git/azure-pipelines.yml

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YAML
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Add a build definition for Azure DevOps This commit adds an azure-pipelines.yml file which is Azure DevOps' equivalent to Travis CI's .travis.yml. The main idea is to replicate the Travis configuration as faithfully as possible, to make it easy to compare the Azure Pipeline builds to the Travis ones (spoiler: some parts, especially the macOS jobs, are way faster in Azure Pileines). Meaning: the number and the order of the jobs added in this commit faithfully replicates what we have in .travis.yml. Note: Our .travis.yml configuration has a Windows part that is *not* replicated in the Azure Pipelines definition. The reason is easy to see: As Travis cannot support our Windws needs (even with the preliminary Windows support that was recently added to Travis after waiting for *years* for that feature, our test suite would simply hit Travis' timeout every single time). To make things a bit easier to understand, we refrain from using the `matrix` feature here because (while it is powerful) it can be a bit confusing to users who are not familiar with CI setups. Therefore, we use a separate phase even for similar configurations (such as GCC vs Clang on Linux, GCC vs Clang on macOS). Also, we make use of the shiny new feature we just introduced where the test suite can output JUnit-style .xml files. This information is made available in a nice UI that allows the viewer to filter by phase and/or test number, and to see trends such as: number of (failing) tests, time spent running the test suite, etc. (While this seemingly contradicts the intention to replicate the Travis configuration as faithfully as possible, it is just too nice to show off that capability here already.) Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:29 +03:00
resources:
- repo: self
fetchDepth: 1
jobs:
ci: parallelize testing on Windows The fact that Git's test suite is implemented in Unix shell script that is as portable as we can muster, combined with the fact that Unix shell scripting is foreign to Windows (and therefore has to be emulated), results in pretty abysmal speed of the test suite on that platform, for pretty much no other reason than that language choice. For comparison: while the Linux build & test is typically done within about 8 minutes, the Windows build & test typically lasts about 80 minutes in Azure Pipelines. To help with that, let's use the Azure Pipeline feature where you can parallelize jobs, make jobs depend on each other, and pass artifacts between them. The tests are distributed using the following heuristic: listing all test scripts ordered by size in descending order (as a cheap way to estimate the overall run time), every Nth script is run (where N is the total number of parallel jobs), starting at the index corresponding to the parallel job. This slicing is performed by a new function that is added to the `test-tool`. To optimize the overall runtime of the entire Pipeline, we need to move the Windows jobs to the beginning (otherwise there would be a very decent chance for the Pipeline to be run only the Windows build, while all the parallel Windows test jobs wait for this single one). We use Azure Pipelines Artifacts for both the minimal Git for Windows SDK as well as the built executables, as deduplication and caching close to the agents makes that really fast. For comparison: while downloading and unpacking the minimal Git for Windows SDK via PowerShell takes only one minute (down from anywhere between 2.5 to 7 when using a shallow clone), uploading it as Pipeline Artifact takes less than 30s and downloading and unpacking less than 20s (sometimes even as little as only twelve seconds). Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:38 +03:00
- job: windows_build
displayName: Windows Build
condition: succeeded()
pool: Hosted
timeoutInMinutes: 240
steps:
- powershell: |
if ("$GITFILESHAREPWD" -ne "" -and "$GITFILESHAREPWD" -ne "`$`(gitfileshare.pwd)") {
net use s: \\gitfileshare.file.core.windows.net\test-cache "$GITFILESHAREPWD" /user:AZURE\gitfileshare /persistent:no
cmd /c mklink /d "$(Build.SourcesDirectory)\test-cache" S:\
}
displayName: 'Mount test-cache'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- powershell: |
$urlbase = "https://dev.azure.com/git-for-windows/git/_apis/build/builds"
$id = ((Invoke-WebRequest -UseBasicParsing "${urlbase}?definitions=22&statusFilter=completed&resultFilter=succeeded&`$top=1").content | ConvertFrom-JSON).value[0].id
$downloadUrl = ((Invoke-WebRequest -UseBasicParsing "${urlbase}/$id/artifacts").content | ConvertFrom-JSON).value[1].resource.downloadUrl
(New-Object Net.WebClient).DownloadFile($downloadUrl,"git-sdk-64-minimal.zip")
Expand-Archive git-sdk-64-minimal.zip -DestinationPath . -Force
Remove-Item git-sdk-64-minimal.zip
# Let Git ignore the SDK and the test-cache
"/git-sdk-64-minimal/`n/test-cache/`n" | Out-File -NoNewLine -Encoding ascii -Append "$(Build.SourcesDirectory)\.git\info\exclude"
displayName: 'Download git-sdk-64-minimal'
- powershell: |
& git-sdk-64-minimal\usr\bin\bash.exe -lc @"
ci: parallelize testing on Windows The fact that Git's test suite is implemented in Unix shell script that is as portable as we can muster, combined with the fact that Unix shell scripting is foreign to Windows (and therefore has to be emulated), results in pretty abysmal speed of the test suite on that platform, for pretty much no other reason than that language choice. For comparison: while the Linux build & test is typically done within about 8 minutes, the Windows build & test typically lasts about 80 minutes in Azure Pipelines. To help with that, let's use the Azure Pipeline feature where you can parallelize jobs, make jobs depend on each other, and pass artifacts between them. The tests are distributed using the following heuristic: listing all test scripts ordered by size in descending order (as a cheap way to estimate the overall run time), every Nth script is run (where N is the total number of parallel jobs), starting at the index corresponding to the parallel job. This slicing is performed by a new function that is added to the `test-tool`. To optimize the overall runtime of the entire Pipeline, we need to move the Windows jobs to the beginning (otherwise there would be a very decent chance for the Pipeline to be run only the Windows build, while all the parallel Windows test jobs wait for this single one). We use Azure Pipelines Artifacts for both the minimal Git for Windows SDK as well as the built executables, as deduplication and caching close to the agents makes that really fast. For comparison: while downloading and unpacking the minimal Git for Windows SDK via PowerShell takes only one minute (down from anywhere between 2.5 to 7 when using a shallow clone), uploading it as Pipeline Artifact takes less than 30s and downloading and unpacking less than 20s (sometimes even as little as only twelve seconds). Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:38 +03:00
ci/make-test-artifacts.sh artifacts
"@
if (!$?) { exit(1) }
displayName: Build
env:
HOME: $(Build.SourcesDirectory)
MSYSTEM: MINGW64
DEVELOPER: 1
NO_PERL: 1
- task: PublishPipelineArtifact@0
displayName: 'Publish Pipeline Artifact: test artifacts'
inputs:
artifactName: 'windows-artifacts'
targetPath: '$(Build.SourcesDirectory)\artifacts'
- task: PublishPipelineArtifact@0
displayName: 'Publish Pipeline Artifact: git-sdk-64-minimal'
inputs:
artifactName: 'git-sdk-64-minimal'
targetPath: '$(Build.SourcesDirectory)\git-sdk-64-minimal'
- powershell: |
if ("$GITFILESHAREPWD" -ne "" -and "$GITFILESHAREPWD" -ne "`$`(gitfileshare.pwd)") {
cmd /c rmdir "$(Build.SourcesDirectory)\test-cache"
}
displayName: 'Unmount test-cache'
condition: true
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- job: windows_test
displayName: Windows Test
dependsOn: windows_build
condition: succeeded()
pool: Hosted
timeoutInMinutes: 240
strategy:
parallel: 10
steps:
- powershell: |
if ("$GITFILESHAREPWD" -ne "" -and "$GITFILESHAREPWD" -ne "`$`(gitfileshare.pwd)") {
net use s: \\gitfileshare.file.core.windows.net\test-cache "$GITFILESHAREPWD" /user:AZURE\gitfileshare /persistent:no
cmd /c mklink /d "$(Build.SourcesDirectory)\test-cache" S:\
}
displayName: 'Mount test-cache'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: DownloadPipelineArtifact@0
displayName: 'Download Pipeline Artifact: test artifacts'
inputs:
artifactName: 'windows-artifacts'
targetPath: '$(Build.SourcesDirectory)'
- task: DownloadPipelineArtifact@0
displayName: 'Download Pipeline Artifact: git-sdk-64-minimal'
inputs:
artifactName: 'git-sdk-64-minimal'
targetPath: '$(Build.SourcesDirectory)\git-sdk-64-minimal'
- powershell: |
& git-sdk-64-minimal\usr\bin\bash.exe -lc @"
test -f artifacts.tar.gz || {
echo No test artifacts found\; skipping >&2
exit 0
}
tar xf artifacts.tar.gz || exit 1
# Let Git ignore the SDK and the test-cache
printf '%s\n' /git-sdk-64-minimal/ /test-cache/ >>.git/info/exclude
ci: parallelize testing on Windows The fact that Git's test suite is implemented in Unix shell script that is as portable as we can muster, combined with the fact that Unix shell scripting is foreign to Windows (and therefore has to be emulated), results in pretty abysmal speed of the test suite on that platform, for pretty much no other reason than that language choice. For comparison: while the Linux build & test is typically done within about 8 minutes, the Windows build & test typically lasts about 80 minutes in Azure Pipelines. To help with that, let's use the Azure Pipeline feature where you can parallelize jobs, make jobs depend on each other, and pass artifacts between them. The tests are distributed using the following heuristic: listing all test scripts ordered by size in descending order (as a cheap way to estimate the overall run time), every Nth script is run (where N is the total number of parallel jobs), starting at the index corresponding to the parallel job. This slicing is performed by a new function that is added to the `test-tool`. To optimize the overall runtime of the entire Pipeline, we need to move the Windows jobs to the beginning (otherwise there would be a very decent chance for the Pipeline to be run only the Windows build, while all the parallel Windows test jobs wait for this single one). We use Azure Pipelines Artifacts for both the minimal Git for Windows SDK as well as the built executables, as deduplication and caching close to the agents makes that really fast. For comparison: while downloading and unpacking the minimal Git for Windows SDK via PowerShell takes only one minute (down from anywhere between 2.5 to 7 when using a shallow clone), uploading it as Pipeline Artifact takes less than 30s and downloading and unpacking less than 20s (sometimes even as little as only twelve seconds). Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:38 +03:00
ci/run-test-slice.sh `$SYSTEM_JOBPOSITIONINPHASE `$SYSTEM_TOTALJOBSINPHASE || {
ci/print-test-failures.sh
exit 1
}
"@
if (!$?) { exit(1) }
ci: parallelize testing on Windows The fact that Git's test suite is implemented in Unix shell script that is as portable as we can muster, combined with the fact that Unix shell scripting is foreign to Windows (and therefore has to be emulated), results in pretty abysmal speed of the test suite on that platform, for pretty much no other reason than that language choice. For comparison: while the Linux build & test is typically done within about 8 minutes, the Windows build & test typically lasts about 80 minutes in Azure Pipelines. To help with that, let's use the Azure Pipeline feature where you can parallelize jobs, make jobs depend on each other, and pass artifacts between them. The tests are distributed using the following heuristic: listing all test scripts ordered by size in descending order (as a cheap way to estimate the overall run time), every Nth script is run (where N is the total number of parallel jobs), starting at the index corresponding to the parallel job. This slicing is performed by a new function that is added to the `test-tool`. To optimize the overall runtime of the entire Pipeline, we need to move the Windows jobs to the beginning (otherwise there would be a very decent chance for the Pipeline to be run only the Windows build, while all the parallel Windows test jobs wait for this single one). We use Azure Pipelines Artifacts for both the minimal Git for Windows SDK as well as the built executables, as deduplication and caching close to the agents makes that really fast. For comparison: while downloading and unpacking the minimal Git for Windows SDK via PowerShell takes only one minute (down from anywhere between 2.5 to 7 when using a shallow clone), uploading it as Pipeline Artifact takes less than 30s and downloading and unpacking less than 20s (sometimes even as little as only twelve seconds). Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:38 +03:00
displayName: 'Test (parallel)'
env:
HOME: $(Build.SourcesDirectory)
MSYSTEM: MINGW64
ci: parallelize testing on Windows The fact that Git's test suite is implemented in Unix shell script that is as portable as we can muster, combined with the fact that Unix shell scripting is foreign to Windows (and therefore has to be emulated), results in pretty abysmal speed of the test suite on that platform, for pretty much no other reason than that language choice. For comparison: while the Linux build & test is typically done within about 8 minutes, the Windows build & test typically lasts about 80 minutes in Azure Pipelines. To help with that, let's use the Azure Pipeline feature where you can parallelize jobs, make jobs depend on each other, and pass artifacts between them. The tests are distributed using the following heuristic: listing all test scripts ordered by size in descending order (as a cheap way to estimate the overall run time), every Nth script is run (where N is the total number of parallel jobs), starting at the index corresponding to the parallel job. This slicing is performed by a new function that is added to the `test-tool`. To optimize the overall runtime of the entire Pipeline, we need to move the Windows jobs to the beginning (otherwise there would be a very decent chance for the Pipeline to be run only the Windows build, while all the parallel Windows test jobs wait for this single one). We use Azure Pipelines Artifacts for both the minimal Git for Windows SDK as well as the built executables, as deduplication and caching close to the agents makes that really fast. For comparison: while downloading and unpacking the minimal Git for Windows SDK via PowerShell takes only one minute (down from anywhere between 2.5 to 7 when using a shallow clone), uploading it as Pipeline Artifact takes less than 30s and downloading and unpacking less than 20s (sometimes even as little as only twelve seconds). Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:38 +03:00
NO_SVN_TESTS: 1
GIT_TEST_SKIP_REBASE_P: 1
- powershell: |
if ("$GITFILESHAREPWD" -ne "" -and "$GITFILESHAREPWD" -ne "`$`(gitfileshare.pwd)") {
cmd /c rmdir "$(Build.SourcesDirectory)\test-cache"
}
displayName: 'Unmount test-cache'
condition: true
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'windows'
platform: Windows
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
Add a build definition for Azure DevOps This commit adds an azure-pipelines.yml file which is Azure DevOps' equivalent to Travis CI's .travis.yml. The main idea is to replicate the Travis configuration as faithfully as possible, to make it easy to compare the Azure Pipeline builds to the Travis ones (spoiler: some parts, especially the macOS jobs, are way faster in Azure Pileines). Meaning: the number and the order of the jobs added in this commit faithfully replicates what we have in .travis.yml. Note: Our .travis.yml configuration has a Windows part that is *not* replicated in the Azure Pipelines definition. The reason is easy to see: As Travis cannot support our Windws needs (even with the preliminary Windows support that was recently added to Travis after waiting for *years* for that feature, our test suite would simply hit Travis' timeout every single time). To make things a bit easier to understand, we refrain from using the `matrix` feature here because (while it is powerful) it can be a bit confusing to users who are not familiar with CI setups. Therefore, we use a separate phase even for similar configurations (such as GCC vs Clang on Linux, GCC vs Clang on macOS). Also, we make use of the shiny new feature we just introduced where the test suite can output JUnit-style .xml files. This information is made available in a nice UI that allows the viewer to filter by phase and/or test number, and to see trends such as: number of (failing) tests, time spent running the test suite, etc. (While this seemingly contradicts the intention to replicate the Travis configuration as faithfully as possible, it is just too nice to show off that capability here already.) Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-01-29 17:19:29 +03:00
- job: linux_clang
displayName: linux-clang
condition: succeeded()
pool: Hosted Ubuntu 1604
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
sudo apt-get update &&
sudo apt-get -y install git gcc make libssl-dev libcurl4-openssl-dev libexpat-dev tcl tk gettext git-email zlib1g-dev apache2-bin &&
export CC=clang || exit 1
ci/install-dependencies.sh || exit 1
ci/run-build-and-tests.sh || {
ci/print-test-failures.sh
exit 1
}
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || sudo umount "$HOME/test-cache" || exit 1
displayName: 'ci/run-build-and-tests.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'linux-clang'
platform: Linux
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
- job: linux_gcc
displayName: linux-gcc
condition: succeeded()
pool: Hosted Ubuntu 1604
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
sudo add-apt-repository ppa:ubuntu-toolchain-r/test &&
sudo apt-get update &&
sudo apt-get -y install git gcc make libssl-dev libcurl4-openssl-dev libexpat-dev tcl tk gettext git-email zlib1g-dev apache2 language-pack-is git-svn gcc-8 || exit 1
ci/install-dependencies.sh || exit 1
ci/run-build-and-tests.sh || {
ci/print-test-failures.sh
exit 1
}
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || sudo umount "$HOME/test-cache" || exit 1
displayName: 'ci/run-build-and-tests.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'linux-gcc'
platform: Linux
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
- job: osx_clang
displayName: osx-clang
condition: succeeded()
pool: Hosted macOS
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
export CC=clang
ci/install-dependencies.sh || exit 1
ci/run-build-and-tests.sh || {
ci/print-test-failures.sh
exit 1
}
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || umount "$HOME/test-cache" || exit 1
displayName: 'ci/run-build-and-tests.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'osx-clang'
platform: macOS
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
- job: osx_gcc
displayName: osx-gcc
condition: succeeded()
pool: Hosted macOS
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
ci/install-dependencies.sh || exit 1
ci/run-build-and-tests.sh || {
ci/print-test-failures.sh
exit 1
}
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || umount "$HOME/test-cache" || exit 1
displayName: 'ci/run-build-and-tests.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'osx-gcc'
platform: macOS
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
- job: gettext_poison
displayName: GETTEXT_POISON
condition: succeeded()
pool: Hosted Ubuntu 1604
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
sudo apt-get update &&
sudo apt-get -y install git gcc make libssl-dev libcurl4-openssl-dev libexpat-dev tcl tk gettext git-email zlib1g-dev &&
export jobname=GETTEXT_POISON || exit 1
ci/run-build-and-tests.sh || {
ci/print-test-failures.sh
exit 1
}
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || sudo umount "$HOME/test-cache" || exit 1
displayName: 'ci/run-build-and-tests.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'gettext-poison'
platform: Linux
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
- job: linux32
displayName: Linux32
condition: succeeded()
pool: Hosted Ubuntu 1604
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
res=0
sudo AGENT_OS="$AGENT_OS" BUILD_BUILDNUMBER="$BUILD_BUILDNUMBER" BUILD_REPOSITORY_URI="$BUILD_REPOSITORY_URI" BUILD_SOURCEBRANCH="$BUILD_SOURCEBRANCH" BUILD_SOURCEVERSION="$BUILD_SOURCEVERSION" SYSTEM_PHASENAME="$SYSTEM_PHASENAME" SYSTEM_TASKDEFINITIONSURI="$SYSTEM_TASKDEFINITIONSURI" SYSTEM_TEAMPROJECT="$SYSTEM_TEAMPROJECT" CC=$CC MAKEFLAGS="$MAKEFLAGS" bash -lxc ci/run-linux32-docker.sh || res=1
sudo chmod a+r t/out/TEST-*.xml
test ! -d t/failed-test-artifacts || sudo chmod a+r t/failed-test-artifacts
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || sudo umount "$HOME/test-cache" || res=1
exit $res
displayName: 'ci/run-linux32-docker.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- task: PublishTestResults@2
displayName: 'Publish Test Results **/TEST-*.xml'
inputs:
mergeTestResults: true
testRunTitle: 'linux32'
platform: Linux
publishRunAttachments: false
condition: succeededOrFailed()
- task: PublishBuildArtifacts@1
displayName: 'Publish trash directories of failed tests'
condition: failed()
inputs:
PathtoPublish: t/failed-test-artifacts
ArtifactName: failed-test-artifacts
- job: static_analysis
displayName: StaticAnalysis
condition: succeeded()
pool: Hosted Ubuntu 1604
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
sudo apt-get update &&
sudo apt-get install -y coccinelle &&
export jobname=StaticAnalysis &&
ci/run-static-analysis.sh || exit 1
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || sudo umount "$HOME/test-cache" || exit 1
displayName: 'ci/run-static-analysis.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)
- job: documentation
displayName: Documentation
condition: succeeded()
pool: Hosted Ubuntu 1604
steps:
- bash: |
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || ci/mount-fileshare.sh //gitfileshare.file.core.windows.net/test-cache gitfileshare "$GITFILESHAREPWD" "$HOME/test-cache" || exit 1
sudo apt-get update &&
sudo apt-get install -y asciidoc xmlto asciidoctor &&
export ALREADY_HAVE_ASCIIDOCTOR=yes. &&
export jobname=Documentation &&
ci/test-documentation.sh || exit 1
test "$GITFILESHAREPWD" = '$(gitfileshare.pwd)' || sudo umount "$HOME/test-cache" || exit 1
displayName: 'ci/test-documentation.sh'
env:
GITFILESHAREPWD: $(gitfileshare.pwd)