git-commit-vandalism/ci/install-dependencies.sh

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#!/usr/bin/env bash
#
# Install dependencies required to build and test Git on Linux and macOS
#
. ${0%/*}/lib.sh
P4WHENCE=http://filehost.perforce.com/perforce/r$LINUX_P4_VERSION
LFSWHENCE=https://github.com/github/git-lfs/releases/download/v$LINUX_GIT_LFS_VERSION
travis-ci: introduce a $jobname variable for 'ci/*' scripts A couple of 'ci/*' scripts are shared between different build jobs: 'ci/lib-travisci.sh', being a common library, is sourced from almost every script, while 'ci/install-dependencies.sh', 'ci/run-build.sh' and 'ci/run-tests.sh' are shared between the "regular" GCC and Clang Linux and OSX build jobs, and the latter two scripts are used in the GETTEXT_POISON Linux build job as well. Our builds could benefit from these shared scripts being able to easily tell which build job they are taking part in. Now, it's already quite easy to tell apart Linux vs OSX and GCC vs Clang build jobs, but it gets trickier with all the additional Linux-based build jobs included explicitly in the build matrix. Unfortunately, Travis CI doesn't provide much help in this regard. The closest we've got is the $TRAVIS_JOB_NUMBER variable, the value of which is two dot-separated integers, where the second integer indicates a particular build job. While it would be possible to use that second number to identify the build job in our shared scripts, it doesn't seem like a good idea to rely on that: - Though the build job numbering sequence seems to be stable so far, Travis CI's documentation doesn't explicitly states that it is indeed stable and will remain so in the future. And even if it were stable, - if we were to remove or insert a build job in the middle, then the job numbers of all subsequent build jobs would change accordingly. So roll our own means of simple build job identification and introduce the $jobname environment variable in our builds, setting it in the environments of the explicitly included jobs in '.travis.yml', while constructing one in 'ci/lib-travisci.sh' as the combination of the OS and compiler name for the GCC and Clang Linux and OSX build jobs. Use $jobname instead of $TRAVIS_OS_NAME in scripts taking different actions based on the OS and build job (when installing P4 and Git LFS dependencies and including them in $PATH). The following two patches will also rely on $jobname. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-12-12 00:34:44 +01:00
case "$jobname" in
linux-clang|linux-gcc)
travis-ci: install packages in 'ci/install-dependencies.sh' Ever since we started using Travis CI, we specified the list of packages to install in '.travis.yml' via the APT addon. While running our builds on Travis CI's container-based infrastructure we didn't have another choice, because that environment didn't support 'sudo', and thus we didn't have permission to install packages ourselves. With the switch to the VM-based infrastructure in the previous patch we do get a working 'sudo', so we can install packages by running 'sudo apt-get -y install ...' as well. Let's make use of this and install necessary packages in 'ci/install-dependencies.sh', so all the dependencies (i.e. both packages and "non-packages" (P4 and Git-LFS)) are handled in the same file. Install gcc-8 only in the 'linux-gcc' build job; so far it has been unnecessarily installed in the 'linux-clang' build job as well. Print the versions of P4 and Git-LFS conditionally, i.e. only when they have been installed; with this change even the static analysis and documentation build jobs start using 'ci/install-dependencies.sh' to install packages, and neither of these two build jobs depend on and thus install those. This change will presumably be beneficial for the upcoming Azure Pipelines integration [1]: preliminary versions of that patch series run a couple of 'apt-get' commands to install the necessary packages before running 'ci/install-dependencies.sh', but with this patch it will be sufficient to run only 'ci/install-dependencies.sh'. [1] https://public-inbox.org/git/1a22efe849d6da79f2c639c62a1483361a130238.1539598316.git.gitgitgadget@gmail.com/ Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-11-01 12:47:14 +01:00
sudo apt-add-repository -y "ppa:ubuntu-toolchain-r/test"
sudo apt-get -q update
ci: install 'libsvn-perl' instead of 'git-svn' Since e7e9f5e7a1 (travis-ci: enable Git SVN tests t91xx on Linux, 2016-05-19) some of our Travis CI build jobs install the 'git-svn' package, because it was a convenient way to install its dependencies, which are necessary to run our 'git-svn' tests (we don't actually need the 'git-svn' package itself). However, from those dependencies, namely the 'libsvn-perl', 'libyaml-perl', and 'libterm-readkey-perl' packages, only 'libsvn-perl' is necessary to run those tests, the others arent, not even to fulfill some prereqs. So update 'ci/install-dependencies.sh' to install only 'libsvn-perl' instead of 'git-svn' and its additional dependencies. Note that this change has more important implications than merely not installing three unnecessary packages, as it keeps our builds working with Travis CI's Xenial images. In our '.travis.yml' we never explicitly specified which Linux image we want to use to run our Linux build jobs, and so far they have been run on the default Ubuntu 14.04 Trusty image. However, 14.04 just reached its EOL, and Travis CI has already began the transition to use 16.04 Xenial as the default Linux build environment [1]. Alas, our Linux Clang and GCC build jobs can't simply 'apt-get install git-svn' in the current Xenial images [2], like they did in the Trusty images, and, consequently, fail. Installing only 'libsvn-perl' avoids this issue, while the 'git svn' tests are still run as they should. [1] https://blog.travis-ci.com/2019-04-15-xenial-default-build-environment [2] 'apt-get install git-svn' in the Xenial image fails with: The following packages have unmet dependencies: git-svn : Depends: git (< 1:2.7.4-.) E: Unable to correct problems, you have held broken packages. The reason is that both the Trusty and Xenial images contain the 'git' package installed from 'ppa:git-core/ppa', so it's considerably newer than the 'git' package in the corresponding standard Ubuntu package repositories. The difference is that the Trusty image still contains these third-party apt repositories, so the 'git-svn' package was installed from the same PPA, and its version matched the version of the already installed 'git' package. In the Xenial image, however, these third-party apt-repositories are removed (to reduce the risk of unrelated interference and faster 'apt-get update') [3], and the version of the 'git-svn' package coming from the standard Ubuntu package repositories doesn't match the much more recent version of the 'git' package installed from the PPA, resulting in this dependecy error. Adding back the 'ppa:git-core/ppa' package repository would solve this dependency issue as well, but since the troublesome package happens to be unnecessary, not installing it in the first place is better. [3] https://docs.travis-ci.com/user/reference/xenial/#third-party-apt-repositories-removed Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-04-30 14:37:24 +02:00
sudo apt-get -q -y install language-pack-is libsvn-perl apache2
travis-ci: install packages in 'ci/install-dependencies.sh' Ever since we started using Travis CI, we specified the list of packages to install in '.travis.yml' via the APT addon. While running our builds on Travis CI's container-based infrastructure we didn't have another choice, because that environment didn't support 'sudo', and thus we didn't have permission to install packages ourselves. With the switch to the VM-based infrastructure in the previous patch we do get a working 'sudo', so we can install packages by running 'sudo apt-get -y install ...' as well. Let's make use of this and install necessary packages in 'ci/install-dependencies.sh', so all the dependencies (i.e. both packages and "non-packages" (P4 and Git-LFS)) are handled in the same file. Install gcc-8 only in the 'linux-gcc' build job; so far it has been unnecessarily installed in the 'linux-clang' build job as well. Print the versions of P4 and Git-LFS conditionally, i.e. only when they have been installed; with this change even the static analysis and documentation build jobs start using 'ci/install-dependencies.sh' to install packages, and neither of these two build jobs depend on and thus install those. This change will presumably be beneficial for the upcoming Azure Pipelines integration [1]: preliminary versions of that patch series run a couple of 'apt-get' commands to install the necessary packages before running 'ci/install-dependencies.sh', but with this patch it will be sufficient to run only 'ci/install-dependencies.sh'. [1] https://public-inbox.org/git/1a22efe849d6da79f2c639c62a1483361a130238.1539598316.git.gitgitgadget@gmail.com/ Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-11-01 12:47:14 +01:00
case "$jobname" in
linux-gcc)
sudo apt-get -q -y install gcc-8
;;
esac
mkdir --parents "$P4_PATH"
pushd "$P4_PATH"
wget --quiet "$P4WHENCE/bin.linux26x86_64/p4d"
wget --quiet "$P4WHENCE/bin.linux26x86_64/p4"
chmod u+x p4d
chmod u+x p4
popd
mkdir --parents "$GIT_LFS_PATH"
pushd "$GIT_LFS_PATH"
wget --quiet "$LFSWHENCE/git-lfs-linux-amd64-$LINUX_GIT_LFS_VERSION.tar.gz"
tar --extract --gunzip --file "git-lfs-linux-amd64-$LINUX_GIT_LFS_VERSION.tar.gz"
cp git-lfs-$LINUX_GIT_LFS_VERSION/git-lfs .
popd
;;
travis-ci: introduce a $jobname variable for 'ci/*' scripts A couple of 'ci/*' scripts are shared between different build jobs: 'ci/lib-travisci.sh', being a common library, is sourced from almost every script, while 'ci/install-dependencies.sh', 'ci/run-build.sh' and 'ci/run-tests.sh' are shared between the "regular" GCC and Clang Linux and OSX build jobs, and the latter two scripts are used in the GETTEXT_POISON Linux build job as well. Our builds could benefit from these shared scripts being able to easily tell which build job they are taking part in. Now, it's already quite easy to tell apart Linux vs OSX and GCC vs Clang build jobs, but it gets trickier with all the additional Linux-based build jobs included explicitly in the build matrix. Unfortunately, Travis CI doesn't provide much help in this regard. The closest we've got is the $TRAVIS_JOB_NUMBER variable, the value of which is two dot-separated integers, where the second integer indicates a particular build job. While it would be possible to use that second number to identify the build job in our shared scripts, it doesn't seem like a good idea to rely on that: - Though the build job numbering sequence seems to be stable so far, Travis CI's documentation doesn't explicitly states that it is indeed stable and will remain so in the future. And even if it were stable, - if we were to remove or insert a build job in the middle, then the job numbers of all subsequent build jobs would change accordingly. So roll our own means of simple build job identification and introduce the $jobname environment variable in our builds, setting it in the environments of the explicitly included jobs in '.travis.yml', while constructing one in 'ci/lib-travisci.sh' as the combination of the OS and compiler name for the GCC and Clang Linux and OSX build jobs. Use $jobname instead of $TRAVIS_OS_NAME in scripts taking different actions based on the OS and build job (when installing P4 and Git LFS dependencies and including them in $PATH). The following two patches will also rely on $jobname. Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-12-12 00:34:44 +01:00
osx-clang|osx-gcc)
export HOMEBREW_NO_AUTO_UPDATE=1 HOMEBREW_NO_INSTALL_CLEANUP=1
# Uncomment this if you want to run perf tests:
# brew install gnu-time
test -z "$BREW_INSTALL_PACKAGES" ||
brew install $BREW_INSTALL_PACKAGES
brew link --force gettext
ci(osx): use new location of the `perforce` cask The Azure Pipelines builds are failing for macOS due to a change in the location of the perforce cask. The command outputs the following error: + brew install caskroom/cask/perforce Error: caskroom/cask was moved. Tap homebrew/cask-cask instead. So let's try to call `brew cask install perforce` first (which is what that error message suggests, in a most round-about way). Prior to 672f51cb we used to install the 'perforce' package with 'brew install perforce' (note: no 'cask' in there). The justification for 672f51cb was that the command 'brew install perforce' simply stopped working, after Homebrew folks decided that it's better to move the 'perforce' package to a "cask". Their justification for this move was that 'brew install perforce' "can fail due to a checksum mismatch ...", and casks can be installed without checksum verification. And indeed, both 'brew cask install perforce' and 'brew install caskroom/cask/perforce' printed something along the lines of: ==> No checksum defined for Cask perforce, skipping verification It is unclear why 672f51cb used 'brew install caskroom/cask/perforce' instead of 'brew cask install perforce'. It appears (by running both commands on old Travis CI macOS images) that both commands worked all the same already back then. In any case, as the error message at the top of this commit message shows, 'brew install caskroom/cask/perforce' has stopped working recently, but 'brew cask install perforce' still does, so let's use that. CI servers are typically fresh virtual machines, but not always. To accommodate for that, let's try harder if `brew cask install perforce` fails, by specifically pulling the latest `master` of the `homebrew-cask` repository. This will still fail, of course, when `homebrew-cask` falls behind Perforce's release schedule. But once it is updated, we can now simply re-run the failed jobs and they will pick up that update. As for updating `homebrew-cask`: the beginnings of automating this in https://dev.azure.com/gitgitgadget/git/_build?definitionId=11&_a=summary will be finished once the next Perforce upgrade comes around. Helped-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Derrick Stolee <dstolee@microsoft.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-23 02:19:38 +02:00
brew cask install perforce || {
# Update the definitions and try again
git -C "$(brew --repository)"/Library/Taps/homebrew/homebrew-cask pull &&
brew cask install perforce
} ||
brew install caskroom/cask/perforce
travis-ci: build with the right compiler Our 'Makefile' hardcodes the compiler to build Git as 'CC = cc'. This CC variable can be overridden from the command line, i.e. 'make CC=gcc-X.Y' will build with that particular GCC version, but not from the environment, i.e. 'CC=gcc-X.Y make' will still build with whatever 'cc' happens to be on the platform. Our build jobs on Travis CI are badly affected by this. In the build matrix we have dedicated build jobs to build Git with GCC and Clang both on Linux and macOS from the very beginning (522354d70f (Add Travis CI support, 2015-11-27)). Alas, this never really worked as supposed to, because Travis CI specifies the compiler for those build jobs as 'export CC=gcc' and 'export CC=clang' (which works fine for projects built with './configure && make'). Consequently, our 'linux-clang' build job has always used GCC, because that's where 'cc' points at in Travis CI's Linux images, while the 'osx-gcc' build job has always used Clang. Furthermore, 37fa4b3c78 (travis-ci: run gcc-8 on linux-gcc jobs, 2018-05-19) added an 'export CC=gcc-8' in an attempt to build with a more modern compiler, but to no avail. Set MAKEFLAGS with CC based on the $CC environment variable, so 'make' will run the "right" compiler. The Xcode 10.1 macOS image on Travis CI already contains the gcc@8 package from Homebrew, but we have to 'brew link' it first to be able to use it. So with this patch our build jobs will build Git with the following compiler versions: linux-clang: clang version 5.0.0 (tags/RELEASE_500/final) linux-gcc: gcc-8 (Ubuntu 8.1.0-5ubuntu1~14.04) 8.1.0 osx-clang: Apple LLVM version 10.0.0 (clang-1000.11.45.5) osx-gcc: gcc-8 (Homebrew GCC 8.2.0) 8.2.0 GETTEXT_POISON: gcc (Ubuntu 4.8.4-2ubuntu1~14.04.3) 4.8.4 Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-17 02:29:13 +01:00
case "$jobname" in
osx-gcc)
brew link gcc ||
travis-ci: build with the right compiler Our 'Makefile' hardcodes the compiler to build Git as 'CC = cc'. This CC variable can be overridden from the command line, i.e. 'make CC=gcc-X.Y' will build with that particular GCC version, but not from the environment, i.e. 'CC=gcc-X.Y make' will still build with whatever 'cc' happens to be on the platform. Our build jobs on Travis CI are badly affected by this. In the build matrix we have dedicated build jobs to build Git with GCC and Clang both on Linux and macOS from the very beginning (522354d70f (Add Travis CI support, 2015-11-27)). Alas, this never really worked as supposed to, because Travis CI specifies the compiler for those build jobs as 'export CC=gcc' and 'export CC=clang' (which works fine for projects built with './configure && make'). Consequently, our 'linux-clang' build job has always used GCC, because that's where 'cc' points at in Travis CI's Linux images, while the 'osx-gcc' build job has always used Clang. Furthermore, 37fa4b3c78 (travis-ci: run gcc-8 on linux-gcc jobs, 2018-05-19) added an 'export CC=gcc-8' in an attempt to build with a more modern compiler, but to no avail. Set MAKEFLAGS with CC based on the $CC environment variable, so 'make' will run the "right" compiler. The Xcode 10.1 macOS image on Travis CI already contains the gcc@8 package from Homebrew, but we have to 'brew link' it first to be able to use it. So with this patch our build jobs will build Git with the following compiler versions: linux-clang: clang version 5.0.0 (tags/RELEASE_500/final) linux-gcc: gcc-8 (Ubuntu 8.1.0-5ubuntu1~14.04) 8.1.0 osx-clang: Apple LLVM version 10.0.0 (clang-1000.11.45.5) osx-gcc: gcc-8 (Homebrew GCC 8.2.0) 8.2.0 GETTEXT_POISON: gcc (Ubuntu 4.8.4-2ubuntu1~14.04.3) 4.8.4 Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-17 02:29:13 +01:00
brew link gcc@8
;;
esac
;;
travis-ci: install packages in 'ci/install-dependencies.sh' Ever since we started using Travis CI, we specified the list of packages to install in '.travis.yml' via the APT addon. While running our builds on Travis CI's container-based infrastructure we didn't have another choice, because that environment didn't support 'sudo', and thus we didn't have permission to install packages ourselves. With the switch to the VM-based infrastructure in the previous patch we do get a working 'sudo', so we can install packages by running 'sudo apt-get -y install ...' as well. Let's make use of this and install necessary packages in 'ci/install-dependencies.sh', so all the dependencies (i.e. both packages and "non-packages" (P4 and Git-LFS)) are handled in the same file. Install gcc-8 only in the 'linux-gcc' build job; so far it has been unnecessarily installed in the 'linux-clang' build job as well. Print the versions of P4 and Git-LFS conditionally, i.e. only when they have been installed; with this change even the static analysis and documentation build jobs start using 'ci/install-dependencies.sh' to install packages, and neither of these two build jobs depend on and thus install those. This change will presumably be beneficial for the upcoming Azure Pipelines integration [1]: preliminary versions of that patch series run a couple of 'apt-get' commands to install the necessary packages before running 'ci/install-dependencies.sh', but with this patch it will be sufficient to run only 'ci/install-dependencies.sh'. [1] https://public-inbox.org/git/1a22efe849d6da79f2c639c62a1483361a130238.1539598316.git.gitgitgadget@gmail.com/ Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-11-01 12:47:14 +01:00
StaticAnalysis)
sudo apt-get -q update
sudo apt-get -q -y install coccinelle libcurl4-openssl-dev libssl-dev \
libexpat-dev gettext
travis-ci: install packages in 'ci/install-dependencies.sh' Ever since we started using Travis CI, we specified the list of packages to install in '.travis.yml' via the APT addon. While running our builds on Travis CI's container-based infrastructure we didn't have another choice, because that environment didn't support 'sudo', and thus we didn't have permission to install packages ourselves. With the switch to the VM-based infrastructure in the previous patch we do get a working 'sudo', so we can install packages by running 'sudo apt-get -y install ...' as well. Let's make use of this and install necessary packages in 'ci/install-dependencies.sh', so all the dependencies (i.e. both packages and "non-packages" (P4 and Git-LFS)) are handled in the same file. Install gcc-8 only in the 'linux-gcc' build job; so far it has been unnecessarily installed in the 'linux-clang' build job as well. Print the versions of P4 and Git-LFS conditionally, i.e. only when they have been installed; with this change even the static analysis and documentation build jobs start using 'ci/install-dependencies.sh' to install packages, and neither of these two build jobs depend on and thus install those. This change will presumably be beneficial for the upcoming Azure Pipelines integration [1]: preliminary versions of that patch series run a couple of 'apt-get' commands to install the necessary packages before running 'ci/install-dependencies.sh', but with this patch it will be sufficient to run only 'ci/install-dependencies.sh'. [1] https://public-inbox.org/git/1a22efe849d6da79f2c639c62a1483361a130238.1539598316.git.gitgitgadget@gmail.com/ Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-11-01 12:47:14 +01:00
;;
Documentation)
sudo apt-get -q update
Documentation: fix build with Asciidoctor 2 Our documentation toolchain has traditionally been built around DocBook 4.5. This version of DocBook is the last DTD-based version of DocBook. In 2009, DocBook 5 was introduced using namespaces and its syntax is expressed in RELAX NG, which is more expressive and allows a wider variety of syntax forms. Asciidoctor, one of the alternatives for building our documentation, moved support for DocBook 4.5 out of core in its recent 2.0 release and now only supports DocBook 5 in the main release. The DocBoook 4.5 converter is still available as a separate component, but this is not available in most distro packages. This would not be a problem but for the fact that we use xmlto, which is still stuck in the DocBook 4.5 era. xmlto performs DTD validation as part of the build process. This is not problematic for DocBook 4.5, which has a valid DTD, but it clearly cannot work for DocBook 5, since no DTD can adequately express its full syntax. In addition, even if xmlto did support RELAX NG validation, that wouldn't be sufficient because it uses the libxml2-based xmllint to do so, which has known problems with validating interleaves in RELAX NG. Fortunately, there's an easy way forward: ask Asciidoctor to use its DocBook 5 backend and tell xmlto to skip validation. Asciidoctor has supported DocBook 5 since v0.1.4 in 2013 and xmlto has supported skipping validation for probably longer than that. We also need to teach xmlto how to use the namespaced DocBook XSLT stylesheets instead of the non-namespaced ones it usually uses. Normally these stylesheets are interchangeable, but the non-namespaced ones have a bug that causes them not to strip whitespace automatically from certain elements when namespaces are in use. This results in additional whitespace at the beginning of list elements, which is jarring and unsightly. We can do this by passing a custom stylesheet with the -x option that simply imports the namespaced stylesheets via a URL. Any system with support for XML catalogs will automatically look this URL up and reference a local copy instead without us having to know where this local copy is located. We know that anyone using xmlto will already have catalogs set up properly since the DocBook 4.5 DTD used during validation is also looked up via catalogs. All major Linux distributions distribute the necessary stylesheets and have built-in catalog support, and Homebrew does as well, albeit with a requirement to set an environment variable to enable catalog support. On the off chance that someone lacks support for catalogs, it is possible for xmlto (via xmllint) to download the stylesheets from the URLs in question, although this will likely perform poorly enough to attract attention. People still have the option of using the prebuilt documentation that we ship, so happily this should not be an impediment. Finally, we need to filter out some messages from other stylesheets that occur when invoking dblatex in the CI job. This tool strips namespaces much like the unnamespaced DocBook stylesheets and prints similar messages. If we permit these messages to be printed to standard error, our documentation CI job will fail because we check standard error for unexpected output. Due to dblatex's reliance on Python 2, we may need to revisit its use in the future, in which case this problem may go away, but this can be delayed until a future patch. The final message we filter is due to libxslt on modern Debian and Ubuntu. The patch which they use to implement reproducible ID generation also prints messages about the ID generation. While this doesn't affect our current CI images since they use Ubuntu 16.04 which lacks this patch, if we upgrade to Ubuntu 18.04 or a modern Debian, these messages will appear and, like the above messages, cause a CI failure. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-09-16 00:43:32 +02:00
sudo apt-get -q -y install asciidoc xmlto docbook-xsl-ns
test -n "$ALREADY_HAVE_ASCIIDOCTOR" ||
gem install --version 1.5.8 asciidoctor
travis-ci: install packages in 'ci/install-dependencies.sh' Ever since we started using Travis CI, we specified the list of packages to install in '.travis.yml' via the APT addon. While running our builds on Travis CI's container-based infrastructure we didn't have another choice, because that environment didn't support 'sudo', and thus we didn't have permission to install packages ourselves. With the switch to the VM-based infrastructure in the previous patch we do get a working 'sudo', so we can install packages by running 'sudo apt-get -y install ...' as well. Let's make use of this and install necessary packages in 'ci/install-dependencies.sh', so all the dependencies (i.e. both packages and "non-packages" (P4 and Git-LFS)) are handled in the same file. Install gcc-8 only in the 'linux-gcc' build job; so far it has been unnecessarily installed in the 'linux-clang' build job as well. Print the versions of P4 and Git-LFS conditionally, i.e. only when they have been installed; with this change even the static analysis and documentation build jobs start using 'ci/install-dependencies.sh' to install packages, and neither of these two build jobs depend on and thus install those. This change will presumably be beneficial for the upcoming Azure Pipelines integration [1]: preliminary versions of that patch series run a couple of 'apt-get' commands to install the necessary packages before running 'ci/install-dependencies.sh', but with this patch it will be sufficient to run only 'ci/install-dependencies.sh'. [1] https://public-inbox.org/git/1a22efe849d6da79f2c639c62a1483361a130238.1539598316.git.gitgitgadget@gmail.com/ Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-11-01 12:47:14 +01:00
;;
esac
travis-ci: install packages in 'ci/install-dependencies.sh' Ever since we started using Travis CI, we specified the list of packages to install in '.travis.yml' via the APT addon. While running our builds on Travis CI's container-based infrastructure we didn't have another choice, because that environment didn't support 'sudo', and thus we didn't have permission to install packages ourselves. With the switch to the VM-based infrastructure in the previous patch we do get a working 'sudo', so we can install packages by running 'sudo apt-get -y install ...' as well. Let's make use of this and install necessary packages in 'ci/install-dependencies.sh', so all the dependencies (i.e. both packages and "non-packages" (P4 and Git-LFS)) are handled in the same file. Install gcc-8 only in the 'linux-gcc' build job; so far it has been unnecessarily installed in the 'linux-clang' build job as well. Print the versions of P4 and Git-LFS conditionally, i.e. only when they have been installed; with this change even the static analysis and documentation build jobs start using 'ci/install-dependencies.sh' to install packages, and neither of these two build jobs depend on and thus install those. This change will presumably be beneficial for the upcoming Azure Pipelines integration [1]: preliminary versions of that patch series run a couple of 'apt-get' commands to install the necessary packages before running 'ci/install-dependencies.sh', but with this patch it will be sufficient to run only 'ci/install-dependencies.sh'. [1] https://public-inbox.org/git/1a22efe849d6da79f2c639c62a1483361a130238.1539598316.git.gitgitgadget@gmail.com/ Signed-off-by: SZEDER Gábor <szeder.dev@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-11-01 12:47:14 +01:00
if type p4d >/dev/null && type p4 >/dev/null
then
echo "$(tput setaf 6)Perforce Server Version$(tput sgr0)"
p4d -V | grep Rev.
echo "$(tput setaf 6)Perforce Client Version$(tput sgr0)"
p4 -V | grep Rev.
fi
if type git-lfs >/dev/null
then
echo "$(tput setaf 6)Git-LFS Version$(tput sgr0)"
git-lfs version
fi