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#!/bin/sh
# Copyright 2017 Google Inc.
#
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
if [ -z "$1" ]; then
cat <<-EOM
Usage:
$0 [afl-out-loc]
Run something like this:
$0 ~/afl-out
where afl-out is the directory containing all the output of the afl-fuzzers.
You can typically ssh into skia-fuzzer-be-1 and skia-fuzzer-be-2 and run
tar -czf afl-out.tar.gz /mnt/ssd0/fuzzes/afl-out/*/fuzzer0/queue
and extract it locally to get the directories needed to assess coverage.
EOM
exit 1
fi
set -x
set -e
cd "$(dirname "$0")/.."
EXECUTABLE="fuzz"
DIR="$(mktemp -d "${TMPDIR:-/tmp}/skia_coverage_XXXXXXXXXX")"
BUILD=out/coverage
# Build $EXECUTABLE
bin/sync
bin/fetch-gn
rm -rf $BUILD
#TODO: make this work with Clang.
ARGS='cc="gcc" cxx="g++" extra_cflags=["--coverage"] extra_ldflags=["--coverage"]'
gn gen --args="$ARGS" "$BUILD"
ninja -C "$BUILD" "$EXECUTABLE"
GCOV="$(realpath tools/gcov_shim)"
# Generate a zero-baseline so files not covered by $EXECUTABLE $@ will
# still show up in the report. This reads the .gcno files that are
# created at compile time.
lcov -q --gcov-tool="$GCOV" -c -b "$BUILD" -d "$BUILD" -o "$DIR"/baseline -i
# Running the binary generates the real coverage information, the .gcda files.
QUEUES=("$1/api_parse_path/fuzzer0/queue/*" "$1/color_deserialize/fuzzer0/queue/*" "$1/skcodec_scale/fuzzer0/queue/*" "$1/skcodec_mode/fuzzer0/queue/*" "$1/api_draw_functions/fuzzer0/queue/*" "$1/api_gradient/fuzzer0/queue/*" "$1/api_image_filter/fuzzer0/queue/*" "$1/api_pathop/fuzzer0/queue/*" "$1/sksl2glsl/fuzzer0/queue/*" "$1/null_canvas/fuzzer0/queue/*" "$1/pdf_canvas/fuzzer0/queue/*" "$1/n32_canvas/fuzzer0/queue/*")
ARGS=("-n ParsePath" "-t color_deserialize" "-t image_scale" "-t image_mode" "-n DrawFunctions" "-n Gradients" "-n SerializedImageFilter" "-n Pathop" "-t sksl2glsl" "-n NullCanvas" "-n PDFCanvas" "-n RasterN32Canvas")
# We can't simply pass the directories to the fuzzers because some of the fuzzes will
# crash or assert, which would kill the call to fuzz prematurely. Instead we run them
# individually using the loops below.
for i in `seq ${#QUEUES[@]}`
do
FILES=${QUEUES[i]}
for f in $FILES
do
# Executing the fuzzes sequentially would take a very long time. So, we run them
# in the background, making sure we don't go crazy and execute them too fast or
# that they execute for a long time.
timeout 10 $BUILD/$EXECUTABLE ${ARGS[i]} -b $f &
sleep .005s
done
done
sleep 10s
echo "done running the fuzzes -- generating report"
lcov -q --gcov-tool="$GCOV" -c -b "$BUILD" -d "$BUILD" -o "$DIR"/coverage
lcov -q -a "$DIR"/baseline -a "$DIR"/coverage -o "$DIR"/merged
genhtml -q "$DIR"/merged --legend -o "$DIR"/coverage_report --ignore-errors source
xdg-open "$DIR"/coverage_report/index.html
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