#! /bin/bash #set -x ######################################################################## # # File: reg-hunt # Author: Janis Johnson # Date: 2003/08/19 # # Search for the patch identifier for which results for a test changed, # using a binary search. The functionality for getting sources, # building the component to test, and running the test are in other # scripts that are run from here. Before the search begins, we verify # that we get the expected behavior for the first and last patch # identifiers. # # Define these in a file whose name is the argument to this script: # LOW_PATCH: Patch identifier. # HIGH_PATCH: Patch identifier. # REG_UPDATE: Pathname of script to update your source tree; returns # zero for success, nonzero for failure. # REG_BUILD: Pathname of script to build enough of the product to run # the test; returns zero for success, nonzero for failure. # REG_TEST: Pathname of script to run the test; returns 1 if we # should search later patches, 0 if we should search # earlier patches, and something else if there was an # unexpected failure. # Optional: # REG_REPORT Pathname of script to call at the end with the id of the # patch that caused the change in behavior. # REG_FINISH Pathname of script to call at the end with the two final # patch identifiers as arguments. # REG_NEWMID Pathname of script to call when a build has failed, with # arguments of the failed id and the current low and high # SKIP_LOW If 1, skip verifying the low patch identifier of the # range; define this only if you're restarting and have # already tested the low patch. # SKIP_HIGH If 1, skip verifying the high patch identifier of the # range; define this only if you're restarting and have # already tested the high patch. # FIRST_MID Use this as the first midpoint, to avoid a midpoint that # is known not to build. # VERBOSITY Default is 0, to print only errors and final message. # DATE_IN_MSG If set to anything but 0, include the time and date in # messages. # # # # Copyright (c) 2002, 2003, 2004, 2005, 2007 Free Software Foundation, Inc. # # This file is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program 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 General Public License for more details. # # For a copy of the GNU General Public License, write the the # Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, # Boston, MA 02111-1301, USA. # ######################################################################## ######################################################################## # Functions ######################################################################## # Issue a message if its verbosity level is high enough. msg() { test ${1} -gt ${VERBOSITY} && return if [ "x${DATE_IN_MSG}" = "x" ]; then echo "${2}" else echo "`date` ${2}" fi } # Issue an error message and exit with a non-zero status. If there # is a valid current range whose end points have been tested, report # it so the user can start again from there. error() { msg 0 "error: ${1}" test ${VALID_RANGE} -eq 1 && \ echo "current range:" echo "LOW_PATCH=${LATER_THAN}" echo "HIGH_PATCH=${EARLIER_THAN}" exit 1 } # Build the components to test using sources as of a particular patch # and run a test case. Pass each of the scripts the patch identifier # that we're testing; the first one needs it, the others can ignore it # if they want. process_patch () { TEST_ID=${1} # If we're keeping track of known failures, see if TEST_ID is one and # if so, don't bother updating sources and trying to build. FAILS=0 SKIP=0 if [ ${SKIP_FAILURES} -eq 1 ]; then ${REG_CHECKFAIL} ${TEST_ID} if [ $? -eq 0 ]; then msg 1 "skipping ${TEST_ID}; it is a known build failure" FAILS=1 SKIP=1 fi fi if [ ${FAILS} -eq 0 ]; then ${REG_UPDATE} ${TEST_ID} || error "source update failed for ${TEST_ID}" ${REG_BUILD} ${TEST_ID} if [ $? -ne 0 ]; then FAILS=1 msg 1 "build failed for ${TEST_ID}" if [ ${SKIP_FAILURES} -eq 1 ]; then ${REG_RECORDFAIL} ${TEST_ID} fi fi fi if [ ${FAILS} -eq 0 ]; then ${REG_TEST} ${TEST_ID} LATER=$? if [ $LATER -ne 0 -a $LATER -ne 1 ]; then msg 0 "unexpected test failure for ${TEST_ID}" exit 1 fi else # The build failed, or this patch is already known to fail to build. # If it's an endpoint, or if we don't have a way to recover from # build failures, quit now. if [ ${SKIP} -eq 0 ]; then if [ "x${REG_NEWMID}" == "x" \ -o ${TEST_ID} -eq ${LATER_THAN} \ -o ${TEST_ID} -eq ${EARLIER_THAN} ]; then error "build failed for ${TEST_ID}" fi fi # Try to find a new patch to try within the current range. FIRST_MID=`${REG_NEWMID} ${LATER_THAN} ${EARLIER_THAN}` if [ ${FIRST_MID} -eq 0 ]; then # The heuristics in the tool ran out of patches to try next; # let the user handle it from here.+ error "build failed for ${TEST_ID}, could not find new candidate" fi msg 1 "using ${FIRST_MID}, between ${LATER_THAN} and ${EARLIER_THAN}" fi # Return with a valid LATER value or a new ID to try in FIRST_MID. } # Get the number of a patch within the range. It's not actually the # middle one, but the one that might minimize the number of checks. get_mid_special() { LOW=$1 HIGH=$2 let DIFF=HIGH-LOW M=1 POWER2=1 while [ $POWER2 -lt $DIFF ] do let M=POWER2 let POWER2=POWER2*2 done let MID=LOW+M } # Get the number of the patch in the middle of the range. get_mid () { LOW=$1 HIGH=$2 let DIFF=HIGH-LOW let M=DIFF/2 let MID=LOW+M } # Perform a binary search on patch identifiers within the range # specified by the arguments. search_patches () { LOW=$1 HIGH=$2 # Get an identifier within the range. The user can override the # initial mid patch if it is known to have problems, e.g., if a # build fails for that patch. if [ ${FIRST_MID} -ne 0 ]; then MID=${FIRST_MID} FIRST_MID=0 let DIFF=HIGH-LOW else get_mid $LOW $HIGH fi while [ ${DIFF} -gt 1 ]; do TEST_ID="${MID}" # Test it. process_patch ${TEST_ID} # FIRST_MID being set is a signal that the build failed and we # should start over again. test ${FIRST_MID} -ne 0 && return # Narrow the search based on the outcome of testing TEST_ID. if [ ${LATER} -eq 1 ]; then msg 1 "search patches later than ${TEST_ID}" LATER_THAN=${TEST_ID} let LOW=MID else msg 1 "search patches earlier than ${TEST_ID}" EARLIER_THAN=${TEST_ID} let HIGH=MID fi get_mid $LOW $HIGH done } ######################################################################## # Main program (so to speak) ######################################################################## # The error function uses this. VALID_RANGE=0 # Process the configuration file. if [ $# != 1 ]; then echo Usage: $0 config_file exit 1 fi CONFIG=${1} if [ ! -f ${CONFIG} ]; then error "configuration file ${CONFIG} does not exist" fi # OK, the config file exists. Source it, make sure required parameters # are defined and their files exist, and give default values to optional # parameters. . ${CONFIG} test "x${REG_UPDATE}" = "x" && error "REG_UPDATE is not defined" test "x${REG_BUILD}" = "x" && error "REG_BUILD is not defined" test "x${REG_TEST}" = "x" && error "REG_TEST is not defined" test -x ${REG_TEST} || error "REG_TEST is not an executable file" test "x${SKIP_LOW}" = "x" && SKIP_LOW=0 test "x${SKIP_HIGH}" = "x" && SKIP_HIGH=0 test "x${VERBOSITY}" = "x" && VERBOSITY=0 test "x${REG_FINISH}" = "x" && REG_FINISH=true test "x${REG_REPORT}" = "x" && REG_REPORT=true msg 2 "LOW_PATCH = ${LOW_PATCH}" msg 2 "HIGH_PATCH = ${HIGH_PATCH}" msg 2 "REG_UPDATE = ${REG_UPDATE}" msg 2 "REG_BUILD = ${REG_BUILD}" msg 2 "REG_TEST = ${REG_TEST}" msg 2 "REG_NEWMID = ${REG_NEWMID}" msg 2 "SKIP_LOW = ${SKIP_LOW}" msg 2 "SKIP_HIGH = ${SKIP_HIGH}" msg 2 "FIRST_MID = ${FIRST_MID}" msg 2 "VERBOSITY = ${VERBOSITY}" # If REG_NEWMID was defined, assume that we're skipping known failures # and adding to the list for new failures. If the list of failures # doesn't exist, create it. We use a different flag, SKIP_FAILURES, # to make it easier to separate the flag from REG_NEWMID if we want # to change the usage later. if [ "x${REG_NEWMID}" != "x" ]; then touch ${REG_FAILLIST} SKIP_FAILURES=1 else SKIP_FAILURES=0 fi # If FIRST_MID was defined, make sure it's in the range. if [ "x${FIRST_MID}" != "x" ]; then test ${FIRST_MID} -le ${LOW_PATCH} && \ error "FIRST_MID id is lower than LOW_PATCH" test ${FIRST_MID} -ge ${HIGH_PATCH} && \ error "FIRST_MID is higher than HIGH_PATCH" else FIRST_MID=0 fi # Keep track of the bounds of the range where the test behavior changes. LATER_THAN=${LOW_PATCH} EARLIER_THAN=${HIGH_PATCH} LATER=1 msg 1 "LATER_THAN = ${LATER_THAN}" msg 1 "EARLIER_THAN = ${EARLIER_THAN}" # Verify that the range isn't backwards. test ${LOW_PATCH} -lt ${HIGH_PATCH} || \ error "patch identifier range is backwards" # Verify that the first and last patches in the range get the results we # expect. If not, quit, because any of several things could be wrong. if [ ${SKIP_HIGH} -eq 0 ]; then process_patch ${EARLIER_THAN} test ${LATER} -ne 0 && \ error "unexpected result for high patch ${EARLIER_THAN}" msg 1 "result for high patch ${EARLIER_THAN} is as expected" fi if [ ${SKIP_LOW} -eq 0 ]; then process_patch ${LATER_THAN} test ${LATER} -ne 1 && \ error "unexpected result for low patch ${LATER_THAN}" msg 1 "result for low patch ${LATER_THAN} is as expected" fi # Search within the range, now that we know that the end points are valid. # If the build failed then FIRST_MID is set to a new patch to try. VALID_RANGE=1 while true; do search_patches ${LATER_THAN} ${EARLIER_THAN} test ${FIRST_MID} -eq 0 && break done # Report where the test behavior changes. echo "Test result changes with id ${EARLIER_THAN}" ${REG_REPORT} ${EARLIER_THAN} # Invoke the optional script to verify the result and report additional # information about changes between the two patches. ${REG_FINISH} ${LATER_THAN} ${EARLIER_THAN}