIMEOUT_OR_CMD $INPUT_BINARY $COMMAND_LINE \|& $POST_COMMAND >& $OUTPUT_FILE)
	STATUS=$?
	if [[ "$IGNORE_ERROR" == "1" ]]; then
	FAIL=0
	else
	FAIL=$STATUS
	fi
	if [[ -e "$GOLD_FILE" ]] ; then
	cmp -s "$OUTPUT_FILE" "$GOLD_FILE"
	FAIL=$?
	fi
	if [[ $FAIL -ne "0" ]] ; then
	echo " Warning: input binary failed"
	else
	echo " Input binary passes."
	fi
	fi

	echo "Verify optimized binary fails"
	($BOLT $BOLT_OPTIONS $INPUT_BINARY -o $OPTIMIZED_BINARY >& $BOLT_LOG)
	FAIL=$?
	if [[ $FAIL -eq "0" ]]; then
	if [[ -z $OFFLINE ]]; then
	echo " OPTIMIZED_BINARY: $PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE \|& $POST_COMMAND >& $OUTPUT_FILE"
	($PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE \|& $POST_COMMAND >& $OUTPUT_FILE)
	STATUS=$?
	if [[ "$IGNORE_ERROR" == "1" ]]; then
	FAIL=0
	else
	FAIL=$STATUS
	fi
	if [[ -e "$GOLD_FILE" ]] ; then
	cmp -s "$OUTPUT_FILE" "$GOLD_FILE"
	FAIL=$?
	fi
	else
	echo "Did it pass? Type the return code [0 = pass, 1 = fail]"
	read -n1 PASS
	fi
	if [[ $FAIL -eq "0" ]] ; then
	echo " Warning: optimized binary passes."
	else
	echo " Optimized binary fails as expected."
	fi
	else
	echo " Bolt crashes while generating optimized binary."
	fi

	# Collect function names
	FF=$(mktemp -t -u --suffix=.txt func-names.XXX)
	nm --defined-only -p $INPUT_BINARY \| grep " [TtWw] " \| cut -d ' ' -f 3 \| egrep -v "\._" \| egrep -v '^$' \| sort -u > $FF

	# Use function names or numbers
	if [[ -z "$MAX_FUNCS" ]] ; then
	# Do binary search on function names
	if [[ -n "$FUNC_NAMES" ]]; then
	FF=$FUNC_NAMES
	fi
	NUM_FUNCS=$(wc -l $FF \| cut -d ' ' -f 1)
	HALF=$(expr \( $NUM_FUNCS + 1 \) / 2)
	PREFIX=$(mktemp -t -u --suffix=.txt func-names.XXX)
	FF0=$PREFIX\aa
	FF1=$PREFIX\ab
	split -a 2 -l $HALF $FF $PREFIX
	FF=$FF0
	NUM_FUNCS=$(wc -l $FF \| cut -d ' ' -f 1)
	CONTINUE=$(expr $NUM_FUNCS \> 0)
	else
	P=0
	if [[ "$MAX_FUNCS" -eq "0" ]]; then
	Q=$(wc -l $FF \| cut -d ' ' -f 1)
	else
	Q=$MAX_FUNCS
	fi
	I=$Q
	CONTINUE=$(expr \( $Q - $P \) \> 1)
	fi

	ITER=0
	while [[ "$CONTINUE" -ne "0" ]] ; do
	rm -f $OPTIMIZED_BINARY
	if [[ -z "$MAX_FUNCS" ]] ; then
	echo "Iteration $ITER, trying $FF / $HALF functions"
	SEARCH_OPT="-funcs-file-no-regex=$FF"
	else
	I=$(expr \( $Q + $P \) / 2)
	echo "Iteration $ITER, P=$P, Q=$Q, I=$I"
	SEARCH_OPT="$MAX_FUNCS_FLAG=$I"
	fi
	echo " BOLT: $BOLT $BOLT_OPTIONS $INPUT_BINARY $SEARCH_OPT -o $OPTIMIZED_BINARY >& $BOLT_LOG"
	($BOLT $BOLT_OPTIONS $INPUT_BINARY $SEARCH_OPT -o $OPTIMIZED_BINARY >& $BOLT_LOG)
	FAIL=$?
	echo " BOLT failure=$FAIL"
	rm -f $OUTPUT_FILE
	if [[ $FAIL -eq "0" ]] ; then
	if [[ -z $OFFLINE ]]; then
	echo " OPTIMIZED_BINARY: $PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE \|& $POST_COMMAND >& $OUTPUT_FILE"
	($PRE_COMMAND && $TIMEOUT_OR_CMD $OPTIMIZED_BINARY $COMMAND_LINE \|& $POST_COMMAND >& $OUTPUT_FILE)
	STATUS=$?
	if [[ "$IGNORE_ERROR" == "1" ]]; then
	FAIL=0
	else
	FAIL=$STATUS
	fi
	if [[ -e "$GOLD_FILE" ]] ; then
	cmp -s "$OUTPUT_FILE" "$GOLD_FILE"
	FAIL=$?
	fi
	echo " OPTIMIZED_BINARY failure=$FAIL"
	else
	echo "Did it pass? Type the return code [0 = pass, 1 = fail]"
	read -n1 PASS
	fi
	else
	FAIL=1
	fi

	if [[ -z "$MAX_FUNCS" ]] ; then
	if [[ $FAIL -eq "0" ]] ; then
	if [[ "$FF" == "$FF1" ]]; then
	NUM_FUNCS=0
	break;
	fi
	FF=$FF1
	NUM_FUNCS=$(wc -l $FF \| cut -d ' ' -f 1)
	else
	HALF=$(expr \( $NUM_FUNCS + 1 \) / 2)
	PREFIX=$(mktemp -t -u --suffix=.txt func-names.XXX)
	split -a 2 -l $HALF $FF $PREFIX
	FF0=$PREFIX\aa
	FF1=$PREFIX\ab
	FF=$FF0
	NUM_FUNCS=$(wc -l $FF \| cut -d ' ' -f 1)
	if [[ $NUM_FUNCS -eq "1" && ! -e $FF1 ]]; then
	break;
	fi
	fi
	CONTINUE=$(expr $NUM_FUNCS \> 0)
	else
	if [[ $FAIL -eq "0" ]] ; then
	P=$I
	else
	Q=$I
	fi
	FF=$I
	HALF=$I
	CONTINUE=$(expr \( $Q - $P \) \> 1)
	fi
	ITER=$(expr $ITER + 1)
	done

	if [[ -z "$MAX_FUNCS" ]] ; then
	if [[ "$NUM_FUNCS" -ne "0" ]] ; then
	FAILED="The function(s) that failed are in $FF"
	fi
	else
	if [[ $P -ne $Q ]] ; then
	FF=$(grep "processing ending" $BOLT_LOG \| sed -e "s/BOLT-INFO: processing ending on \(.*\)/\1/g" \| tail -1)
	FAILED="The item that failed is $FF @ $Q"
	fi
	fi

	if [[ -n "$FAILED" ]] ; then
	echo "$FAILED"
	echo "To reproduce, run: $BOLT $BOLT_OPTIONS $INPUT_BINARY $SEARCH_OPT -o $OPTIMIZED_BINARY"
	else
	echo "Unable to reproduce bug."
	fi

	rm $OPTIMIZED_BINARY $OUTPUT_FILE $BOLT_LOG