#!/bin/bash -u # Copyright 2018 Google Inc. # # 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. # ################################################################################ cd $OUT if (( $# > 0 )); then FUZZ_TARGETS="$@" else FUZZ_TARGETS="$(find . -maxdepth 1 -type f -executable -printf '%P\n')" fi DUMPS_DIR="$OUT/dumps" FUZZER_STATS_DIR="$OUT/fuzzer_stats" LOGS_DIR="$OUT/logs" REPORT_ROOT_DIR="$OUT/report" REPORT_PLATFORM_DIR="$OUT/report/linux" for directory in $DUMPS_DIR $FUZZER_STATS_DIR $LOGS_DIR $REPORT_ROOT_DIR \ $REPORT_PLATFORM_DIR; do rm -rf $directory mkdir -p $directory done PROFILE_FILE="$DUMPS_DIR/merged.profdata" SUMMARY_FILE="$REPORT_PLATFORM_DIR/summary.json" # Use path mapping, as $SRC directory from the builder is copied into $OUT/$SRC. PATH_EQUIVALENCE_ARGS="-path-equivalence=/,$OUT" # It's important to use $COVERAGE_EXTRA_ARGS as the last argument, because it # can contain paths to source files / directories which are positional args. LLVM_COV_COMMON_ARGS="$PATH_EQUIVALENCE_ARGS \ -ignore-filename-regex=.*src/libfuzzer/.* $COVERAGE_EXTRA_ARGS" # Timeout for running a single fuzz target. TIMEOUT=1h # This will be used by llvm-cov command to generate the actual report. objects="" # Number of CPUs available, this is needed for running tests in parallel. NPROC=$(nproc) function run_fuzz_target { local target=$1 # '%1m' will produce separate dump files for every object. For example, if a # fuzz target loads a shared library, we will have dumps for both of them. local profraw_file="$DUMPS_DIR/$target.%1m.profraw" local profraw_file_mask="$DUMPS_DIR/$target.*.profraw" local profdata_file="$DUMPS_DIR/$target.profdata" local corpus_real="/corpus/${target}" # -merge=1 requires an output directory, create a dummy dir for that. local corpus_dummy="$OUT/dummy_corpus_dir_for_${target}" rm -rf $corpus_dummy && mkdir -p $corpus_dummy # Use -merge=1 instead of -runs=0 because merge is crash resistant and would # let to get coverage using all corpus files even if there are crash inputs. # Merge should not introduce any significant overhead compared to -runs=0, # because (A) corpuses are already minimized; (B) we do not use sancov, and so # libFuzzer always finishes merge with an empty output dir. # Use 100s timeout instead of 25s as code coverage builds can be very slow. local args="-merge=1 -timeout=100 -close_fd_mask=3 $corpus_dummy $corpus_real" export LLVM_PROFILE_FILE=$profraw_file timeout $TIMEOUT $OUT/$target $args &> $LOGS_DIR/$target.log if (( $? != 0 )); then echo "Error occured while running $target:" cat $LOGS_DIR/$target.log fi rm -rf $corpus_dummy if (( $(du -c $profraw_file_mask | tail -n 1 | cut -f 1) == 0 )); then # Skip fuzz targets that failed to produce profile dumps. return 0 fi llvm-profdata merge -j=1 -sparse $profraw_file_mask -o $profdata_file # Delete unnecessary and (potentially) large .profraw files. rm $profraw_file_mask shared_libraries=$(coverage_helper shared_libs -build-dir=$OUT -object=$target) llvm-cov export -summary-only -instr-profile=$profdata_file -object=$target \ $shared_libraries $LLVM_COV_COMMON_ARGS > $FUZZER_STATS_DIR/$target.json } # Run each fuzz target, generate raw coverage dumps. for fuzz_target in $FUZZ_TARGETS; do # Continue if not a fuzz target. if [[ $FUZZING_ENGINE != "none" ]]; then grep "LLVMFuzzerTestOneInput" $fuzz_target > /dev/null 2>&1 || continue fi echo "Running $fuzz_target" run_fuzz_target $fuzz_target & if [[ -z $objects ]]; then # The first object needs to be passed without -object= flag. objects="$fuzz_target" else objects="$objects -object=$fuzz_target" fi # Do not spawn more processes than the number of CPUs available. n_child_proc=$(jobs -rp | wc -l) while [ "$n_child_proc" -eq "$NPROC" ]; do sleep 4 n_child_proc=$(jobs -rp | wc -l) done done # Wait for background processes to finish. wait # From this point on the script does not tolerate any errors. set -e # Merge all dumps from the individual targets. rm -f $PROFILE_FILE llvm-profdata merge -sparse $DUMPS_DIR/*.profdata -o $PROFILE_FILE # TODO(mmoroz): add script from Chromium for rendering directory view reports. # The first path in $objects does not have -object= prefix (llvm-cov format). shared_libraries=$(coverage_helper shared_libs -build-dir=$OUT -object=$objects) objects="$objects $shared_libraries" # It's important to use $LLVM_COV_COMMON_ARGS as the last argument due to # positional arguments (SOURCES) that can be passed via $COVERAGE_EXTRA_ARGS. LLVM_COV_ARGS="-instr-profile=$PROFILE_FILE $objects $LLVM_COV_COMMON_ARGS" # Generate HTML report. llvm-cov show -format=html -output-dir=$REPORT_ROOT_DIR \ -Xdemangler c++filt -Xdemangler -n $LLVM_COV_ARGS # Export coverage summary in JSON format. llvm-cov export -summary-only $LLVM_COV_ARGS > $SUMMARY_FILE # Post process HTML report. coverage_helper -v post_process -src-root-dir=/ -summary-file=$SUMMARY_FILE \ -output-dir=$REPORT_ROOT_DIR $PATH_EQUIVALENCE_ARGS if [[ -n $HTTP_PORT ]]; then # Serve the report locally. echo "Serving the report on http://127.0.0.1:$HTTP_PORT/linux/index.html" cd $REPORT_ROOT_DIR python3 -m http.server $HTTP_PORT fi