#!/bin/bash set -e # Sonar code quality if ! [ -z ${SONAR+x} ]; then if ([ "${TRAVIS_REPO_SLUG}" != "open62541/open62541" ] || [ "${TRAVIS_PULL_REQUEST}" != "false" ] || [ "${TRAVIS_BRANCH}" != "master" ]); then echo "Skipping Sonarcloud on forks" # Skip on forks exit 0; fi git fetch --unshallow mkdir -p build && cd build build-wrapper-linux-x86-64 --out-dir ../bw-output cmake \ -DCMAKE_BUILD_TYPE=Debug \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_DISCOVERY=ON \ -DUA_ENABLE_DISCOVERY_MULTICAST=ON \ -DUA_ENABLE_ENCRYPTION .. \ && make -j cd .. sonar-scanner exit 0 fi # Docker build test if ! [ -z ${DOCKER+x} ]; then docker build -t open62541 . docker run -d -p 127.0.0.1:80:80 --name open62541 open62541 /bin/sh docker ps | grep -q open62541 # disabled since it randomly fails # docker ps | grep -q open62541 exit 0 fi # Cpplint checking if ! [ -z ${LINT+x} ]; then mkdir -p build cd build cmake .. make cpplint if [ $? -ne 0 ] ; then exit 1 ; fi exit 0 fi # Fuzzer build test if ! [ -z ${FUZZER+x} ]; then # Test the corpus generator and use new corpus for fuzz test ./tests/fuzz/generate_corpus.sh if [ $? -ne 0 ] ; then exit 1 ; fi cd build_fuzz make && make run_fuzzer if [ $? -ne 0 ] ; then exit 1 ; fi exit 0 fi # INSTALL build test if ! [ -z ${INSTALL+x} ]; then # Use make install to deploy files and then test if we can build an example based on the installed files mkdir -p build cd build cmake \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DUA_NAMESPACE_ZERO=FULL \ -DUA_ENABLE_AMALGAMATION=OFF \ -DCMAKE_INSTALL_PREFIX=$TRAVIS_BUILD_DIR/open62541_install .. make install if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf # Now create a simple CMake Project which uses the installed file mkdir compile && cd compile cat > CMakeLists.txt <<- EOM cmake_minimum_required(VERSION 2.8) project(install-test) find_package(open62541 REQUIRED COMPONENTS FullNamespace) add_executable(install-test-example ../examples/tutorial_server_firststeps.c) target_link_libraries(install-test-example open62541) EOM cmake \ -DCMAKE_PREFIX_PATH=$TRAVIS_BUILD_DIR/open62541_install . make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. rm -rf compile exit 0 fi if [ $ANALYZE = "true" ]; then echo "=== Running static code analysis ===" && echo -en 'travis_fold:start:script.analyze\\r' if ! case $CC in clang*) false;; esac; then mkdir -p build cd build scan-build-6.0 cmake \ -DUA_BUILD_EXAMPLES=ON \ -DUA_BUILD_UNIT_TESTS=ON .. scan-build-6.0 -enable-checker security.FloatLoopCounter \ -enable-checker security.insecureAPI.UncheckedReturn \ --status-bugs -v \ make -j cd .. && rm build -rf mkdir -p build cd build scan-build-6.0 cmake \ -DUA_ENABLE_PUBSUB=ON \ -DUA_ENABLE_PUBSUB_DELTAFRAMES=ON \ -DUA_ENABLE_PUBSUB_INFORMATIONMODEL=ON .. scan-build-6.0 -enable-checker security.FloatLoopCounter \ -enable-checker security.insecureAPI.UncheckedReturn \ --status-bugs -v \ make -j cd .. && rm build -rf mkdir -p build cd build scan-build-6.0 cmake \ -DUA_ENABLE_AMALGAMATION=OFF .. scan-build-6.0 -enable-checker security.FloatLoopCounter \ -enable-checker security.insecureAPI.UncheckedReturn \ --status-bugs -v \ make -j cd .. && rm build -rf else cppcheck --template "{file}({line}): {severity} ({id}): {message}" \ --enable=style --force --std=c++11 -j 8 \ --suppress=duplicateBranch \ --suppress=incorrectStringBooleanError \ --suppress=invalidscanf --inline-suppr \ -I include src plugins examples 2> cppcheck.txt if [ -s cppcheck.txt ]; then echo "====== CPPCHECK Static Analysis Errors ======" cat cppcheck.txt # flush output sleep 5 exit 1 fi fi echo -en 'travis_fold:end:script.analyze\\r' else echo -en "\r\n=== Building ===\r\n" echo -e "\r\n== Documentation and certificate build ==" && echo -en 'travis_fold:start:script.build.doc\\r' mkdir -p build cd build cmake \ -DCMAKE_BUILD_TYPE=Release \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_BUILD_SELFSIGNED_CERTIFICATE=ON .. make doc make doc_pdf make selfsigned cp -r doc ../../ cp -r doc_latex ../../ cp ./examples/server_cert.der ../../ cd .. && rm build -rf echo -en 'travis_fold:end:script.build.doc\\r' # cross compilation only with gcc if ! [ -z ${MINGW+x} ]; then echo -e "\r\n== Cross compile release build for MinGW 32 bit ==" && echo -en 'travis_fold:start:script.build.cross_mingw32\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DCMAKE_INSTALL_PREFIX=${TRAVIS_BUILD_DIR}/open62541-win32 \ -DCMAKE_TOOLCHAIN_FILE=../tools/cmake/Toolchain-mingw32.cmake \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_AMALGAMATION=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi make install if [ $? -ne 0 ] ; then exit 1 ; fi cd .. zip -r open62541-win32.zip ../doc_latex/open62541.pdf LICENSE AUTHORS README.md open62541-win32/* rm build -rf echo -en 'travis_fold:end:script.build.cross_mingw32\\r' echo -e "\r\n== Cross compile release build for MinGW 64 bit ==" && echo -en 'travis_fold:start:script.build.cross_mingw64\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DCMAKE_INSTALL_PREFIX=${TRAVIS_BUILD_DIR}/open62541-win64 \ -DCMAKE_TOOLCHAIN_FILE=../tools/cmake/Toolchain-mingw64.cmake \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_AMALGAMATION=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi make install if [ $? -ne 0 ] ; then exit 1 ; fi cd .. zip -r open62541-win64.zip ../doc_latex/open62541.pdf LICENSE AUTHORS README.md open62541-win64/* rm build -rf echo -en 'travis_fold:end:script.build.cross_mingw64\\r' echo -e "\r\n== Cross compile release build for 32-bit linux ==" && echo -en 'travis_fold:start:script.build.cross_linux\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DCMAKE_INSTALL_PREFIX=${TRAVIS_BUILD_DIR}/open62541-linux32 \ -DCMAKE_TOOLCHAIN_FILE=../tools/cmake/Toolchain-gcc-m32.cmake \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_AMALGAMATION=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi make install if [ $? -ne 0 ] ; then exit 1 ; fi cd .. tar -pczf open62541-linux32.tar.gz ../doc_latex/open62541.pdf LICENSE AUTHORS README.md open62541-linux32/* rm build -rf echo -en 'travis_fold:end:script.build.cross_linux\\r' echo -e "\r\n== Cross compile release build for RaspberryPi ==" && echo -en 'travis_fold:start:script.build.cross_raspi\\r' mkdir -p build && cd build git clone https://github.com/raspberrypi/tools export PATH=$PATH:./tools/arm-bcm2708/gcc-linaro-arm-linux-gnueabihf-raspbian-x64/bin/ cmake \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DCMAKE_INSTALL_PREFIX=${TRAVIS_BUILD_DIR}/open62541-raspberrypi \ -DCMAKE_TOOLCHAIN_FILE=../tools/cmake/Toolchain-rpi64.cmake \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_AMALGAMATION=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi make install if [ $? -ne 0 ] ; then exit 1 ; fi cd .. tar -pczf open62541-raspberrypi.tar.gz ../doc_latex/open62541.pdf LICENSE AUTHORS README.md open62541-raspberrypi/* rm build -rf echo -en 'travis_fold:end:script.build.cross_raspi\\r' fi echo -e "\r\n== Compile release build for 64-bit linux ==" && echo -en 'travis_fold:start:script.build.linux_64\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DCMAKE_INSTALL_PREFIX=${TRAVIS_BUILD_DIR}/open62541-linux64 \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_AMALGAMATION=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi make install if [ $? -ne 0 ] ; then exit 1 ; fi cd .. tar -pczf open62541-linux64.tar.gz ../doc_latex/open62541.pdf LICENSE AUTHORS README.md open62541-linux64/* rm build -rf echo -en 'travis_fold:end:script.build.linux_64\\r' echo -e "\r\n== Building the C++ example ==" && echo -en 'travis_fold:start:script.build.example\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DCMAKE_BUILD_TYPE=RelWithDebInfo \ -DCMAKE_INSTALL_PREFIX=${TRAVIS_BUILD_DIR}/open62541-linux64 \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=OFF \ -DUA_ENABLE_AMALGAMATION=ON .. make -j cp open62541.h ../.. # copy single file-release cp open62541.c ../.. # copy single file-release gcc -std=c99 -c open62541.c g++ ../examples/server.cpp -I./ open62541.o -lrt -o cpp-server if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.example\\r' echo "Compile as shared lib version" && echo -en 'travis_fold:start:script.build.shared_libs\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_AMALGAMATION=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.shared_libs\\r' echo "Compile as shared lib version with amalgamation" && echo -en 'travis_fold:start:script.build.shared_libs_amalgamate\\r' mkdir -p build && cd build cmake \ -DBUILD_SHARED_LIBS=ON \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=OFF \ -DUA_ENABLE_AMALGAMATION=ON .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.shared_libs_amalgamate\\r' if [ "$CC" != "tcc" ]; then echo -e "\r\n==Compile multithreaded version==" && echo -en 'travis_fold:start:script.build.multithread\\r' mkdir -p build && cd build cmake \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_MULTITHREADING=ON .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.multithread\\r' fi echo -e "\r\n== Compile with encryption ==" && echo -en 'travis_fold:start:script.build.encryption\\r' mkdir -p build && cd build cmake \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_ENCRYPTION=ON .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.encryption\\r' echo -e "\r\n== Compile without discovery version ==" && echo -en 'travis_fold:start:script.build.discovery\\r' mkdir -p build && cd build cmake \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_DISCOVERY=OFF \ -DUA_ENABLE_DISCOVERY_MULTICAST=OFF .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.discovery\\r' if [ "$CC" != "tcc" ]; then echo -e "\r\n== Compile multithreaded version with discovery ==" && echo -en 'travis_fold:start:script.build.multithread_discovery\\r' mkdir -p build && cd build cmake \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_ENABLE_DISCOVERY=ON \ -DUA_ENABLE_DISCOVERY_MULTICAST=ON \ -DUA_ENABLE_MULTITHREADING=ON .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.multithread_discovery\\r' fi echo -e "\r\n== Compile JSON encoding ==" && echo -en 'travis_fold:start:script.build.json\\r' mkdir -p build && cd build cmake \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_ENABLE_JSON_ENCODING=ON .. make -j if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.json\\r' echo -e "\r\n== Unit tests (full NS0) ==" && echo -en 'travis_fold:start:script.build.unit_test_ns0_full\\r' mkdir -p build && cd build # Valgrind cannot handle the full NS0 because the generated file is too big. Thus run NS0 full without valgrind cmake \ -DCMAKE_BUILD_TYPE=Debug \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_BUILD_UNIT_TESTS=ON \ -DUA_ENABLE_COVERAGE=OFF \ -DUA_ENABLE_DA=ON \ -DUA_ENABLE_DISCOVERY=ON \ -DUA_ENABLE_DISCOVERY_MULTICAST=ON \ -DUA_ENABLE_ENCRYPTION=ON \ -DUA_ENABLE_JSON_ENCODING=ON \ -DUA_ENABLE_PUBSUB=ON \ -DUA_ENABLE_PUBSUB_DELTAFRAMES=ON \ -DUA_ENABLE_PUBSUB_INFORMATIONMODEL=ON \ -DUA_ENABLE_SUBSCRIPTIONS=ON \ -DUA_ENABLE_SUBSCRIPTIONS_EVENTS=ON \ -DUA_ENABLE_UNIT_TESTS_MEMCHECK=OFF \ -DUA_NAMESPACE_ZERO=FULL .. make -j && make test ARGS="-V" if [ $? -ne 0 ] ; then exit 1 ; fi cd .. && rm build -rf echo -en 'travis_fold:end:script.build.unit_test_ns0_full\\r' if ! [ -z ${DEBIAN+x} ]; then echo -e "\r\n== Building the Debian package ==" && echo -en 'travis_fold:start:script.build.debian\\r' dpkg-buildpackage -b if [ $? -ne 0 ] ; then exit 1 ; fi cp ../open62541*.deb . # Copy for github release script cp ../open62541*.deb ../.. echo -en 'travis_fold:end:script.build.debian\\r' fi if [ "$CC" != "tcc" ]; then echo -e "\r\n== Unit tests (minimal NS0) ==" && echo -en 'travis_fold:start:script.build.unit_test_ns0_minimal\\r' mkdir -p build && cd build cmake \ -DCMAKE_BUILD_TYPE=Debug \ -DPYTHON_EXECUTABLE:FILEPATH=/usr/bin/$PYTHON \ -DUA_BUILD_EXAMPLES=ON \ -DUA_BUILD_UNIT_TESTS=ON \ -DUA_ENABLE_COVERAGE=ON \ -DUA_ENABLE_DA=ON \ -DUA_ENABLE_DISCOVERY=ON \ -DUA_ENABLE_DISCOVERY_MULTICAST=ON \ -DUA_ENABLE_ENCRYPTION=ON \ -DUA_ENABLE_PUBSUB=ON \ -DUA_ENABLE_PUBSUB_DELTAFRAMES=ON \ -DUA_ENABLE_PUBSUB_INFORMATIONMODEL=ON \ -DUA_ENABLE_UNIT_TESTS_MEMCHECK=ON .. make -j && make test ARGS="-V" if [ $? -ne 0 ] ; then exit 1 ; fi echo -en 'travis_fold:end:script.build.unit_test_ns0_minimal\\r' # only run coveralls on main repo and when MINGW=true # We only want to build coveralls once, so we just take the travis run where MINGW=true which is only enabled once echo -e "\r\n== -> Current repo: ${TRAVIS_REPO_SLUG} ==" if [ $MINGW = "true" ] && [ "${TRAVIS_REPO_SLUG}" = "open62541/open62541" ]; then echo -en "\r\n== Building codecov.io for ${TRAVIS_REPO_SLUG} ==" && echo -en 'travis_fold:start:script.build.codecov\\r' cd .. /bin/bash -c "bash <(curl -s https://codecov.io/bash)" if [ $? -ne 0 ] ; then exit 1 ; fi cd build echo -en 'travis_fold:end:script.build.codecov\\r' echo -en "\r\n== Building coveralls for ${TRAVIS_REPO_SLUG} ==" && echo -en 'travis_fold:start:script.build.coveralls\\r' coveralls -E '.*/build/CMakeFiles/.*' -E '.*/examples/.*' -E '.*/tests/.*' -E '.*\.h' -E '.*CMakeCXXCompilerId\.cpp' -E '.*CMakeCCompilerId\.c' -r ../ || true # ignore result since coveralls is unreachable from time to time echo -en 'travis_fold:end:script.build.coveralls\\r' fi cd .. && rm build -rf fi fi