30 lines
1.7 KiB
Bash
30 lines
1.7 KiB
Bash
#!/bin/bash
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set -ex
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# go to the repo root
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cd $(dirname $0)/../../..
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if [[ -t 0 ]]; then
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DOCKER_TTY_ARGS="-it"
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else
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# The input device on kokoro is not a TTY, so -it does not work.
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DOCKER_TTY_ARGS=
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fi
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# crosscompile protoc as we will later need it for the javascript build.
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# we build it under the dockcross/manylinux2014-aarch64 image so that the resulting protoc binary is compatible
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# with a wide range of linux distros (including any docker images we will use later to build and test javascript)
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kokoro/linux/aarch64/dockcross_helpers/run_dockcross_manylinux2014_aarch64.sh kokoro/linux/aarch64/protoc_crosscompile_aarch64.sh
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# use an actual aarch64 docker image (with a real aarch64 nodejs) to run build & test protobuf javascript under an emulator
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# * mount the protobuf root as /work to be able to access the crosscompiled files
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# * to avoid running the process inside docker as root (which can pollute the workspace with files owned by root), we force
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# running under current user's UID and GID. To be able to do that, we need to provide a home directory for the user
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# otherwise the UID would be homeless under the docker container and pip install wouldn't work. For simplicity,
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# we just run map the user's home to a throwaway temporary directory
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# Note that the docker image used for running the tests is arm64v8/openjdk, not arm64v8/node
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# This is because some of the node tests require java to be available and adding node
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# binary distribution into a java image is easier than vice versa.
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docker run $DOCKER_TTY_ARGS --rm --user "$(id -u):$(id -g)" -e "HOME=/home/fake-user" -v "$(mktemp -d):/home/fake-user" -v "$(pwd)":/work -w /work arm64v8/openjdk:11-jdk-buster kokoro/linux/aarch64/javascript_build_and_run_tests_with_qemu_aarch64.sh
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