Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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#!/bin/bash
#
# Build and runs tests for the protobuf project. The tests as written here are
# used by both Jenkins and Travis, though some specialized logic is required to
# handle the differences between them.
on_travis() {
if [ "$TRAVIS" == "true" ]; then
"$@"
fi
}
# For when some other test needs the C++ main build, including protoc and
# libprotobuf.
internal_build_cpp() {
if [ -f src/protoc ]; then
# Already built.
return
fi
if [[ $(uname -s) == "Linux" && "$TRAVIS" == "true" ]]; then
# Install GCC 4.8 to replace the default GCC 4.6. We need 4.8 for more
# decent C++ 11 support in order to compile conformance tests.
sudo add-apt-repository ppa:ubuntu-toolchain-r/test -y
sudo apt-get update -qq
sudo apt-get install -qq g++-4.8
export CXX="g++-4.8" CC="gcc-4.8"
fi
./autogen.sh
./configure
make -j2
}
build_cpp() {
internal_build_cpp
make check -j2
cd conformance && make test_cpp && cd ..
# Verify benchmarking code can build successfully.
cd benchmarks && make && ./generate-datasets && cd ..
}
build_cpp_distcheck() {
./autogen.sh
./configure
make dist
# List all files that should be included in the distribution package.
git ls-files | grep "^\(java\|python\|objectivec\|csharp\|js\|ruby\|cmake\|examples\)" |\
grep -v ".gitignore" | grep -v "java/compatibility_tests" > dist.lst
# Unzip the dist tar file.
DIST=`ls *.tar.gz`
tar -xf $DIST
cd ${DIST//.tar.gz}
# Check if every file exists in the dist tar file.
FILES_MISSING=""
for FILE in $(<../dist.lst); do
if ! file $FILE &>/dev/null; then
echo "$FILE is not found!"
FILES_MISSING="$FILE $FILES_MISSING"
fi
done
cd ..
if [ ! -z "$FILES_MISSING" ]; then
echo "Missing files in EXTRA_DIST: $FILES_MISSING"
exit 1
fi
# Do the regular dist-check for C++.
make distcheck -j2
}
build_csharp() {
# Just for the conformance tests. We don't currently
# need to really build protoc, but it's simplest to keep with the
# conventions of the other builds.
internal_build_cpp
NUGET=/usr/local/bin/nuget.exe
if [ "$TRAVIS" == "true" ]; then
# Install latest version of Mono
sudo apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 3FA7E0328081BFF6A14DA29AA6A19B38D3D831EF
sudo apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 1397BC53640DB551
echo "deb http://download.mono-project.com/repo/debian wheezy main" | sudo tee /etc/apt/sources.list.d/mono-xamarin.list
sudo apt-get update -qq
sudo apt-get install -qq mono-devel referenceassemblies-pcl nunit
# Then install the dotnet SDK as per Ubuntu 14.04 instructions on dot.net.
sudo sh -c 'echo "deb [arch=amd64] https://apt-mo.trafficmanager.net/repos/dotnet-release/ trusty main" > /etc/apt/sources.list.d/dotnetdev.list'
sudo apt-key adv --keyserver apt-mo.trafficmanager.net --recv-keys 417A0893
sudo apt-get update -qq
sudo apt-get install -qq dotnet-dev-1.0.0-preview2-003121
fi
# Perform "dotnet new" once to get the setup preprocessing out of the
# way. That spews a lot of output (including backspaces) into logs
# otherwise, and can cause problems. It doesn't matter if this step
# is performed multiple times; it's cheap after the first time anyway.
mkdir dotnettmp
(cd dotnettmp; dotnet new > /dev/null)
rm -rf dotnettmp
(cd csharp/src; dotnet restore)
csharp/buildall.sh
cd conformance && make test_csharp && cd ..
}
build_golang() {
# Go build needs `protoc`.
internal_build_cpp
# Add protoc to the path so that the examples build finds it.
export PATH="`pwd`/src:$PATH"
# Install Go and the Go protobuf compiler plugin.
on_travis sudo apt-get update -qq
on_travis sudo apt-get install -qq golang
export GOPATH="$HOME/gocode"
mkdir -p "$GOPATH/src/github.com/google"
rm -f "$GOPATH/src/github.com/google/protobuf"
ln -s "`pwd`" "$GOPATH/src/github.com/google/protobuf"
export PATH="$GOPATH/bin:$PATH"
go get github.com/golang/protobuf/protoc-gen-go
cd examples && make gotest && cd ..
}
use_java() {
version=$1
case "$version" in
jdk7)
on_travis sudo apt-get install openjdk-7-jdk
export PATH=/usr/lib/jvm/java-7-openjdk-amd64/bin:$PATH
export JAVA_HOME=/usr/lib/jvm/java-7-openjdk-amd64
;;
oracle7)
if [ "$TRAVIS" == "true" ]; then
sudo apt-get install python-software-properties # for apt-add-repository
echo "oracle-java7-installer shared/accepted-oracle-license-v1-1 select true" | \
sudo debconf-set-selections
yes | sudo apt-add-repository ppa:webupd8team/java
yes | sudo apt-get install oracle-java7-installer
fi;
export PATH=/usr/lib/jvm/java-7-oracle/bin:$PATH
export JAVA_HOME=/usr/lib/jvm/java-7-openjdk-amd64
;;
esac
if [ "$TRAVIS" != "true" ]; then
MAVEN_LOCAL_REPOSITORY=/var/maven_local_repository
MVN="$MVN -e -X --offline -Dmaven.repo.local=$MAVEN_LOCAL_REPOSITORY"
fi;
which java
java -version
$MVN -version
}
# --batch-mode supresses download progress output that spams the logs.
MVN="mvn --batch-mode"
build_java() {
version=$1
dir=java_$version
# Java build needs `protoc`.
internal_build_cpp
cp -r java $dir
cd $dir && $MVN clean && $MVN test
cd ../..
}
# The conformance tests are hard-coded to work with the $ROOT/java directory.
# So this can't run in parallel with two different sets of tests.
build_java_with_conformance_tests() {
# Java build needs `protoc`.
internal_build_cpp
cd java && $MVN test && $MVN install
cd util && $MVN package assembly:single
cd ../..
cd conformance && make test_java && cd ..
}
build_javanano() {
# Java build needs `protoc`.
internal_build_cpp
cd javanano && $MVN test && cd ..
}
build_java_jdk7() {
use_java jdk7
build_java_with_conformance_tests
}
build_java_oracle7() {
use_java oracle7
build_java oracle7
}
build_java_compatibility() {
use_java jdk7
internal_build_cpp
# Use the unit-tests extraced from 2.5.0 to test the compatibilty between
# 3.0.0-beta-4 and the current version.
cd java/compatibility_tests/v2.5.0
./test.sh 3.0.0-beta-4
}
build_javanano_jdk7() {
use_java jdk7
build_javanano
}
build_javanano_oracle7() {
use_java oracle7
build_javanano
}
internal_install_python_deps() {
if [ "$TRAVIS" != "true" ]; then
return;
fi
# Install tox (OS X doesn't have pip).
if [ $(uname -s) == "Darwin" ]; then
sudo easy_install tox
else
sudo pip install tox
fi
# Only install Python2.6/3.x on Linux.
if [ $(uname -s) == "Linux" ]; then
sudo apt-get install -y python-software-properties # for apt-add-repository
sudo apt-add-repository -y ppa:fkrull/deadsnakes
sudo apt-get update -qq
sudo apt-get install -y python2.6 python2.6-dev
sudo apt-get install -y python3.3 python3.3-dev
sudo apt-get install -y python3.4 python3.4-dev
fi
}
build_objectivec_ios() {
# Reused the build script that takes care of configuring and ensuring things
# are up to date. The OS X test runs the objc conformance test, so skip it
# here.
# Note: travis has xctool installed, and we've looked at using it in the past
# but it has ended up proving unreliable (bugs), an they are removing build
# support in favor of xcbuild (or just xcodebuild).
objectivec/DevTools/full_mac_build.sh \
--core-only --skip-xcode-osx --skip-objc-conformance "$@"
}
build_objectivec_ios_debug() {
build_objectivec_ios --skip-xcode-release
}
build_objectivec_ios_release() {
build_objectivec_ios --skip-xcode-debug
}
build_objectivec_osx() {
# Reused the build script that takes care of configuring and ensuring things
# are up to date.
objectivec/DevTools/full_mac_build.sh \
--core-only --skip-xcode-ios
}
build_objectivec_cocoapods_integration() {
# First, load the RVM environment in bash, needed to update ruby.
source ~/.rvm/scripts/rvm
# Update rvm to the latest version. This is needed to solve
# https://github.com/google/protobuf/issues/1786 and may not be needed in the
# future when Travis updates the default version of rvm.
rvm get head
# Update ruby to 2.2.3 as the default one crashes with segmentation faults
# when using pod.
rvm use 2.2.3 --install --binary --fuzzy
# Update pod to the latest version.
gem install cocoapods --no-ri --no-rdoc
objectivec/Tests/CocoaPods/run_tests.sh
}
build_python() {
internal_build_cpp
internal_install_python_deps
cd python
# Only test Python 2.6/3.x on Linux
if [ $(uname -s) == "Linux" ]; then
envlist=py\{26,27,33,34\}-python
else
envlist=py27-python
fi
tox -e $envlist
cd ..
}
build_python_cpp() {
internal_build_cpp
internal_install_python_deps
export LD_LIBRARY_PATH=../src/.libs # for Linux
export DYLD_LIBRARY_PATH=../src/.libs # for OS X
cd python
# Only test Python 2.6/3.x on Linux
if [ $(uname -s) == "Linux" ]; then
# py26 is currently disabled due to json_format
envlist=py\{27,33,34\}-cpp
else
envlist=py27-cpp
fi
tox -e $envlist
cd ..
}
build_ruby21() {
internal_build_cpp # For conformance tests.
cd ruby && bash travis-test.sh ruby-2.1 && cd ..
}
build_ruby22() {
internal_build_cpp # For conformance tests.
cd ruby && bash travis-test.sh ruby-2.2 && cd ..
}
build_jruby() {
internal_build_cpp # For conformance tests.
# TODO(xiaofeng): Upgrade to jruby-9.x. There are some broken jests to be
# fixed.
cd ruby && bash travis-test.sh jruby-1.7 && cd ..
}
build_ruby_all() {
build_ruby21
build_ruby22
build_jruby
}
build_javascript() {
internal_build_cpp
cd js && npm install && npm test && cd ..
}
# Note: travis currently does not support testing more than one language so the
# .travis.yml cheats and claims to only be cpp. If they add multiple language
# support, this should probably get updated to install steps and/or
# rvm/gemfile/jdk/etc. entries rather than manually doing the work.
# .travis.yml uses matrix.exclude to block the cases where app-get can't be
# use to install things.
# -------- main --------
if [ "$#" -ne 1 ]; then
echo "
Usage: $0 { cpp |
cpp_distcheck |
csharp |
java_jdk7 |
java_oracle7 |
java_compatibility |
javanano_jdk7 |
javanano_oracle7 |
objectivec_ios |
objectivec_ios_debug |
objectivec_ios_release |
objectivec_osx |
objectivec_cocoapods_integration |
python |
python_cpp |
ruby21 |
ruby22 |
jruby |
ruby_all)
"
exit 1
fi
set -e # exit immediately on error
set -x # display all commands
eval "build_$1"