Skip to content
This repository has been archived by the owner on Aug 17, 2023. It is now read-only.

Latest commit

 

History

History
 
 

ci

Folders and files

NameName
Last commit message
Last commit date

parent directory

..
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Developer use of CI Docker images

There are two available flavors of Envoy Docker images for Linux, based on Ubuntu and Alpine Linux and an image based on Windows2019.

Ubuntu Envoy image

The Ubuntu based Envoy Docker image at envoyproxy/envoy-build:<hash> is used for CI checks, where <hash> is specified in envoy_build_sha.sh. Developers may work with the latest build image SHA in envoy-build-tools repo to provide a self-contained environment for building Envoy binaries and running tests that reflects the latest built Ubuntu Envoy image. Moreover, the Docker image at envoyproxy/envoy-dev:<hash> is an image that has an Envoy binary at /usr/local/bin/envoy. The <hash> corresponds to the main commit at which the binary was compiled. Lastly, envoyproxy/envoy-dev:latest contains an Envoy binary built from the latest tip of main that passed tests.

Alpine Envoy image

Minimal images based on Alpine Linux allow for quicker deployment of Envoy. The Alpine base image is only built with symbols stripped. To get the binary with symbols, use the corresponding Ubuntu based debug image. The image is pushed with two different tags: <hash> and latest. Parallel to the Ubuntu images above, <hash> corresponds to the main commit at which the binary was compiled, and latest corresponds to a binary built from the latest tip of main that passed tests.

Windows 2019 Envoy image

The Windows 2019 based Envoy Docker image at envoyproxy/envoy-build-windows2019:<hash> is used for CI checks, where <hash> is specified in envoy_build_sha.sh. Developers may work with the most recent envoyproxy/envoy-build-windows2019 image to provide a self-contained environment for building Envoy binaries and running tests that reflects the latest built Windows 2019 Envoy image.

Build image base and compiler versions

Currently there are three build images for Linux and one for Windows:

  • envoyproxy/envoy-build — alias to envoyproxy/envoy-build-ubuntu.
  • envoyproxy/envoy-build-ubuntu — based on Ubuntu 18.04 (Bionic) with GCC 9 and Clang 10 compiler.
  • envoyproxy/envoy-build-centos — based on CentOS 7 with GCC 9 and Clang 10 compiler, this image is experimental and not well tested.
  • envoyproxy/envoy-build-windows2019 — based on Windows ltsc2019 with VS 2019 Build Tools, as well as LLVM.

The source for these images is located in the envoyproxy/envoy-build-tools repository.

We use the Clang compiler for all Linux CI runs with tests. We have an additional Linux CI run with GCC which builds binary only.

C++ standard library

As of November 2019 after #8859 the official released binary is linked against libc++ on Linux. To override the C++ standard library in your build, set environment variable ENVOY_STDLIB to libstdc++ or libc++ and run ./ci/do_ci.sh as described below.

Building and running tests as a developer

The ./ci/run_envoy_docker.sh script can be used to set up a Docker container on Linux and Windows to build an Envoy static binary and run tests.

The build image defaults to envoyproxy/envoy-build-ubuntu on Linux and envoyproxy/envoy-build-windows2019 on Windows, but you can choose build image by setting IMAGE_NAME in the environment.

In case your setup is behind a proxy, set http_proxy and https_proxy to the proxy servers before invoking the build.

IMAGE_NAME=envoyproxy/envoy-build-ubuntu http_proxy=http://proxy.foo.com:8080 https_proxy=http://proxy.bar.com:8080 ./ci/run_envoy_docker.sh <build_script_args>'

On Linux

An example basic invocation to build a developer version of the Envoy static binary (using the Bazel fastbuild type) is:

./ci/run_envoy_docker.sh './ci/do_ci.sh bazel.dev'

The Envoy binary can be found in /tmp/envoy-docker-build/envoy/source/exe/envoy-fastbuild on the Docker host. You can control this by setting ENVOY_DOCKER_BUILD_DIR in the environment, e.g. to generate the binary in ~/build/envoy/source/exe/envoy-fastbuild you can run:

ENVOY_DOCKER_BUILD_DIR=~/build ./ci/run_envoy_docker.sh './ci/do_ci.sh bazel.dev'

For a release version of the Envoy binary you can run:

./ci/run_envoy_docker.sh './ci/do_ci.sh bazel.release.server_only'

The build artifact can be found in /tmp/envoy-docker-build/envoy/source/exe/envoy (or wherever $ENVOY_DOCKER_BUILD_DIR points).

For a debug version of the Envoy binary you can run:

./ci/run_envoy_docker.sh './ci/do_ci.sh bazel.debug.server_only'

The build artifact can be found in /tmp/envoy-docker-build/envoy/source/exe/envoy-debug (or wherever $ENVOY_DOCKER_BUILD_DIR points).

To leverage a bazel remote cache add the http_remote_cache endpoint to the BAZEL_BUILD_EXTRA_OPTIONS environment variable

./ci/run_envoy_docker.sh "BAZEL_BUILD_EXTRA_OPTIONS='--remote_http_cache=http://127.0.0.1:28080' ./ci/do_ci.sh bazel.release"

The ./ci/run_envoy_docker.sh './ci/do_ci.sh <TARGET>' targets are:

  • bazel.api — build and run API tests under -c fastbuild with clang.
  • bazel.asan — build and run tests under -c dbg --config=clang-asan with clang.
  • bazel.asan <test> — build and run a specified test or test dir under -c dbg --config=clang-asan with clang.
  • bazel.debug — build Envoy static binary and run tests under -c dbg.
  • bazel.debug <test> — build Envoy static binary and run a specified test or test dir under -c dbg.
  • bazel.debug.server_only — build Envoy static binary under -c dbg.
  • bazel.dev — build Envoy static binary and run tests under -c fastbuild with clang.
  • bazel.dev <test> — build Envoy static binary and run a specified test or test dir under -c fastbuild with clang.
  • bazel.release — build Envoy static binary and run tests under -c opt with clang.
  • bazel.release <test> — build Envoy static binary and run a specified test or test dir under -c opt with clang.
  • bazel.release.server_only — build Envoy static binary under -c opt with clang.
  • bazel.sizeopt — build Envoy static binary and run tests under -c opt --config=sizeopt with clang.
  • bazel.sizeopt <test> — build Envoy static binary and run a specified test or test dir under -c opt --config=sizeopt with clang.
  • bazel.sizeopt.server_only — build Envoy static binary under -c opt --config=sizeopt with clang.
  • bazel.coverage — build and run tests under -c dbg with gcc, generating coverage information in $ENVOY_DOCKER_BUILD_DIR/envoy/generated/coverage/coverage.html.
  • bazel.coverage <test> — build and run a specified test or test dir under -c dbg with gcc, generating coverage information in $ENVOY_DOCKER_BUILD_DIR/envoy/generated/coverage/coverage.html.
  • bazel.coverity — build Envoy static binary and run Coverity Scan static analysis.
  • bazel.msan — build and run tests under -c dbg --config=clang-msan with clang.
  • bazel.msan <test> — build and run a specified test or test dir under -c dbg --config=clang-msan with clang.
  • bazel.tsan — build and run tests under -c dbg --config=clang-tsan with clang.
  • bazel.tsan <test> — build and run a specified test or test dir under -c dbg --config=clang-tsan with clang.
  • bazel.fuzz — build and run fuzz tests under -c dbg --config=asan-fuzzer with clang.
  • bazel.fuzz <test> — build and run a specified fuzz test or test dir under -c dbg --config=asan-fuzzer with clang. If specifying a single fuzz test, must use the full target name with "_with_libfuzzer" for <test>.
  • bazel.compile_time_options — build Envoy and run tests with various compile-time options toggled to their non-default state, to ensure they still build.
  • bazel.compile_time_options <test> — build Envoy and run a specified test or test dir with various compile-time options toggled to their non-default state, to ensure they still build.
  • bazel.clang_tidy <files> — build and run clang-tidy specified source files, if no files specified, runs against the diff with the last GitHub commit.
  • check_format— run clang-format and buildifier on entire source tree.
  • fix_format— run and enforce clang-format and buildifier on entire source tree.
  • check_spelling_pedantic— run aspell on C++ and proto comments.
  • docs— build documentation tree in generated/docs.

On Windows

An example basic invocation to build the Envoy static binary and run tests is:

./ci/run_envoy_docker.sh './ci/windows_ci_steps.sh'

You can pass additional command line arguments to ./ci/windows_ci_steps.sh to list specific bazel arguments and build/test targets. as set environment variables to adjust your container build environment as described above.

The Envoy binary can be found in ${TEMP}\envoy-docker-build\envoy\source\exe on the Docker host. You can control this by setting ENVOY_DOCKER_BUILD_DIR in the environment, e.g. to generate the binary in C:\Users\foo\build\envoy\source\exe you can run:

ENVOY_DOCKER_BUILD_DIR="C:\Users\foo\build" ./ci/run_envoy_docker.sh './ci/windows_ci_steps.sh'

Note the quotations around the ENVOY_DOCKER_BUILD_DIR value to preserve the backslashes in the path.

If you would like to run an interactive session to keep the build container running (to persist your local build environment), run:

./ci/run_envoy_docker.sh 'bash'

From an interactive session, you can invoke bazel directly, or use the ./ci/windows_ci_steps.sh script to build and run tests. Bazel will look for .bazelrc in the ${HOME} path, which is mapped to the persistent path ${TEMP}\envoy-docker-build\ on the Docker host.

Testing changes to the build image as a developer

The base build image used in the CI flows here lives in the envoy-build-tools repository. If you need to make and/or test changes to the build image, instructions to do so can be found in the build_container folder. See the Dockerfiles and build scripts there for building a new image.

macOS Build Flow

The macOS CI build is part of the Azure Pipelines workflow. Dependencies are installed by the ci/mac_ci_setup.sh script, via Homebrew, which is pre-installed on the Azure Pipelines macOS image. The dependencies are cached and re-installed on every build. The ci/mac_ci_steps.sh script executes the specific commands that build and test Envoy. Note that the full version of Xcode (not just Command Line Tools) is required.

Coverity Scan Build Flow

Coverity Scan Envoy Project

Coverity Scan static analysis is not run within Envoy CI. However, Envoy can be locally built and submitted for analysis. A Coverity Scan Envoy project token must be generated from the Coverity Project Settings. Only a Coverity Project Administrator can create a token. With this token, running ci/do_coverity_local.sh will use the Ubuntu based envoyproxy/envoy-build-ubuntu image to build the Envoy static binary with the Coverity Scan tool chain. This process generates an artifact, envoy-coverity-output.tgz, that is uploaded to Coverity for static analysis.

To build and submit for analysis:

COVERITY_TOKEN={generated Coverity project token} ./ci/do_coverity_local.sh