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base: github:test/ci
Branches Tags
github:master github:fix/buffered_outputs github:fix/http-output-on-non-linux-platforms github:dependabot/submodules/submodules/falcosecurity-rules-048d2f8 github:feat/capture-events-filesize-limits github:update/libs github:3485_webserver_with_own_uid_gid github:release/0.43.x github:ekoops-patch-1 github:release/0.42.x github:release/0.41.x github:test/wip github:new/musl_static_aarch64 github:release/0.40.x github:release/0.39.x github:wip/test_libs_master github:release/0.38.x github:generalize-indexable-ruleset-polymorphic github:chore/test_pr1803 github:LucaGuerra-patch-1 github:release/0.37.x github:fix_CI_5 github:chore/use_actuated_helper github:fix_CI_4 github:bump_falco_latest_libs github:new/static_aarch64 github:fix/use_plugin_name github:new/mode-in-config github:release/0.36.x github:test_filterchecks github:test_release_0.36.0 github:fix/workaround_glibc_bug_timer_delete github:wip/test github:add-load-files-method github:test/ci github:update/pidfile-usage-doc github:bump_libs_andrea github:release/0.35.x github:remove-source-ruleset-overwrite-when-loading github:mstemm-works-with-latest-libs github:test/PR546 github:test/PR959 github:libs_bump github:release/0.34.x github:release/0.34.0 github:fix/kmod_cleanup github:chore/move-rules-to-their-repo github:enable_maintainers_gh_jobs github:dev_docker github:fix/dev_version github:exec-hashes github:falco_modern_probe github:release/0.33.1 github:test_modern_probe github:fix/docker_img_host_root_runtime github:release/0.33.0 github:test_falco_bump github:chore/falco_lock_file github:fix_falco_service github:test_deb_rpm github:buffer_dimension github:testing/falco-0-32-3/issue/1909 github:test/libs/pr/567 github:test/new_libs github:release/0.32.2 github:update/remove-mesos-support github:remove-fntlnz github:test/libs/pr/213 github:leogr-patch-1 github:build/fix-conffiles github:add-app-actions github:add-app-actions-prerebase-2 github:add-grpc-rules-loading github:fix-plugins-issue-56 github:field-properties-changes github:embed-lua-scripts github:new/plugin-system-api-additions-prerebase github:embeddable-falco-engine github:build/apply-libs-pr-41 github:build/upgrade-driver-version-mid2021 github:build/upgrade-driver-version-for-0-29-0 github:build/update-driver-version-wip github:hotfix/grpc-in-packages github:use-url-safe-chars-version github:rules-fp-fixes-2021-02 github:allow-unknown-sources github:libhawk-rules github:build/docs github:update/cli github:update/logo github:caniszczyk-patch-1 github:new/logger github:new/inspect-per-cpu github:new/ci-build-aarch64 github:release/0.26.2 github:temporary/test-ci-broken-tests github:libhawk github:add-exceptions-support-copy2 github:add-exceptions-support-copy github:chore/remove-time-macrodefs github:update/release-drivers github:rules-bash-history-top-only github:fix/scripts-modprobe github:perf-experiments github:fix/1272 github:fix/1272-test github:readme-update github:proposal/rules-engine-version-scope github:nova-debug github:falco-driver-loader-dockerfile github:chore/integration-grpc-with-event-generator github:feat/grpc-integration-tests github:new/profiler github:falco-arm-support github:falco-on-arm github:feature/inputs-mvp github:adding-install-script github:feat/modulecheck github:falco-release-0-17-0 github:falco-release-0-17-1 github:add-addl-pst-owners github:683-handle-sinsp-errors github:allow-regex-chars-rule-names github:backup-master github:add-context-to-rules-errors
github:0.43.0 github:0.43.0-rc4 github:0.43.0-rc3 github:0.43.0-rc2 github:0.43.0-rc1 github:0.42.1 github:0.42.0 github:0.42.0-rc4 github:0.42.0-rc3 github:0.42.0-rc2 github:0.42.0-rc1 github:0.41.3 github:0.41.2 github:0.41.1 github:0.41.1-rc1 github:0.41.0 github:0.41.0-rc2 github:0.41.0-rc1 github:0.40.0 github:0.40.0-rc1 github:0.39.2 github:0.39.1 github:0.39.1-rc1 github:0.39.0 github:0.39.0-rc3 github:0.39.0-rc2 github:0.39.0-rc1 github:0.38.2 github:0.38.2-rc2 github:0.38.2-rc1 github:0.38.1 github:0.38.1-rc1 github:0.38.0 github:0.38.0-rc5 github:0.38.0-rc4 github:0.38.0-rc3 github:0.38.0-rc2 github:0.38.0-rc1 github:0.37.1 github:0.37.1-rc1 github:0.37.0 github:0.37.0-rc3 github:0.37.0-rc2 github:0.37.0-rc1 github:0.36.2 github:0.36.2-rc1 github:0.36.1 github:0.36.1-rc1 github:0.36.0 github:0.36.0-rc3 github:0.36.0-rc2 github:0.36.0-rc1 github:0.35.1 github:0.35.0 github:0.35.0-rc2 github:0.35.0-rc1 github:0.35.0-alpha5 github:0.35.0-alpha4 github:0.35.0-alpha3 github:0.35.0-alpha2 github:0.35.0-alpha1 github:0.34.1 github:0.34.0 github:0.33.1 github:0.33.0 github:0.32.2 github:0.32.1 github:0.32.0 github:0.31.1 github:0.31.0 github:0.30.0 github:0.29.1 github:0.29.0 github:0.28.1 github:0.28.0 github:0.27.0 github:0.26.2 github:0.26.1 github:0.26.0 github:0.25.0 github:0.24.0 github:0.23.0 github:0.22.1 github:0.22.0 github:0.21.0 github:0.20.0 github:0.19.0 github:0.18.0 github:0.17.1 github:0.17.0 github:0.16.0 github:0.15.3 github:0.15.2 github:0.15.1 github:0.15.0 github:0.14.0 github:0.13.1 github:0.13.0 github:agent/0.85.1 github:0.12.1 github:0.12.0 github:agent/0.85.0 github:agent/0.84.2 github:agent/0.84.3 github:agent/0.84.1 github:agent/0.84.0 github:0.11.1 github:0.11.0 github:agent/0.83.1 github:agent/0.83.0 github:agent/0.81.0 github:agent/0.82.0 github:agent/0.80.2 github:agent/0.80.1 github:0.10.0 github:agent/0.80.0 github:agent/0.79.0 github:agent/0.79.1 github:agent/0.78.0 github:agent/0.78.1 github:agent/0.76.4 github:agent/0.77.0 github:agent/0.76.3 github:0.9.0 github:agent/0.76.0 github:agent/0.76.1 github:agent/0.76.2 github:agent/0.75.0 github:agent/0.74.0 github:agent/0.73.2 github:agent/0.73.1 github:agent/0.73.0 github:agent/0.72.4 github:agent/0.72.0 github:agent/0.72.1 github:agent/0.72.2 github:agent/0.72.3 github:agent/0.71.0 github:agent/0.70.0 github:0.8.1 github:0.8.0 github:agent/0.69.0 github:agent/0.68.0 github:agent/0.66.0 github:agent/0.67.0 github:agent/0.65.0 github:agent/0.65.1 github:agent/0.63.0 github:agent/0.63.1 github:agent/0.64.0 github:agent/0.61.0 github:agent/0.62.0 github:0.7.0 github:0.6.1 github:agent/0.60.0 github:agent/0.59.0 github:agent/0.58.0 github:agent/0.57.0 github:agent/0.56.0 github:0.6.0 github:0.6.0-test github:agent/0.55.0 github:agent/0.54.0 github:agent/0.53.0 github:agent/0.52.0 github:agent/0.51.0 github:agent/0.50.1 github:agent/0.50.0 github:0.5.0 github:agent/0.49.1 github:agent/0.49.0 github:agent/0.48.0 github:agent/0.47.0 github:agent/0.46.0 github:agent/0.45.0 github:agent/0.44.0 github:agent/0.43.0 github:0.4.0 github:agent/0.42.0 github:agent/0.40.0 github:agent/0.41.0 github:0.3.0 github:v0.2.0 github:v0.1.0
..
compare: github:0.26.2
Branches Tags
github:fix/buffered_outputs github:fix/http-output-on-non-linux-platforms github:dependabot/submodules/submodules/falcosecurity-rules-048d2f8 github:master github:feat/capture-events-filesize-limits github:update/libs github:3485_webserver_with_own_uid_gid github:release/0.43.x github:ekoops-patch-1 github:release/0.42.x github:release/0.41.x github:test/wip github:new/musl_static_aarch64 github:release/0.40.x github:release/0.39.x github:wip/test_libs_master github:release/0.38.x github:generalize-indexable-ruleset-polymorphic github:chore/test_pr1803 github:LucaGuerra-patch-1 github:release/0.37.x github:fix_CI_5 github:chore/use_actuated_helper github:fix_CI_4 github:bump_falco_latest_libs github:new/static_aarch64 github:fix/use_plugin_name github:new/mode-in-config github:release/0.36.x github:test_filterchecks github:test_release_0.36.0 github:fix/workaround_glibc_bug_timer_delete github:wip/test github:add-load-files-method github:test/ci github:update/pidfile-usage-doc github:bump_libs_andrea github:release/0.35.x github:remove-source-ruleset-overwrite-when-loading github:mstemm-works-with-latest-libs github:test/PR546 github:test/PR959 github:libs_bump github:release/0.34.x github:release/0.34.0 github:fix/kmod_cleanup github:chore/move-rules-to-their-repo github:enable_maintainers_gh_jobs github:dev_docker github:fix/dev_version github:exec-hashes github:falco_modern_probe github:release/0.33.1 github:test_modern_probe github:fix/docker_img_host_root_runtime github:release/0.33.0 github:test_falco_bump github:chore/falco_lock_file github:fix_falco_service github:test_deb_rpm github:buffer_dimension github:testing/falco-0-32-3/issue/1909 github:test/libs/pr/567 github:test/new_libs github:release/0.32.2 github:update/remove-mesos-support github:remove-fntlnz github:test/libs/pr/213 github:leogr-patch-1 github:build/fix-conffiles github:add-app-actions github:add-app-actions-prerebase-2 github:add-grpc-rules-loading github:fix-plugins-issue-56 github:field-properties-changes github:embed-lua-scripts github:new/plugin-system-api-additions-prerebase github:embeddable-falco-engine github:build/apply-libs-pr-41 github:build/upgrade-driver-version-mid2021 github:build/upgrade-driver-version-for-0-29-0 github:build/update-driver-version-wip github:hotfix/grpc-in-packages github:use-url-safe-chars-version github:rules-fp-fixes-2021-02 github:allow-unknown-sources github:libhawk-rules github:build/docs github:update/cli github:update/logo github:caniszczyk-patch-1 github:new/logger github:new/inspect-per-cpu github:new/ci-build-aarch64 github:release/0.26.2 github:temporary/test-ci-broken-tests github:libhawk github:add-exceptions-support-copy2 github:add-exceptions-support-copy github:chore/remove-time-macrodefs github:update/release-drivers github:rules-bash-history-top-only github:fix/scripts-modprobe github:perf-experiments github:fix/1272 github:fix/1272-test github:readme-update github:proposal/rules-engine-version-scope github:nova-debug github:falco-driver-loader-dockerfile github:chore/integration-grpc-with-event-generator github:feat/grpc-integration-tests github:new/profiler github:falco-arm-support github:falco-on-arm github:feature/inputs-mvp github:adding-install-script github:feat/modulecheck github:falco-release-0-17-0 github:falco-release-0-17-1 github:add-addl-pst-owners github:683-handle-sinsp-errors github:allow-regex-chars-rule-names github:backup-master github:add-context-to-rules-errors
github:0.43.0 github:0.43.0-rc4 github:0.43.0-rc3 github:0.43.0-rc2 github:0.43.0-rc1 github:0.42.1 github:0.42.0 github:0.42.0-rc4 github:0.42.0-rc3 github:0.42.0-rc2 github:0.42.0-rc1 github:0.41.3 github:0.41.2 github:0.41.1 github:0.41.1-rc1 github:0.41.0 github:0.41.0-rc2 github:0.41.0-rc1 github:0.40.0 github:0.40.0-rc1 github:0.39.2 github:0.39.1 github:0.39.1-rc1 github:0.39.0 github:0.39.0-rc3 github:0.39.0-rc2 github:0.39.0-rc1 github:0.38.2 github:0.38.2-rc2 github:0.38.2-rc1 github:0.38.1 github:0.38.1-rc1 github:0.38.0 github:0.38.0-rc5 github:0.38.0-rc4 github:0.38.0-rc3 github:0.38.0-rc2 github:0.38.0-rc1 github:0.37.1 github:0.37.1-rc1 github:0.37.0 github:0.37.0-rc3 github:0.37.0-rc2 github:0.37.0-rc1 github:0.36.2 github:0.36.2-rc1 github:0.36.1 github:0.36.1-rc1 github:0.36.0 github:0.36.0-rc3 github:0.36.0-rc2 github:0.36.0-rc1 github:0.35.1 github:0.35.0 github:0.35.0-rc2 github:0.35.0-rc1 github:0.35.0-alpha5 github:0.35.0-alpha4 github:0.35.0-alpha3 github:0.35.0-alpha2 github:0.35.0-alpha1 github:0.34.1 github:0.34.0 github:0.33.1 github:0.33.0 github:0.32.2 github:0.32.1 github:0.32.0 github:0.31.1 github:0.31.0 github:0.30.0 github:0.29.1 github:0.29.0 github:0.28.1 github:0.28.0 github:0.27.0 github:0.26.2 github:0.26.1 github:0.26.0 github:0.25.0 github:0.24.0 github:0.23.0 github:0.22.1 github:0.22.0 github:0.21.0 github:0.20.0 github:0.19.0 github:0.18.0 github:0.17.1 github:0.17.0 github:0.16.0 github:0.15.3 github:0.15.2 github:0.15.1 github:0.15.0 github:0.14.0 github:0.13.1 github:0.13.0 github:agent/0.85.1 github:0.12.1 github:0.12.0 github:agent/0.85.0 github:agent/0.84.2 github:agent/0.84.3 github:agent/0.84.1 github:agent/0.84.0 github:0.11.1 github:0.11.0 github:agent/0.83.1 github:agent/0.83.0 github:agent/0.81.0 github:agent/0.82.0 github:agent/0.80.2 github:agent/0.80.1 github:0.10.0 github:agent/0.80.0 github:agent/0.79.0 github:agent/0.79.1 github:agent/0.78.0 github:agent/0.78.1 github:agent/0.76.4 github:agent/0.77.0 github:agent/0.76.3 github:0.9.0 github:agent/0.76.0 github:agent/0.76.1 github:agent/0.76.2 github:agent/0.75.0 github:agent/0.74.0 github:agent/0.73.2 github:agent/0.73.1 github:agent/0.73.0 github:agent/0.72.4 github:agent/0.72.0 github:agent/0.72.1 github:agent/0.72.2 github:agent/0.72.3 github:agent/0.71.0 github:agent/0.70.0 github:0.8.1 github:0.8.0 github:agent/0.69.0 github:agent/0.68.0 github:agent/0.66.0 github:agent/0.67.0 github:agent/0.65.0 github:agent/0.65.1 github:agent/0.63.0 github:agent/0.63.1 github:agent/0.64.0 github:agent/0.61.0 github:agent/0.62.0 github:0.7.0 github:0.6.1 github:agent/0.60.0 github:agent/0.59.0 github:agent/0.58.0 github:agent/0.57.0 github:agent/0.56.0 github:0.6.0 github:0.6.0-test github:agent/0.55.0 github:agent/0.54.0 github:agent/0.53.0 github:agent/0.52.0 github:agent/0.51.0 github:agent/0.50.1 github:agent/0.50.0 github:0.5.0 github:agent/0.49.1 github:agent/0.49.0 github:agent/0.48.0 github:agent/0.47.0 github:agent/0.46.0 github:agent/0.45.0 github:agent/0.44.0 github:agent/0.43.0 github:0.4.0 github:agent/0.42.0 github:agent/0.40.0 github:agent/0.41.0 github:0.3.0 github:v0.2.0 github:v0.1.0

2 Commits
test/ci ... 0.26.2

Author SHA1 Message Date
Leonardo Di Donato
0e6ae63d10 docs: changelog for 0.26.2 
Co-authored-by: Lorenzo Fontana <lo@linux.com>
Signed-off-by: Leonardo Di Donato <leodidonato@gmail.com>
 2020-11-10 10:34:10 +00:00
Leonardo Di Donato
801f9f7686 update: new DRIVERS_REPO default 
Co-authored-by: Lorenzo Fontana <lo@linux.com>
Signed-off-by: Leonardo Di Donato <leodidonato@gmail.com>
 2020-11-10 10:28:03 +00:00
521 changed files with 22307 additions and 23139 deletions
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.circleci/OWNERS
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emeritus_approvers:
- jonahjon

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version: 2
jobs:
# Build a statically linked Falco release binary using musl
# This build is 100% static, there are no host dependencies
"build/musl":
docker:
- image: alpine:3.12
steps:
- checkout:
path: /source-static/falco
- run:
name: Update base image
command: apk update
- run:
name: Install build dependencies
command: apk add g++ gcc cmake cmake make ncurses-dev git bash perl linux-headers autoconf automake m4 libtool elfutils-dev libelf-static patch binutils
- run:
name: Prepare project
command: |
mkdir -p /build-static/release
cd /build-static/release
cmake -DCPACK_GENERATOR=TGZ -DBUILD_BPF=Off -DBUILD_DRIVER=Off -DCMAKE_BUILD_TYPE=Release -DUSE_BUNDLED_DEPS=On -DMUSL_OPTIMIZED_BUILD=On -DFALCO_ETC_DIR=/etc/falco /source-static/falco
- run:
name: Build
command: |
cd /build-static/release
make -j4 all
- run:
name: Package
command: |
cd /build-static/release
make -j4 package
- run:
name: Run unit tests
command: |
cd /build-static/release
make tests
- run:
name: Prepare artifacts
command: |
mkdir -p /tmp/packages
cp /build-static/release/*.tar.gz /tmp/packages
- store_artifacts:
path: /tmp/packages
destination: /packages
- persist_to_workspace:
root: /
paths:
- build-static/release
- source-static
# Build the minimal Falco
# This build only contains the Falco engine and the basic input/output.
"build/minimal":
docker:
- image: ubuntu:focal
steps:
- checkout
- run:
name: Update base image
command: apt update -y
- run:
name: Install dependencies
command: DEBIAN_FRONTEND=noninteractive apt install libjq-dev libncurses-dev libyaml-cpp-dev libelf-dev cmake build-essential git -y
- run:
name: Prepare project
command: |
mkdir build-minimal
pushd build-minimal
cmake -DMINIMAL_BUILD=On -DBUILD_BPF=Off -DBUILD_DRIVER=Off -DCMAKE_BUILD_TYPE=Release ..
popd
- run:
name: Build
command: |
pushd build-minimal
make -j4 all
popd
- run:
name: Run unit tests
command: |
pushd build-minimal
make tests
popd
# Build using ubuntu LTS
# This build is dynamic, most dependencies are taken from the OS
"build/ubuntu-focal":
docker:
- image: ubuntu:focal
steps:
- checkout
- run:
name: Update base image
command: apt update -y
- run:
name: Install dependencies
command: DEBIAN_FRONTEND=noninteractive apt install libssl-dev libyaml-dev libncurses-dev libc-ares-dev libprotobuf-dev protobuf-compiler libjq-dev libyaml-cpp-dev libgrpc++-dev protobuf-compiler-grpc rpm libelf-dev cmake build-essential libcurl4-openssl-dev linux-headers-generic clang llvm git -y
- run:
name: Prepare project
command: |
mkdir build
pushd build
cmake -DBUILD_BPF=On ..
popd
- run:
name: Build
command: |
pushd build
KERNELDIR=/lib/modules/$(ls /lib/modules)/build make -j4 all
popd
- run:
name: Run unit tests
command: |
pushd build
make tests
popd
# Debug build using ubuntu LTS
# This build is dynamic, most dependencies are taken from the OS
"build/ubuntu-focal-debug":
docker:
- image: ubuntu:focal
steps:
- checkout
- run:
name: Update base image
command: apt update -y
- run:
name: Install dependencies
command: DEBIAN_FRONTEND=noninteractive apt install libssl-dev libyaml-dev libncurses-dev libc-ares-dev libprotobuf-dev protobuf-compiler libjq-dev libyaml-cpp-dev libgrpc++-dev protobuf-compiler-grpc rpm libelf-dev cmake build-essential libcurl4-openssl-dev linux-headers-generic clang llvm git -y
- run:
name: Prepare project
command: |
mkdir build
pushd build
cmake -DCMAKE_BUILD_TYPE=debug -DBUILD_BPF=On ..
popd
- run:
name: Build
command: |
pushd build
KERNELDIR=/lib/modules/$(ls /lib/modules)/build make -j4 all
popd
- run:
name: Run unit tests
command: |
pushd build
make tests
popd
# Build using Ubuntu Bionic Beaver (18.04)
# This build is static, dependencies are bundled in the Falco binary
"build/ubuntu-bionic":
docker:
- image: ubuntu:bionic
steps:
- checkout
- run:
name: Update base image
command: apt update -y
- run:
name: Install dependencies
command: DEBIAN_FRONTEND=noninteractive apt install cmake build-essential clang llvm git linux-headers-generic libncurses-dev pkg-config autoconf libtool libelf-dev -y
- run:
name: Prepare project
command: |
mkdir build
pushd build
cmake -DBUILD_BPF=On -DUSE_BUNDLED_DEPS=On ..
popd
- run:
name: Build
command: |
pushd build
KERNELDIR=/lib/modules/$(ls /lib/modules)/build make -j4 all
popd
- run:
name: Run unit tests
command: |
pushd build
make tests
popd
# Build using CentOS 8
# This build is static, dependencies are bundled in the Falco binary
"build/centos8":
docker:
- image: centos:8
steps:
- checkout
- run:
name: Update base image
command: dnf update -y
- run:
name: Install dependencies
command: dnf install gcc gcc-c++ git make cmake autoconf automake pkg-config patch ncurses-devel libtool elfutils-libelf-devel diffutils kernel-devel kernel-headers kernel-core clang llvm which -y
- run:
name: Prepare project
command: |
mkdir build
pushd build
cmake -DBUILD_BPF=On -DUSE_BUNDLED_DEPS=On ..
popd
- run:
name: Build
command: |
pushd build
KERNELDIR=/lib/modules/$(ls /lib/modules)/build make -j4 all
popd
- run:
name: Run unit tests
command: |
pushd build
make tests
popd
# Build using our own builder base image using centos 7
# This build is static, dependencies are bundled in the Falco binary
"build/centos7":
docker:
- image: falcosecurity/falco-builder:latest
environment:
BUILD_TYPE: "release"
steps:
- checkout:
path: /source/falco
- run:
name: Prepare project
command: /usr/bin/entrypoint cmake
- run:
name: Build
command: /usr/bin/entrypoint all
- run:
name: Run unit tests
command: /usr/bin/entrypoint tests
- run:
name: Build packages
command: /usr/bin/entrypoint package
- persist_to_workspace:
root: /
paths:
- build/release
- source
- run:
name: Prepare artifacts
command: |
mkdir -p /tmp/packages
cp /build/release/*.deb /tmp/packages
cp /build/release/*.tar.gz /tmp/packages
cp /build/release/*.rpm /tmp/packages
- store_artifacts:
path: /tmp/packages
destination: /packages
# Debug build using our own builder base image using centos 7
# This build is static, dependencies are bundled in the Falco binary
"build/centos7-debug":
docker:
- image: falcosecurity/falco-builder:latest
environment:
BUILD_TYPE: "debug"
steps:
- checkout:
path: /source/falco
- run:
name: Prepare project
command: /usr/bin/entrypoint cmake
- run:
name: Build
command: /usr/bin/entrypoint all
- run:
name: Run unit tests
command: /usr/bin/entrypoint tests
- run:
name: Build packages
command: /usr/bin/entrypoint package
# Execute integration tests based on the build results coming from the "build/centos7" job
"tests/integration":
docker:
- image: falcosecurity/falco-tester:latest
environment:
SOURCE_DIR: "/source"
BUILD_DIR: "/build"
BUILD_TYPE: "release"
steps:
- setup_remote_docker
- attach_workspace:
at: /
- run:
name: Execute integration tests
command: /usr/bin/entrypoint test
"tests/integration-static":
docker:
- image: falcosecurity/falco-tester:latest
environment:
SOURCE_DIR: "/source-static"
BUILD_DIR: "/build-static"
BUILD_TYPE: "release"
SKIP_PACKAGES_TESTS: "true"
steps:
- setup_remote_docker
- attach_workspace:
at: /
- run:
name: Execute integration tests
command: /usr/bin/entrypoint test
"tests/driver-loader/integration":
machine:
image: ubuntu-1604:202004-01
steps:
- attach_workspace:
at: /tmp/ws
- run:
name: Execute driver-loader integration tests
command: /tmp/ws/source/falco/test/driver-loader/run_test.sh /tmp/ws/build/release/
# Code quality
"quality/static-analysis":
docker:
- image: falcosecurity/falco-builder:latest
environment:
BUILD_TYPE: "release"
steps:
- run:
name: Install cppcheck
command: |
yum update -y
yum install epel-release -y
yum install cppcheck cppcheck-htmlreport -y
- checkout:
path: /source/falco
- run:
name: Prepare project
command: /usr/bin/entrypoint cmake
- run:
name: cppcheck
command: /usr/bin/entrypoint cppcheck
- run:
name: cppcheck html report
command: /usr/bin/entrypoint cppcheck_htmlreport
- store_artifacts:
path: /build/release/static-analysis-reports
destination: /static-analysis-reports
# Sign rpm packages
"rpm/sign":
docker:
- image: falcosecurity/falco-builder:latest
steps:
- attach_workspace:
at: /
- run:
name: Install rpmsign
command: |
yum update -y
yum install rpm-sign -y
- run:
name: Sign rpm
command: |
echo "%_signature gpg" > ~/.rpmmacros
echo "%_gpg_name Falcosecurity Package Signing" >> ~/.rpmmacros
cd /build/release/
echo '#!/usr/bin/expect -f' > sign
echo 'spawn rpmsign --addsign {*}$argv' >> sign
echo 'expect -exact "Enter pass phrase: "' >> sign
echo 'send -- "\n"' >> sign
echo 'expect eof' >> sign
chmod +x sign
echo $GPG_KEY | base64 -d | gpg --import
./sign *.rpm
test "$(rpm -qpi *.rpm | awk '/Signature/' | grep -i none | wc -l)" -eq 0
- persist_to_workspace:
root: /
paths:
- build/release/*.rpm
# Publish the packages
"publish/packages-dev":
docker:
- image: docker.bintray.io/jfrog/jfrog-cli-go:latest
steps:
- attach_workspace:
at: /
- run:
name: Create versions
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt vs falcosecurity/deb-dev/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} || jfrog bt vc falcosecurity/deb-dev/falco/${FALCO_VERSION} --desc="Falco (master)" --github-rel-notes=CHANGELOG.md --released=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z") --vcs-tag=${CIRCLE_SHA1} --user poiana --key ${BINTRAY_SECRET}
jfrog bt vs falcosecurity/rpm-dev/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} || jfrog bt vc falcosecurity/rpm-dev/falco/${FALCO_VERSION} --desc="Falco (master)" --github-rel-notes=CHANGELOG.md --released=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z") --vcs-tag=${CIRCLE_SHA1} --user poiana --key ${BINTRAY_SECRET}
jfrog bt vs falcosecurity/bin-dev/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} || jfrog bt vc falcosecurity/bin-dev/falco/${FALCO_VERSION} --desc="Falco (master)" --github-rel-notes=CHANGELOG.md --released=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z") --vcs-tag=${CIRCLE_SHA1} --user poiana --key ${BINTRAY_SECRET}
- run:
name: Publish deb-dev
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt u /build/release/falco-${FALCO_VERSION}-x86_64.deb falcosecurity/deb-dev/falco/${FALCO_VERSION} stable/ --deb stable/main/amd64 --user poiana --key ${BINTRAY_SECRET} --publish --override
- run:
name: Publish rpm-dev
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt u /build/release/falco-${FALCO_VERSION}-x86_64.rpm falcosecurity/rpm-dev/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} --publish --override
- run:
name: Publish bin-dev
command: |
FALCO_VERSION=$(cat /build-static/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt u /build-static/release/falco-${FALCO_VERSION}-x86_64.tar.gz falcosecurity/bin-dev/falco/${FALCO_VERSION} x86_64/ --user poiana --key ${BINTRAY_SECRET} --publish --override
# Clenup the Falco development release packages
"cleanup/packages-dev":
docker:
- image: docker.bintray.io/jfrog/jfrog-cli-go:latest
steps:
- checkout:
path: /source/falco
- run:
name: Prepare env
command: |
apk add --no-cache --update
apk add curl jq
- run:
name: Only keep the 10 most recent Falco development release tarballs
command: |
/source/falco/scripts/cleanup -p ${BINTRAY_SECRET} -r bin-dev
- run:
name: Only keep the 50 most recent Falco development release RPMs
command: |
/source/falco/scripts/cleanup -p ${BINTRAY_SECRET} -r rpm-dev
- run:
name: Only keep the 50 most recent Falco development release DEBs
command: |
/source/falco/scripts/cleanup -p ${BINTRAY_SECRET} -r deb-dev
# Publish docker packages
"publish/docker-dev":
docker:
- image: docker:stable
steps:
- attach_workspace:
at: /
- checkout
- setup_remote_docker
- run:
name: Build and publish no-driver-dev
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
docker build --build-arg VERSION_BUCKET=bin-dev --build-arg FALCO_VERSION=${FALCO_VERSION} -t falcosecurity/falco-no-driver:master docker/no-driver
docker tag falcosecurity/falco-no-driver:master falcosecurity/falco:master-slim
echo ${DOCKERHUB_SECRET} | docker login -u ${DOCKERHUB_USER} --password-stdin
docker push falcosecurity/falco-no-driver:master
docker push falcosecurity/falco:master-slim
- run:
name: Build and publish dev
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
docker build --build-arg VERSION_BUCKET=deb-dev --build-arg FALCO_VERSION=${FALCO_VERSION} -t falcosecurity/falco:master docker/falco
echo ${DOCKERHUB_SECRET} | docker login -u ${DOCKERHUB_USER} --password-stdin
docker push falcosecurity/falco:master
- run:
name: Build and publish dev falco-driver-loader-dev
command: |
docker build --build-arg FALCO_IMAGE_TAG=master -t falcosecurity/falco-driver-loader:master docker/driver-loader
echo ${DOCKERHUB_SECRET} | docker login -u ${DOCKERHUB_USER} --password-stdin
docker push falcosecurity/falco-driver-loader:master
# Publish the packages
"publish/packages":
docker:
- image: docker.bintray.io/jfrog/jfrog-cli-go:latest
steps:
- attach_workspace:
at: /
- run:
name: Create versions
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt vs falcosecurity/deb/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} || jfrog bt vc falcosecurity/deb/falco/${FALCO_VERSION} --desc="Falco (${CIRCLE_TAG})" --released=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z") --vcs-tag=${CIRCLE_TAG} --user poiana --key ${BINTRAY_SECRET}
jfrog bt vs falcosecurity/rpm/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} || jfrog bt vc falcosecurity/rpm/falco/${FALCO_VERSION} --desc="Falco (${CIRCLE_TAG})" --released=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z") --vcs-tag=${CIRCLE_TAG} --user poiana --key ${BINTRAY_SECRET}
jfrog bt vs falcosecurity/bin/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} || jfrog bt vc falcosecurity/bin/falco/${FALCO_VERSION} --desc="Falco (${CIRCLE_TAG})" --released=$(date -u +"%Y-%m-%dT%H:%M:%S.000Z") --vcs-tag=${CIRCLE_TAG} --user poiana --key ${BINTRAY_SECRET}
- run:
name: Publish deb
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt u /build/release/falco-${FALCO_VERSION}-x86_64.deb falcosecurity/deb/falco/${FALCO_VERSION} stable/ --deb stable/main/amd64 --user poiana --key ${BINTRAY_SECRET} --publish --override
- run:
name: Publish rpm
command: |
FALCO_VERSION=$(cat /build/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt u /build/release/falco-${FALCO_VERSION}-x86_64.rpm falcosecurity/rpm/falco/${FALCO_VERSION} --user poiana --key ${BINTRAY_SECRET} --publish --override
- run:
name: Publish bin
command: |
FALCO_VERSION=$(cat /build-static/release/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
jfrog bt u /build-static/release/falco-${FALCO_VERSION}-x86_64.tar.gz falcosecurity/bin/falco/${FALCO_VERSION} x86_64/ --user poiana --key ${BINTRAY_SECRET} --publish --override
# Publish docker packages
"publish/docker":
docker:
- image: docker:stable
steps:
- attach_workspace:
at: /
- checkout
- setup_remote_docker
- run:
name: Build and publish no-driver
command: |
docker build --build-arg VERSION_BUCKET=bin --build-arg FALCO_VERSION=${CIRCLE_TAG} -t "falcosecurity/falco-no-driver:${CIRCLE_TAG}" docker/no-driver
docker tag "falcosecurity/falco-no-driver:${CIRCLE_TAG}" falcosecurity/falco-no-driver:latest
docker tag "falcosecurity/falco-no-driver:${CIRCLE_TAG}" "falcosecurity/falco:${CIRCLE_TAG}-slim"
docker tag "falcosecurity/falco-no-driver:${CIRCLE_TAG}" "falcosecurity/falco:latest-slim"
echo ${DOCKERHUB_SECRET} | docker login -u ${DOCKERHUB_USER} --password-stdin
docker push "falcosecurity/falco-no-driver:${CIRCLE_TAG}"
docker push "falcosecurity/falco-no-driver:latest"
docker push "falcosecurity/falco:${CIRCLE_TAG}-slim"
docker push "falcosecurity/falco:latest-slim"
- run:
name: Build and publish falco
command: |
docker build --build-arg VERSION_BUCKET=deb --build-arg FALCO_VERSION=${CIRCLE_TAG} -t "falcosecurity/falco:${CIRCLE_TAG}" docker/falco
docker tag "falcosecurity/falco:${CIRCLE_TAG}" falcosecurity/falco:latest
echo ${DOCKERHUB_SECRET} | docker login -u ${DOCKERHUB_USER} --password-stdin
docker push "falcosecurity/falco:${CIRCLE_TAG}"
docker push "falcosecurity/falco:latest"
- run:
name: Build and publish falco-driver-loader
command: |
docker build --build-arg FALCO_IMAGE_TAG=${CIRCLE_TAG} -t "falcosecurity/falco-driver-loader:${CIRCLE_TAG}" docker/driver-loader
docker tag "falcosecurity/falco-driver-loader:${CIRCLE_TAG}" falcosecurity/falco-driver-loader:latest
echo ${DOCKERHUB_SECRET} | docker login -u ${DOCKERHUB_USER} --password-stdin
docker push "falcosecurity/falco-driver-loader:${CIRCLE_TAG}"
docker push "falcosecurity/falco-driver-loader:latest"
workflows:
version: 2
build_and_test:
jobs:
- "build/musl"
- "build/minimal"
- "build/ubuntu-focal"
- "build/ubuntu-focal-debug"
- "build/ubuntu-bionic"
- "build/centos8"
- "build/centos7"
- "build/centos7-debug"
- "tests/integration":
requires:
- "build/centos7"
- "tests/integration-static":
requires:
- "build/musl"
- "tests/driver-loader/integration":
requires:
- "build/centos7"
- "rpm/sign":
context: falco
filters:
tags:
ignore: /.*/
branches:
only: master
requires:
- "tests/integration"
- "publish/packages-dev":
context: falco
filters:
tags:
ignore: /.*/
branches:
only: master
requires:
- "rpm/sign"
- "tests/integration-static"
- "cleanup/packages-dev":
context: falco
filters:
tags:
ignore: /.*/
branches:
only: master
requires:
- "publish/packages-dev"
- "publish/docker-dev":
context: falco
filters:
tags:
ignore: /.*/
branches:
only: master
requires:
- "publish/packages-dev"
- "tests/driver-loader/integration"
- "quality/static-analysis"
release:
jobs:
- "build/musl":
filters:
tags:
only: /.*/
branches:
ignore: /.*/
- "build/centos7":
filters:
tags:
only: /.*/
branches:
ignore: /.*/
- "rpm/sign":
context: falco
requires:
- "build/centos7"
filters:
tags:
only: /.*/
branches:
ignore: /.*/
- "publish/packages":
context: falco
requires:
- "build/musl"
- "rpm/sign"
filters:
tags:
only: /.*/
branches:
ignore: /.*/
- "publish/docker":
context: falco
requires:
- "publish/packages"
filters:
tags:
only: /.*/
branches:
ignore: /.*/

6
.cmake-format
View File

@@ -7,7 +7,7 @@ line_width = 120
# How many spaces to tab for indent
tab_size = 2
# If arg lists are longer than this, break them always
# If arglists are longer than this, break them always
max_subargs_per_line = 3
# If true, separate flow control names from their parentheses with a space
@@ -21,7 +21,7 @@ separate_fn_name_with_space = False
dangle_parens = False
# If the statement spelling length (including space and parenthesis is larger
# than the tab width by more than this among, then force reject un-nested
# than the tab width by more than this amoung, then force reject un-nested
# layouts.
max_prefix_chars = 2
@@ -54,7 +54,7 @@ always_wrap = []
algorithm_order = [0, 1, 2, 3, 4]
# If true, the argument lists which are known to be sortable will be sorted
# lexicographically
# lexicographicall
enable_sort = True
# If true, the parsers may infer whether or not an argument list is sortable

4
.codespellignore
View File

@@ -1,4 +0,0 @@
aks
creat
chage
ro

29
.github/PULL_REQUEST_TEMPLATE.md vendored
View File

@@ -1,7 +1,8 @@
<!-- Thanks for sending a pull request! Here are some tips for you:
1. If this is your first time, please read our contributor guidelines in the https://github.com/falcosecurity/.github/blob/main/CONTRIBUTING.md file.
<!-- Thanks for sending a pull request! Here are some tips for you:
1. If this is your first time, please read our contributor guidelines in the [CONTRIBUTING.md](CONTRIBUTING.md) file and learn how to compile Falco from source [here](https://falco.org/docs/source).
2. Please label this pull request according to what type of issue you are addressing.
3. Please add a release note!
3. . Please add a release note!
4. If the PR is unfinished while opening it specify a wip in the title before the actual title, for example, "wip: my awesome feature"
-->
@@ -21,7 +22,11 @@
> /kind feature
> /kind release
> If contributing rules or changes to rules, please make sure to also uncomment one of the following line:
> /kind rule-update
> /kind rule-create
<!--
Please remove the leading whitespace before the `/kind <>` you uncommented.
@@ -35,12 +40,12 @@ Please remove the leading whitespace before the `/kind <>` you uncommented.
> /area engine
> /area rules
> /area tests
> /area proposals
> /area CI
<!--
Please remove the leading whitespace before the `/area <>` you uncommented.
-->
@@ -62,13 +67,11 @@ Fixes #
**Does this PR introduce a user-facing change?**:
<!--
If NO, just write "NONE" in the release-note block below.
If YES, a release note is required, enter your release note in the block below.
The convention is the same as for commit messages: https://github.com/falcosecurity/.github/blob/main/CONTRIBUTING.md#commit-convention
If the PR introduces non-backward compatible changes, please add a line starting with "BREAKING CHANGE:" and describe what changed.
For example, `BREAKING CHANGE: the API interface of the rule engine has changed`.
Your note will be included in the changelog.
If no, just write "NONE" in the release-note block below.
If yes, a release note is required:
Enter your extended release note in the block below.
If the PR requires additional action from users switching to the new release, prepend the string "action required:".
For example, `action required: change the API interface of the rule engine`.
-->
```release-note

20
.github/stale.yml vendored Normal file
View File

@@ -0,0 +1,20 @@
# Number of days of inactivity before an issue becomes stale
daysUntilStale: 60
# Number of days of inactivity before a stale issue is closed
daysUntilClose: 7
# Issues with these labels will never be considered stale
exemptLabels:
- cncf
- roadmap
- "help wanted"
# Label to use when marking an issue as stale
staleLabel: wontfix
# Comment to post when marking an issue as stale. Set to `false` to disable
markComment: >
This issue has been automatically marked as stale because it has not had
recent activity. It will be closed if no further activity occurs. Thank you
for your contributions.
Issues labeled "cncf", "roadmap" and "help wanted" will not be automatically closed.
Please refer to a maintainer to get such label added if you think this should be kept open.
# Comment to post when closing a stale issue. Set to `false` to disable
closeComment: false

129
.github/workflows/ci.yml vendored
View File

@@ -1,129 +0,0 @@
name: CI Build
on:
pull_request:
branches:
- master
- release/*
workflow_dispatch:
# Checks if any concurrent jobs under the same pull request or branch are being executed
# NOTE: this will cancel every workflow that is being ran against a PR as group is just the github ref (without the workflow name)
concurrency:
group: ${{ github.head_ref || github.run_id }}
cancel-in-progress: true
jobs:
my-test:
runs-on: [ "self-hosted", "linux", "ARM64" ]
steps:
- name: etc os release
run: cat /etc/os-release
- name: uname
run: uname -a
- name: install deps
run: sudo yum update && sudo yum install make
fetch-version:
uses: ./.github/workflows/reusable_fetch_version.yaml
build-dev-packages:
needs: [fetch-version]
uses: ./.github/workflows/reusable_build_packages.yaml
with:
arch: x86_64
version: ${{ needs.fetch-version.outputs.version }}
test-dev-packages:
needs: [fetch-version, build-dev-packages]
uses: ./.github/workflows/reusable_test_packages.yaml
strategy:
fail-fast: false
matrix:
static: ["static", ""]
with:
arch: x86_64
static: ${{ matrix.static != '' && true || false }}
version: ${{ needs.fetch-version.outputs.version }}
build-dev-minimal:
uses: ./.github/workflows/reusable_build_dev.yaml
with:
arch: x86_64
git_ref: ${{ github.event.pull_request.head.sha }}
minimal: true
build_type: Debug
# builds using system deps, checking out the PR's code
# note: this also runs a command that generates an output of form: "<engine_version> <some_hash>",
# of which <some_hash> is computed by hashing in order the following:
# - Driver schema version supported by the built-in falcosecurity/libs
# - The supported event types usable in Falco rules (evt.type=xxx)
# - The supported rules fields with their name, type, and description
build-dev:
uses: ./.github/workflows/reusable_build_dev.yaml
with:
arch: x86_64
git_ref: ${{ github.event.pull_request.head.sha }}
minimal: false
build_type: Debug
cmd: "echo $(build/userspace/falco/falco -c ./falco.yaml --version | grep 'Engine:' | awk '{print $2}') $(echo $(build/userspace/falco/falco -c ./falco.yaml --version | grep 'Schema version:' | awk '{print $3}') $(build/userspace/falco/falco -c ./falco.yaml --list --markdown | grep '^`' | sort) $(build/userspace/falco/falco -c ./falco.yaml --list-syscall-events | sort) | sha256sum)"
# checks the falco engine checksum for consistency
check-engine-checksum:
runs-on: ubuntu-latest
needs: [build-dev]
steps:
- name: Checkout PR head ref
uses: actions/checkout@v3
with:
fetch-depth: 0
ref: ${{ github.event.pull_request.head.sha }}
- name: Check Engine checksum
run: |
prev_hash=$(grep CHECKSUM "./userspace/engine/falco_engine_version.h" | awk '{print $3}' | sed -e 's/"//g')
cur_hash=$(echo "${{ needs.build-dev.outputs.cmdout }}" | cut -d ' ' -f 2)
echo "encoded checksum: $prev_hash"
echo "current checksum: $cur_hash"
if [ $prev_hash != $cur_hash ]; then
echo "current engine checksum differs from the one encoded in userspace/engine/falco_engine_version.h"
exit 1
else
echo "current and encoded engine checksum are matching"
fi
# checks the falco engine version and enforce bumping when necessary
check-engine-version:
runs-on: ubuntu-latest
needs: [build-dev]
steps:
- name: Checkout base ref
uses: actions/checkout@v3
with:
fetch-depth: 0
ref: ${{ github.base_ref }}
- name: Check Engine version
run: |
base_hash=$(grep CHECKSUM "./userspace/engine/falco_engine_version.h" | awk '{print $3}' | sed -e 's/"//g')
base_engine_ver=$(grep ENGINE_VERSION "./userspace/engine/falco_engine_version.h" | awk '{print $3}' | sed -e 's/(//g' -e 's/)//g')
cur_hash=$(echo "${{ needs.build-dev.outputs.cmdout }}" | cut -d ' ' -f 2)
cur_engine_ver=$(echo "${{ needs.build-dev.outputs.cmdout }}" | cut -d ' ' -f 1)
echo "baseref checksum: $base_hash"
echo "baseref engine version: $base_engine_ver"
echo "headref checksum: $cur_hash"
echo "headref engine version: $cur_engine_ver"
if [ "$base_hash" != "$cur_hash" ]; then
echo "engine checksum for baseref and headref differ"
if [ "$base_engine_ver" == "$cur_engine_ver" ]; then
echo "engine version must be bumped"
exit 1
else
echo "engine version for baseref and headref differ too, so no bump is required"
fi
fi

75
.github/workflows/codeql.yaml vendored
View File

@@ -1,75 +0,0 @@
# For most projects, this workflow file will not need changing; you simply need
# to commit it to your repository.
#
# You may wish to alter this file to override the set of languages analyzed,
# or to provide custom queries or build logic.
#
# ******** NOTE ********
# We have attempted to detect the languages in your repository. Please check
# the `language` matrix defined below to confirm you have the correct set of
# supported CodeQL languages.
#
name: "CodeQL"
on:
push:
branches: [ "master" ]
pull_request:
# The branches below must be a subset of the branches above
branches: [ "master" ]
jobs:
analyze:
name: Analyze
runs-on: ubuntu-20.04
permissions:
actions: read
contents: read
security-events: write
strategy:
fail-fast: false
matrix:
language: [ 'cpp' ]
# CodeQL supports [ 'cpp', 'csharp', 'go', 'java', 'javascript', 'python', 'ruby' ]
# Learn more about CodeQL language support at https://aka.ms/codeql-docs/language-support
steps:
- name: Checkout repository
uses: actions/checkout@v3
with:
fetch-depth: 0
# Initializes the CodeQL tools for scanning.
- name: Initialize CodeQL
uses: github/codeql-action/init@v2
with:
languages: ${{ matrix.language }}
# If you wish to specify custom queries, you can do so here or in a config file.
# By default, queries listed here will override any specified in a config file.
# Prefix the list here with "+" to use these queries and those in the config file.
# Details on CodeQL's query packs refer to : https://docs.github.com/en/code-security/code-scanning/automatically-scanning-your-code-for-vulnerabilities-and-errors/configuring-code-scanning#using-queries-in-ql-packs
# queries: security-extended,security-and-quality
- name: Update base image
run: sudo apt update -y
- name: Install build dependencies
run: sudo DEBIAN_FRONTEND=noninteractive apt install libssl-dev libyaml-dev libc-ares-dev libprotobuf-dev protobuf-compiler libjq-dev libyaml-cpp-dev libgrpc++-dev protobuf-compiler-grpc rpm libelf-dev cmake build-essential libcurl4-openssl-dev linux-headers-$(uname -r) clang llvm git -y
- name: Prepare project
run: |
mkdir build
pushd build
cmake -DBUILD_BPF=On ..
popd
- name: Build
run: |
pushd build
KERNELDIR=/lib/modules/$(uname -r)/build make -j4 all
popd
- name: Perform CodeQL Analysis
uses: github/codeql-action/analyze@v2

14
.github/workflows/codespell.yml vendored
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@@ -1,14 +0,0 @@
name: Codespell
on:
pull_request:
jobs:
codespell:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- uses: codespell-project/actions-codespell@master
with:
skip: .git
ignore_words_file: .codespellignore
check_filenames: true
check_hidden: false

41
.github/workflows/engine-version-weakcheck.yaml vendored
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@@ -1,41 +0,0 @@
# NOTE: it is UNSAFE to run ANY kind of script when using the pull_request_target trigger!
# DO NOT TOUCH THIS FILE UNLESS THE TRIGGER IS CHANGED.
# See warning in https://docs.github.com/en/actions/using-workflows/events-that-trigger-workflows#pull_request_target.
name: Engine version checks (weak)
on:
pull_request_target:
paths:
- 'userspace/engine/*.cpp'
- 'userspace/engine/*.h'
jobs:
paths-filter:
runs-on: ubuntu-latest
outputs:
engine_version_changed: ${{ steps.filter.outputs.engine_version }}
steps:
- uses: actions/checkout@v2
- uses: dorny/paths-filter@v2
id: filter
with:
filters: |
engine_version:
- 'userspace/engine/falco_engine_version.h'
check-engine-version-weak:
runs-on: ubuntu-22.04
permissions:
pull-requests: write
needs: paths-filter
if: needs.paths-filter.outputs.engine_version_changed == 'false'
steps:
- name: Check driver Falco engine version
uses: mshick/add-pr-comment@v2
with:
message: |
This PR may bring feature or behavior changes in the Falco engine and may require the engine version to be bumped.
Please double check **userspace/engine/falco_engine_version.h** file. See [versioning for FALCO_ENGINE_VERSION](https://github.com/falcosecurity/falco/blob/master/RELEASE.md#falco-repo-this-repo).
/hold

83
.github/workflows/master.yaml vendored
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@@ -1,83 +0,0 @@
name: Dev Packages and Docker images
on:
push:
branches: [master]
# Checks if any concurrent jobs is running for master CI and eventually cancel it
concurrency:
group: ci-master
cancel-in-progress: true
jobs:
fetch-version:
uses: ./.github/workflows/reusable_fetch_version.yaml
build-dev-packages:
needs: [fetch-version]
uses: ./.github/workflows/reusable_build_packages.yaml
with:
arch: x86_64
version: ${{ needs.fetch-version.outputs.version }}
secrets: inherit
build-dev-packages-arm64:
needs: [fetch-version]
uses: ./.github/workflows/reusable_build_packages.yaml
with:
arch: aarch64
version: ${{ needs.fetch-version.outputs.version }}
secrets: inherit
test-dev-packages:
needs: [fetch-version, build-dev-packages]
uses: ./.github/workflows/reusable_test_packages.yaml
strategy:
fail-fast: false
matrix:
static: ["static", ""]
with:
arch: x86_64
static: ${{ matrix.static != '' && true || false }}
version: ${{ needs.fetch-version.outputs.version }}
test-dev-packages-arm64:
needs: [fetch-version, build-dev-packages-arm64]
uses: ./.github/workflows/reusable_test_packages.yaml
with:
arch: aarch64
version: ${{ needs.fetch-version.outputs.version }}
publish-dev-packages:
needs: [fetch-version, test-dev-packages, test-dev-packages-arm64]
uses: ./.github/workflows/reusable_publish_packages.yaml
with:
bucket_suffix: '-dev'
version: ${{ needs.fetch-version.outputs.version }}
secrets: inherit
build-dev-docker:
needs: [fetch-version, publish-dev-packages]
uses: ./.github/workflows/reusable_build_docker.yaml
with:
arch: x86_64
bucket_suffix: '-dev'
version: ${{ needs.fetch-version.outputs.version }}
tag: master
secrets: inherit
build-dev-docker-arm64:
needs: [fetch-version, publish-dev-packages]
uses: ./.github/workflows/reusable_build_docker.yaml
with:
arch: aarch64
bucket_suffix: '-dev'
version: ${{ needs.fetch-version.outputs.version }}
tag: master
secrets: inherit
publish-dev-docker:
needs: [fetch-version, build-dev-docker, build-dev-docker-arm64]
uses: ./.github/workflows/reusable_publish_docker.yaml
with:
tag: master
secrets: inherit

124
.github/workflows/release.yaml vendored
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@@ -1,124 +0,0 @@
name: Release Packages and Docker images
on:
release:
types: [published]
# Checks if any concurrent jobs is running for release CI and eventually cancel it.
concurrency:
group: ci-release
cancel-in-progress: true
jobs:
release-settings:
runs-on: ubuntu-latest
outputs:
is_latest: ${{ steps.get_settings.outputs.is_latest }}
bucket_suffix: ${{ steps.get_settings.outputs.bucket_suffix }}
steps:
- name: Get latest release
uses: rez0n/actions-github-release@v2.0
id: latest_release
env:
token: ${{ secrets.GITHUB_TOKEN }}
repository: ${{ github.repository }}
type: "stable"
- name: Get settings for this release
id: get_settings
shell: python
run: |
import os
import re
import sys
semver_no_meta = '''^(?P<major>0|[1-9]\d*)\.(?P<minor>0|[1-9]\d*)\.(?P<patch>0|[1-9]\d*)(?:-(?P<prerelease>(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*)(?:\.(?:0|[1-9]\d*|\d*[a-zA-Z-][0-9a-zA-Z-]*))*))?$'''
tag_name = '${{ github.event.release.tag_name }}'
is_valid_version = re.match(semver_no_meta, tag_name) is not None
if not is_valid_version:
print(f'Release version {tag_name} is not a valid full or pre-release. See RELEASE.md for more information.')
sys.exit(1)
is_prerelease = '-' in tag_name
# Safeguard: you need to both set "latest" in GH and not have suffixes to overwrite latest
is_latest = '${{ steps.latest_release.outputs.release }}' == tag_name and not is_prerelease
bucket_suffix = '-dev' if is_prerelease else ''
with open(os.environ['GITHUB_OUTPUT'], 'a') as ofp:
print(f'is_latest={is_latest}'.lower(), file=ofp)
print(f'bucket_suffix={bucket_suffix}', file=ofp)
build-packages:
needs: [release-settings]
uses: ./.github/workflows/reusable_build_packages.yaml
with:
arch: x86_64
version: ${{ github.event.release.tag_name }}
secrets: inherit
build-packages-arm64:
needs: [release-settings]
uses: ./.github/workflows/reusable_build_packages.yaml
with:
arch: aarch64
version: ${{ github.event.release.tag_name }}
secrets: inherit
test-packages:
needs: [release-settings, build-packages]
uses: ./.github/workflows/reusable_test_packages.yaml
strategy:
fail-fast: false
matrix:
static: ["static", ""]
with:
arch: x86_64
static: ${{ matrix.static != '' && true || false }}
version: ${{ github.event.release.tag_name }}
test-packages-arm64:
needs: [release-settings, build-packages-arm64]
uses: ./.github/workflows/reusable_test_packages.yaml
with:
arch: aarch64
version: ${{ github.event.release.tag_name }}
publish-packages:
needs: [release-settings, test-packages, test-packages-arm64]
uses: ./.github/workflows/reusable_publish_packages.yaml
with:
bucket_suffix: ${{ needs.release-settings.outputs.bucket_suffix }}
version: ${{ github.event.release.tag_name }}
secrets: inherit
# Both build-docker and its arm64 counterpart require build-packages because they use its output
build-docker:
needs: [release-settings, build-packages, publish-packages]
uses: ./.github/workflows/reusable_build_docker.yaml
with:
arch: x86_64
bucket_suffix: ${{ needs.release-settings.outputs.bucket_suffix }}
version: ${{ github.event.release.tag_name }}
tag: ${{ github.event.release.tag_name }}
secrets: inherit
build-docker-arm64:
needs: [release-settings, build-packages, publish-packages]
uses: ./.github/workflows/reusable_build_docker.yaml
with:
arch: aarch64
bucket_suffix: ${{ needs.release-settings.outputs.bucket_suffix }}
version: ${{ github.event.release.tag_name }}
tag: ${{ github.event.release.tag_name }}
secrets: inherit
publish-docker:
needs: [release-settings, build-docker, build-docker-arm64]
uses: ./.github/workflows/reusable_publish_docker.yaml
secrets: inherit
with:
is_latest: ${{ needs.release-settings.outputs.is_latest == 'true' }}
tag: ${{ github.event.release.tag_name }}
sign: true

85
.github/workflows/reusable_build_dev.yaml vendored
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@@ -1,85 +0,0 @@
# This is a reusable workflow used by the master CI
on:
workflow_call:
outputs:
cmdout:
description: "Post-build command output"
value: ${{ jobs.build-and-test.outputs.cmdout }}
inputs:
arch:
description: x86_64 or aarch64
required: true
type: string
minimal:
description: Minimal build
required: true
type: boolean
build_type:
description: One of 'Debug' or 'Release'
required: true
type: string
git_ref:
description: Git ref used for checking out the code
required: true
type: string
cmd:
description: If defined, this command is executed after a successful build and its output is set in the `cmdout` output
required: false
default: ''
type: string
jobs:
build-and-test:
# See https://github.com/actions/runner/issues/409#issuecomment-1158849936
runs-on: ${{ (inputs.arch == 'aarch64' && fromJSON('[ "self-hosted", "linux", "ARM64" ]')) || 'ubuntu-22.04' }}
container: ${{ (inputs.arch == 'aarch64' && 'ubuntu:22.04') || '' }}
outputs:
cmdout: ${{ steps.run_cmd.outputs.out }}
steps:
- name: Checkout
uses: actions/checkout@v3
with:
fetch-depth: 0
ref: ${{ inputs.git_ref }}
- name: Update base image
run: sudo apt update -y
- name: Install build dependencies
run: sudo DEBIAN_FRONTEND=noninteractive apt install libjq-dev libelf-dev libyaml-cpp-dev cmake build-essential git -y
- name: Install build dependencies (non-minimal)
if: inputs.minimal != true
run: sudo DEBIAN_FRONTEND=noninteractive apt install libssl-dev libyaml-dev libc-ares-dev libprotobuf-dev protobuf-compiler libgrpc++-dev protobuf-compiler-grpc rpm libcurl4-openssl-dev linux-headers-$(uname -r) clang llvm -y
- name: Prepare project
run: |
mkdir build
pushd build
cmake \
-DBUILD_FALCO_UNIT_TESTS=On \
-DCMAKE_BUILD_TYPE=${{ inputs.build_type }} \
-DBUILD_BPF=${{ inputs.minimal == true && 'OFF' || 'ON' }} \
-DBUILD_DRIVER=${{ inputs.minimal == true && 'OFF' || 'ON' }} \
-DMINIMAL_BUILD=${{ inputs.minimal == true && 'ON' || 'OFF' }} \
..
popd
- name: Build
run: |
pushd build
KERNELDIR=/lib/modules/$(uname -r)/build make -j4 all
popd
- name: Run unit tests
run: |
pushd build
sudo ./unit_tests/falco_unit_tests
popd
- name: Run command
id: run_cmd
if: inputs.cmd != ''
run: |
OUT=$(${{ inputs.cmd }})
echo "out=${OUT}" >> $GITHUB_OUTPUT

74
.github/workflows/reusable_build_docker.yaml vendored
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@@ -1,74 +0,0 @@
# This is a reusable workflow used by master and release CI
on:
workflow_call:
inputs:
arch:
description: x86_64 or aarch64
required: true
type: string
bucket_suffix:
description: bucket suffix for packages
required: false
default: ''
type: string
version:
description: The Falco version to use when building images
required: true
type: string
tag:
description: The tag to use (e.g. "master" or "0.35.0")
required: true
type: string
# Here we just build all docker images as tarballs,
# then we upload all the tarballs to be later downloaded by reusable_publish_docker workflow.
# In this way, we don't need to publish any arch specific image,
# and this "build" workflow is actually only building images.
jobs:
build-docker:
# See https://github.com/actions/runner/issues/409#issuecomment-1158849936
runs-on: ${{ (inputs.arch == 'aarch64' && fromJSON('[ "self-hosted", "linux", "ARM64" ]')) || 'ubuntu-latest' }}
env:
TARGETARCH: ${{ (inputs.arch == 'aarch64' && 'arm64') || 'amd64' }}
steps:
- name: Checkout
uses: actions/checkout@v3
- name: Set up Docker Buildx
uses: docker/setup-buildx-action@v2
- name: Build no-driver image
run: |
cd ${{ github.workspace }}/docker/no-driver/
docker build -t docker.io/falcosecurity/falco-no-driver:${{ inputs.arch }}-${{ inputs.tag }} \
--build-arg VERSION_BUCKET=bin${{ inputs.bucket_suffix }} \
--build-arg FALCO_VERSION=${{ inputs.version }} \
--build-arg TARGETARCH=${TARGETARCH} \
.
docker save docker.io/falcosecurity/falco-no-driver:${{ inputs.arch }}-${{ inputs.tag }} --output /tmp/falco-no-driver-${{ inputs.arch }}.tar
- name: Build falco image
run: |
cd ${{ github.workspace }}/docker/falco/
docker build -t docker.io/falcosecurity/falco:${{ inputs.arch }}-${{ inputs.tag }} \
--build-arg VERSION_BUCKET=deb${{ inputs.bucket_suffix }} \
--build-arg FALCO_VERSION=${{ inputs.version }} \
--build-arg TARGETARCH=${TARGETARCH} \
.
docker save docker.io/falcosecurity/falco:${{ inputs.arch }}-${{ inputs.tag }} --output /tmp/falco-${{ inputs.arch }}.tar
- name: Build falco-driver-loader image
run: |
cd ${{ github.workspace }}/docker/driver-loader/
docker build -t docker.io/falcosecurity/falco-driver-loader:${{ inputs.arch }}-${{ inputs.tag }} \
--build-arg FALCO_IMAGE_TAG=${{ inputs.arch }}-${{ inputs.tag }} \
--build-arg TARGETARCH=${TARGETARCH} \
.
docker save docker.io/falcosecurity/falco-driver-loader:${{ inputs.arch }}-${{ inputs.tag }} --output /tmp/falco-driver-loader-${{ inputs.arch }}.tar
- name: Upload images tarballs
uses: actions/upload-artifact@v3
with:
name: falco-images
path: /tmp/falco-*.tar
retention-days: 1

217
.github/workflows/reusable_build_packages.yaml vendored
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@@ -1,217 +0,0 @@
# This is a reusable workflow used by master and release CI
on:
workflow_call:
inputs:
arch:
description: x86_64 or aarch64
required: true
type: string
version:
description: The Falco version to use when building packages
required: true
type: string
jobs:
build-modern-bpf-skeleton:
# See https://github.com/actions/runner/issues/409#issuecomment-1158849936
runs-on: ${{ (inputs.arch == 'aarch64' && fromJSON('[ "self-hosted", "linux", "ARM64" ]')) || 'ubuntu-latest' }}
container: fedora:latest
steps:
# Always install deps before invoking checkout action, to properly perform a full clone.
- name: Install build dependencies
run: |
dnf install -y bpftool ca-certificates cmake make automake gcc gcc-c++ kernel-devel clang git pkg-config autoconf automake libbpf-devel
- name: Checkout
uses: actions/checkout@v3
- name: Build modern BPF skeleton
run: |
mkdir skeleton-build && cd skeleton-build
cmake -DUSE_BUNDLED_DEPS=ON -DBUILD_FALCO_MODERN_BPF=ON -DCREATE_TEST_TARGETS=Off -DFALCO_VERSION=${{ inputs.version }} ..
make ProbeSkeleton -j6
- name: Upload skeleton
uses: actions/upload-artifact@v3
with:
name: bpf_probe_${{ inputs.arch }}.skel.h
path: skeleton-build/skel_dir/bpf_probe.skel.h
retention-days: 1
build-packages:
# See https://github.com/actions/runner/issues/409#issuecomment-1158849936
runs-on: ${{ (inputs.arch == 'aarch64' && fromJSON('[ "self-hosted", "linux", "ARM64" ]')) || 'ubuntu-latest' }}
needs: [build-modern-bpf-skeleton]
container: centos:7
steps:
# Always install deps before invoking checkout action, to properly perform a full clone.
- name: Install build dependencies
run: |
yum -y install centos-release-scl
yum -y install devtoolset-9-gcc devtoolset-9-gcc-c++
source /opt/rh/devtoolset-9/enable
yum install -y wget git make m4 rpm-build perl-IPC-Cmd
- name: Checkout
uses: actions/checkout@v3
- name: Download skeleton
uses: actions/download-artifact@v3
with:
name: bpf_probe_${{ inputs.arch }}.skel.h
path: /tmp
- name: Install updated cmake
run: |
curl -L -o /tmp/cmake.tar.gz https://github.com/Kitware/CMake/releases/download/v3.22.5/cmake-3.22.5-linux-$(uname -m).tar.gz
gzip -d /tmp/cmake.tar.gz
tar -xpf /tmp/cmake.tar --directory=/tmp
cp -R /tmp/cmake-3.22.5-linux-$(uname -m)/* /usr
rm -rf /tmp/cmake-3.22.5-linux-$(uname -m)
- name: Prepare project
run: |
mkdir build && cd build
source /opt/rh/devtoolset-9/enable
cmake \
-DCMAKE_BUILD_TYPE=Release \
-DUSE_BUNDLED_DEPS=On \
-DFALCO_ETC_DIR=/etc/falco \
-DBUILD_FALCO_MODERN_BPF=ON \
-DMODERN_BPF_SKEL_DIR=/tmp \
-DBUILD_DRIVER=Off \
-DBUILD_BPF=Off \
-DFALCO_VERSION=${{ inputs.version }} \
..
- name: Build project
run: |
cd build
source /opt/rh/devtoolset-9/enable
make falco -j6
- name: Build packages
run: |
cd build
source /opt/rh/devtoolset-9/enable
make package
- name: Upload Falco tar.gz package
uses: actions/upload-artifact@v3
with:
name: falco-${{ inputs.version }}-${{ inputs.arch }}.tar.gz
path: |
${{ github.workspace }}/build/falco-*.tar.gz
- name: Upload Falco deb package
uses: actions/upload-artifact@v3
with:
name: falco-${{ inputs.version }}-${{ inputs.arch }}.deb
path: |
${{ github.workspace }}/build/falco-*.deb
- name: Upload Falco rpm package
uses: actions/upload-artifact@v3
with:
name: falco-${{ inputs.version }}-${{ inputs.arch }}.rpm
path: |
${{ github.workspace }}/build/falco-*.rpm
build-musl-package:
# x86_64 only for now
if: ${{ inputs.arch == 'x86_64' }}
runs-on: ubuntu-latest
container: alpine:3.17
steps:
# Always install deps before invoking checkout action, to properly perform a full clone.
- name: Install build dependencies
run: |
apk add g++ gcc cmake make git bash perl linux-headers autoconf automake m4 libtool elfutils-dev libelf-static patch binutils bpftool clang
- name: Checkout
uses: actions/checkout@v3
with:
fetch-depth: 0
- name: Prepare project
run: |
mkdir build && cd build
cmake -DCPACK_GENERATOR=TGZ -DBUILD_BPF=Off -DBUILD_DRIVER=Off -DCMAKE_BUILD_TYPE=Release -DUSE_BUNDLED_DEPS=On -DUSE_BUNDLED_LIBELF=Off -DBUILD_LIBSCAP_MODERN_BPF=ON -DMUSL_OPTIMIZED_BUILD=On -DFALCO_ETC_DIR=/etc/falco ../ -DFALCO_VERSION=${{ inputs.version }}
- name: Build project
run: |
cd build
make -j6 all
- name: Build packages
run: |
cd build
make -j6 package
- name: Rename static package
run: |
cd build
mv falco-${{ inputs.version }}-x86_64.tar.gz falco-${{ inputs.version }}-static-x86_64.tar.gz
- name: Upload Falco static package
uses: actions/upload-artifact@v3
with:
name: falco-${{ inputs.version }}-static-x86_64.tar.gz
path: |
${{ github.workspace }}/build/falco-${{ inputs.version }}-static-x86_64.tar.gz
build-wasm-package:
if: ${{ inputs.arch == 'x86_64' }}
runs-on: ubuntu-latest
steps:
# Always install deps before invoking checkout action, to properly perform a full clone.
- name: Install build dependencies
run: |
sudo apt update
sudo DEBIAN_FRONTEND=noninteractive apt install cmake build-essential git emscripten -y
- name: Select node version
uses: actions/setup-node@v3
with:
node-version: 14
- name: Checkout
uses: actions/checkout@v3
with:
fetch-depth: 0
- name: Prepare project
run: |
mkdir build && cd build
emcmake cmake \
-DBUILD_BPF=Off \
-DBUILD_DRIVER=Off \
-DBUILD_LIBSCAP_MODERN_BPF=OFF \
-DCMAKE_BUILD_TYPE=Release \
-DUSE_BUNDLED_DEPS=On \
-DFALCO_ETC_DIR=/etc/falco \
-DBUILD_FALCO_UNIT_TESTS=On \
-DFALCO_VERSION=${{ inputs.version }} \
..
- name: Build project
run: |
cd build
emmake make -j6 all
- name: Run unit Tests
run: |
cd build
node ./unit_tests/falco_unit_tests.js
- name: Build packages
run: |
cd build
emmake make -j6 package
- name: Upload Falco WASM package
uses: actions/upload-artifact@v3
with:
name: falco-${{ inputs.version }}-wasm.tar.gz
path: |
${{ github.workspace }}/build/falco-${{ inputs.version }}-wasm.tar.gz

40
.github/workflows/reusable_fetch_version.yaml vendored
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@@ -1,40 +0,0 @@
# This is a reusable workflow used by master and release CI
on:
workflow_call:
outputs:
version:
description: "Falco version"
value: ${{ jobs.fetch-version.outputs.version }}
jobs:
# We need to use an ubuntu-latest to fetch Falco version because
# Falco version is computed by some cmake scripts that do git sorceries
# to get the current version.
# But centos7 jobs have a git version too old and actions/checkout does not
# fully clone the repo, but uses http rest api instead.
fetch-version:
runs-on: ubuntu-latest
# Map the job outputs to step outputs
outputs:
version: ${{ steps.store_version.outputs.version }}
steps:
- name: Checkout
uses: actions/checkout@v3
with:
fetch-depth: 0
- name: Install build dependencies
run: |
sudo apt update
sudo apt install -y cmake build-essential
- name: Configure project
run: |
mkdir build && cd build
cmake -DUSE_BUNDLED_DEPS=On ..
- name: Load and store Falco version output
id: store_version
run: |
FALCO_VERSION=$(cat build/userspace/falco/config_falco.h | grep 'FALCO_VERSION ' | cut -d' ' -f3 | sed -e 's/^"//' -e 's/"$//')
echo "version=${FALCO_VERSION}" >> $GITHUB_OUTPUT

144
.github/workflows/reusable_publish_docker.yaml vendored
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@@ -1,144 +0,0 @@
# This is a reusable workflow used by master and release CI
on:
workflow_call:
inputs:
tag:
description: The tag to push
required: true
type: string
is_latest:
description: Update the latest tag with the new image
required: false
type: boolean
default: false
sign:
description: Add signature with cosign
required: false
type: boolean
default: false
permissions:
id-token: write
contents: read
jobs:
publish-docker:
runs-on: ubuntu-latest
steps:
- name: Set up Docker Buildx
uses: docker/setup-buildx-action@v2
- name: Download images tarballs
uses: actions/download-artifact@v3
with:
name: falco-images
path: /tmp/falco-images
- name: Load all images
run: |
for img in /tmp/falco-images/falco-*.tar; do docker load --input $img; done
- name: Login to Docker Hub
uses: docker/login-action@v2
with:
username: ${{ secrets.DOCKERHUB_USER }}
password: ${{ secrets.DOCKERHUB_SECRET }}
- name: Configure AWS credentials
uses: aws-actions/configure-aws-credentials@v2
with:
role-to-assume: "arn:aws:iam::292999226676:role/github_actions-falco-ecr"
aws-region: us-east-1 # The region must be set to us-east-1 in order to access ECR Public.
- name: Login to Amazon ECR
id: login-ecr-public
uses: aws-actions/amazon-ecr-login@2f9f10ea3fa2eed41ac443fee8bfbd059af2d0a4 # v1.6.0
with:
registry-type: public
- name: Setup Crane
uses: imjasonh/setup-crane@v0.3
with:
version: v0.15.1
# We're pushing the arch-specific manifests to Docker Hub so that we'll be able to easily create the index/multiarch later
- name: Push arch-specific images to Docker Hub
run: |
docker push docker.io/falcosecurity/falco-no-driver:aarch64-${{ inputs.tag }}
docker push docker.io/falcosecurity/falco-no-driver:x86_64-${{ inputs.tag }}
docker push docker.io/falcosecurity/falco:aarch64-${{ inputs.tag }}
docker push docker.io/falcosecurity/falco:x86_64-${{ inputs.tag }}
docker push docker.io/falcosecurity/falco-driver-loader:aarch64-${{ inputs.tag }}
docker push docker.io/falcosecurity/falco-driver-loader:x86_64-${{ inputs.tag }}
- name: Create no-driver manifest on Docker Hub
uses: Noelware/docker-manifest-action@0.3.1
with:
inputs: docker.io/falcosecurity/falco-no-driver:${{ inputs.tag }}
images: docker.io/falcosecurity/falco-no-driver:aarch64-${{ inputs.tag }},docker.io/falcosecurity/falco-no-driver:x86_64-${{ inputs.tag }}
push: true
- name: Tag slim manifest on Docker Hub
run: |
crane copy docker.io/falcosecurity/falco-no-driver:${{ inputs.tag }} docker.io/falcosecurity/falco:${{ inputs.tag }}-slim
- name: Create falco manifest on Docker Hub
uses: Noelware/docker-manifest-action@0.3.1
with:
inputs: docker.io/falcosecurity/falco:${{ inputs.tag }}
images: docker.io/falcosecurity/falco:aarch64-${{ inputs.tag }},docker.io/falcosecurity/falco:x86_64-${{ inputs.tag }}
push: true
- name: Create falco-driver-loader manifest on Docker Hub
uses: Noelware/docker-manifest-action@0.3.1
with:
inputs: docker.io/falcosecurity/falco-driver-loader:${{ inputs.tag }}
images: docker.io/falcosecurity/falco-driver-loader:aarch64-${{ inputs.tag }},docker.io/falcosecurity/falco-driver-loader:x86_64-${{ inputs.tag }}
push: true
- name: Get Digests for images
id: digests
run: |
echo "falco-no-driver=$(crane digest docker.io/falcosecurity/falco-no-driver:${{ inputs.tag }})" >> $GITHUB_OUTPUT
echo "falco=$(crane digest docker.io/falcosecurity/falco:${{ inputs.tag }})" >> $GITHUB_OUTPUT
echo "falco-driver-loader=$(crane digest docker.io/falcosecurity/falco-driver-loader:${{ inputs.tag }})" >> $GITHUB_OUTPUT
- name: Publish images to ECR
run: |
crane copy docker.io/falcosecurity/falco-no-driver:${{ inputs.tag }} public.ecr.aws/falcosecurity/falco-no-driver:${{ inputs.tag }}
crane copy docker.io/falcosecurity/falco:${{ inputs.tag }} public.ecr.aws/falcosecurity/falco:${{ inputs.tag }}
crane copy docker.io/falcosecurity/falco-driver-loader:${{ inputs.tag }} public.ecr.aws/falcosecurity/falco-driver-loader:${{ inputs.tag }}
crane copy public.ecr.aws/falcosecurity/falco-no-driver:${{ inputs.tag }} public.ecr.aws/falcosecurity/falco:${{ inputs.tag }}-slim
- name: Tag latest on Docker Hub and ECR
if: inputs.is_latest
run: |
crane tag docker.io/falcosecurity/falco-no-driver:${{ inputs.tag }} latest
crane tag docker.io/falcosecurity/falco:${{ inputs.tag }} latest
crane tag docker.io/falcosecurity/falco-driver-loader:${{ inputs.tag }} latest
crane tag docker.io/falcosecurity/falco:${{ inputs.tag }}-slim latest-slim
crane tag public.ecr.aws/falcosecurity/falco-no-driver:${{ inputs.tag }} latest
crane tag public.ecr.aws/falcosecurity/falco:${{ inputs.tag }} latest
crane tag public.ecr.aws/falcosecurity/falco-driver-loader:${{ inputs.tag }} latest
crane tag public.ecr.aws/falcosecurity/falco:${{ inputs.tag }}-slim latest-slim
- name: Setup Cosign
if: inputs.sign
uses: sigstore/cosign-installer@main
with:
cosign-release: v2.0.2
- name: Sign images with cosign
if: inputs.sign
env:
COSIGN_EXPERIMENTAL: "true"
COSIGN_YES: "true"
run: |
cosign sign docker.io/falcosecurity/falco-no-driver@${{ steps.digests.outputs.falco-no-driver }}
cosign sign docker.io/falcosecurity/falco@${{ steps.digests.outputs.falco }}
cosign sign docker.io/falcosecurity/falco-driver-loader@${{ steps.digests.outputs.falco-driver-loader }}
cosign sign public.ecr.aws/falcosecurity/falco-no-driver@${{ steps.digests.outputs.falco-no-driver }}
cosign sign public.ecr.aws/falcosecurity/falco@${{ steps.digests.outputs.falco }}
cosign sign public.ecr.aws/falcosecurity/falco-driver-loader@${{ steps.digests.outputs.falco-driver-loader }}

149
.github/workflows/reusable_publish_packages.yaml vendored
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# This is a reusable workflow used by master and release CI
on:
workflow_call:
inputs:
version:
description: The Falco version to use when publishing packages
required: true
type: string
bucket_suffix:
description: bucket suffix for packages
required: false
default: ''
type: string
permissions:
id-token: write
contents: read
env:
AWS_S3_REGION: eu-west-1
AWS_CLOUDFRONT_DIST_ID: E1CQNPFWRXLGQD
jobs:
publish-packages:
runs-on: ubuntu-latest
container: docker.io/centos:7
steps:
- name: Checkout
uses: actions/checkout@v3
- name: Install dependencies
run: |
yum install epel-release -y
yum update -y
yum install rpm-sign expect which createrepo gpg python python-pip -y
pip install awscli==1.19.47
# Configure AWS role; see https://github.com/falcosecurity/test-infra/pull/1102
# Note: master CI can only push dev packages as we have 2 different roles for master and release.
- name: Configure AWS credentials
uses: aws-actions/configure-aws-credentials@v2
with:
role-to-assume: "arn:aws:iam::292999226676:role/github_actions-falco${{ inputs.bucket_suffix }}-s3"
aws-region: ${{ env.AWS_S3_REGION }}
- name: Download RPM x86_64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-x86_64.rpm
path: /tmp/falco-build-rpm
- name: Download RPM aarch64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-aarch64.rpm
path: /tmp/falco-build-rpm
- name: Download binary x86_64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-x86_64.tar.gz
path: /tmp/falco-build-bin
- name: Download binary aarch64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-aarch64.tar.gz
path: /tmp/falco-build-bin
- name: Download static binary x86_64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-static-x86_64.tar.gz
path: /tmp/falco-build-bin-static
- name: Import gpg key
env:
GPG_KEY: ${{ secrets.GPG_KEY }}
run: printenv GPG_KEY | gpg --import -
- name: Sign rpms
run: |
echo "%_signature gpg" > ~/.rpmmacros
echo "%_gpg_name Falcosecurity Package Signing" >> ~/.rpmmacros
echo "%__gpg_sign_cmd %{__gpg} --force-v3-sigs --batch --no-armor --passphrase-fd 3 --no-secmem-warning -u \"%{_gpg_name}\" -sb --digest-algo sha256 %{__plaintext_filename}'" >> ~/.rpmmacros
cat > ~/sign <<EOF
#!/usr/bin/expect -f
spawn rpmsign --addsign {*}\$argv
expect -exact "Enter pass phrase: "
send -- "\n"
expect eof
EOF
chmod +x ~/sign
~/sign /tmp/falco-build-rpm/falco-*.rpm
rpm --qf %{SIGPGP:pgpsig} -qp /tmp/falco-build-rpm/falco-*.rpm | grep SHA256
- name: Publish rpm
run: |
./scripts/publish-rpm -f /tmp/falco-build-rpm/falco-${{ inputs.version }}-x86_64.rpm -f /tmp/falco-build-rpm/falco-${{ inputs.version }}-aarch64.rpm -r rpm${{ inputs.bucket_suffix }}
- name: Publish bin
run: |
./scripts/publish-bin -f /tmp/falco-build-bin/falco-${{ inputs.version }}-x86_64.tar.gz -r bin${{ inputs.bucket_suffix }} -a x86_64
./scripts/publish-bin -f /tmp/falco-build-bin/falco-${{ inputs.version }}-aarch64.tar.gz -r bin${{ inputs.bucket_suffix }} -a aarch64
- name: Publish static
run: |
./scripts/publish-bin -f /tmp/falco-build-bin-static/falco-${{ inputs.version }}-static-x86_64.tar.gz -r bin${{ inputs.bucket_suffix }} -a x86_64
publish-packages-deb:
runs-on: ubuntu-latest
container: docker.io/debian:stable
steps:
- name: Checkout
uses: actions/checkout@v3
- name: Install dependencies
run: |
apt update -y
apt-get install apt-utils bzip2 gpg awscli -y
# Configure AWS role; see https://github.com/falcosecurity/test-infra/pull/1102
# Note: master CI can only push dev packages as we have 2 different roles for master and release.
- name: Configure AWS credentials
uses: aws-actions/configure-aws-credentials@v2
with:
role-to-assume: "arn:aws:iam::292999226676:role/github_actions-falco${{ inputs.bucket_suffix }}-s3"
aws-region: ${{ env.AWS_S3_REGION }}
- name: Download deb x86_64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-x86_64.deb
path: /tmp/falco-build-deb
- name: Download deb aarch64
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}-aarch64.deb
path: /tmp/falco-build-deb
- name: Import gpg key
env:
GPG_KEY: ${{ secrets.GPG_KEY }}
run: printenv GPG_KEY | gpg --import -
- name: Publish deb
run: |
./scripts/publish-deb -f /tmp/falco-build-deb/falco-${{ inputs.version }}-x86_64.deb -f /tmp/falco-build-deb/falco-${{ inputs.version }}-aarch64.deb -r deb${{ inputs.bucket_suffix }}

90
.github/workflows/reusable_test_packages.yaml vendored
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@@ -1,90 +0,0 @@
# This is a reusable workflow used by master and release CI
on:
workflow_call:
inputs:
arch:
description: x86_64 or aarch64
required: true
type: string
static:
description: Falco packages use a static build
required: false
type: boolean
default: false
version:
description: The Falco version to use when testing packages
required: true
type: string
jobs:
test-packages:
# See https://github.com/actions/runner/issues/409#issuecomment-1158849936
runs-on: ${{ (inputs.arch == 'aarch64' && fromJSON('[ "self-hosted", "linux", "ARM64" ]')) || 'ubuntu-latest' }}
steps:
- name: Checkout
uses: actions/checkout@v3
with:
fetch-depth: 0
submodules: 'true'
- name: Setup Go
uses: actions/setup-go@v3
with:
go-version: '>=1.17.0'
- name: Download binary
uses: actions/download-artifact@v3
with:
name: falco-${{ inputs.version }}${{ inputs.static && '-static' || '' }}-${{ inputs.arch }}.tar.gz
- name: Install Falco package
run: |
ls falco-*.tar.gz
tar -xvf $(ls falco-*.tar.gz)
cd falco-${{ inputs.version }}-${{ inputs.arch }}
sudo cp -r * /
# aarch64 job run on amazon-linux-2
- name: Install dependencies for falco-driver-loader tests on aarch64
if: ${{ inputs.arch == 'aarch64' }}
run: |
sudo yum update -y
sudo yum install -y build-essential clang make llvm gcc dkms kernel-devel-$(uname -r)
# x86_64 job run on ubuntu-22.04
- name: Install dependencies for falco-driver-loader tests on x86
if: ${{ inputs.arch == 'x86_64' }}
run: |
sudo apt update -y
sudo apt install -y --no-install-recommends build-essential clang make llvm gcc dkms linux-headers-$(uname -r)
- name: Install go-junit-report
run: |
pushd submodules/falcosecurity-testing
go install github.com/jstemmer/go-junit-report/v2@latest
popd
- name: Generate regression test files
run: |
pushd submodules/falcosecurity-testing
go generate ./...
popd
- name: Run regression tests
run: |
pushd submodules/falcosecurity-testing
./build/falco.test -falco-static=${{ inputs.static && 'true' || 'false' }} -test.timeout=90s -test.v >> ./report.txt 2>&1 || true
if ${{ inputs.static && 'false' || 'true' }}; then
./build/falcoctl.test -test.timeout=90s -test.v >> ./report.txt 2>&1 || true
./build/k8saudit.test -test.timeout=90s -test.v >> ./report.txt 2>&1 || true
sudo ./build/falco-driver-loader.test -test.timeout=90s -test.v >> ./report.txt 2>&1 || true
fi
cat ./report.txt | go-junit-report -set-exit-code > report.xml
popd
- name: Test Summary
if: always() # run this even if previous step fails
uses: test-summary/action@v2
with:
paths: "submodules/falcosecurity-testing/report.xml"
show: "fail"

31
.github/workflows/staticanalysis.yaml vendored
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name: StaticAnalysis
on:
pull_request:
jobs:
staticanalysis:
runs-on: ubuntu-22.04
steps:
- name: Checkout ⤵️
uses: actions/checkout@v3
with:
fetch-depth: 0
ref: ${{ github.event.pull_request.head.sha }}
- name: Install build dependencies ⛓️
run: |
sudo apt update -y
sudo apt install build-essential git cppcheck cmake -y
- name: Build and run cppcheck 🏎️
run: |
mkdir build
cd build && cmake -DUSE_BUNDLED_DEPS=On -DBUILD_WARNINGS_AS_ERRORS=ON -DCREATE_TEST_TARGETS=Off -DCMAKE_BUILD_TYPE="release" -DBUILD_BPF=Off -DBUILD_DRIVER=Off ..
make -j4 cppcheck
make -j4 cppcheck_htmlreport
- name: Upload reports ⬆️
uses: actions/upload-artifact@v3
with:
name: static-analysis-reports
path: ./build/static-analysis-reports

18
.gitignore vendored
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@@ -2,6 +2,22 @@
*~
*.pyc
test/falco_tests.yaml
test/traces-negative
test/traces-positive
test/traces-info
test/job-results
test/.phoronix-test-suite
test/results*.json.*
test/build
userspace/falco/lua/re.lua
userspace/falco/lua/lpeg.so
userspace/engine/lua/lyaml
userspace/engine/lua/lyaml.lua
.vscode/*
*.idea*
.luacheckcache
*.idea*

8
.gitmodules vendored
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@@ -1,8 +0,0 @@
[submodule "submodules/falcosecurity-rules"]
path = submodules/falcosecurity-rules
url = https://github.com/falcosecurity/rules.git
branch = main
[submodule "submodules/falcosecurity-testing"]
path = submodules/falcosecurity-testing
url = https://github.com/falcosecurity/testing.git
branch = main

9
.luacheckrc Normal file
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@@ -0,0 +1,9 @@
std = "min"
cache = true
include_files = {
"userspace/falco/lua/*.lua",
"userspace/engine/lua/*.lua",
"userspace/engine/lua/lyaml/*.lua",
"*.luacheckrc"
}
exclude_files = {"build"}

67
ADOPTERS.md
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@@ -1,61 +1,23 @@
# Adopters
Known end users with notable contributions to the project include:
* AWS
* IBM
* Red Hat
Falco is being used by numerous other companies, both large and small, to build higher layer products and services. The list includes but is not limited to:
* Equinix Metal
* IEEE
* Lowes
* Reckrut
* Yellow Pepper
* CTx
* Utikal
* Discrete Events
* Agritech Infra
This is a list of production adopters of Falco (in alphabetical order):
* [ASAPP](https://www.asapp.com/) - ASAPP is a pushing the boundaries of fundamental artificial intelligence research. We apply our research into AI-Native® products that make organizations, in the customer experience industry, highly productive, efficient, and effective—by augmenting human activity and automating workflows. We constantly monitor our workloads against different hazards and FALCO helps us extend our threat monitoring boundaries.
* [Booz Allen Hamilton](https://www.boozallen.com/) - BAH leverages Falco as part of their Kubernetes environment to verify that work loads behave as they did in their CD DevSecOps pipelines. BAH offers a solution to internal developers to easily build DevSecOps pipelines for projects. This makes it easy for developers to incorporate Security principles early on in the development cycle. In production, Falco is used to verify that the code the developer ships does not violate any of the production security requirements. BAH [are speaking at Kubecon NA 2019](https://kccncna19.sched.com/event/UaWr/building-reusable-devsecops-pipelines-on-a-secure-kubernetes-platform-steven-terrana-booz-allen-hamilton-michael-ducy-sysdig) on their use of Falco.
* [Coveo](https://www.coveo.com/) - Coveo stitches together content and data, learning from every interaction, to tailor every experience using AI to drive growth, satisfy customers and develop employee proficiency. All Falco events are centralized in our SIEM for analysis. Understanding what is running on production servers, and the context around why things are running is even more tricky now that we have further abstractions with containers and orchestration systems. Falco is giving us a good visibility inside containers and complement other Host and Network Intrusion Detection Systems. In a near future, we expect to deploy serverless functions to take action when Falco identifies patterns worth taking action for.
* [Deckhouse](https://deckhouse.io/) - Deckhouse Platform presents to you the opportunity to create homogeneous Kubernetes clusters anywhere and handles comprehensive, automagical management for them. It supplies all the add-ons you need for auto-scaling, observability, security, and service mesh. Falco is used as a part of the [runtime-audit-engine](https://deckhouse.io/documentation/latest/modules/650-runtime-audit-engine/) module to provide threats detection and enforce security compliance out of the box. By pairing with [shell-operator](https://github.com/flant/shell-operator) Falco can be configured by Kubernetes Custom Resources.
* [Fairwinds](https://fairwinds.com/) - [Fairwinds Insights](https://fairwinds.com/insights), Kubernetes governance software, integrates Falco to offer a single pane of glass view into potential security incidents. Insights adds out-of-the-box integrations and rules filter to reduce alert fatigue and improve security response. The platform adds security prevention, detection, and response capabilities to your existing Kubernetes infrastructure. Security and DevOps teams benefit from a centralized view of container security vulnerability scanning and runtime container security.
* [Frame.io](https://frame.io/) - Frame.io is a cloud-based (SaaS) video review and collaboration platform that enables users to securely upload source media, work-in-progress edits, dailies, and more into private workspaces where they can invite their team and clients to collaborate on projects. Understanding what is running on production servers, and the context around why things are running is even more tricky now that we have further abstractions like Docker and Kubernetes. To get this needed visibility into our system, we rely on Falco. Falco's ability to collect raw system calls such as open, connect, exec, along with their arguments offer key insights on what is happening on the production system and became the foundation of our intrusion detection and alerting system.
* [Giant Swarm](https://www.giantswarm.io/) - Giant Swarm manages Kubernetes clusters and infrastructure for enterprises across multiple cloud providers as well as several flavors of on-premises data centers. Our platform provisions and monitors pure "vanilla" Kubernetes clusters which can be augmented with managed solutions to many common Kubernetes challenges, including security. We use Falco for anomaly detection as part of our collection of entirely open-source tools for securing our own clusters, and offer the same capabilities to our customers as part of our [managed security offering](https://docs.giantswarm.io/app-platform/apps/security/).
* [GitLab](https://about.gitlab.com/direction/defend/container_host_security/) - GitLab is a complete DevOps platform, delivered as a single application, fundamentally changing the way Development, Security, and Ops teams collaborate. GitLab Ultimate provides the single tool teams need to find, triage, and fix vulnerabilities in applications, services, and cloud-native environments enabling them to manage their risk. This provides them with repeatable, defensible processes that automate security and compliance policies. GitLab includes a tight integration with Falco, allowing users to defend their containerized applications from attacks while running in production.
* [gVisor](https://gvisor.dev/) - gVisor secures Kubernetes, containers, and workloads via an alternate execution environment that handles system calls in user space, blocking security issues before they reach the underlying host. gVisor provides defense-in-depth, protection against untrusted code execution, and a secure-by-default Kubernetes experience where containers are a security boundary. Falco can be used with gVisor to detect unusual or suspicious activity using its threat detection engine on top of gVisor runtime execution information.
* [League](https://league.com/ca/) - League provides health benefits management services to help employees understand and get the most from their benefits, and employers to provide effective, efficient plans. Falco is used to monitor our deployed services on Kubernetes, protecting against malicious access to containers which could lead to leaks of PHI or other sensitive data. The Falco alerts are logged in Stackdriver for grouping and further analysis. In the future, we're hoping for integrations with Prometheus and AlertManager as well.
* [League](https://league.com/ca/) - League provides health benefits management services to help employees understand and get the most from their benefits, and employers to provide effective, efficient plans. Falco is used to monitor our deployed services on Kubernetes, protecting against malicious access to containerswhich could lead to leaks of PHI or other sensitive data. The Falco alerts are logged in Stackdriver for grouping and further analysis. In the future, we're hoping for integrations with Prometheus and AlertManager as well.
* [Logz.io](https://logz.io/) - Logz.io is a cloud observability platform for modern engineering teams. The Logz.io platform consists of three products — Log Management, Infrastructure Monitoring, and Cloud SIEM — that work together to unify the jobs of monitoring, troubleshooting, and security. We empower engineers to deliver better software by offering the world's most popular open source observability tools — the ELK Stack, Grafana, and Jaeger — in a single, easy to use, and powerful platform purpose-built for monitoring distributed cloud environments. Cloud SIEM supports data from multiple sources, including Falco's alerts, and offers useful rules and dashboards content to visualize and manage incidents across your systems in a unified UI.
* https://logz.io/blog/k8s-security-with-falco-and-cloud-siem/
* [MathWorks](https://mathworks.com) - MathWorks develops mathematical computing software for engineers and scientists. MathWorks uses Falco for Kubernetes threat detection, unexpected application behavior, and maps Falco rules to their cloud infrastructure's security kill chain model. MathWorks presented their Falco use case at [KubeCon + CloudNativeCon North America 2020](https://www.youtube.com/watch?v=L-5RYBTV010).
* [Pocteo](https://pocteo.co) - Pocteo helps with Kubernetes adoption in enterprises by providing a variety of services such as training, consulting, auditing and mentoring. We build CI/CD pipelines the GitOps way, as well as design and run k8s clusters. Pocteo uses Falco as a runtime monitoring system to secure clients' workloads against suspicious behavior and ensure k8s pods immutability. We also use Falco to collect, process and act on security events through a response engine and serverless functions.
* [Preferral](https://www.preferral.com) - Preferral is a HIPAA-compliant platform for Referral Management and Online Referral Forms. Preferral streamlines the referral process for patients, specialists and their referral partners. By automating the referral process, referring practices spend less time on the phone, manual efforts are eliminated, and patients get the right care from the right specialist. Preferral leverages Falco to provide a Host Intrusion Detection System to meet their HIPAA compliance requirements.
* [Preferral](https://www.preferral.com) - Preferral is a HIPAA-compliant platform for Referral Management and Online Referral Forms. Preferral streamlines the referral process for patients, specialists and their referral partners. By automating the referral process, referring practices spend less time on the phone, manual efforts are eliminated, and patients get the right care from the right specialist. Preferral leverages Falco to provide a Host Intrusion Detection System to meet their HIPPA compliance requirements.
* https://hipaa.preferral.com/01-preferral_hipaa_compliance/
* [Qonto](https://qonto.com) - Qonto is a modern banking for SMEs and freelancers. Qonto provides a fully featured business account with a simplified accounting flow. Falco is used by our SecOps team to detect suspicious behaviors in our clusters.
* [Raft](https://goraft.tech) - Raft is a government contractor that offers cloud-native solutions across many different agencies including DoD (Department of Defense), HHS (Health and Human Services), as well as within CFPB (Consumer Finance Protection Bureau). Raft leverages Falco to detect threats in our client's Kubernetes clusters and as a Host Intrusion Detection System. Raft proudly recommends Falco across all our different projects.
* [Replicated](https://www.replicated.com/) - Replicated is the modern way to ship on-prem software. Replicated gives software vendors a container-based platform for easily deploying cloud native applications inside customers' environments to provide greater security and control. Replicated uses Falco as runtime security to detect threats in the Kubernetes clusters which host our critical SaaS services.
* [Secureworks](https://www.secureworks.com/) - Secureworks is a leading worldwide cybersecurity company with a cloud-native security product that combines the power of human intellect with security analytics to unify detection and response across cloud, network, and endpoint environments for improved security operations and outcomes. Our Taegis XDR platform and detection system processes petabytes of security relevant data to expose active threats amongst the billions of daily events from our customers. We are proud to protect our platforms Kubernetes deployments, as well as help our customers protect their own Linux and container environments, using Falco.
* [Shopify](https://www.shopify.com) - Shopify is the leading multi-channel commerce platform. Merchants use Shopify to design, set up, and manage their stores across multiple sales channels, including mobile, web, social media, marketplaces, brick-and-mortar locations, and pop-up shops. The platform also provides merchants with a powerful back-office and a single view of their business, from payments to shipping. The Shopify platform was engineered for reliability and scale, making enterprise-level technology available to businesses of all sizes. Shopify uses Falco to complement its Host and Network Intrusion Detection Systems.
* [Sight Machine](https://www.sightmachine.com) - Sight Machine is the category leader for manufacturing analytics and used by Global 500 companies to make better, faster decisions about their operations. Sight Machine uses Falco to help enforce SOC2 compliance as well as a tool for real time security monitoring and alerting in Kubernetes.
@@ -64,28 +26,5 @@ This is a list of production adopters of Falco (in alphabetical order):
* [Sumo Logic](https://www.sumologic.com/) - Sumo Logic provides a SaaS based log aggregation service that provides dashboards and applications to easily identify and analyze problems in your application and infrastructure. Sumo Logic provides native integrations for many CNCF projects, such as Falco, that allows end users to easily collect Falco events and analyze Falco events on DecSecOps focused dashboards.
* [Swissblock Technologies](https://swissblock.net/) At Swissblock we connect the dots by combining cutting-edge algorithmic trading strategies with in-depth market analysis. We route all Falco events to our control systems, both monitoring and logging. Being able to deeply analyse alerts, we can understand what is running on our Kubernetes clusters and check against security policies, specifically defined for each workload. A set of alarms notifies us in case of critical events, letting us react fast. In the near future we plan to build a little application to route Kubernetes internal events directly to Falco, fully leveraging Falco PodSecurityPolicies analyses.
* [Sysdig](https://www.sysdig.com/) Sysdig originally created Falco in 2016 to detect unexpected or suspicious activity using a rules engine on top of the data that comes from the sysdig kernel system call probe. Sysdig provides tooling to help with vulnerability management, compliance, detection, incident response and forensics in Cloud-native environments. Sysdig Secure has extended falco to include: a rule library, the ability to update macros, lists & rules via the user interface and API, automated tuning of rules, and rule creation based on profiling known system behavior. On top of the basic Falco rules, Sysdig Secure implements the concept of a "Security policy" that can comprise several rules which are evaluated for a user-define infrastructure scope like Kubernetes namespaces, OpenShift clusters, deployment workload, cloud regions etc.
* [Shapesecurity/F5](https://www.shapesecurity.com/) Shapesecurity defends against application fraud attacks like Account Take Over, Credential Stuffing, Fake Accounts, etc. Required by FedRamp certification, we needed to find a FIM solution to help monitor and protect our Kubernetes clusters. Traditional FIM solutions were not scalable and not working for our environment, but with Falco we found the solution we needed. Falco's detection capabilities have helped us identify anomalous behaviour within our clusters. We leverage Sidekick (https://github.com/falcosecurity/charts/tree/master/falcosidekick) to send Falco alerts to a PubSub which in turn publishes those alerts to our SIEM (SumoLogic)
* [Sysdig](https://www.sysdig.com/) Sysdig originally created Falco in 2016 to detect unexpected or suspicious activity using a rules engine on top of the data that comes from the sysdig kernel system call driver. Sysdig provides tooling to help with vulnerability management, compliance, detection, incident response and forensics in Cloud-native environments. Sysdig Secure has extended Falco to include: a rule library, the ability to update macros, lists & rules via the user interface and API, automated tuning of rules, and rule creation based on profiling known system behavior. On top of the basic Falco rules, Sysdig Secure implements the concept of a "Security policy" that can comprise several rules which are evaluated for a user-defined infrastructure scope like Kubernetes namespaces, OpenShift clusters, deployment workload, cloud regions etc.
* [Thales Group](https://www.thalesgroup.com) Thales is a global technology leader with more than 81,000 employees on five continents. The Thales Group is investing in digital and “deep tech” innovations Big Data, artificial intelligence, connectivity, cybersecurity and quantum technology to build a future we can all trust. In the past few years, the Cloud-Native paradigms and its frameworks and tools have challenged the way applications and services are developed, delivered, and instantiated. All sorts of services are container-based workloads managed by higher level layers of orchestration such as the Kubernetes environment. Thales is committed to develop Cloud-Native services and to provide its customers with security features that ensure their applications and services are protected against cyber threats. Falco is a framework that can help Thales' products and services reach the level of trust, security and safety our clients need.
* [Vinted](https://vinted.com/) Vinted uses Falco to continuously monitor container activities, identifying security threats, and ensuring compliance. The container-native approach, rule-based real-time threat detection, community support, extensibility, and compliance capabilities are the main factors why we chose it to enhance Vinted Kubernetes security. Falco Sidekick is used to send critical and warning severity alerts to our incident management solution (RTIR).
* [Xenit AB](https://xenit.se/contact/) Xenit is a growth company with services within cloud and digital transformation. We provide an open-source Kubernetes framework that we leverage to help our customers get their applications to production as quickly and as securely as possible. We use Falco's detection capabilities to identify anomalous behaviour within our clusters in both Azure and AWS.
* [Yahoo! JAPAN](https://www.yahoo.co.jp/) Yahoo! JAPAN is a leading company of internet in Japan. We build an AI Platform in our private cloud and provide it to scientists in our company. AI Platform is a multi-tenant Kubernetes environment and more flexible, faster, more efficient Machine Learning environment. Falco is used to detect unauthorized commands and malicious access and our AI Platform is monitored and alerted by Falco.
## Projects that use Falco libs
* [R6/Phoenix](https://r6security.com/) is an attack surface protection company that uses moving target defense to provide fully automated, proactive and devops friendly security to its customers. There are a set of policies you can add to enable the moving target defense capabilities. Some of them are triggered by a combination of Falco's findings. You can kill, restart and rename pods according to the ever changing policies.
* [SysFlow](https://sysflow.io) SysFlow is a cloud-native system telemetry framework that focuses on data abstraction, behavioral analytics, and noise reduction. At its core, SysFlow exposes a compact open telemetry format that records workload behaviors by connecting event and flow representations of process control flows, file interactions, and network communications. The resulting abstraction encodes a graph structure that enables provenance reasoning on host and container environments, and fast retrieval of security-relevant information.
* [StackRox](https://stackrox.io) is the industrys first Kubernetes-native security platform enabling organizations to build, deploy, and run cloud-native applications securely. The platform works with Kubernetes environments and integrates with DevOps and security tools, enabling teams to operationalize and secure their supply chain, infrastructure, and workloads. StackRox aims to harness containerized applications development speed while giving operations and security teams greater context and risk profiling. StackRox leverages cloud-native principles and declarative artifacts to automate DevSecOps best practices.
## Adding a name
If you would like to add your name to this file, submit a pull request with your change.

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CHANGELOG.md
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258
CMakeLists.txt
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@@ -1,5 +1,5 @@
#
# Copyright (C) 2023 The Falco Authors.
# Copyright (C) 2019 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
@@ -18,42 +18,6 @@ option(USE_BUNDLED_DEPS "Bundle hard to find dependencies into the Falco binary"
option(BUILD_WARNINGS_AS_ERRORS "Enable building with -Wextra -Werror flags" OFF)
option(MINIMAL_BUILD "Build a minimal version of Falco, containing only the engine and basic input/output (EXPERIMENTAL)" OFF)
option(MUSL_OPTIMIZED_BUILD "Enable if you want a musl optimized build" OFF)
option(BUILD_FALCO_UNIT_TESTS "Build falco unit tests" OFF)
if(EMSCRIPTEN)
set(USE_BUNDLED_DEPS ON CACHE BOOL "" FORCE)
set(BUILD_DRIVER OFF CACHE BOOL "" FORCE)
set(ENABLE_DKMS OFF CACHE BOOL "" FORCE)
set(BUILD_BPF OFF CACHE BOOL "" FORCE)
set(CPACK_GENERATOR TGZ CACHE BOOL "" FORCE)
endif()
# gVisor is currently only supported on Linux x86_64
if(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64" AND CMAKE_SYSTEM_NAME MATCHES "Linux" AND NOT MINIMAL_BUILD)
option(BUILD_FALCO_GVISOR "Build gVisor support for Falco" ON)
if (BUILD_FALCO_GVISOR)
add_definitions(-DHAS_GVISOR)
endif()
endif()
# Modern BPF is not supported on not Linux systems and in MINIMAL_BUILD
if(CMAKE_SYSTEM_NAME MATCHES "Linux" AND NOT MINIMAL_BUILD)
option(BUILD_FALCO_MODERN_BPF "Build modern BPF support for Falco" OFF)
if(BUILD_FALCO_MODERN_BPF)
add_definitions(-DHAS_MODERN_BPF)
endif()
endif()
# We shouldn't need to set this, see https://gitlab.kitware.com/cmake/cmake/-/issues/16419
option(EP_UPDATE_DISCONNECTED "ExternalProject update disconnected" OFF)
if (${EP_UPDATE_DISCONNECTED})
set_property(
DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}
PROPERTY EP_UPDATE_DISCONNECTED TRUE)
endif()
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_EXTENSIONS OFF)
# Elapsed time
# set_property(GLOBAL PROPERTY RULE_LAUNCH_COMPILE "${CMAKE_COMMAND} -E time") # TODO(fntlnz, leodido): add a flag to enable this
@@ -75,24 +39,16 @@ if(NOT DEFINED FALCO_ETC_DIR)
set(FALCO_ETC_DIR "${CMAKE_INSTALL_FULL_SYSCONFDIR}/falco")
endif()
# This will be used to print the architecture for which Falco is compiled.
if (EMSCRIPTEN)
set(FALCO_TARGET_ARCH "wasm")
else()
set(FALCO_TARGET_ARCH ${CMAKE_SYSTEM_PROCESSOR})
endif()
if(NOT FALCO_EXTRA_DEBUG_FLAGS)
set(FALCO_EXTRA_DEBUG_FLAGS "-D_DEBUG")
if(NOT DRAIOS_DEBUG_FLAGS)
set(DRAIOS_DEBUG_FLAGS "-D_DEBUG")
endif()
string(TOLOWER "${CMAKE_BUILD_TYPE}" CMAKE_BUILD_TYPE)
if(CMAKE_BUILD_TYPE STREQUAL "debug")
set(KBUILD_FLAGS "${FALCO_EXTRA_DEBUG_FLAGS} ${FALCO_EXTRA_FEATURE_FLAGS}")
set(KBUILD_FLAGS "${DRAIOS_DEBUG_FLAGS} ${DRAIOS_FEATURE_FLAGS}")
else()
set(CMAKE_BUILD_TYPE "release")
set(KBUILD_FLAGS "${FALCO_EXTRA_FEATURE_FLAGS}")
add_definitions(-DBUILD_TYPE_RELEASE)
set(KBUILD_FLAGS "${DRAIOS_FEATURE_FLAGS}")
endif()
message(STATUS "Build type: ${CMAKE_BUILD_TYPE}")
@@ -101,21 +57,10 @@ if(MINIMAL_BUILD)
endif()
if(MUSL_OPTIMIZED_BUILD)
set(MUSL_FLAGS "-static -Os -fPIE -pie")
add_definitions(-DMUSL_OPTIMIZED)
set(MUSL_FLAGS "-static -Os")
endif()
# explicitly set hardening flags
set(CMAKE_POSITION_INDEPENDENT_CODE ON)
set(FALCO_SECURITY_FLAGS "")
if(NOT EMSCRIPTEN)
set(FALCO_SECURITY_FLAGS "${FALCO_SECURITY_FLAGS} -Wl,-z,relro,-z,now -fstack-protector-strong")
endif()
if(CMAKE_BUILD_TYPE STREQUAL "release")
set(FALCO_SECURITY_FLAGS "${FALCO_SECURITY_FLAGS} -D_FORTIFY_SOURCE=2")
endif()
set(CMAKE_COMMON_FLAGS "${FALCO_SECURITY_FLAGS} -Wall -ggdb ${FALCO_EXTRA_FEATURE_FLAGS} ${MINIMAL_BUILD_FLAGS} ${MUSL_FLAGS}")
set(CMAKE_COMMON_FLAGS "-Wall -ggdb ${DRAIOS_FEATURE_FLAGS} ${MINIMAL_BUILD_FLAGS} ${MUSL_FLAGS}")
if(BUILD_WARNINGS_AS_ERRORS)
set(CMAKE_SUPPRESSED_WARNINGS
@@ -125,28 +70,20 @@ if(BUILD_WARNINGS_AS_ERRORS)
endif()
set(CMAKE_C_FLAGS "${CMAKE_COMMON_FLAGS}")
set(CMAKE_CXX_FLAGS "-std=c++17 ${CMAKE_COMMON_FLAGS} -Wno-class-memaccess")
set(CMAKE_CXX_FLAGS "--std=c++0x ${CMAKE_COMMON_FLAGS} -Wno-class-memaccess")
set(CMAKE_C_FLAGS_DEBUG "${FALCO_EXTRA_DEBUG_FLAGS}")
set(CMAKE_CXX_FLAGS_DEBUG "${FALCO_EXTRA_DEBUG_FLAGS}")
set(CMAKE_C_FLAGS_DEBUG "${DRAIOS_DEBUG_FLAGS}")
set(CMAKE_CXX_FLAGS_DEBUG "${DRAIOS_DEBUG_FLAGS}")
set(CMAKE_C_FLAGS_RELEASE "-O3 -fno-strict-aliasing -DNDEBUG")
set(CMAKE_CXX_FLAGS_RELEASE "-O3 -fno-strict-aliasing -DNDEBUG")
include(GetFalcoVersion)
set(PACKAGE_NAME "falco")
set(DRIVER_NAME "falco")
set(DRIVER_DEVICE_NAME "falco")
set(PROBE_NAME "falco")
set(PROBE_DEVICE_NAME "falco")
set(DRIVERS_REPO "https://download.falco.org/driver")
# If no path is provided, try to search the BPF probe in: `home/.falco/falco-bpf.o`
# This is the same fallback that we had in the libraries: `SCAP_PROBE_BPF_FILEPATH`.
set(FALCO_PROBE_BPF_FILEPATH ".${DRIVER_NAME}/${DRIVER_NAME}-bpf.o")
add_definitions(-DFALCO_PROBE_BPF_FILEPATH="${FALCO_PROBE_BPF_FILEPATH}")
if(NOT DEFINED FALCO_COMPONENT_NAME)
set(FALCO_COMPONENT_NAME "${CMAKE_PROJECT_NAME}")
endif()
if(CMAKE_INSTALL_PREFIX_INITIALIZED_TO_DEFAULT)
set(CMAKE_INSTALL_PREFIX
/usr
@@ -157,60 +94,162 @@ set(CMD_MAKE make)
include(ExternalProject)
# libs
include(falcosecurity-libs)
# compute FALCO_VERSION (depends on libs)
include(falco-version)
# jq
include(jq)
# nlohmann-json
include(njson)
set(NJSON_SRC "${PROJECT_BINARY_DIR}/njson-prefix/src/njson")
message(STATUS "Using bundled nlohmann-json in '${NJSON_SRC}'")
set(NJSON_INCLUDE "${NJSON_SRC}/single_include")
ExternalProject_Add(
njson
URL "https://github.com/nlohmann/json/archive/v3.3.0.tar.gz"
URL_HASH "SHA256=2fd1d207b4669a7843296c41d3b6ac5b23d00dec48dba507ba051d14564aa801"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
# curses
# We pull this in because libsinsp won't build without it
set(CURSES_NEED_NCURSES TRUE)
find_package(Curses REQUIRED)
message(STATUS "Found ncurses: include: ${CURSES_INCLUDE_DIR}, lib: ${CURSES_LIBRARIES}")
# libb64
set(B64_SRC "${PROJECT_BINARY_DIR}/b64-prefix/src/b64")
message(STATUS "Using bundled b64 in '${B64_SRC}'")
set(B64_INCLUDE "${B64_SRC}/include")
set(B64_LIB "${B64_SRC}/src/libb64.a")
ExternalProject_Add(
b64
URL "https://github.com/libb64/libb64/archive/v1.2.1.zip"
URL_HASH "SHA256=665134c2b600098a7ebd3d00b6a866cb34909a6d48e0e37a0eda226a4ad2638a"
CONFIGURE_COMMAND ""
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
INSTALL_COMMAND "")
# yaml-cpp
include(yaml-cpp)
if(NOT WIN32 AND NOT APPLE AND NOT MINIMAL_BUILD AND NOT EMSCRIPTEN)
if(NOT MINIMAL_BUILD)
# OpenSSL
include(openssl)
include(OpenSSL)
# libcurl
include(curl)
# todo(jasondellaluce,rohith-raju): support webserver for non-linux builds too
# cpp-httlib
include(cpp-httplib)
include(cURL)
endif()
include(cxxopts)
# LuaJIT
set(LUAJIT_SRC "${PROJECT_BINARY_DIR}/luajit-prefix/src/luajit/src")
message(STATUS "Using bundled LuaJIT in '${LUAJIT_SRC}'")
set(LUAJIT_INCLUDE "${LUAJIT_SRC}")
set(LUAJIT_LIB "${LUAJIT_SRC}/libluajit.a")
ExternalProject_Add(
luajit
URL "https://github.com/LuaJIT/LuaJIT/archive/v2.0.3.tar.gz"
URL_HASH "SHA256=8da3d984495a11ba1bce9a833ba60e18b532ca0641e7d90d97fafe85ff014baa"
CONFIGURE_COMMAND ""
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
INSTALL_COMMAND "")
# Lpeg
set(LPEG_SRC "${PROJECT_BINARY_DIR}/lpeg-prefix/src/lpeg")
set(LPEG_LIB "${PROJECT_BINARY_DIR}/lpeg-prefix/src/lpeg/build/lpeg.a")
message(STATUS "Using bundled lpeg in '${LPEG_SRC}'")
set(LPEG_DEPENDENCIES "")
list(APPEND LPEG_DEPENDENCIES "luajit")
ExternalProject_Add(
lpeg
DEPENDS ${LPEG_DEPENDENCIES}
URL "http://www.inf.puc-rio.br/~roberto/lpeg/lpeg-1.0.2.tar.gz"
URL_HASH "SHA256=48d66576051b6c78388faad09b70493093264588fcd0f258ddaab1cdd4a15ffe"
BUILD_COMMAND LUA_INCLUDE=${LUAJIT_INCLUDE} "${PROJECT_SOURCE_DIR}/scripts/build-lpeg.sh" "${LPEG_SRC}/build"
BUILD_IN_SOURCE 1
CONFIGURE_COMMAND ""
INSTALL_COMMAND "")
# libyaml
include(libyaml)
# lyaml
set(LYAML_SRC "${PROJECT_BINARY_DIR}/lyaml-prefix/src/lyaml/ext/yaml")
set(LYAML_LIB "${LYAML_SRC}/.libs/yaml.a")
message(STATUS "Using bundled lyaml in '${LYAML_SRC}'")
ExternalProject_Add(
lyaml
DEPENDS luajit libyaml
URL "https://github.com/gvvaughan/lyaml/archive/release-v6.0.tar.gz"
URL_HASH "SHA256=9d7cf74d776999ff6f758c569d5202ff5da1f303c6f4229d3b41f71cd3a3e7a7"
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
CONFIGURE_COMMAND ./configure --enable-static CFLAGS=-I${LIBYAML_INSTALL_DIR}/include CPPFLAGS=-I${LIBYAML_INSTALL_DIR}/include LDFLAGS=-L${LIBYAML_INSTALL_DIR}/lib LIBS=-lyaml LUA=${LUAJIT_SRC}/luajit LUA_INCLUDE=-I${LUAJIT_INCLUDE}
INSTALL_COMMAND sh -c
"cp -R ${PROJECT_BINARY_DIR}/lyaml-prefix/src/lyaml/lib/* ${PROJECT_SOURCE_DIR}/userspace/engine/lua")
# One TBB
if (NOT EMSCRIPTEN)
include(tbb)
set(TBB_SRC "${PROJECT_BINARY_DIR}/tbb-prefix/src/tbb")
message(STATUS "Using bundled tbb in '${TBB_SRC}'")
set(TBB_INCLUDE_DIR "${TBB_SRC}/include/")
set(TBB_LIB "${TBB_SRC}/build/lib_release/libtbb.a")
ExternalProject_Add(
tbb
URL "https://github.com/oneapi-src/oneTBB/archive/2018_U5.tar.gz"
URL_HASH "SHA256=b8dbab5aea2b70cf07844f86fa413e549e099aa3205b6a04059ca92ead93a372"
CONFIGURE_COMMAND ""
BUILD_COMMAND ${CMD_MAKE} tbb_build_dir=${TBB_SRC}/build tbb_build_prefix=lib extra_inc=big_iron.inc
BUILD_IN_SOURCE 1
BUILD_BYPRODUCTS ${TBB_LIB}
INSTALL_COMMAND "")
if(NOT MINIMAL_BUILD)
# civetweb
set(CIVETWEB_SRC "${PROJECT_BINARY_DIR}/civetweb-prefix/src/civetweb/")
set(CIVETWEB_LIB "${CIVETWEB_SRC}/install/lib/libcivetweb.a")
set(CIVETWEB_INCLUDE_DIR "${CIVETWEB_SRC}/install/include")
message(STATUS "Using bundled civetweb in '${CIVETWEB_SRC}'")
ExternalProject_Add(
civetweb
URL "https://github.com/civetweb/civetweb/archive/v1.11.tar.gz"
URL_HASH "SHA256=de7d5e7a2d9551d325898c71e41d437d5f7b51e754b242af897f7be96e713a42"
CONFIGURE_COMMAND ${CMAKE_COMMAND} -E make_directory ${CIVETWEB_SRC}/install/lib
COMMAND ${CMAKE_COMMAND} -E make_directory ${CIVETWEB_SRC}/install/include
BUILD_IN_SOURCE 1
BUILD_COMMAND ${CMD_MAKE} COPT="-DNO_FILES" WITH_CPP=1
INSTALL_COMMAND ${CMD_MAKE} COPT="-DNO_FILES" install-lib install-headers PREFIX=${CIVETWEB_SRC}/install "WITH_CPP=1")
endif()
if (NOT MINIMAL_BUILD)
include(zlib)
if (NOT WIN32 AND NOT APPLE AND NOT EMSCRIPTEN)
include(cares)
include(protobuf)
# gRPC
include(grpc)
endif()
#string-view-lite
include(DownloadStringViewLite)
if(NOT MINIMAL_BUILD)
# gRPC
include(gRPC)
endif()
# sysdig
include(sysdig)
# Installation
install(FILES falco.yaml DESTINATION "${FALCO_ETC_DIR}" COMPONENT "${FALCO_COMPONENT_NAME}")
install(FILES falco.yaml DESTINATION "${FALCO_ETC_DIR}")
if(NOT MINIMAL_BUILD)
# Coverage
include(Coverage)
# Tests
add_subdirectory(test)
endif()
# Rules
include(rules)
add_subdirectory(rules)
# Dockerfiles
add_subdirectory(docker)
# Clang format
# add_custom_target(format COMMAND clang-format --style=file -i $<TARGET_PROPERTY:falco,SOURCES> COMMENT "Formatting ..." VERBATIM)
@@ -221,22 +260,13 @@ include(static-analysis)
# Shared build variables
set(FALCO_SINSP_LIBRARY sinsp)
set(FALCO_SHARE_DIR share/falco)
set(FALCO_PLUGINS_DIR ${FALCO_SHARE_DIR}/plugins)
set(FALCO_ABSOLUTE_SHARE_DIR "${CMAKE_INSTALL_PREFIX}/${FALCO_SHARE_DIR}")
set(FALCO_BIN_DIR bin)
add_subdirectory(scripts)
add_subdirectory(userspace/engine)
add_subdirectory(userspace/falco)
if(NOT WIN32 AND NOT APPLE AND NOT EMSCRIPTEN AND NOT MUSL_OPTIMIZED_BUILD)
include(plugins)
include(falcoctl)
endif()
add_subdirectory(tests)
# Packages configuration
include(CPackConfig)
if(BUILD_FALCO_UNIT_TESTS)
add_subdirectory(unit_tests)
endif()

55
GOVERNANCE.md Normal file
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@@ -0,0 +1,55 @@
# Process for becoming a maintainer
* Express interest to the existing maintainers that you or your organization is interested in becoming a
maintainer. Becoming a maintainer generally means that you are going to be spending substantial
time (>25%) on Falco for the foreseeable future. You should have domain expertise and be extremely
proficient in C++. Ultimately your goal is to become a maintainer that will represent your
organization.
* We will expect you to start contributing increasingly complicated PRs, under the guidance
of the existing maintainers.
* We may ask you to do some PRs from our backlog.
* As you gain experience with the code base and our standards, we will ask you to do code reviews
for incoming PRs (i.e., all maintainers are expected to shoulder a proportional share of
community reviews).
* After a period of approximately 2-3 months of working together and making sure we see eye to eye,
the existing maintainers will confer and decide whether to grant maintainer status or not.
We make no guarantees on the length of time this will take, but 2-3 months is the approximate
goal.
## Maintainer responsibilities
* Monitor Slack (delayed response is perfectly acceptable).
* Triage GitHub issues and perform pull request reviews for other maintainers and the community.
* During GitHub issue triage, apply all applicable [labels](https://github.com/falcosecurity/falco/labels)
to each new issue. Labels are extremely useful for future issue follow up. Which labels to apply
is somewhat subjective so just use your best judgment.
* Make sure that ongoing PRs are moving forward at the right pace or closing them.
* Participate when called upon in the security releases. Note that although this should be a rare
occurrence, if a serious vulnerability is found, the process may take up to several full days of
work to implement. This reality should be taken into account when discussing time commitment
obligations with employers.
* In general continue to be willing to spend at least 25% of ones time working on Falco (~1.25
business days per week).
## When does a maintainer lose maintainer status
If a maintainer is no longer interested or cannot perform the maintainer duties listed above, they
should volunteer to be moved to emeritus status. In extreme cases this can also occur by a vote of
the maintainers per the voting process below.
# Conflict resolution and voting
In general, we prefer that technical issues and maintainer membership are amicably worked out
between the persons involved. If a dispute cannot be decided independently, the maintainers can be
called in to decide an issue. If the maintainers themselves cannot decide an issue, the issue will
be resolved by voting. The voting process is a simple majority in which each senior maintainer
receives two votes and each normal maintainer receives one vote.
# Adding new projects to the falcosecurity GitHub organization
New projects will be added to the falcosecurity organization via GitHub issue discussion in one of the
existing projects in the organization. Once sufficient discussion has taken place (~3-5 business
days but depending on the volume of conversation), the maintainers of *the project where the issue
was opened* (since different projects in the organization may have different maintainers) will
decide whether the new project should be added. See the section above on voting if the maintainers
cannot easily decide.

20
OWNERS
View File

@@ -1,14 +1,14 @@
approvers:
- mstemm
- leogr
- jasondellaluce
- fededp
- andreagit97
- incertum
- LucaGuerra
reviewers:
- kaizhe
emeritus_approvers:
- fntlnz
- kris-nova
- leodido
- mstemm
- leogr
reviewers:
- fntlnz
- kaizhe
- kris-nova
- leodido
- mfdii
- mstemm
- leogr

129
README.md
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@@ -1,102 +1,97 @@
# Falco
<p align="center"><img src="https://raw.githubusercontent.com/falcosecurity/community/master/logo/primary-logo.png" width="360"></p>
<p align="center"><b>Cloud Native Runtime Security.</b></p>
[![Latest release](https://img.shields.io/github/v/release/falcosecurity/falco?style=for-the-badge)](https://github.com/falcosecurity/falco/releases/latest) [![Supported Architectures](https://img.shields.io/badge/ARCHS-x86__64%7Caarch64-blueviolet?style=for-the-badge)](https://github.com/falcosecurity/falco/releases/latest) [![License](https://img.shields.io/github/license/falcosecurity/falco?style=for-the-badge)](COPYING) [![Docs](https://img.shields.io/badge/docs-latest-green.svg?style=for-the-badge)](https://falco.org/docs)
<hr>
[![Falco Core Repository](https://github.com/falcosecurity/evolution/blob/main/repos/badges/falco-core-blue.svg)](https://github.com/falcosecurity/evolution/blob/main/REPOSITORIES.md#core-scope) [![Stable](https://img.shields.io/badge/status-stable-brightgreen?style=for-the-badge)](https://github.com/falcosecurity/evolution/blob/main/REPOSITORIES.md#stable) [![OpenSSF Best Practices](https://img.shields.io/cii/summary/2317?label=OpenSSF%20Best%20Practices&style=for-the-badge)](https://bestpractices.coreinfrastructure.org/projects/2317)
[![Build Status](https://img.shields.io/circleci/build/github/falcosecurity/falco/master?style=for-the-badge)](https://circleci.com/gh/falcosecurity/falco) [![CII Best Practices Summary](https://img.shields.io/cii/summary/2317?label=CCI%20Best%20Practices&style=for-the-badge)](https://bestpractices.coreinfrastructure.org/projects/2317) [![GitHub](https://img.shields.io/github/license/falcosecurity/falco?style=for-the-badge)](COPYING)
[![Falco](https://falco.org/img/brand/falco-horizontal-color.svg)](https://falco.org)
#### Latest releases
[Falco](https://falco.org/) is a cloud native runtime security tool for Linux operating systems. It is designed to detect and alert on abnormal behavior and potential security threats in real-time.
Read the [change log](CHANGELOG.md).
At its core, Falco is a kernel monitoring and detection agent that observes events, such as syscalls, based on custom rules. Falco can enhance these events by integrating metadata from the container runtime and Kubernetes. The collected events can be analyzed off-host in SIEM or data lake systems.
| | development | stable |
|--------|-----------------------------------------------------------------------------------------------------------------------------|---------------------------------------------------------------------------------------------------------------------|
| rpm | [![rpm-dev](https://img.shields.io/bintray/v/falcosecurity/rpm-dev/falco?label=Falco&color=%2300aec7&style=flat-square)][1] | [![rpm](https://img.shields.io/bintray/v/falcosecurity/rpm/falco?label=Falco&color=%23005763&style=flat-square)][2] |
| deb | [![deb-dev](https://img.shields.io/bintray/v/falcosecurity/deb-dev/falco?label=Falco&color=%2300aec7&style=flat-square)][3] | [![deb](https://img.shields.io/bintray/v/falcosecurity/deb/falco?label=Falco&color=%23005763&style=flat-square)][4] |
| binary | [![bin-dev](https://img.shields.io/bintray/v/falcosecurity/bin-dev/falco?label=Falco&color=%2300aec7&style=flat-square)][5] | [![bin](https://img.shields.io/bintray/v/falcosecurity/bin/falco?label=Falco&color=%23005763&style=flat-square)][6] |
Falco, originally created by [Sysdig](https://sysdig.com), is an incubating project under the [Cloud Native Computing Foundation](https://cncf.io) (CNCF) used in production by various [organisations](https://github.com/falcosecurity/falco/blob/master/ADOPTERS.md).
---
For detailed technical information and insights into the cyber threats that Falco can detect, visit the official [Falco](https://falco.org/) website.
The Falco Project, originally created by [Sysdig](https://sysdig.com), is an incubating [CNCF](https://cncf.io) open source cloud native runtime security tool.
Falco makes it easy to consume kernel events, and enrich those events with information from Kubernetes and the rest of the cloud native stack.
Falco has a rich rule set of security rules specifically built for Kubernetes, Linux, and cloud-native.
If a rule is violated in a system, Falco will send an alert notifying the user of the violation and its severity.
For comprehensive information on the latest updates and changes to the project, please refer to the [change log](CHANGELOG.md). Additionally, we have documented the [release process](RELEASE.md) for delivering new versions of Falco.
### Installing Falco
## Falco Repo: Powering the Core of The Falco Project
If you would like to run Falco in **production** please adhere to the [official installation guide](https://falco.org/docs/installation/).
This is the main Falco repository which contains the source code for building the Falco binary. By utilizing its [libraries](https://github.com/falcosecurity/libs) and the [falco.yaml](falco.yaml) configuration file, this repository forms the foundation of Falco's functionality. The Falco repository is closely interconnected with the following *core* repositories:
##### Kubernetes
- [falcosecurity/libs](https://github.com/falcosecurity/libs): Falco's libraries are key to its fundamental operations, making up the greater portion of the source code of the Falco binary and providing essential features such as kernel drivers.
- [falcosecurity/rules](https://github.com/falcosecurity/rules): Contains the official ruleset for Falco, providing pre-defined detection rules for various security threats and abnormal behaviors.
- [falcosecurity/plugins](https://github.com/falcosecurity/plugins/): Falco plugins facilitate integration with external services, expand Falco's capabilities beyond syscalls and container events, and are designed to evolve with specialized functionality in future releases.
- [falcosecurity/falcoctl](https://github.com/falcosecurity/falcoctl): Command-line utility for managing and interacting with Falco.
| Tool | Link | Note |
|----------|--------------------------------------------------------------------------------------------|--------------------------------------------------------------------|
| Helm | [Chart Repository](https://github.com/falcosecurity/charts/tree/master/falco#introduction) | The Falco community offers regular helm chart releases. |
| Minikube | [Tutorial](https://falco.org/docs/third-party/#minikube) | The Falco driver has been baked into minikube for easy deployment. |
| Kind | [Tutorial](https://falco.org/docs/third-party/#kind) | Running Falco with kind requires a driver on the host system. |
| GKE | [Tutorial](https://falco.org/docs/third-party/#gke) | We suggest using the eBPF driver for running Falco on GKE. |
For more information, visit the official hub of The Falco Project: [falcosecurity/evolution](https://github.com/falcosecurity/evolution). It provides valuable insights and information about the project's repositories.
### Developing
## Getting Started with Falco
Falco is designed to be extensible such that it can be built into cloud-native applications and infrastructure.
Carefully review and follow the [official guide and documentation](https://falco.org/docs/getting-started/).
Falco has a [gRPC](https://falco.org/docs/grpc/) endpoint and an API defined in [protobuf](https://github.com/falcosecurity/falco/blob/update-readme/userspace/falco/outputs.proto).
The Falco Project supports various SDKs for this endpoint.
Considerations and guidance for Falco adopters:
##### SDKs
1. Understand dependencies: Assess the environment where you'll run Falco and consider kernel versions and architectures.
2. Define threat detection objectives: Clearly identify the threats you want to detect and evaluate Falco's strengths and limitations.
3. Consider performance and cost: Assess compute performance overhead and align with system administrators or SREs. Budget accordingly.
4. Choose build and customization approach: Decide between the open source Falco build or creating a custom build pipeline. Customize the build and deployment process as necessary, including incorporating unique tests or approaches, to ensure a resilient deployment with fast deployment cycles.
5. Integrate with output destinations: Integrate Falco with SIEM, data lake systems, or other preferred output destinations to establish a robust foundation for comprehensive data analysis and enable effective incident response workflows.
| Language | Repository |
|----------|---------------------------------------------------------|
| Go | [client-go](https://github.com/falcosecurity/client-go) |
| Rust | [client-rs](https://github.com/falcosecurity/client-rs) |
| Python | [client-py](https://github.com/falcosecurity/client-py) |
## How to Contribute
### What can Falco detect?
Please refer to the [contributing guide](https://github.com/falcosecurity/.github/blob/main/CONTRIBUTING.md) and the [code of conduct](https://github.com/falcosecurity/evolution/CODE_OF_CONDUCT.md) for more information on how to contribute.
Falco can detect and alert on any behavior that involves making Linux system calls.
Falco alerts can be triggered by the use of specific system calls, their arguments, and by properties of the calling process.
For example, Falco can easily detect incidents including but not limited to:
- A shell is running inside a container or pod in Kubernetes.
- A container is running in privileged mode, or is mounting a sensitive path, such as `/proc`, from the host.
- A server process is spawning a child process of an unexpected type.
- Unexpected read of a sensitive file, such as `/etc/shadow`.
- A non-device file is written to `/dev`.
- A standard system binary, such as `ls`, is making an outbound network connection.
## Join the Community
### Documentation
To get involved with the Falco Project please visit the [community repository](https://github.com/falcosecurity/community) to find more information and ways to get involved.
The [Official Documentation](https://falco.org/docs/) is the best resource to learn about Falco.
If you have any questions about Falco or contributing, do not hesitate to file an issue or contact the Falco maintainers and community members for assistance.
### Join the Community
How to reach out?
To get involved with The Falco Project please visit [the community repository](https://github.com/falcosecurity/community) to find more.
- Join the [#falco](https://kubernetes.slack.com/messages/falco) channel on the [Kubernetes Slack](https://slack.k8s.io).
- Join the [Falco mailing list](https://lists.cncf.io/g/cncf-falco-dev).
- File an [issue](https://github.com/falcosecurity/falco/issues) or make feature requests.
### Contributing
## Commitment to Falco's Own Security
See the [CONTRIBUTING.md](https://github.com/falcosecurity/.github/blob/master/CONTRIBUTING.md).
Full reports of various security audits can be found [here](./audits/).
### Security Audit
In addition, you can refer to the [falco security](https://github.com/falcosecurity/falco/security) and [libs security](https://github.com/falcosecurity/libs/security) sections for detailed updates on security advisories and policies.
A third party security audit was performed by Cure53, you can see the full report [here](./audits/SECURITY_AUDIT_2019_07.pdf).
To report security vulnerabilities, please follow the community process outlined in the documentation found [here](https://github.com/falcosecurity/.github/blob/main/SECURITY.md).
### Reporting security vulnerabilities
## What's next for Falco?
Please report security vulnerabilities following the community process documented [here](https://github.com/falcosecurity/.github/blob/master/SECURITY.md).
Stay updated with Falco's evolving capabilities by exploring the [Falco Roadmap](https://github.com/orgs/falcosecurity/projects/5), which provides insights into the features currently under development and planned for future releases.
## License
### License Terms
Falco is licensed to you under the [Apache 2.0](./COPYING) open source license.
## Why is Falco in C++ rather than Go or {language}?
1. The first lines of code at the base of Falco were written some time ago, where Go didn't yet have the same level of maturity and adoption as today.
2. The Falco execution model is sequential and mono-thread due to the statefulness requirements of the tool, and so most of the concurrency-related selling points of the Go runtime would not be leveraged at all.
3. The Falco code deals with very low-level programming in many places (e.g. some headers are shared with the eBPF probe and the Kernel module), and we all know that interfacing Go with C is possible but brings tons of complexity and tradeoffs to the table.
4. As a security tool meant to consume a crazy high throughput of events per second, Falco needs to squeeze performance in all hot paths at runtime and requires deep control on memory allocation, which the Go runtime can't provide (there's also garbage collection involved).
5. Although Go didn't suit the engineering requirements of the core of Falco, we still thought that it could be a good candidate for writing Falco extensions through the plugin system. This is the main reason we gave special attention and high priority to the development of the plugin-sdk-go.
6. Go is not a requirement for having statically-linked binaries. In fact, we provide fully-static Falco builds since few years. The only issue with those is that the plugin system can't be supported with the current dynamic library model we currently have.
7. The plugin system has been envisioned to support multiple languages, so on our end maintaining a C-compatible codebase is the best strategy to ensure maximum cross-language compatibility.
8. In general, plugins have GLIBC requirements/dependencies because they have low-level C bindings required for dynamic loading. A potential solution for the future could be to also support plugin to be statically-linked at compilation time and so released as bundled in the Falco binary. Although no work started yet in this direction, this would solve most issues you reported and would provide a totally-static binary too. Of course, this would not be compatible with dynamic loading anymore, but it may be a viable solution for our static-build flavor of Falco.
9. Memory safety is definitely a concern and we try our best to keep an high level of quality even though C++ is quite error prone. For instance, we try to use smart pointers whenever possible, we build the libraries with an address sanitizer in our CI, we run Falco through Valgrind before each release, and have ways to stress-test it to detect performance regressions or weird memory usage (e.g. https://github.com/falcosecurity/event-generator). On top of that, we also have third parties auditing the codebase by time to time. None of this make a perfect safety standpoint of course, but we try to maximize our odds. Go would definitely make our life easier from this perspective, however the tradeoffs never made it worth it so far due to the points above.
10. The C++ codebase of falcosecurity/libs, which is at the core of Falco, is quite large and complex. Porting all that code to another language would be a major effort requiring lots of development resource and with an high chance of failure and regression. As such, our approach so far has been to choose refactors and code polishing instead, up until we'll reach an optimal level of stability, quality, and modularity, on that portion of code. This would allow further developments to be smoother and more feasibile in the future.
## Resources
- [Governance](https://github.com/falcosecurity/evolution/blob/main/GOVERNANCE.md)
- [Code Of Conduct](https://github.com/falcosecurity/evolution/blob/main/CODE_OF_CONDUCT.md)
- [Maintainers Guidelines](https://github.com/falcosecurity/evolution/blob/main/MAINTAINERS_GUIDELINES.md)
- [Maintainers List](https://github.com/falcosecurity/evolution/blob/main/MAINTAINERS.md)
- [Repositories Guidelines](https://github.com/falcosecurity/evolution/blob/main/REPOSITORIES.md)
- [Repositories List](https://github.com/falcosecurity/evolution/blob/main/README.md#repositories)
- [Adopters List](https://github.com/falcosecurity/falco/blob/master/ADOPTERS.md)
[1]: https://dl.bintray.com/falcosecurity/rpm-dev
[2]: https://dl.bintray.com/falcosecurity/rpm
[3]: https://dl.bintray.com/falcosecurity/deb-dev/stable
[4]: https://dl.bintray.com/falcosecurity/deb/stable
[5]: https://dl.bintray.com/falcosecurity/bin-dev/x86_64
[6]: https://dl.bintray.com/falcosecurity/bin/x86_64

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# Falco Release Process
Our release process is mostly automated, but we still need some manual steps to initiate and complete it.
## Overview
Changes and new features are grouped in [milestones](https://github.com/falcosecurity/falco/milestones), the milestone with the next version represents what is going to be released.
This document provides the process to create a new Falco release. In addition, it provides information about the versioning of the Falco components. At a high level each Falco release consists of the following main components:
A release happens every two months ([as per community discussion](https://github.com/falcosecurity/community/blob/master/meeting-notes/2020-09-30.md#agenda)), and we need to assign owners for each (usually we pair a new person with an experienced one). Assignees and the due date are proposed during the [weekly community call](https://github.com/falcosecurity/community). Note that hotfix releases can happen as soon as it is needed.
- Falco binary (userspace), includes `modern_bpf` driver object code (kernel space) starting with Falco 0.34.x releases
- Falco kernel driver object files, separate artifacts for `kmod` and `bpf` drivers, not applicable for `modern_bpf` driver (kernel space)
- Option 1: Kernel module (`.ko` files)
- Option 2: eBPF (`.o` files)
- Falco config and rules `.yaml` files (userspace)
- Falco plugins (userspace - optional)
> Note: Starting with Falco 0.34.x releases, the Falco userspace binary includes the `modern_bpf` driver object code during the linking process. This integration is made possible by the CO-RE (Compile Once - Run Everywhere) feature of the modern BPF driver. CO-RE allows the driver to function on kernels that have backported BTF (BPF Type Format) support or have a kernel version >= 5.8. For the older `kmod` and `bpf` drivers, separate artifacts are released for the kernel space. This is because these drivers need to be explicitly compiled for the specific kernel release, using the exact kernel headers. This approach ensures that Falco can support a wide range of environments, including multiple kernel versions, distributions, and architectures. (see `libs` [driver - kernel version support matrix](https://github.com/falcosecurity/libs#drivers-officially-supported-architectures)).
The Falco Project manages the release of both the Falco userspace binary and pre-compiled Falco kernel drivers for the most popular kernel versions and distros. The build and publish process is managed by the [test-infra](https://github.com/falcosecurity/test-infra) repo.
The Falco userspace executable includes bundled dependencies, so that it can be run from anywhere.
Falco publishes all sources, enabling users to audit the project's integrity and build kernel drivers for custom or unsupported kernels/distributions, specifically for non-modern BPF drivers (see [driverkit](https://github.com/falcosecurity/driverkit) for more information).
Finally, the release process follows a transparent process described in more detail in the following sections and the official [Falco guide and documentation](https://falco.org/) provide rich information around building, installing and using Falco.
### Falco Binaries, Rules and Sources Artifacts - Quick Links
The Falco project publishes all sources and the Falco userspace binaries as GitHub releases.
- [Falco Releases](https://github.com/falcosecurity/falco/releases)
- `tgz`, `rpm` and `deb` Falco binary packages (contains sources, including driver sources, Falco rules as well as k8saudit and cloudtrail plugins)
- `tgz`, `zip` source code
- [Libs Releases](https://github.com/falcosecurity/libs/releases)
- `tgz`, `zip` source code
- [Driver Releases](https://github.com/falcosecurity/libs/releases), marked with `+driver` [build metadata](https://semver.org/).
- `tgz`, `zip` source code
- [Falco Rules Releases](https://github.com/falcosecurity/rules/releases)
- `tgz`, `zip` source code, each ruleset is tagged separately in a mono-repo fashion, see the [rules release guidelines](https://github.com/falcosecurity/rules/blob/main/RELEASE.md)
Alternatively Falco binaries or plugins can be downloaded from the Falco Artifacts repo.
- [Falco Artifacts Repo Packages Root](https://download.falco.org/?prefix=packages/)
- [Falco Artifacts Repo Plugins Root](https://download.falco.org/?prefix=plugins/)
### Falco Drivers Artifacts Repo - Quick Links
> Note: This section specifically applies to non-modern BPF drivers.
The Falco Project publishes all drivers for each release for popular kernel versions / distros and `x86_64` and `aarch64` architectures to the Falco project's managed Artifacts repo. The Artifacts repo follows standard directory level conventions. The respective driver object file is prefixed by distro and named / versioned by kernel release - `$(uname -r)`. Pre-compiled drivers are released with a [best effort](https://github.com/falcosecurity/falco/blob/master/proposals/20200818-artifacts-storage.md#notice) notice. This is because gcc (`kmod`) and clang (`bpf`) compilers sometimes fail to build the artifacts for a specific kernel version. More details around driver versioning and driver compatibility are provided in the [Falco Components Versioning](#falco-components-versioning) section. Short preview: If you use the standard Falco setup leveraging driver-loader, [driver-loader script](https://github.com/falcosecurity/falco/blob/master/scripts/falco-driver-loader) will fetch the kernel space artifact (object file) corresponding to the default `DRIVER_VERSION` Falco was shipped with.
- [Falco Artifacts Repo Drivers Root](https://download.falco.org/?prefix=driver/)
- Option 1: Kernel module (`.ko` files) - all under same driver version directory
- Option 2: eBPF (`.o` files) - all under same driver version directory
### Timeline
Falco follows a release schedule of three times per year, with releases expected at the end of January, May, and September. Hotfix releases are issued as needed.
Changes and new features are organized into [milestones](https://github.com/falcosecurity/falco/milestones). The milestone corresponding to the next version represents the content that will be included in the upcoming release.
### Procedures
The release process is mostly automated, requiring only a few manual steps to initiate and complete.
Moreover, we assign owners for each release (typically pairing a new person with an experienced one). Assignees and due dates for releases are proposed during the [weekly community call](https://github.com/falcosecurity/community).
At a high level each Falco release needs to follow a pre-determined sequencing of releases and build order:
- [1 - 3] `libs` (+ `driver`) and `plugins` components releases
- [4] Falco driver pre-compiled object files push to Falco's Artifacts repo
- [5] Falco userspace binary release
Assignees are responsible for creating a Falco GitHub issue to track the release tasks and monitor the progress of the release. This issue serves as a central point for communication and provides updates on the release dates. You can refer to the [Falco v0.35 release](https://github.com/falcosecurity/falco/issues/2554) or [Libs Release (0.11.0+5.0.1+driver)](https://github.com/falcosecurity/libs/issues/1092) issues as examples/templates for creating the release issue.
Finally, on the proposed due date, the assignees for the upcoming release proceed with the processes described below.
Finally, on the proposed due date the assignees for the upcoming release proceed with the processes described below.
## Pre-Release Checklist
Before proceeding with the release, make sure to complete the following preparatory steps, which can be easily done using the GitHub UI:
Before cutting a release we need to do some homework in the Falco repository. This should take 5 minutes using the GitHub UI.
### 1. Release notes
- Find the previous release date (`YYYY-MM-DD`) by looking at the [Falco releases](https://github.com/falcosecurity/falco/releases)
- Find the LAST release (-1) and use `YYYY-MM-DD` as the day before of the [latest release](https://github.com/falcosecurity/falco/releases)
- Check the release note block of every PR matching the `is:pr is:merged closed:>YYYY-MM-DD` [filter](https://github.com/falcosecurity/falco/pulls?q=is%3Apr+is%3Amerged+closed%3A%3EYYYY-MM-DD)
- Ensure the release note block follows the [commit convention](https://github.com/falcosecurity/.github/blob/master/CONTRIBUTING.md#commit-convention), otherwise fix its content
- Ensure the release note block follows the [commit convention](https://github.com/falcosecurity/falco/blob/master/CONTRIBUTING.md#commit-convention), otherwise fix its content
- If the PR has no milestone, assign it to the milestone currently undergoing release
- Check issues without a milestone (using `is:pr is:merged no:milestone closed:>YYYY-MM-DD` [filter](https://github.com/falcosecurity/falco/pulls?q=is%3Apr+is%3Amerged+no%3Amilestone+closed%3A%3EYYYY-MM-DD) ) and add them to the milestone currently undergoing release
- Double-check that there are no more merged PRs without the target milestone assigned with the `is:pr is:merged no:milestone closed:>YYYY-MM-DD` [filter](https://github.com/falcosecurity/falco/pulls?q=is%3Apr+is%3Amerged+no%3Amilestone+closed%3A%3EYYYY-MM-DD), if any, update those missing
- Check issues without a milestone (using [is:pr is:merged no:milestone closed:>YYYY-MM-DD](https://github.com/falcosecurity/falco/pulls?q=is%3Apr+is%3Amerged+no%3Amilestone+closed%3A%3EYYYY-MM-DD) filter) and add them to the milestone currently undergoing release
- Double-check that there are no more merged PRs without the target milestone assigned with the `is:pr is:merged no:milestone closed:>YYYY-MM-DD` [filters](https://github.com/falcosecurity/falco/pulls?q=is%3Apr+is%3Amerged+no%3Amilestone+closed%3A%3EYYYY-MM-DD), if any, fix them
### 2. Milestones
- Move the [tasks not completed](https://github.com/falcosecurity/falco/pulls?q=is%3Apr+is%3Aopen) to a new minor milestone
### 3. Release branch
Assuming we are releasing a non-patch version (like: Falco 0.34.0), a new release branch needs to be created.
Its naming will be `release/M.m.x`; for example: `release/0.34.x`.
The same branch will then be used for any eventual cherry pick for patch releases.
For patch releases, instead, the `release/M.m.x` branch should already be in place; no more steps are needed.
Double check that any PR that should be part of the tag has been cherry-picked from master!
### 4. Release PR
The release PR is meant to be made against the respective `release/M.m.x` branch, **then cherry-picked on master**.
### 3. Release PR
- Double-check if any hard-coded version number is present in the code, it should be not present anywhere:
- If any, manually correct it then open an issue to automate version number bumping later
- Versions table in the `README.md` updates itself automatically
- Generate the change log using [rn2md](https://github.com/leodido/rn2md):
- Execute `rn2md -o falcosecurity -m <version> -r falco`
- In case `rn2md` emits error try to generate an GitHub OAuth access token and provide it with the `-t` flag
- Versions table in the `README.md` update itself automatically
- Generate the change log https://github.com/leodido/rn2md, or https://fs.fntlnz.wtf/falco/milestones-changelog.txt for the lazy people (it updates every 5 minutes)
- If you review timeout errors with `rn2md` try to generate an GitHub Oauth access token and use `-t`
- Add the latest changes on top the previous `CHANGELOG.md`
- Submit a PR with the above modifications
- Await PR approval
- Close the completed milestone as soon as the PR is merged into the release branch
- Cherry pick the PR on master too
## Publishing Pre-Releases (RCs and tagged development versions)
Core maintainers and/or the release manager can decide to publish pre-releases at any time before the final release
is live for development and testing purposes.
The prerelease tag must be formatted as `M.m.p-r`where `r` is the prerelease version information (e.g. `0.35.0-rc1`.)
To do so:
- [Draft a new release](https://github.com/falcosecurity/falco/releases/new)
- Use `M.m.p-r` both as tag version and release title.
- Check the "Set as a pre-release" checkbox and make sure "Set as the latest release" is unchecked
- It is recommended to add a brief description so that other contributors will understand the reason why the prerelease is published
- Publish the prerelease!
- The release pipeline will start automatically. Packages will be uploaded to the `-dev` bucket and container images will be tagged with the specified tag.
In order to check the status of the release pipeline click on the [GitHub Actions tab](https://github.com/falcosecurity/falco/actions?query=event%3Arelease) in the Falco repository and filter by release.
- Close the completed milestone as soon as the PR is merged
## Release
Assume `M.m.p` is the new version.
Now assume `x.y.z` is the new version.
### 1. Create the release with GitHub
### 1. Create a tag
- Once the release PR has got merged, and the CI has done its job on the master, git tag the new release
```
git pull
git checkout master
git tag x.y.z
git push origin x.y.z
```
> **N.B.**: do NOT use an annotated tag
- Wait for the CI to complete
### 2. Update the GitHub release
- [Draft a new release](https://github.com/falcosecurity/falco/releases/new)
- Use `M.m.p` both as tag version and release title
- Use `x.y.z` both as tag version and release title
- Use the following template to fill the release description:
```
<!-- Substitute M.m.p with the current release version -->
<!-- Substitute x.y.z with the current release version -->
| Packages | Download |
| -------- | ------------------------------------------------------------------------------------------------------------------------------------------------------ |
| rpm-x86_64 | [![rpm](https://img.shields.io/badge/Falco-M.m.p-%2300aec7?style=flat-square)](https://download.falco.org/packages/rpm/falco-M.m.p-x86_64.rpm) |
| deb-x86_64 | [![deb](https://img.shields.io/badge/Falco-M.m.p-%2300aec7?style=flat-square)](https://download.falco.org/packages/deb/stable/falco-M.m.p-x86_64.deb) |
| tgz-x86_64 | [![tgz](https://img.shields.io/badge/Falco-M.m.p-%2300aec7?style=flat-square)](https://download.falco.org/packages/bin/x86_64/falco-M.m.p-x86_64.tar.gz) |
| rpm-aarch64 | [![rpm](https://img.shields.io/badge/Falco-M.m.p-%2300aec7?style=flat-square)](https://download.falco.org/packages/rpm/falco-M.m.p-aarch64.rpm) |
| deb-aarch64 | [![deb](https://img.shields.io/badge/Falco-M.m.p-%2300aec7?style=flat-square)](https://download.falco.org/packages/deb/stable/falco-M.m.p-aarch64.deb) |
| tgz-aarch64 | [![tgz](https://img.shields.io/badge/Falco-M.m.p-%2300aec7?style=flat-square)](https://download.falco.org/packages/bin/aarch64/falco-M.m.p-aarch64.tar.gz) |
| rpm | [![rpm](https://img.shields.io/badge/Falco-x.y.z-%2300aec7?style=flat-square)](https://dl.bintray.com/falcosecurity/rpm/falco-x.y.z-x86_64.rpm) |
| deb | [![deb](https://img.shields.io/badge/Falco-x.y.z-%2300aec7?style=flat-square)](https://dl.bintray.com/falcosecurity/deb/stable/falco-x.y.z-x86_64.deb) |
| tgz | [![tgz](https://img.shields.io/badge/Falco-x.y.z-%2300aec7?style=flat-square)](https://dl.bintray.com/falcosecurity/bin/x86_64/falco-x.y.z-x86_64.deb) |
| Images |
| --------------------------------------------------------------------------- |
| `docker pull docker.io/falcosecurity/falco:M.m.p` |
| `docker pull public.ecr.aws/falcosecurity/falco:M.m.p` |
| `docker pull docker.io/falcosecurity/falco-driver-loader:M.m.p` |
| `docker pull docker.io/falcosecurity/falco-no-driver:M.m.p` |
| Images |
| --------------------------------------------------------------- |
| `docker pull docker.io/falcosecurity/falco:_tag_` |
| `docker pull docker.io/falcosecurity/falco-driver-loader:_tag_` |
| `docker pull docker.io/falcosecurity/falco-no-driver:_tag_` |
<changelog>
<!-- Substitute <changelog> with the one generated by [rn2md](https://github.com/leodido/rn2md) -->
<!-- Copy the relevant part of the changelog here -->
### Statistics
@@ -179,74 +86,13 @@ Assume `M.m.p` is the new version.
| Total | x |
<!-- Calculate stats and fill the above table -->
#### Release Manager <github handle>
<!-- Substitute GitHub handle with the release manager's one -->
```
- Finally, publish the release!
- The release pipeline will start automatically upon publication and all packages and container images will be uploaded to the stable repositories.
In order to check the status of the release pipeline click on the [GitHub Actions tab](https://github.com/falcosecurity/falco/actions?query=event%3Arelease) in the Falco repository and filter by release.
### 2. Update the meeting notes
For each release we archive the meeting notes in git for historical purposes.
- The notes from the Falco meetings can be [found here](https://hackmd.io/3qYPnZPUQLGKCzR14va_qg).
- Note: There may be other notes from working groups that can optionally be added as well as needed.
- Add the entire content of the document to a new file in [github.com/falcosecurity/community/tree/master/meeting-notes](https://github.com/falcosecurity/community/tree/master/meeting-notes) as a new file labeled `release-M.m.p.md`
- Open up a pull request with the new change.
## Post-Release tasks
Announce the new release to the world!
- Publish a blog on [Falco website](https://github.com/falcosecurity/falco-website) ([example](https://github.com/falcosecurity/falco-website/blob/master/content/en/blog/falco-0-28-1.md))
- Send an announcement to cncf-falco-dev@lists.cncf.io (plain text, please)
- Let folks in the slack #falco channel know about a new release came out
- IFF the on going release introduces a **new minor version**, [archive a snapshot of the Falco website](https://github.com/falcosecurity/falco-website/blob/master/release.md#documentation-versioning)
## Falco Components Versioning
This section provides more details around the versioning of the components that make up Falco's core. It can also be a useful guide for the uninitiated to be more informed about Falco's source. Because `libs` makes up the greater portion of the source code of the Falco binary and is the home of each of the kernel drivers and engines, the [libs release doc](https://github.com/falcosecurity/libs/blob/master/release.md) is an excellent additional resource. In addition, the [plugins release doc](https://github.com/falcosecurity/plugins/blob/master/release.md) provides similar details around Falco's plugins. `SHA256` checksums are provided throughout Falco's source code to empower the end user to perform integrity checks. All Falco releases also contain the sources as part of the packages.
### Falco repo (this repo)
- Falco version is a git tag (`x.y.z`), see [Procedures](#procedures) section. Note that the Falco version is a sem-ver-like schema, but not fully compatible with sem-ver.
- [FALCO_ENGINE_VERSION](https://github.com/falcosecurity/falco/blob/master/userspace/engine/falco_engine_version.h) is not sem-ver and must be bumped either when a backward incompatible change has been introduced to the rules files syntax and loading logic, and/or when `FALCO_ENGINE_CHECKSUM` has changed. The checksum is computed by considering the available rules fields (see currently supported [Falco fields](https://falco.org/docs/reference/rules/supported-fields/)), the event types (see currently supported [Falco events](https://falco.org/docs/reference/rules/supported-events/)), and the supported driver schema version. A checksum indicates that something was not available in previous engine versions. See the [rules release guidelines](https://github.com/falcosecurity/rules/blob/main/RELEASE.md#versioning-a-ruleset) to understand how this affects the versioning of Falco rules. Breaking changes introduced in the Falco engine are not necessarily tied to the drivers or libs versions. The version number must be incremented every time and only when a single change or an atomic group of changes - which meet the criteria described above - is included in the `master` branch. Thus, a version bump can occur multiple times during the development and testing phases of a given release cycle. A given version bump must not group multiple changes that occurred sporadically during the release cycle.
- During development and release preparation, libs and driver reference commits are often bumped in Falco's cmake setup ([falcosecurity-libs cmake](https://github.com/falcosecurity/falco/blob/master/cmake/modules/falcosecurity-libs.cmake#L30) and [driver cmake](https://github.com/falcosecurity/falco/blob/master/cmake/modules/driver.cmake#L29)) in order to merge new Falco features. In practice, they are mostly bumped at the same time referencing the same `libs` commit. However, for the official Falco build `FALCOSECURITY_LIBS_VERSION` flag that references the stable libs version is used (read below).
- Similarly, Falco plugins versions are bumped in Falco's cmake setup ([plugins cmake](https://github.com/falcosecurity/falco/blob/master/cmake/modules/plugins.cmake)) and those versions are the ones used for the Falco release.
- At release time Plugin, Libs and Driver versions are compatible with Falco.
- If you use the standard Falco setup leveraging driver-loader, [driver-loader script](https://github.com/falcosecurity/falco/blob/master/scripts/falco-driver-loader) will fetch the kernel space artifact (object file) corresponding to the default `DRIVER_VERSION` Falco was shipped with (read more below under Libs).
```
Falco version: x.y.z (sem-ver like)
Libs version: x.y.z (sem-ver like)
Plugin API: x.y.z (sem-ver like)
Engine: x
Driver:
API version: x.y.z (sem-ver)
Schema version: x.y.z (sem-ver)
Default driver: x.y.z+driver (sem-ver like, indirectly encodes compatibility range in addition to default version Falco is shipped with)
```
### Libs repo
- Libs version is a git tag (`x.y.z`) and when building Falco the libs version is set via the `FALCOSECURITY_LIBS_VERSION` flag (see above).
- The driver version is not directly linked to the userspace components of the Falco binary. This is because of the clear separation between userspace and kernel space, which adds an additional layer of complexity. To address this, the concept of a `Default driver` has been introduced, allowing for implicit declaration of compatible driver versions. For example, if the default driver version is `5.0.1+driver`, Falco works with all driver versions >= 5.0.1 and < 6.0.0. This is a consequence of how the driver version is constructed starting from the `Driver API version` and `Driver Schema version`. Driver API and Schema versions are explained in the respective [libs driver doc](https://github.com/falcosecurity/libs/blob/master/driver/README.VERSION.md) -> Falco's `driver-loader` will always fetch the default driver, therefore a Falco release is always "shipped" with the driver version corresponding to the default driver.
- See [libs release doc](https://github.com/falcosecurity/libs/blob/master/release.md) for more information.
### Plugins repo
- Plugins version is a git tag (`x.y.z`)
- See [plugins release doc](https://github.com/falcosecurity/plugins/blob/master/release.md) for more information.
### Rules repo
- Rulesets are versioned individually through git tags
- See [rules release doc](https://github.com/falcosecurity/rules/blob/main/RELEASE.md) for more information.
- See [plugins release doc](https://github.com/falcosecurity/plugins/blob/master/release.md) for more information about plugins rulesets.

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114
brand/README.md
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@@ -3,13 +3,15 @@
# Falco Branding Guidelines
Falco is an open source security project whose brand and identity are governed by the [Cloud Native Computing Foundation](https://www.linuxfoundation.org/legal/trademark-usage).
This document describes The Falco Project's branding guidelines, language, and message.
Content in this document can be used to publically share about Falco.
This document describes the official branding guidelines of The Falco Project. Please see the [Falco Branding](https://falco.org/community/falco-brand/) page on our website for further details.
### Logo
There are 3 logos available for use in this directory. Use the primary logo unless required otherwise due to background issues or printing.
There are 3 logos available for use in this directory. Use the primary logo unless required otherwise due to background issues, or printing.
The Falco logo is Apache 2 licensed and free to use in media and publication for the CNCF Falco project.
@@ -32,6 +34,55 @@ The primary colors are those in the first two rows.
> Cloud Native Runtime Security
### What is Falco?
Falco is a runtime security project originally created by Sysdig, Inc.
Falco was contributed to the CNCF in October 2018.
The CNCF now owns The Falco Project.
### What is Runtime Security?
Runtime security refers to an approach to preventing unwanted activity on a computer system.
With runtime security, an operator deploys **both** prevention tooling (access control, policy enforcement, etc) along side detection tooling (systems observability, anomaly detection, etc).
Runtime security is the practice of using detection tooling to detect unwanted behavior, such that it can then be prevented using prevention techniques.
Runtime security is a holistic approach to defense, and useful in scenarios where prevention tooling either was unaware of an exploit or attack vector, or when defective applications are ran in even the most secure environment.
### What does Falco do?
Falco consumes signals from the Linux kernel, and container management tools such as Docker and Kubernetes.
Falco parses the signals and asserts them against security rules.
If a rule has been violated, Falco triggers an alert.
### How does Falco work?
Falco traces kernel events and reports information about the system calls being executed at runtime.
Falco leverages the extended berkley packet filter (eBPF) which is a kernel feature implemented for dynamic crash-resilient and secure code execution in the kernel.
Falco enriches these kernel events with information about containers running on the system.
Falco also can consume signals from other input streams such as the containerd socket, the Kubernetes API server and the Kubernetes audit log.
At runtime, Falco will reason about these events and assert them against configured security rules.
Based on the severity of a violation an alert is triggered.
These alerts are configurable and extensible, for instance sending a notification or [plumbing through to other projects like Prometheus](https://github.com/falcosecurity/falco-exporter).
### Benefits of using Falco
- **Strengthen Security** Create security rules driven by a context-rich and flexible engine to define unexpected application behavior.
- **Reduce Risk** Immediately respond to policy violation alerts by plugging Falco into your current security response workflows and processes.
- **Leverage up-to-date Rules** Alert using community-sourced detections of malicious activity and CVE exploits.
### Falco and securing Kubernetes
Securing Kubernetes requires putting controls in place to detect unexpected behavior that could be malicious or harmful to a cluster or application(s).
Examples of malicious behavior include:
- Exploits of unpatched and new vulnerabilities in applications or Kubernetes itself.
- Insecure configurations in applications or Kubernetes itself.
- Leaked or weak credentials or secret material.
- Insider threats from adjacent applications running at the same layer.
Falco is capable of [consuming the Kubernetes audit logs](https://kubernetes.io/docs/tasks/debug-application-cluster/falco/#use-falco-to-collect-audit-events).
By adding Kubernetes application context, and Kubernetes audit logs teams can understand who did what.
### Writing about Falco
##### Yes
@@ -47,37 +98,60 @@ Notice the capitalization of the following terms.
- the falco project
- the Falco project
### Encouraged Phrasing
Below are phrases that the project has reviewed, and found to be effective ways of messaging Falco's value add.
Even when processes are in place for vulnerability scanning and implementing pod security and network policies, not every risk will be addressed. You still need mechanisms to confirm these security barriers are effective, help configure them, and provide with a last line of defense when they fail.
##### Falco as a factory
This term refers to the concept that Falco is a stateless processing engine. A large amount of data comes into the engine, but meticulously crafted security alerts come out.
##### The engine that powers...
Falco ultimately is a security engine. It reasons about signals coming from a system at runtime, and can alert if an anomaly is detected.
##### Anomaly detection
This refers to an event that occurs with something unsual, concerning, or odd occurs.
We can associate anomalies with unwanted behavior, and alert in their presence.
##### Detection tooling
Falco does not prevent unwanted behavior.
Falco however alerts when unusual behavior occurs.
This is commonly referred to as **detection** or **forensics**.
---
# Glossary
# Glossary
This section contains key terms specifically used within the context of The Falco Project. For a more comprehensive list of Falco-related terminology, we invite you to visit the [Glossary](https://falco.org/docs/reference/glossary/) page on our official website.
#### eBPF Probe
#### Probe
Used to describe the `.o` object that would be dynamically loaded into the kernel as a secure and stable (e)BPF probe.
This is one option used to pass kernel events up to userspace for Falco to consume.
Sometimes this word is incorrectly used to refer to a `module`.
#### Modern eBPF Probe
More robust [eBPF probe](#ebpf-probe), which brings the CO-RE paradigm, better performances, and maintainability.
Unlike the legacy probe, the modern eBPF probe is not shipped as a separate artifact but bundled into the Falco binary itself.
This is one option used to pass kernel events up to userspace for Falco to consume.
#### Kernel Module
#### Module
Used to describe the `.ko` object that would be loaded into the kernel as a potentially risky kernel module.
This is one option used to pass kernel events up to userspace for Falco to consume.
Sometimes this word is incorrectly used to refer to a `probe`.
#### Driver
The global term for the software that sends events from the kernel. Such as the [eBPF probe](#ebpf-probe), the [Modern eBPF probe](#modern-ebpf-probe), or the [Kernel Module](#kernel-module).
#### Plugin
Used to describe a dynamic shared library (`.so` files in Unix, `.dll` files in Windows) that conforms to a documented API and allows to extend Falco's capabilities.
The global term for the software that sends events from the kernel. Such as the eBPF `probe` or the `kernel module`.
#### Falco
The name of the project and also the name of [the main engine](https://github.com/falcosecurity/falco) that the rest of the project is built on.
The name of the project, and also the name of [the main engine](https://github.com/falcosecurity/falco) that the rest of the project is built on.
#### Sysdig, Inc
The name of the company that originally created The Falco Project, and later donated to the CNCF.
#### sysdig
A [CLI tool](https://github.com/draios/sysdig) used to evaluate kernel system events at runtime.

17
cmake/cpack/CMakeCPackOptions.cmake
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@@ -1,13 +1,14 @@
if(CPACK_GENERATOR MATCHES "DEB" OR CPACK_GENERATOR MATCHES "RPM")
list(APPEND CPACK_INSTALL_COMMANDS "mkdir -p _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/systemd/falco-kmod-inject.service _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/systemd/falco-kmod.service _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/systemd/falco-bpf.service _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/systemd/falco-modern-bpf.service _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/systemd/falco-custom.service _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/systemd/falcoctl-artifact-follow.service _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/usr/lib/systemd/system")
if(CPACK_GENERATOR MATCHES "DEB")
list(APPEND CPACK_INSTALL_COMMANDS "mkdir -p _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/etc/init.d/")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/debian/falco _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/etc/init.d")
endif()
if(CPACK_GENERATOR MATCHES "RPM")
list(APPEND CPACK_INSTALL_COMMANDS "mkdir -p _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/etc/rc.d/init.d/")
list(APPEND CPACK_INSTALL_COMMANDS "cp scripts/rpm/falco _CPack_Packages/${CPACK_TOPLEVEL_TAG}/${CPACK_GENERATOR}/${CPACK_PACKAGE_FILE_NAME}/etc/rc.d/init.d")
endif()
if(CPACK_GENERATOR MATCHES "TGZ")
set(CPACK_SET_DESTDIR "ON")
set(CPACK_STRIP_FILES "OFF")
endif()

3
cmake/cpack/debian/conffiles
View File

@@ -1,3 +1,4 @@
/etc/falco/falco.yaml
/etc/falco/falcoctl.yaml
/etc/falco/falco_rules.yaml
/etc/falco/rules.available/application_rules.yaml
/etc/falco/falco_rules.local.yaml

44
cmake/modules/CPackConfig.cmake
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@@ -1,5 +1,5 @@
#
# Copyright (C) 2022 The Falco Authors.
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
@@ -20,48 +20,19 @@ set(CPACK_PACKAGE_VERSION "${FALCO_VERSION}")
set(CPACK_PACKAGE_VERSION_MAJOR "${FALCO_VERSION_MAJOR}")
set(CPACK_PACKAGE_VERSION_MINOR "${FALCO_VERSION_MINOR}")
set(CPACK_PACKAGE_VERSION_PATCH "${FALCO_VERSION_PATCH}")
set(CPACK_PACKAGE_FILE_NAME "${CPACK_PACKAGE_NAME}-${CPACK_PACKAGE_VERSION}-${CMAKE_SYSTEM_PROCESSOR}")
set(CPACK_PROJECT_CONFIG_FILE "${PROJECT_SOURCE_DIR}/cmake/cpack/CMakeCPackOptions.cmake")
set(CPACK_STRIP_FILES "ON")
set(CPACK_PACKAGE_RELOCATABLE "OFF")
if (EMSCRIPTEN)
set(CPACK_PACKAGE_FILE_NAME "${CPACK_PACKAGE_NAME}-${CPACK_PACKAGE_VERSION}-wasm")
else()
set(CPACK_PACKAGE_FILE_NAME "${CPACK_PACKAGE_NAME}-${CPACK_PACKAGE_VERSION}-${CMAKE_SYSTEM_PROCESSOR}")
endif()
# Built packages will include only the following components
set(CPACK_INSTALL_CMAKE_PROJECTS
"${CMAKE_CURRENT_BINARY_DIR};${FALCO_COMPONENT_NAME};${FALCO_COMPONENT_NAME};/"
)
if(CMAKE_SYSTEM_NAME MATCHES "Linux") # only Linux has drivers
list(APPEND CPACK_INSTALL_CMAKE_PROJECTS
"${CMAKE_CURRENT_BINARY_DIR};${DRIVER_COMPONENT_NAME};${DRIVER_COMPONENT_NAME};/")
endif()
if(NOT WIN32 AND NOT APPLE AND NOT EMSCRIPTEN AND NOT MUSL_OPTIMIZED_BUILD) # static builds do not have plugins
list(APPEND CPACK_INSTALL_CMAKE_PROJECTS
"${CMAKE_CURRENT_BINARY_DIR};${PLUGINS_COMPONENT_NAME};${PLUGINS_COMPONENT_NAME};/")
endif()
if(NOT CPACK_GENERATOR)
if (CMAKE_SYSTEM_NAME MATCHES "Linux")
set(CPACK_GENERATOR DEB RPM TGZ)
else()
set(CPACK_GENERATOR TGZ)
endif()
endif()
message(STATUS "Using package generators: ${CPACK_GENERATOR}")
message(STATUS "Package architecture: ${CMAKE_SYSTEM_PROCESSOR}")
set(CPACK_DEBIAN_PACKAGE_SECTION "utils")
if(${CMAKE_SYSTEM_PROCESSOR} STREQUAL "x86_64")
set(CPACK_DEBIAN_PACKAGE_ARCHITECTURE "amd64")
endif()
if(${CMAKE_SYSTEM_PROCESSOR} STREQUAL "aarch64")
set(CPACK_DEBIAN_PACKAGE_ARCHITECTURE "arm64")
endif()
set(CPACK_DEBIAN_PACKAGE_SECTION "utils")
set(CPACK_DEBIAN_PACKAGE_ARCHITECTURE "amd64")
set(CPACK_DEBIAN_PACKAGE_HOMEPAGE "https://www.falco.org")
set(CPACK_DEBIAN_PACKAGE_DEPENDS "dkms (>= 2.1.0.0)")
set(CPACK_DEBIAN_PACKAGE_CONTROL_EXTRA
@@ -69,9 +40,8 @@ set(CPACK_DEBIAN_PACKAGE_CONTROL_EXTRA
)
set(CPACK_RPM_PACKAGE_LICENSE "Apache v2.0")
set(CPACK_RPM_PACKAGE_ARCHITECTURE, "amd64")
set(CPACK_RPM_PACKAGE_URL "https://www.falco.org")
set(CPACK_RPM_PACKAGE_REQUIRES "dkms, kernel-devel, systemd")
set(CPACK_RPM_PACKAGE_REQUIRES "dkms, kernel-devel, ncurses")
set(CPACK_RPM_POST_INSTALL_SCRIPT_FILE "${CMAKE_BINARY_DIR}/scripts/rpm/postinstall")
set(CPACK_RPM_PRE_UNINSTALL_SCRIPT_FILE "${CMAKE_BINARY_DIR}/scripts/rpm/preuninstall")
set(CPACK_RPM_POST_UNINSTALL_SCRIPT_FILE "${CMAKE_BINARY_DIR}/scripts/rpm/postuninstall")
@@ -83,7 +53,9 @@ set(CPACK_RPM_EXCLUDE_FROM_AUTO_FILELIST_ADDITION
/etc
/usr
/usr/bin
/usr/share)
/usr/share
/etc/rc.d
/etc/rc.d/init.d)
set(CPACK_RPM_PACKAGE_RELOCATABLE "OFF")
include(CPack)

159
cmake/modules/Catch.cmake Normal file
View File

@@ -0,0 +1,159 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or
# https://cmake.org/licensing for details.
#[=======================================================================[.rst:
Catch
-----
This module defines a function to help use the Catch test framework.
The :command:`catch_discover_tests` discovers tests by asking the compiled test
executable to enumerate its tests. This does not require CMake to be re-run
when tests change. However, it may not work in a cross-compiling environment,
and setting test properties is less convenient.
This command is intended to replace use of :command:`add_test` to register
tests, and will create a separate CTest test for each Catch test case. Note
that this is in some cases less efficient, as common set-up and tear-down logic
cannot be shared by multiple test cases executing in the same instance.
However, it provides more fine-grained pass/fail information to CTest, which is
usually considered as more beneficial. By default, the CTest test name is the
same as the Catch name; see also ``TEST_PREFIX`` and ``TEST_SUFFIX``.
.. command:: catch_discover_tests
Automatically add tests with CTest by querying the compiled test executable
for available tests::
catch_discover_tests(target
[TEST_SPEC arg1...]
[EXTRA_ARGS arg1...]
[WORKING_DIRECTORY dir]
[TEST_PREFIX prefix]
[TEST_SUFFIX suffix]
[PROPERTIES name1 value1...]
[TEST_LIST var]
)
``catch_discover_tests`` sets up a post-build command on the test executable
that generates the list of tests by parsing the output from running the test
with the ``--list-test-names-only`` argument. This ensures that the full
list of tests is obtained. Since test discovery occurs at build time, it is
not necessary to re-run CMake when the list of tests changes.
However, it requires that :prop_tgt:`CROSSCOMPILING_EMULATOR` is properly set
in order to function in a cross-compiling environment.
Additionally, setting properties on tests is somewhat less convenient, since
the tests are not available at CMake time. Additional test properties may be
assigned to the set of tests as a whole using the ``PROPERTIES`` option. If
more fine-grained test control is needed, custom content may be provided
through an external CTest script using the :prop_dir:`TEST_INCLUDE_FILES`
directory property. The set of discovered tests is made accessible to such a
script via the ``<target>_TESTS`` variable.
The options are:
``target``
Specifies the Catch executable, which must be a known CMake executable
target. CMake will substitute the location of the built executable when
running the test.
``TEST_SPEC arg1...``
Specifies test cases, wildcarded test cases, tags and tag expressions to
pass to the Catch executable with the ``--list-test-names-only`` argument.
``EXTRA_ARGS arg1...``
Any extra arguments to pass on the command line to each test case.
``WORKING_DIRECTORY dir``
Specifies the directory in which to run the discovered test cases. If this
option is not provided, the current binary directory is used.
``TEST_PREFIX prefix``
Specifies a ``prefix`` to be prepended to the name of each discovered test
case. This can be useful when the same test executable is being used in
multiple calls to ``catch_discover_tests()`` but with different
``TEST_SPEC`` or ``EXTRA_ARGS``.
``TEST_SUFFIX suffix``
Similar to ``TEST_PREFIX`` except the ``suffix`` is appended to the name of
every discovered test case. Both ``TEST_PREFIX`` and ``TEST_SUFFIX`` may
be specified.
``PROPERTIES name1 value1...``
Specifies additional properties to be set on all tests discovered by this
invocation of ``catch_discover_tests``.
``TEST_LIST var``
Make the list of tests available in the variable ``var``, rather than the
default ``<target>_TESTS``. This can be useful when the same test
executable is being used in multiple calls to ``catch_discover_tests()``.
Note that this variable is only available in CTest.
#]=======================================================================]
# ------------------------------------------------------------------------------
function(catch_discover_tests TARGET)
cmake_parse_arguments("" "" "TEST_PREFIX;TEST_SUFFIX;WORKING_DIRECTORY;TEST_LIST" "TEST_SPEC;EXTRA_ARGS;PROPERTIES"
${ARGN})
if(NOT _WORKING_DIRECTORY)
set(_WORKING_DIRECTORY "${CMAKE_CURRENT_BINARY_DIR}")
endif()
if(NOT _TEST_LIST)
set(_TEST_LIST ${TARGET}_TESTS)
endif()
# Generate a unique name based on the extra arguments
string(SHA1 args_hash "${_TEST_SPEC} ${_EXTRA_ARGS}")
string(SUBSTRING ${args_hash} 0 7 args_hash)
# Define rule to generate test list for aforementioned test executable
set(ctest_include_file "${CMAKE_CURRENT_BINARY_DIR}/${TARGET}_include-${args_hash}.cmake")
set(ctest_tests_file "${CMAKE_CURRENT_BINARY_DIR}/${TARGET}_tests-${args_hash}.cmake")
get_property(
crosscompiling_emulator
TARGET ${TARGET}
PROPERTY CROSSCOMPILING_EMULATOR)
add_custom_command(
TARGET ${TARGET}
POST_BUILD
BYPRODUCTS "${ctest_tests_file}"
COMMAND
"${CMAKE_COMMAND}" -D "TEST_TARGET=${TARGET}" -D "TEST_EXECUTABLE=$<TARGET_FILE:${TARGET}>" -D
"TEST_EXECUTOR=${crosscompiling_emulator}" -D "TEST_WORKING_DIR=${_WORKING_DIRECTORY}" -D
"TEST_SPEC=${_TEST_SPEC}" -D "TEST_EXTRA_ARGS=${_EXTRA_ARGS}" -D "TEST_PROPERTIES=${_PROPERTIES}" -D
"TEST_PREFIX=${_TEST_PREFIX}" -D "TEST_SUFFIX=${_TEST_SUFFIX}" -D "TEST_LIST=${_TEST_LIST}" -D
"CTEST_FILE=${ctest_tests_file}" -P "${_CATCH_DISCOVER_TESTS_SCRIPT}"
VERBATIM)
file(
WRITE "${ctest_include_file}"
"if(EXISTS \"${ctest_tests_file}\")\n" " include(\"${ctest_tests_file}\")\n" "else()\n"
" add_test(${TARGET}_NOT_BUILT-${args_hash} ${TARGET}_NOT_BUILT-${args_hash})\n" "endif()\n")
if(NOT ${CMAKE_VERSION} VERSION_LESS "3.10.0")
# Add discovered tests to directory TEST_INCLUDE_FILES
set_property(
DIRECTORY
APPEND
PROPERTY TEST_INCLUDE_FILES "${ctest_include_file}")
else()
# Add discovered tests as directory TEST_INCLUDE_FILE if possible
get_property(
test_include_file_set
DIRECTORY
PROPERTY TEST_INCLUDE_FILE
SET)
if(NOT ${test_include_file_set})
set_property(DIRECTORY PROPERTY TEST_INCLUDE_FILE "${ctest_include_file}")
else()
message(FATAL_ERROR "Cannot set more than one TEST_INCLUDE_FILE")
endif()
endif()
endfunction()
# ######################################################################################################################
set(_CATCH_DISCOVER_TESTS_SCRIPT ${CMAKE_CURRENT_LIST_DIR}/CatchAddTests.cmake)

61
cmake/modules/CatchAddTests.cmake Normal file
View File

@@ -0,0 +1,61 @@
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or
# https://cmake.org/licensing for details.
set(prefix "${TEST_PREFIX}")
set(suffix "${TEST_SUFFIX}")
set(spec ${TEST_SPEC})
set(extra_args ${TEST_EXTRA_ARGS})
set(properties ${TEST_PROPERTIES})
set(script)
set(suite)
set(tests)
function(add_command NAME)
set(_args "")
foreach(_arg ${ARGN})
if(_arg MATCHES "[^-./:a-zA-Z0-9_]")
set(_args "${_args} [==[${_arg}]==]") # form a bracket_argument
else()
set(_args "${_args} ${_arg}")
endif()
endforeach()
set(script
"${script}${NAME}(${_args})\n"
PARENT_SCOPE)
endfunction()
# Run test executable to get list of available tests
if(NOT EXISTS "${TEST_EXECUTABLE}")
message(FATAL_ERROR "Specified test executable '${TEST_EXECUTABLE}' does not exist")
endif()
execute_process(
COMMAND ${TEST_EXECUTOR} "${TEST_EXECUTABLE}" ${spec} --list-test-names-only
OUTPUT_VARIABLE output
RESULT_VARIABLE result)
# Catch --list-test-names-only reports the number of tests, so 0 is... surprising
if(${result} EQUAL 0)
message(WARNING "Test executable '${TEST_EXECUTABLE}' contains no tests!\n")
elseif(${result} LESS 0)
message(FATAL_ERROR "Error running test executable '${TEST_EXECUTABLE}':\n" " Result: ${result}\n"
" Output: ${output}\n")
endif()
string(REPLACE "\n" ";" output "${output}")
# Parse output
foreach(line ${output})
set(test ${line})
# use escape commas to handle properly test cases with commans inside the name
string(REPLACE "," "\\," test_name ${test})
# ...and add to script
add_command(add_test "${prefix}${test}${suffix}" ${TEST_EXECUTOR} "${TEST_EXECUTABLE}" "${test_name}" ${extra_args})
add_command(set_tests_properties "${prefix}${test}${suffix}" PROPERTIES WORKING_DIRECTORY "${TEST_WORKING_DIR}"
${properties})
list(APPEND tests "${prefix}${test}${suffix}")
endforeach()
# Create a list of all discovered tests, which users may use to e.g. set properties on the tests
add_command(set ${TEST_LIST} ${tests})
# Write CTest script
file(WRITE "${CTEST_FILE}" "${script}")

25
cmake/modules/driver-repo/CMakeLists.txt → cmake/modules/DownloadCatch.cmake
View File

@@ -1,5 +1,5 @@
#
# Copyright (C) 2022 The Falco Authors.
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
@@ -10,21 +10,18 @@
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
cmake_minimum_required(VERSION 3.5.1)
project(driver-repo NONE)
include(ExternalProject)
message(STATUS "Driver repository: ${DRIVER_REPO}")
message(STATUS "Driver version: ${DRIVER_VERSION}")
set(CATCH2_INCLUDE ${CMAKE_BINARY_DIR}/catch2-prefix/include)
set(CATCH_EXTERNAL_URL URL https://github.com/catchorg/catch2/archive/v2.12.1.tar.gz URL_HASH
SHA256=e5635c082282ea518a8dd7ee89796c8026af8ea9068cd7402fb1615deacd91c3)
ExternalProject_Add(
driver
URL "https://github.com/${DRIVER_REPO}/archive/${DRIVER_VERSION}.tar.gz"
URL_HASH "${DRIVER_CHECKSUM}"
catch2
PREFIX ${CMAKE_BINARY_DIR}/catch2-prefix
${CATCH_EXTERNAL_URL}
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
PATCH_COMMAND sh -c "mv ./driver ../driver.tmp && rm -rf ./* && mv ../driver.tmp/* ."
)
INSTALL_COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_BINARY_DIR}/catch2-prefix/src/catch2/single_include/catch2/catch.hpp
${CATCH2_INCLUDE}/catch.hpp)

28
cmake/modules/DownloadFakeIt.cmake Normal file
View File

@@ -0,0 +1,28 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
include(ExternalProject)
set(FAKEIT_INCLUDE ${CMAKE_BINARY_DIR}/fakeit-prefix/include)
set(FAKEIT_EXTERNAL_URL URL https://github.com/eranpeer/fakeit/archive/2.0.5.tar.gz URL_HASH
SHA256=298539c773baca6ecbc28914306bba19d1008e098f8adc3ad3bb00e993ecdf15)
ExternalProject_Add(
fakeit-external
PREFIX ${CMAKE_BINARY_DIR}/fakeit-prefix
${FAKEIT_EXTERNAL_URL}
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND
${CMAKE_COMMAND} -E copy ${CMAKE_BINARY_DIR}/fakeit-prefix/src/fakeit-external/single_header/catch/fakeit.hpp
${FAKEIT_INCLUDE}/fakeit.hpp)

29
cmake/modules/DownloadStringViewLite.cmake Normal file
View File

@@ -0,0 +1,29 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
include(ExternalProject)
set(STRING_VIEW_LITE_PREFIX ${CMAKE_BINARY_DIR}/string-view-lite-prefix)
set(STRING_VIEW_LITE_INCLUDE ${STRING_VIEW_LITE_PREFIX}/include)
message(STATUS "Using bundled string-view-lite in ${STRING_VIEW_LITE_INCLUDE}")
ExternalProject_Add(
string-view-lite
PREFIX ${STRING_VIEW_LITE_PREFIX}
GIT_REPOSITORY "https://github.com/martinmoene/string-view-lite.git"
GIT_TAG "v1.4.0"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND
${CMAKE_COMMAND} -E copy ${STRING_VIEW_LITE_PREFIX}/src/string-view-lite/include/nonstd/string_view.hpp
${STRING_VIEW_LITE_INCLUDE}/nonstd/string_view.hpp)

31
cmake/modules/FindMakedev.cmake Normal file
View File

@@ -0,0 +1,31 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
# This module is used to understand where the makedev function is defined in the glibc in use. see 'man 3 makedev'
# Usage: In your CMakeLists.txt include(FindMakedev)
#
# In your source code:
#
# #if HAVE_SYS_MKDEV_H #include <sys/mkdev.h> #endif #ifdef HAVE_SYS_SYSMACROS_H #include <sys/sysmacros.h> #endif
#
include(${CMAKE_ROOT}/Modules/CheckIncludeFile.cmake)
check_include_file("sys/mkdev.h" HAVE_SYS_MKDEV_H)
check_include_file("sys/sysmacros.h" HAVE_SYS_SYSMACROS_H)
if(HAVE_SYS_MKDEV_H)
add_definitions(-DHAVE_SYS_MKDEV_H)
endif()
if(HAVE_SYS_SYSMACROS_H)
add_definitions(-DHAVE_SYS_SYSMACROS_H)
endif()

59
cmake/modules/GetFalcoVersion.cmake Normal file
View File

@@ -0,0 +1,59 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
# Retrieve git ref and commit hash
include(GetGitRevisionDescription)
# Create the falco version variable according to git index
if(NOT FALCO_VERSION)
string(STRIP "${FALCO_HASH}" FALCO_HASH)
# Try to obtain the exact git tag
git_get_exact_tag(FALCO_TAG)
if(NOT FALCO_TAG)
# Obtain the closest tag
git_describe(FALCO_VERSION "--always" "--tags")
# Fallback version
if(FALCO_VERSION MATCHES "NOTFOUND$")
set(FALCO_VERSION "0.0.0")
endif()
# Format FALCO_VERSION to be semver with prerelease and build part
string(REPLACE "-g" "+" FALCO_VERSION "${FALCO_VERSION}")
else()
# A tag has been found: use it as the Falco version
set(FALCO_VERSION "${FALCO_TAG}")
# Remove the starting "v" in case there is one
string(REGEX REPLACE "^v(.*)" "\\1" FALCO_VERSION "${FALCO_TAG}")
endif()
# TODO(leodido) > ensure Falco version is semver before extracting parts Populate partial version variables
string(REGEX MATCH "^(0|[1-9][0-9]*)" FALCO_VERSION_MAJOR "${FALCO_VERSION}")
string(REGEX REPLACE "^(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\..*" "\\2" FALCO_VERSION_MINOR "${FALCO_VERSION}")
string(REGEX REPLACE "^(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*).*" "\\3" FALCO_VERSION_PATCH
"${FALCO_VERSION}")
string(
REGEX
REPLACE
"^(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)-((0|[1-9][0-9]*|[0-9]*[a-zA-Z-][0-9a-zA-Z-]*)(\\.(0|[1-9][0-9]*|[0-9]*[a-zA-Z-][0-9a-zA-Z-]*))*).*"
"\\5"
FALCO_VERSION_PRERELEASE
"${FALCO_VERSION}")
if(FALCO_VERSION_PRERELEASE STREQUAL "${FALCO_VERSION}")
set(FALCO_VERSION_PRERELEASE "")
endif()
if(NOT FALCO_VERSION_BUILD)
string(REGEX REPLACE ".*\\+([0-9a-zA-Z-]+(\\.[0-9a-zA-Z-]+)*)" "\\1" FALCO_VERSION_BUILD "${FALCO_VERSION}")
endif()
if(FALCO_VERSION_BUILD STREQUAL "${FALCO_VERSION}")
set(FALCO_VERSION_BUILD "")
endif()
endif()
message(STATUS "Falco version: ${FALCO_VERSION}")

169
cmake/modules/GetGitRevisionDescription.cmake Normal file
View File

@@ -0,0 +1,169 @@
# * Returns a version string from Git
#
# These functions force a re-configure on each git commit so that you can trust the values of the variables in your
# build system.
#
# get_git_head_revision(<refspecvar> <hashvar> [<additional arguments to git describe> ...])
#
# Returns the refspec and sha hash of the current head revision
#
# git_describe(<var> [<additional arguments to git describe> ...])
#
# Returns the results of git describe on the source tree, and adjusting the output so that it tests false if an error
# occurs.
#
# git_get_exact_tag(<var> [<additional arguments to git describe> ...])
#
# Returns the results of git describe --exact-match on the source tree, and adjusting the output so that it tests false
# if there was no exact matching tag.
#
# git_local_changes(<var>)
#
# Returns either "CLEAN" or "DIRTY" with respect to uncommitted changes. Uses the return code of "git diff-index --quiet
# HEAD --". Does not regard untracked files.
#
# Requires CMake 2.6 or newer (uses the 'function' command)
#
# Original Author: 2009-2010 Ryan Pavlik <rpavlik@iastate.edu> <abiryan@ryand.net> http://academic.cleardefinition.com
# Iowa State University HCI Graduate Program/VRAC
#
# Copyright Iowa State University 2009-2010. Distributed under the Boost Software License, Version 1.0. (See
# accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
if(__get_git_revision_description)
return()
endif()
set(__get_git_revision_description YES)
# We must run the following at "include" time, not at function call time, to find the path to this module rather than
# the path to a calling list file
get_filename_component(_gitdescmoddir ${CMAKE_CURRENT_LIST_FILE} PATH)
function(get_git_head_revision _refspecvar _hashvar)
set(GIT_PARENT_DIR "${CMAKE_CURRENT_SOURCE_DIR}")
set(GIT_DIR "${GIT_PARENT_DIR}/.git")
while(NOT EXISTS "${GIT_DIR}") # .git dir not found, search parent directories
set(GIT_PREVIOUS_PARENT "${GIT_PARENT_DIR}")
get_filename_component(GIT_PARENT_DIR ${GIT_PARENT_DIR} PATH)
if(GIT_PARENT_DIR STREQUAL GIT_PREVIOUS_PARENT)
# We have reached the root directory, we are not in git
set(${_refspecvar}
"GITDIR-NOTFOUND"
PARENT_SCOPE)
set(${_hashvar}
"GITDIR-NOTFOUND"
PARENT_SCOPE)
return()
endif()
set(GIT_DIR "${GIT_PARENT_DIR}/.git")
endwhile()
# check if this is a submodule
if(NOT IS_DIRECTORY ${GIT_DIR})
file(READ ${GIT_DIR} submodule)
string(REGEX REPLACE "gitdir: (.*)\n$" "\\1" GIT_DIR_RELATIVE ${submodule})
get_filename_component(SUBMODULE_DIR ${GIT_DIR} PATH)
get_filename_component(GIT_DIR ${SUBMODULE_DIR}/${GIT_DIR_RELATIVE} ABSOLUTE)
endif()
set(GIT_DATA "${CMAKE_CURRENT_BINARY_DIR}/CMakeFiles/git-data")
if(NOT EXISTS "${GIT_DATA}")
file(MAKE_DIRECTORY "${GIT_DATA}")
endif()
if(NOT EXISTS "${GIT_DIR}/HEAD")
return()
endif()
set(HEAD_FILE "${GIT_DATA}/HEAD")
configure_file("${GIT_DIR}/HEAD" "${HEAD_FILE}" COPYONLY)
configure_file("${_gitdescmoddir}/GetGitRevisionDescription.cmake.in" "${GIT_DATA}/grabRef.cmake" @ONLY)
include("${GIT_DATA}/grabRef.cmake")
set(${_refspecvar}
"${HEAD_REF}"
PARENT_SCOPE)
set(${_hashvar}
"${HEAD_HASH}"
PARENT_SCOPE)
endfunction()
function(git_describe _var)
if(NOT GIT_FOUND)
find_package(Git QUIET)
endif()
get_git_head_revision(refspec hash)
if(NOT GIT_FOUND)
set(${_var}
"GIT-NOTFOUND"
PARENT_SCOPE)
return()
endif()
if(NOT hash)
set(${_var}
"HEAD-HASH-NOTFOUND"
PARENT_SCOPE)
return()
endif()
execute_process(COMMAND
"${GIT_EXECUTABLE}"
describe
${hash}
${ARGN}
WORKING_DIRECTORY
"${CMAKE_CURRENT_SOURCE_DIR}"
RESULT_VARIABLE
res
OUTPUT_VARIABLE
out
ERROR_QUIET
OUTPUT_STRIP_TRAILING_WHITESPACE)
if(NOT res EQUAL 0)
set(out "${out}-${res}-NOTFOUND")
endif()
set(${_var}
"${out}"
PARENT_SCOPE)
endfunction()
function(git_get_exact_tag _var)
git_describe(out --exact-match ${ARGN})
set(${_var}
"${out}"
PARENT_SCOPE)
endfunction()
function(git_local_changes _var)
if(NOT GIT_FOUND)
find_package(Git QUIET)
endif()
get_git_head_revision(refspec hash)
if(NOT GIT_FOUND)
set(${_var}
"GIT-NOTFOUND"
PARENT_SCOPE)
return()
endif()
if(NOT hash)
set(${_var}
"HEAD-HASH-NOTFOUND"
PARENT_SCOPE)
return()
endif()
execute_process(
COMMAND "${GIT_EXECUTABLE}" diff-index --quiet HEAD --
WORKING_DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}"
RESULT_VARIABLE res
OUTPUT_VARIABLE out
ERROR_QUIET OUTPUT_STRIP_TRAILING_WHITESPACE)
if(res EQUAL 0)
set(${_var}
"CLEAN"
PARENT_SCOPE)
else()
set(${_var}
"DIRTY"
PARENT_SCOPE)
endif()
endfunction()

41
cmake/modules/GetGitRevisionDescription.cmake.in Normal file
View File

@@ -0,0 +1,41 @@
#
# Internal file for GetGitRevisionDescription.cmake
#
# Requires CMake 2.6 or newer (uses the 'function' command)
#
# Original Author:
# 2009-2010 Ryan Pavlik <rpavlik@iastate.edu> <abiryan@ryand.net>
# http://academic.cleardefinition.com
# Iowa State University HCI Graduate Program/VRAC
#
# Copyright Iowa State University 2009-2010.
# Distributed under the Boost Software License, Version 1.0.
# (See accompanying file LICENSE_1_0.txt or copy at
# http://www.boost.org/LICENSE_1_0.txt)
set(HEAD_HASH)
file(READ "@HEAD_FILE@" HEAD_CONTENTS LIMIT 1024)
string(STRIP "${HEAD_CONTENTS}" HEAD_CONTENTS)
if(HEAD_CONTENTS MATCHES "ref")
# named branch
string(REPLACE "ref: " "" HEAD_REF "${HEAD_CONTENTS}")
if(EXISTS "@GIT_DIR@/${HEAD_REF}")
configure_file("@GIT_DIR@/${HEAD_REF}" "@GIT_DATA@/head-ref" COPYONLY)
else()
configure_file("@GIT_DIR@/packed-refs" "@GIT_DATA@/packed-refs" COPYONLY)
file(READ "@GIT_DATA@/packed-refs" PACKED_REFS)
if(${PACKED_REFS} MATCHES "([0-9a-z]*) ${HEAD_REF}")
set(HEAD_HASH "${CMAKE_MATCH_1}")
endif()
endif()
else()
# detached HEAD
configure_file("@GIT_DIR@/HEAD" "@GIT_DATA@/head-ref" COPYONLY)
endif()
if(NOT HEAD_HASH)
file(READ "@GIT_DATA@/head-ref" HEAD_HASH LIMIT 1024)
string(STRIP "${HEAD_HASH}" HEAD_HASH)
endif()

42
cmake/modules/OpenSSL.cmake Normal file
View File

@@ -0,0 +1,42 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
if(NOT USE_BUNDLED_DEPS)
find_package(OpenSSL REQUIRED)
message(STATUS "Found openssl: include: ${OPENSSL_INCLUDE_DIR}, lib: ${OPENSSL_LIBRARIES}")
find_program(OPENSSL_BINARY openssl)
if(NOT OPENSSL_BINARY)
message(FATAL_ERROR "Couldn't find the openssl command line in PATH")
else()
message(STATUS "Found openssl: binary: ${OPENSSL_BINARY}")
endif()
else()
set(OPENSSL_BUNDLE_DIR "${PROJECT_BINARY_DIR}/openssl-prefix/src/openssl")
set(OPENSSL_INSTALL_DIR "${OPENSSL_BUNDLE_DIR}/target")
set(OPENSSL_INCLUDE_DIR "${PROJECT_BINARY_DIR}/openssl-prefix/src/openssl/include")
set(OPENSSL_LIBRARY_SSL "${OPENSSL_INSTALL_DIR}/lib/libssl.a")
set(OPENSSL_LIBRARY_CRYPTO "${OPENSSL_INSTALL_DIR}/lib/libcrypto.a")
set(OPENSSL_BINARY "${OPENSSL_INSTALL_DIR}/bin/openssl")
message(STATUS "Using bundled openssl in '${OPENSSL_BUNDLE_DIR}'")
ExternalProject_Add(
openssl
# START CHANGE for CVE-2017-3735, CVE-2017-3731, CVE-2017-3737, CVE-2017-3738, CVE-2017-3736
URL "https://github.com/openssl/openssl/archive/OpenSSL_1_0_2n.tar.gz"
URL_HASH "SHA256=4f4bc907caff1fee6ff8593729e5729891adcee412049153a3bb4db7625e8364"
# END CHANGE for CVE-2017-3735, CVE-2017-3731, CVE-2017-3737, CVE-2017-3738, CVE-2017-3736
CONFIGURE_COMMAND ./config no-shared --prefix=${OPENSSL_INSTALL_DIR}
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
INSTALL_COMMAND ${CMD_MAKE} install)
endif()

76
cmake/modules/cURL.cmake Normal file
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@@ -0,0 +1,76 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
if(NOT USE_BUNDLED_DEPS)
find_package(CURL REQUIRED)
message(STATUS "Found CURL: include: ${CURL_INCLUDE_DIR}, lib: ${CURL_LIBRARIES}")
else()
set(CURL_BUNDLE_DIR "${PROJECT_BINARY_DIR}/curl-prefix/src/curl")
set(CURL_INCLUDE_DIR "${CURL_BUNDLE_DIR}/include/")
set(CURL_LIBRARIES "${CURL_BUNDLE_DIR}/lib/.libs/libcurl.a")
set(CURL_SSL_OPTION "--with-ssl=${OPENSSL_INSTALL_DIR}")
message(STATUS "Using bundled curl in '${CURL_BUNDLE_DIR}'")
message(STATUS "Using SSL for curl in '${CURL_SSL_OPTION}'")
externalproject_add(
curl
DEPENDS openssl
# START CHANGE for CVE-2017-8816, CVE-2017-8817, CVE-2017-8818, CVE-2018-1000007
URL "https://github.com/curl/curl/releases/download/curl-7_61_0/curl-7.61.0.tar.bz2"
URL_HASH "SHA256=5f6f336921cf5b84de56afbd08dfb70adeef2303751ffb3e570c936c6d656c9c"
# END CHANGE for CVE-2017-8816, CVE-2017-8817, CVE-2017-8818, CVE-2018-1000007
CONFIGURE_COMMAND
./configure
${CURL_SSL_OPTION}
--disable-shared
--enable-optimize
--disable-curldebug
--disable-rt
--enable-http
--disable-ftp
--disable-file
--disable-ldap
--disable-ldaps
--disable-rtsp
--disable-telnet
--disable-tftp
--disable-pop3
--disable-imap
--disable-smb
--disable-smtp
--disable-gopher
--disable-sspi
--disable-ntlm-wb
--disable-tls-srp
--without-winssl
--without-darwinssl
--without-polarssl
--without-cyassl
--without-nss
--without-axtls
--without-ca-path
--without-ca-bundle
--without-libmetalink
--without-librtmp
--without-winidn
--without-libidn2
--without-libpsl
--without-nghttp2
--without-libssh2
--disable-threaded-resolver
--without-brotli
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
INSTALL_COMMAND "")
endif()

30
cmake/modules/copy_files_to_build_dir.cmake
View File

@@ -1,30 +0,0 @@
#
# Copyright (C) 2022 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
function(copy_files_to_build_dir source_files targetsuffix)
set(build_files)
foreach(file_path ${source_files})
get_filename_component(trace_file ${file_path} NAME)
list(APPEND build_files ${CMAKE_CURRENT_BINARY_DIR}/${trace_file})
endforeach()
add_custom_target(copy-files-${targetsuffix} ALL
DEPENDS ${build_files})
add_custom_command(OUTPUT ${build_files}
COMMAND ${CMAKE_COMMAND} -E copy_if_different ${source_files} ${CMAKE_CURRENT_BINARY_DIR}
DEPENDS ${source_files})
endfunction()

32
cmake/modules/cpp-httplib.cmake
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@@ -1,32 +0,0 @@
#
# Copyright (C) 2022 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
#
# cpp-httplib (https://github.com/yhirose/cpp-httplib)
#
if(CPPHTTPLIB_INCLUDE)
# we already have cpp-httplib
else()
set(CPPHTTPLIB_SRC "${PROJECT_BINARY_DIR}/cpp-httplib-prefix/src/cpp-httplib")
set(CPPHTTPLIB_INCLUDE "${CPPHTTPLIB_SRC}")
message(STATUS "Using bundled cpp-httplib in '${CPPHTTPLIB_SRC}'")
ExternalProject_Add(cpp-httplib
PREFIX "${PROJECT_BINARY_DIR}/cpp-httplib-prefix"
URL "https://github.com/yhirose/cpp-httplib/archive/refs/tags/v0.13.1.tar.gz"
URL_HASH "SHA256=9b837d290b61e3f0c4239da0b23bbf14c382922e2bf2a9bac21c1e3feabe1ff9"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
endif()

23
cmake/modules/cxxopts.cmake
View File

@@ -1,23 +0,0 @@
#
# Copyright (C) 2022 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
set(CXXOPTS_SRC "${PROJECT_BINARY_DIR}/cxxopts-prefix/src/cxxopts/")
set(CXXOPTS_INCLUDE_DIR "${CXXOPTS_SRC}/include")
ExternalProject_Add(
cxxopts
URL "https://github.com/jarro2783/cxxopts/archive/refs/tags/v3.0.0.tar.gz"
URL_HASH "SHA256=36f41fa2a46b3c1466613b63f3fa73dc24d912bc90d667147f1e43215a8c6d00"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")

59
cmake/modules/driver.cmake
View File

@@ -1,59 +0,0 @@
#
# Copyright (C) 2022 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
set(DRIVER_CMAKE_SOURCE_DIR "${CMAKE_CURRENT_SOURCE_DIR}/cmake/modules/driver-repo")
set(DRIVER_CMAKE_WORKING_DIR "${CMAKE_BINARY_DIR}/driver-repo")
file(MAKE_DIRECTORY ${DRIVER_CMAKE_WORKING_DIR})
if(DRIVER_SOURCE_DIR)
set(DRIVER_VERSION "0.0.0-local")
message(STATUS "Using local version for driver: '${DRIVER_SOURCE_DIR}'")
else()
# DRIVER_REPO accepts a repository name (<org name>/<repo name>) alternative to the falcosecurity/libs repository.
# In case you want to test against a fork of falcosecurity/libs just pass the variable -
# ie., `cmake -DDRIVER_REPO=<your-gh-handle>/libs ..`
if (NOT DRIVER_REPO)
set(DRIVER_REPO "falcosecurity/libs")
endif()
# DRIVER_VERSION accepts a git reference (branch name, commit hash, or tag) to the falcosecurity/libs repository
# which contains the driver source code under the `/driver` directory.
# The chosen driver version must be compatible with the given FALCOSECURITY_LIBS_VERSION.
# In case you want to test against another driver version (or branch, or commit) just pass the variable -
# ie., `cmake -DDRIVER_VERSION=dev ..`
if(NOT DRIVER_VERSION)
set(DRIVER_VERSION "6301c01b9279c3f4981df24b3e8e0d97c18f76e8")
set(DRIVER_CHECKSUM "SHA256=cc5c51b4a01cf83d36c3af0670a36b2c8b55f3baebc03736725dc6425898d018")
endif()
# cd /path/to/build && cmake /path/to/source
execute_process(COMMAND "${CMAKE_COMMAND}"
-DCMAKE_BUILD_TYPE="${CMAKE_BUILD_TYPE}"
-DDRIVER_REPO=${DRIVER_REPO}
-DDRIVER_VERSION=${DRIVER_VERSION}
-DDRIVER_CHECKSUM=${DRIVER_CHECKSUM}
${DRIVER_CMAKE_SOURCE_DIR} WORKING_DIRECTORY ${DRIVER_CMAKE_WORKING_DIR})
# cmake --build .
execute_process(COMMAND "${CMAKE_COMMAND}" --build . WORKING_DIRECTORY "${DRIVER_CMAKE_WORKING_DIR}")
set(DRIVER_SOURCE_DIR "${DRIVER_CMAKE_WORKING_DIR}/driver-prefix/src/driver")
endif()
add_definitions(-D_GNU_SOURCE)
set(DRIVER_NAME "falco")
set(DRIVER_PACKAGE_NAME "falco")
set(DRIVER_COMPONENT_NAME "falco-driver")
add_subdirectory(${DRIVER_SOURCE_DIR} ${PROJECT_BINARY_DIR}/driver)

48
cmake/modules/falco-version.cmake
View File

@@ -1,48 +0,0 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
# Retrieve git ref and commit hash
include(GetVersionFromGit)
# Get Falco version variable according to git index
if(NOT FALCO_VERSION)
set(FALCO_VERSION "0.0.0")
get_version_from_git(FALCO_VERSION "" "")
endif()
# Remove the starting "v" in case there is one
string(REGEX REPLACE "^v(.*)" "\\1" FALCO_VERSION "${FALCO_VERSION}")
string(REGEX MATCH "^(0|[1-9][0-9]*)" FALCO_VERSION_MAJOR "${FALCO_VERSION}")
string(REGEX REPLACE "^(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\..*" "\\2" FALCO_VERSION_MINOR "${FALCO_VERSION}")
string(REGEX REPLACE "^(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*).*" "\\3" FALCO_VERSION_PATCH
"${FALCO_VERSION}")
string(
REGEX
REPLACE
"^(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)\\.(0|[1-9][0-9]*)-((0|[1-9][0-9]*|[0-9]*[a-zA-Z-][0-9a-zA-Z-]*)(\\.(0|[1-9][0-9]*|[0-9]*[a-zA-Z-][0-9a-zA-Z-]*))*).*"
"\\5"
FALCO_VERSION_PRERELEASE
"${FALCO_VERSION}")
if(FALCO_VERSION_PRERELEASE STREQUAL "${FALCO_VERSION}")
set(FALCO_VERSION_PRERELEASE "")
endif()
if(NOT FALCO_VERSION_BUILD)
string(REGEX REPLACE ".*\\+([0-9a-zA-Z-]+(\\.[0-9a-zA-Z-]+)*)" "\\1" FALCO_VERSION_BUILD "${FALCO_VERSION}")
endif()
if(FALCO_VERSION_BUILD STREQUAL "${FALCO_VERSION}")
set(FALCO_VERSION_BUILD "")
endif()
message(STATUS "Falco version: ${FALCO_VERSION}")

36
cmake/modules/falcoctl.cmake
View File

@@ -1,36 +0,0 @@
#
# Copyright (C) 2023 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
include(ExternalProject)
string(TOLOWER ${CMAKE_HOST_SYSTEM_NAME} FALCOCTL_SYSTEM_NAME)
set(FALCOCTL_VERSION "0.6.0")
if(${CMAKE_HOST_SYSTEM_PROCESSOR} STREQUAL "x86_64")
set(FALCOCTL_SYSTEM_PROC_GO "amd64")
set(FALCOCTL_HASH "b81c36449b525e1de871288741beeadead021ac133d9b306f0636be1befe58a5")
else() # aarch64
set(FALCOCTL_SYSTEM_PROC_GO "arm64")
set(FALCOCTL_HASH "6e99fd765f67cdd46fa8c5b2969e97497856d2e615698ced04046c8898187b18")
endif()
ExternalProject_Add(
falcoctl
URL "https://github.com/falcosecurity/falcoctl/releases/download/v${FALCOCTL_VERSION}/falcoctl_${FALCOCTL_VERSION}_${FALCOCTL_SYSTEM_NAME}_${FALCOCTL_SYSTEM_PROC_GO}.tar.gz"
URL_HASH "SHA256=${FALCOCTL_HASH}"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
install(PROGRAMS "${PROJECT_BINARY_DIR}/falcoctl-prefix/src/falcoctl/falcoctl" DESTINATION "${FALCO_BIN_DIR}" COMPONENT "${FALCO_COMPONENT_NAME}")

105
cmake/modules/falcosecurity-libs.cmake
View File

@@ -1,105 +0,0 @@
#
# Copyright (C) 2023 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
set(FALCOSECURITY_LIBS_CMAKE_SOURCE_DIR "${CMAKE_CURRENT_SOURCE_DIR}/cmake/modules/falcosecurity-libs-repo")
set(FALCOSECURITY_LIBS_CMAKE_WORKING_DIR "${CMAKE_BINARY_DIR}/falcosecurity-libs-repo")
file(MAKE_DIRECTORY ${FALCOSECURITY_LIBS_CMAKE_WORKING_DIR})
# explicitly disable the bundled driver, since we pull it separately
set(USE_BUNDLED_DRIVER OFF CACHE BOOL "")
if(FALCOSECURITY_LIBS_SOURCE_DIR)
set(FALCOSECURITY_LIBS_VERSION "0.0.0-local")
message(STATUS "Using local version of falcosecurity/libs: '${FALCOSECURITY_LIBS_SOURCE_DIR}'")
else()
# FALCOSECURITY_LIBS_REPO accepts a repository name (<org name>/<repo name>) alternative to the falcosecurity/libs repository.
# In case you want to test against a fork of falcosecurity/libs just pass the variable -
# ie., `cmake -DFALCOSECURITY_LIBS_REPO=<your-gh-handle>/libs ..`
if (NOT FALCOSECURITY_LIBS_REPO)
set(FALCOSECURITY_LIBS_REPO "falcosecurity/libs")
endif()
# FALCOSECURITY_LIBS_VERSION accepts a git reference (branch name, commit hash, or tag) to the falcosecurity/libs repository.
# In case you want to test against another falcosecurity/libs version (or branch, or commit) just pass the variable -
# ie., `cmake -DFALCOSECURITY_LIBS_VERSION=dev ..`
if(NOT FALCOSECURITY_LIBS_VERSION)
set(FALCOSECURITY_LIBS_VERSION "6301c01b9279c3f4981df24b3e8e0d97c18f76e8")
set(FALCOSECURITY_LIBS_CHECKSUM "SHA256=cc5c51b4a01cf83d36c3af0670a36b2c8b55f3baebc03736725dc6425898d018")
endif()
# cd /path/to/build && cmake /path/to/source
execute_process(COMMAND "${CMAKE_COMMAND}"
-DCMAKE_BUILD_TYPE="${CMAKE_BUILD_TYPE}"
-DFALCOSECURITY_LIBS_REPO=${FALCOSECURITY_LIBS_REPO}
-DFALCOSECURITY_LIBS_VERSION=${FALCOSECURITY_LIBS_VERSION}
-DFALCOSECURITY_LIBS_CHECKSUM=${FALCOSECURITY_LIBS_CHECKSUM}
${FALCOSECURITY_LIBS_CMAKE_SOURCE_DIR} WORKING_DIRECTORY ${FALCOSECURITY_LIBS_CMAKE_WORKING_DIR})
# cmake --build .
execute_process(COMMAND "${CMAKE_COMMAND}" --build . WORKING_DIRECTORY "${FALCOSECURITY_LIBS_CMAKE_WORKING_DIR}")
set(FALCOSECURITY_LIBS_SOURCE_DIR "${FALCOSECURITY_LIBS_CMAKE_WORKING_DIR}/falcosecurity-libs-prefix/src/falcosecurity-libs")
endif()
set(LIBS_PACKAGE_NAME "falcosecurity")
if(CMAKE_SYSTEM_NAME MATCHES "Linux")
add_definitions(-D_GNU_SOURCE)
add_definitions(-DHAS_CAPTURE)
endif()
if(MUSL_OPTIMIZED_BUILD)
add_definitions(-DMUSL_OPTIMIZED)
endif()
set(SCAP_HOST_ROOT_ENV_VAR_NAME "HOST_ROOT")
set(SCAP_HOSTNAME_ENV_VAR "FALCO_HOSTNAME")
set(SINSP_AGENT_CGROUP_MEM_PATH_ENV_VAR "FALCO_CGROUP_MEM_PATH")
if(NOT LIBSCAP_DIR)
set(LIBSCAP_DIR "${FALCOSECURITY_LIBS_SOURCE_DIR}")
endif()
set(LIBSINSP_DIR "${FALCOSECURITY_LIBS_SOURCE_DIR}")
# configure gVisor support
set(BUILD_LIBSCAP_GVISOR ${BUILD_FALCO_GVISOR} CACHE BOOL "")
# configure modern BPF support
set(BUILD_LIBSCAP_MODERN_BPF ${BUILD_FALCO_MODERN_BPF} CACHE BOOL "")
# explicitly disable the tests/examples of this dependency
set(CREATE_TEST_TARGETS OFF CACHE BOOL "")
set(BUILD_LIBSCAP_EXAMPLES OFF CACHE BOOL "")
set(USE_BUNDLED_TBB ON CACHE BOOL "")
set(USE_BUNDLED_B64 ON CACHE BOOL "")
set(USE_BUNDLED_JSONCPP ON CACHE BOOL "")
set(USE_BUNDLED_VALIJSON ON CACHE BOOL "")
set(USE_BUNDLED_RE2 ON CACHE BOOL "")
list(APPEND CMAKE_MODULE_PATH "${FALCOSECURITY_LIBS_SOURCE_DIR}/cmake/modules")
include(CheckSymbolExists)
check_symbol_exists(strlcpy "string.h" HAVE_STRLCPY)
if(HAVE_STRLCPY)
message(STATUS "Existing strlcpy found, will *not* use local definition by setting -DHAVE_STRLCPY.")
add_definitions(-DHAVE_STRLCPY)
else()
message(STATUS "No strlcpy found, will use local definition")
endif()
include(driver)
include(libscap)
include(libsinsp)

138
cmake/modules/gRPC.cmake Normal file
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@@ -0,0 +1,138 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
if(NOT USE_BUNDLED_DEPS)
# zlib
include(FindZLIB)
set(ZLIB_INCLUDE "${ZLIB_INCLUDE_DIRS}")
set(ZLIB_LIB "${ZLIB_LIBRARIES}")
if(ZLIB_INCLUDE AND ZLIB_LIB)
message(STATUS "Found zlib: include: ${ZLIB_INCLUDE}, lib: ${ZLIB_LIB}")
endif()
# c-ares
find_path(CARES_INCLUDE NAMES ares.h)
find_library(CARES_LIB NAMES libcares.so)
if(CARES_INCLUDE AND CARES_LIB)
message(STATUS "Found c-ares: include: ${CARES_INCLUDE}, lib: ${CARES_LIB}")
else()
message(FATAL_ERROR "Couldn't find system c-ares")
endif()
# protobuf
find_program(PROTOC NAMES protoc)
find_path(PROTOBUF_INCLUDE NAMES google/protobuf/message.h)
find_library(PROTOBUF_LIB NAMES libprotobuf.so)
if(PROTOC
AND PROTOBUF_INCLUDE
AND PROTOBUF_LIB)
message(STATUS "Found protobuf: compiler: ${PROTOC}, include: ${PROTOBUF_INCLUDE}, lib: ${PROTOBUF_LIB}")
else()
message(FATAL_ERROR "Couldn't find system protobuf")
endif()
# gpr
find_library(GPR_LIB NAMES gpr)
if(GPR_LIB)
message(STATUS "Found gpr lib: ${GPR_LIB}")
else()
message(FATAL_ERROR "Couldn't find system gpr")
endif()
# gRPC todo(fntlnz, leodido): check that gRPC version is greater or equal than 1.8.0
find_path(GRPCXX_INCLUDE NAMES grpc++/grpc++.h)
if(GRPCXX_INCLUDE)
set(GRPC_INCLUDE ${GRPCXX_INCLUDE})
else()
find_path(GRPCPP_INCLUDE NAMES grpcpp/grpcpp.h)
set(GRPC_INCLUDE ${GRPCPP_INCLUDE})
add_definitions(-DGRPC_INCLUDE_IS_GRPCPP=1)
endif()
find_library(GRPC_LIB NAMES grpc)
find_library(GRPCPP_LIB NAMES grpc++)
if(GRPC_INCLUDE
AND GRPC_LIB
AND GRPCPP_LIB)
message(STATUS "Found grpc: include: ${GRPC_INCLUDE}, C lib: ${GRPC_LIB}, C++ lib: ${GRPCPP_LIB}")
else()
message(FATAL_ERROR "Couldn't find system grpc")
endif()
find_program(GRPC_CPP_PLUGIN grpc_cpp_plugin)
if(NOT GRPC_CPP_PLUGIN)
message(FATAL_ERROR "System grpc_cpp_plugin not found")
endif()
else()
find_package(PkgConfig)
if(NOT PKG_CONFIG_FOUND)
message(FATAL_ERROR "pkg-config binary not found")
endif()
message(STATUS "Found pkg-config executable: ${PKG_CONFIG_EXECUTABLE}")
set(GRPC_SRC "${PROJECT_BINARY_DIR}/grpc-prefix/src/grpc")
set(GRPC_INCLUDE "${GRPC_SRC}/include")
set(GRPC_LIBS_ABSOLUTE "${GRPC_SRC}/libs/opt")
set(GRPC_LIB "${GRPC_LIBS_ABSOLUTE}/libgrpc.a")
set(GRPCPP_LIB "${GRPC_LIBS_ABSOLUTE}/libgrpc++.a")
set(GRPC_CPP_PLUGIN "${GRPC_SRC}/bins/opt/grpc_cpp_plugin")
# we tell gRPC to compile protobuf for us because when a gRPC package is not available, like on CentOS, it's very
# likely that protobuf will be very outdated
set(PROTOBUF_INCLUDE "${GRPC_SRC}/third_party/protobuf/src")
set(PROTOC "${PROTOBUF_INCLUDE}/protoc")
set(PROTOBUF_LIB "${GRPC_LIBS_ABSOLUTE}/protobuf/libprotobuf.a")
# we tell gRPC to compile zlib for us because when a gRPC package is not available, like on CentOS, it's very likely
# that zlib will be very outdated
set(ZLIB_INCLUDE "${GRPC_SRC}/third_party/zlib")
set(ZLIB_LIB "${GRPC_LIBS_ABSOLUTE}/libz.a")
# we tell gRPC to compile c-ares for us because when a gRPC package is not available, like on CentOS, it's very likely
# that c-ares will be very outdated
set(CARES_INCLUDE "${GRPC_SRC}/third_party/cares" "${GRPC_SRC}/third_party/cares/cares")
set(CARES_LIB "${GRPC_LIBS_ABSOLUTE}/libares.a")
message(STATUS "Using bundled gRPC in '${GRPC_SRC}'")
message(
STATUS
"Bundled gRPC comes with protobuf: compiler: ${PROTOC}, include: ${PROTOBUF_INCLUDE}, lib: ${PROTOBUF_LIB}")
message(STATUS "Bundled gRPC comes with zlib: include: ${ZLIB_INCLUDE}, lib: ${ZLIB_LIB}}")
message(STATUS "Bundled gRPC comes with cares: include: ${CARES_INCLUDE}, lib: ${CARES_LIB}}")
message(STATUS "Bundled gRPC comes with gRPC C++ plugin: include: ${GRPC_CPP_PLUGIN}")
get_filename_component(PROTOC_DIR ${PROTOC} PATH)
ExternalProject_Add(
grpc
DEPENDS openssl
GIT_REPOSITORY https://github.com/grpc/grpc.git
GIT_TAG v1.31.1
GIT_SUBMODULES "third_party/protobuf third_party/zlib third_party/cares/cares third_party/abseil-cpp third_party/re2"
BUILD_IN_SOURCE 1
BUILD_BYPRODUCTS ${GRPC_LIB} ${GRPCPP_LIB}
INSTALL_COMMAND ""
CONFIGURE_COMMAND ""
BUILD_COMMAND
CFLAGS=-Wno-implicit-fallthrough
HAS_SYSTEM_ZLIB=false
HAS_SYSTEM_PROTOBUF=false
HAS_SYSTEM_CARES=false
HAS_EMBEDDED_OPENSSL_ALPN=false
HAS_SYSTEM_OPENSSL_ALPN=true
PKG_CONFIG_PATH=${OPENSSL_BUNDLE_DIR}
PKG_CONFIG=${PKG_CONFIG_EXECUTABLE}
PATH=${PROTOC_DIR}:$ENV{PATH}
make
static_cxx
static_c
grpc_cpp_plugin)
endif()

53
cmake/modules/jq.cmake Normal file
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@@ -0,0 +1,53 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
if (NOT USE_BUNDLED_DEPS)
find_path(JQ_INCLUDE jq.h PATH_SUFFIXES jq)
find_library(JQ_LIB NAMES jq)
if (JQ_INCLUDE AND JQ_LIB)
message(STATUS "Found jq: include: ${JQ_INCLUDE}, lib: ${JQ_LIB}")
else ()
message(FATAL_ERROR "Couldn't find system jq")
endif ()
else ()
set(JQ_SRC "${PROJECT_BINARY_DIR}/jq-prefix/src/jq")
message(STATUS "Using bundled jq in '${JQ_SRC}'")
set(JQ_INCLUDE "${JQ_SRC}/target/include")
set(JQ_INSTALL_DIR "${JQ_SRC}/target")
set(JQ_LIB "${JQ_INSTALL_DIR}/lib/libjq.a")
set(ONIGURUMA_LIB "${JQ_INSTALL_DIR}/lib/libonig.a")
message(STATUS "Bundled jq: include: ${JQ_INCLUDE}, lib: ${JQ_LIB}")
# Why we mirror jq here?
#
# In their readme, jq claims that you don't have
# to do autoreconf -fi when downloading a released tarball.
#
# However, they forgot to push the released makefiles
# into their release tarbal.
#
# For this reason, we have to mirror their release after
# doing the configuration ourselves.
#
# This is needed because many distros do not ship the right
# version of autoreconf, making virtually impossible to build Falco on them.
# Read more about it here:
# https://github.com/stedolan/jq/issues/2061#issuecomment-593445920
ExternalProject_Add(
jq
URL "https://dl.bintray.com/falcosecurity/dependencies/jq-1.6.tar.gz"
URL_HASH "SHA256=787518068c35e244334cc79b8e56b60dbab352dff175b7f04a94f662b540bfd9"
CONFIGURE_COMMAND ./configure --disable-maintainer-mode --enable-all-static --disable-dependency-tracking --with-oniguruma=builtin --prefix=${JQ_INSTALL_DIR}
BUILD_COMMAND ${CMD_MAKE} LDFLAGS=-all-static
BUILD_IN_SOURCE 1
INSTALL_COMMAND ${CMD_MAKE} install)
endif ()

19
cmake/modules/libyaml.cmake
View File

@@ -15,13 +15,12 @@ set(LIBYAML_SRC "${PROJECT_BINARY_DIR}/libyaml-prefix/src/libyaml")
set(LIBYAML_INSTALL_DIR "${LIBYAML_SRC}/target")
message(STATUS "Using bundled libyaml in '${LIBYAML_SRC}'")
set(LIBYAML_LIB "${LIBYAML_SRC}/src/.libs/libyaml.a")
externalproject_add(
libyaml
URL "https://github.com/yaml/libyaml/releases/download/0.2.5/yaml-0.2.5.tar.gz"
URL_HASH "SHA256=c642ae9b75fee120b2d96c712538bd2cf283228d2337df2cf2988e3c02678ef4"
CONFIGURE_COMMAND ./configure --prefix=${LIBYAML_INSTALL_DIR} CFLAGS=-fPIC CPPFLAGS=-fPIC --enable-static=true --enable-shared=false
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
BUILD_BYPRODUCTS ${LIBYAML_LIB}
INSTALL_COMMAND ${CMD_MAKE} install
)
ExternalProject_Add(
libyaml
URL "https://github.com/yaml/libyaml/releases/download/0.2.5/yaml-0.2.5.tar.gz"
URL_HASH "SHA256=c642ae9b75fee120b2d96c712538bd2cf283228d2337df2cf2988e3c02678ef4"
CONFIGURE_COMMAND ./configure --prefix=${LIBYAML_INSTALL_DIR} CFLAGS=-fPIC CPPFLAGS=-fPIC --enable-static=true --enable-shared=false
BUILD_COMMAND ${CMD_MAKE}
BUILD_IN_SOURCE 1
INSTALL_COMMAND ${CMD_MAKE} install)

34
cmake/modules/njson.cmake
View File

@@ -1,34 +0,0 @@
#
# Copyright (C) 2023 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
#
# nlohmann-json
#
if(NJSON_INCLUDE)
# Adding the custom target we can use it with `add_dependencies()`
if(NOT TARGET njson)
add_custom_target(njson)
endif()
else()
# We always use the bundled version
set(NJSON_SRC "${PROJECT_BINARY_DIR}/njson-prefix/src/njson")
set(NJSON_INCLUDE "${NJSON_SRC}/single_include")
ExternalProject_Add(
njson
URL "https://github.com/nlohmann/json/archive/v3.3.0.tar.gz"
URL_HASH "SHA256=2fd1d207b4669a7843296c41d3b6ac5b23d00dec48dba507ba051d14564aa801"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
message(STATUS "Using bundled nlohmann-json in '${NJSON_SRC}'")
endif()

97
cmake/modules/plugins.cmake
View File

@@ -1,97 +0,0 @@
#
# Copyright (C) 2023 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
include(ExternalProject)
# 'stable' or 'dev'
set(PLUGINS_DOWNLOAD_BUCKET "stable")
string(TOLOWER ${CMAKE_HOST_SYSTEM_NAME} PLUGINS_SYSTEM_NAME)
if(NOT DEFINED PLUGINS_COMPONENT_NAME)
set(PLUGINS_COMPONENT_NAME "${CMAKE_PROJECT_NAME}-plugins")
endif()
# k8saudit
set(PLUGIN_K8S_AUDIT_VERSION "0.6.0")
if(${CMAKE_HOST_SYSTEM_PROCESSOR} STREQUAL "x86_64")
set(PLUGIN_K8S_AUDIT_HASH "560e8f8dc8fd169e524d95462d65b5227415a7a157442e82383c7d9f456ce58f")
else() # aarch64
set(PLUGIN_K8S_AUDIT_HASH "e4757af1bac42b21c5937340790841dedc3805759050a6ffb22d1761e1dd1d31")
endif()
ExternalProject_Add(
k8saudit-plugin
URL "https://download.falco.org/plugins/${PLUGINS_DOWNLOAD_BUCKET}/k8saudit-${PLUGIN_K8S_AUDIT_VERSION}-${PLUGINS_SYSTEM_NAME}-${CMAKE_HOST_SYSTEM_PROCESSOR}.tar.gz"
URL_HASH "SHA256=${PLUGIN_K8S_AUDIT_HASH}"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
install(FILES "${PROJECT_BINARY_DIR}/k8saudit-plugin-prefix/src/k8saudit-plugin/libk8saudit.so" DESTINATION "${FALCO_PLUGINS_DIR}" COMPONENT "${PLUGINS_COMPONENT_NAME}")
ExternalProject_Add(
k8saudit-rules
URL "https://download.falco.org/plugins/${PLUGINS_DOWNLOAD_BUCKET}/k8saudit-rules-${PLUGIN_K8S_AUDIT_VERSION}.tar.gz"
URL_HASH "SHA256=44cee2fb88312d889213e1dbe1b9902d0a3f5c594cce73b2cac8e54fb51321b7"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
install(FILES "${PROJECT_BINARY_DIR}/k8saudit-rules-prefix/src/k8saudit-rules/k8s_audit_rules.yaml" DESTINATION "${FALCO_ETC_DIR}" COMPONENT "${PLUGINS_COMPONENT_NAME}")
# cloudtrail
set(PLUGIN_CLOUDTRAIL_VERSION "0.8.0")
if(${CMAKE_HOST_SYSTEM_PROCESSOR} STREQUAL "x86_64")
set(PLUGIN_CLOUDTRAIL_HASH "13ba77602c0859936f6e3b00f93bd218c463300c6a797b694a0d5aeecde13976")
else() # aarch64
set(PLUGIN_CLOUDTRAIL_HASH "a01730738e9d5769f69957a204c8afe528b059e9a22f59792dfc65e19d6a43db")
endif()
ExternalProject_Add(
cloudtrail-plugin
URL "https://download.falco.org/plugins/${PLUGINS_DOWNLOAD_BUCKET}/cloudtrail-${PLUGIN_CLOUDTRAIL_VERSION}-${PLUGINS_SYSTEM_NAME}-${CMAKE_HOST_SYSTEM_PROCESSOR}.tar.gz"
URL_HASH "SHA256=${PLUGIN_CLOUDTRAIL_HASH}"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
install(FILES "${PROJECT_BINARY_DIR}/cloudtrail-plugin-prefix/src/cloudtrail-plugin/libcloudtrail.so" DESTINATION "${FALCO_PLUGINS_DIR}" COMPONENT "${PLUGINS_COMPONENT_NAME}")
ExternalProject_Add(
cloudtrail-rules
URL "https://download.falco.org/plugins/${PLUGINS_DOWNLOAD_BUCKET}/cloudtrail-rules-${PLUGIN_CLOUDTRAIL_VERSION}.tar.gz"
URL_HASH "SHA256=27f2fc0a74d39476ad968a61318dec65a82b109c4a462b9fa22be45425ddaaad"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
install(FILES "${PROJECT_BINARY_DIR}/cloudtrail-rules-prefix/src/cloudtrail-rules/aws_cloudtrail_rules.yaml" DESTINATION "${FALCO_ETC_DIR}" COMPONENT "${PLUGINS_COMPONENT_NAME}")
# json
set(PLUGIN_JSON_VERSION "0.7.0")
if(${CMAKE_HOST_SYSTEM_PROCESSOR} STREQUAL "x86_64")
set(PLUGIN_JSON_HASH "a7bf52009a935f22b473724f722566fde27aec5c7d618ecd426eed81e477e94d")
else() # aarch64
set(PLUGIN_JSON_HASH "9cd65fac3f1cbc7f723b69671d42d35901cd322a23d8f2b9dc95fb0593918a7e")
endif()
ExternalProject_Add(
json-plugin
URL "https://download.falco.org/plugins/${PLUGINS_DOWNLOAD_BUCKET}/json-${PLUGIN_JSON_VERSION}-${PLUGINS_SYSTEM_NAME}-${CMAKE_HOST_SYSTEM_PROCESSOR}.tar.gz"
URL_HASH "SHA256=${PLUGIN_JSON_HASH}"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND "")
install(FILES "${PROJECT_BINARY_DIR}/json-plugin-prefix/src/json-plugin/libjson.so" DESTINATION "${FALCO_PLUGINS_DIR}" COMPONENT "${PLUGINS_COMPONENT_NAME}")

70
cmake/modules/rules.cmake
View File

@@ -1,70 +0,0 @@
#
# Copyright (C) 2023 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
include(GNUInstallDirs)
include(ExternalProject)
# falco_rules.yaml
set(FALCOSECURITY_RULES_FALCO_VERSION "falco-rules-1.0.1")
set(FALCOSECURITY_RULES_FALCO_CHECKSUM "SHA256=2348d43196bbbdea92e3f67fa928721a241b0406d0ef369693bdefcec2b3fa13")
set(FALCOSECURITY_RULES_FALCO_PATH "${PROJECT_BINARY_DIR}/falcosecurity-rules-falco-prefix/src/falcosecurity-rules-falco/falco_rules.yaml")
ExternalProject_Add(
falcosecurity-rules-falco
URL "https://download.falco.org/rules/${FALCOSECURITY_RULES_FALCO_VERSION}.tar.gz"
URL_HASH "${FALCOSECURITY_RULES_FALCO_CHECKSUM}"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
# falco_rules.local.yaml
set(FALCOSECURITY_RULES_LOCAL_PATH "${PROJECT_BINARY_DIR}/falcosecurity-rules-local-prefix/falco_rules.local.yaml")
file(WRITE "${FALCOSECURITY_RULES_LOCAL_PATH}" "# Your custom rules!\n")
if(NOT DEFINED FALCO_ETC_DIR)
set(FALCO_ETC_DIR "${CMAKE_INSTALL_FULL_SYSCONFDIR}/falco")
endif()
if(NOT DEFINED FALCO_RULES_DEST_FILENAME)
set(FALCO_RULES_DEST_FILENAME "falco_rules.yaml")
set(FALCO_LOCAL_RULES_DEST_FILENAME "falco_rules.local.yaml")
endif()
if(DEFINED FALCO_COMPONENT) # Allow a slim version of Falco to be embedded in other projects, intentionally *not* installing all rulesets.
install(
FILES "${FALCOSECURITY_RULES_FALCO_PATH}"
COMPONENT "${FALCO_COMPONENT}"
DESTINATION "${FALCO_ETC_DIR}"
RENAME "${FALCO_RULES_DEST_FILENAME}")
install(
FILES "${FALCOSECURITY_RULES_LOCAL_PATH}"
COMPONENT "${FALCO_COMPONENT}"
DESTINATION "${FALCO_ETC_DIR}"
RENAME "${FALCO_LOCAL_RULES_DEST_FILENAME}")
else() # Default Falco installation
install(
FILES "${FALCOSECURITY_RULES_FALCO_PATH}"
DESTINATION "${FALCO_ETC_DIR}"
RENAME "${FALCO_RULES_DEST_FILENAME}"
COMPONENT "${FALCO_COMPONENT_NAME}")
install(
FILES "${FALCOSECURITY_RULES_LOCAL_PATH}"
DESTINATION "${FALCO_ETC_DIR}"
RENAME "${FALCO_LOCAL_RULES_DEST_FILENAME}"
COMPONENT "${FALCO_COMPONENT_NAME}")
install(DIRECTORY DESTINATION "${FALCO_ETC_DIR}/rules.d" COMPONENT "${FALCO_COMPONENT_NAME}")
endif()

4
cmake/modules/static-analysis.cmake
View File

@@ -3,7 +3,6 @@ file(MAKE_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/static-analysis-reports)
file(MAKE_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/static-analysis-reports/cppcheck)
# cppcheck
mark_as_advanced(CPPCHECK CPPCHECK_HTMLREPORT)
find_program(CPPCHECK cppcheck)
find_program(CPPCHECK_HTMLREPORT cppcheck-htmlreport)
@@ -25,10 +24,11 @@ else()
"--force"
"--inconclusive"
"--inline-suppr" # allows to specify suppressions directly in source code
"--project=${CMAKE_CURRENT_BINARY_DIR}/compile_commands.json" # use the compilation database as source
"--quiet"
"--xml" # we want to generate a report
"--output-file=${CMAKE_CURRENT_BINARY_DIR}/static-analysis-reports/cppcheck/cppcheck.xml" # generate the report under the reports folder in the build folder
"-i${CMAKE_CURRENT_BINARY_DIR}"# exclude the build folder
"${CMAKE_SOURCE_DIR}"
)
endif() # CPPCHECK

15
cmake/modules/falcosecurity-libs-repo/CMakeLists.txt → cmake/modules/sysdig-repo/CMakeLists.txt
View File

@@ -1,5 +1,5 @@
#
# Copyright (C) 2020 The Falco Authors.
# Copyright (C) 2019 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
@@ -12,18 +12,17 @@
#
cmake_minimum_required(VERSION 3.5.1)
project(falcosecurity-libs-repo NONE)
project(sysdig-repo NONE)
include(ExternalProject)
message(STATUS "Libs repository: ${FALCOSECURITY_LIBS_REPO}")
message(STATUS "Libs version: ${FALCOSECURITY_LIBS_VERSION}")
message(STATUS "Driver version: ${SYSDIG_VERSION}")
ExternalProject_Add(
falcosecurity-libs
URL "https://github.com/${FALCOSECURITY_LIBS_REPO}/archive/${FALCOSECURITY_LIBS_VERSION}.tar.gz"
URL_HASH "${FALCOSECURITY_LIBS_CHECKSUM}"
sysdig
URL "https://github.com/draios/sysdig/archive/${SYSDIG_VERSION}.tar.gz"
URL_HASH "${SYSDIG_CHECKSUM}"
CONFIGURE_COMMAND ""
BUILD_COMMAND ""
INSTALL_COMMAND ""
TEST_COMMAND ""
)
PATCH_COMMAND patch -p1 -i ${CMAKE_CURRENT_SOURCE_DIR}/patch/libscap.patch)

31
cmake/modules/sysdig-repo/patch/libscap.patch Normal file
View File

@@ -0,0 +1,31 @@
diff --git a/userspace/libscap/scap.c b/userspace/libscap/scap.c
index e9faea51..a1b3b501 100644
--- a/userspace/libscap/scap.c
+++ b/userspace/libscap/scap.c
@@ -52,7 +52,7 @@ limitations under the License.
//#define NDEBUG
#include <assert.h>
-static const char *SYSDIG_BPF_PROBE_ENV = "SYSDIG_BPF_PROBE";
+static const char *SYSDIG_BPF_PROBE_ENV = "FALCO_BPF_PROBE";
//
// Probe version string size
@@ -171,7 +171,7 @@ scap_t* scap_open_live_int(char *error, int32_t *rc,
return NULL;
}
- snprintf(buf, sizeof(buf), "%s/.sysdig/%s-bpf.o", home, PROBE_NAME);
+ snprintf(buf, sizeof(buf), "%s/.falco/%s-bpf.o", home, PROBE_NAME);
bpf_probe = buf;
}
}
@@ -1808,7 +1808,7 @@ int32_t scap_disable_dynamic_snaplen(scap_t* handle)
const char* scap_get_host_root()
{
- char* p = getenv("SYSDIG_HOST_ROOT");
+ char* p = getenv("HOST_ROOT");
static char env_str[SCAP_MAX_PATH_SIZE + 1];
static bool inited = false;
if (! inited) {

77
cmake/modules/sysdig.cmake Normal file
View File

@@ -0,0 +1,77 @@
#
# Copyright (C) 2020 The Falco Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
set(SYSDIG_CMAKE_SOURCE_DIR "${CMAKE_CURRENT_SOURCE_DIR}/cmake/modules/sysdig-repo")
set(SYSDIG_CMAKE_WORKING_DIR "${CMAKE_BINARY_DIR}/sysdig-repo")
# this needs to be here at the top
if(USE_BUNDLED_DEPS)
# explicitly force this dependency to use the bundled OpenSSL
if(NOT MINIMAL_BUILD)
set(USE_BUNDLED_OPENSSL ON)
endif()
set(USE_BUNDLED_JQ ON)
endif()
file(MAKE_DIRECTORY ${SYSDIG_CMAKE_WORKING_DIR})
# The sysdig git reference (branch name, commit hash, or tag) To update sysdig version for the next release, change the
# default below In case you want to test against another sysdig version just pass the variable - ie., `cmake
# -DSYSDIG_VERSION=dev ..`
if(NOT SYSDIG_VERSION)
set(SYSDIG_VERSION "2aa88dcf6243982697811df4c1b484bcbe9488a2")
set(SYSDIG_CHECKSUM "SHA256=a737077543a6f3473ab306b424bcf7385d788149829ed1538252661b0f20d0f6")
endif()
set(PROBE_VERSION "${SYSDIG_VERSION}")
# cd /path/to/build && cmake /path/to/source
execute_process(COMMAND "${CMAKE_COMMAND}" -DSYSDIG_VERSION=${SYSDIG_VERSION} -DSYSDIG_CHECKSUM=${SYSDIG_CHECKSUM}
${SYSDIG_CMAKE_SOURCE_DIR} WORKING_DIRECTORY ${SYSDIG_CMAKE_WORKING_DIR})
# todo(leodido, fntlnz) > use the following one when CMake version will be >= 3.13
# execute_process(COMMAND "${CMAKE_COMMAND}" -B ${SYSDIG_CMAKE_WORKING_DIR} WORKING_DIRECTORY
# "${SYSDIG_CMAKE_SOURCE_DIR}")
execute_process(COMMAND "${CMAKE_COMMAND}" --build . WORKING_DIRECTORY "${SYSDIG_CMAKE_WORKING_DIR}")
set(SYSDIG_SOURCE_DIR "${SYSDIG_CMAKE_WORKING_DIR}/sysdig-prefix/src/sysdig")
# jsoncpp
set(JSONCPP_SRC "${SYSDIG_SOURCE_DIR}/userspace/libsinsp/third-party/jsoncpp")
set(JSONCPP_INCLUDE "${JSONCPP_SRC}")
set(JSONCPP_LIB_SRC "${JSONCPP_SRC}/jsoncpp.cpp")
# Add driver directory
add_subdirectory("${SYSDIG_SOURCE_DIR}/driver" "${PROJECT_BINARY_DIR}/driver")
# Add libscap directory
add_definitions(-D_GNU_SOURCE)
add_definitions(-DHAS_CAPTURE)
if(MUSL_OPTIMIZED_BUILD)
add_definitions(-DMUSL_OPTIMIZED)
endif()
add_subdirectory("${SYSDIG_SOURCE_DIR}/userspace/libscap" "${PROJECT_BINARY_DIR}/userspace/libscap")
# Add libsinsp directory
add_subdirectory("${SYSDIG_SOURCE_DIR}/userspace/libsinsp" "${PROJECT_BINARY_DIR}/userspace/libsinsp")
add_dependencies(sinsp tbb b64 luajit)
# explicitly disable the tests of this dependency
set(CREATE_TEST_TARGETS OFF)
if(USE_BUNDLED_DEPS)
add_dependencies(scap jq)
if(NOT MINIMAL_BUILD)
add_dependencies(scap curl grpc)
endif()
endif()

3
cmake/modules/yaml-cpp.cmake
View File

@@ -10,7 +10,6 @@
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
# specific language governing permissions and limitations under the License.
#
mark_as_advanced(YAMLCPP_INCLUDE_DIR YAMLCPP_LIB)
if(NOT USE_BUNDLED_DEPS)
find_path(YAMLCPP_INCLUDE_DIR NAMES yaml-cpp/yaml.h)
find_library(YAMLCPP_LIB NAMES yaml-cpp)
@@ -19,7 +18,6 @@ if(NOT USE_BUNDLED_DEPS)
else()
message(FATAL_ERROR "Couldn't find system yamlcpp")
endif()
add_custom_target(yamlcpp)
else()
set(YAMLCPP_SRC "${PROJECT_BINARY_DIR}/yamlcpp-prefix/src/yamlcpp")
message(STATUS "Using bundled yaml-cpp in '${YAMLCPP_SRC}'")
@@ -29,7 +27,6 @@ else()
yamlcpp
URL "https://github.com/jbeder/yaml-cpp/archive/yaml-cpp-0.6.2.tar.gz"
URL_HASH "SHA256=e4d8560e163c3d875fd5d9e5542b5fd5bec810febdcba61481fe5fc4e6b1fd05"
BUILD_BYPRODUCTS ${YAMLCPP_LIB}
BUILD_IN_SOURCE 1
INSTALL_COMMAND "")
endif()

1
docker/CMakeLists.txt Normal file
View File

@@ -0,0 +1 @@
add_subdirectory(local)

3
docker/OWNERS
View File

@@ -2,4 +2,5 @@ labels:
- area/integration
approvers:
- leogr
reviewers:
- leogr

14
docker/README.md
View File

@@ -1,11 +1,17 @@
# Falco Dockerfiles
This directory contains various ways to package Falco as a container and related tools.
This directory contains various ways to package Falco as a container and related tools.
## Currently Supported Images
| Name | Directory | Description |
|---|---|---|
| [falcosecurity/falco:latest](https://hub.docker.com/repository/docker/falcosecurity/falco), [falcosecurity/falco:_tag_](https://hub.docker.com/repository/docker/falcosecurity/falco), [falcosecurity/falco:master](https://hub.docker.com/repository/docker/falcosecurity/falco) | docker/falco | Falco (DEB built from git tag or from the master) with all the building toolchain. |
| [falcosecurity/falco-driver-loader:latest](https://hub.docker.com/repository/docker/falcosecurity/falco-driver-loader), [falcosecurity/falco-driver-loader:_tag_](https://hub.docker.com/repository/docker/falcosecurity/falco-driver-loader), [falcosecurity/falco-driver-loader:master](https://hub.docker.com/repository/docker/falcosecurity/falco-driver-loader) | docker/driver-loader | `falco-driver-loader` as entrypoint with the building toolchain. |
| [falcosecurity/falco-no-driver:latest](https://hub.docker.com/repository/docker/falcosecurity/falco-no-driver), [falcosecurity/falco-no-driver:_tag_](https://hub.docker.com/repository/docker/falcosecurity/falco-no-driver),[falcosecurity/falco-no-driver:master](https://hub.docker.com/repository/docker/falcosecurity/falco-no-driver) | docker/no-driver | Falco (TGZ built from git tag or from the master) without the building toolchain. |
| [falcosecurity/falco:latest](https://hub.docker.com/repository/docker/falcosecurity/falco), [falcosecurity/falco:_tag_](https://hub.docker.com/repository/docker/falcosecurity/falco), [falcosecurity/falco:master](https://hub.docker.com/repository/docker/falcosecurity/falco) | docker/falco | Falco (DEB built from git tag or from the master) with all the building toolchain. |
| [falcosecurity/falco-driver-loader:latest](https://hub.docker.com/repository/docker/falcosecurity/falco-driver-loader), [falcosecurity/falco-driver-loader:_tag_](https://hub.docker.com/repository/docker/falcosecurity/falco-driver-loader), [falcosecurity/falco-driver-loader:master](https://hub.docker.com/repository/docker/falcosecurity/falco-driver-loader) | docker/driver-loader | `falco-driver-loader` as entrypoint with the building toolchain. |
| [falcosecurity/falco-no-driver:latest](https://hub.docker.com/repository/docker/falcosecurity/falco-no-driver), [falcosecurity/falco-no-driver:_tag_](https://hub.docker.com/repository/docker/falcosecurity/falco-no-driver),[falcosecurity/falco-no-driver:master](https://hub.docker.com/repository/docker/falcosecurity/falco-no-driver) | docker/no-driver | Falco (TGZ built from git tag or from the master) without the building toolchain. |
| [falcosecurity/falco-builder:latest](https://hub.docker.com/repository/docker/falcosecurity/falco-builder) | docker/builder | The complete build tool chain for compiling Falco from source. See [the documentation](https://falco.org/docs/source/) for more details on building from source. Used to build Falco (CI). |
| [falcosecurity/falco-tester:latest](https://hub.docker.com/repository/docker/falcosecurity/falco-tester) | docker/tester | Container image for running the Falco test suite. Used to run Falco integration tests (CI). |
| _to not be published_ | docker/local | Built on-the-fly and used by falco-tester. |
> Note: `falco-builder`, `falco-tester` (and the `docker/local` image that it's built on the fly) are not integrated into the release process because they are development and CI tools that need to be manually pushed only when updated.

45
docker/builder/Dockerfile Normal file
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@@ -0,0 +1,45 @@
FROM centos:7
LABEL name="falcosecurity/falco-builder"
LABEL usage="docker run -v $PWD/..:/source -v $PWD/build:/build falcosecurity/falco-builder cmake"
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ARG BUILD_TYPE=release
ARG BUILD_DRIVER=OFF
ARG BUILD_BPF=OFF
ARG BUILD_WARNINGS_AS_ERRORS=ON
ARG MAKE_JOBS=4
ARG FALCO_VERSION
ENV BUILD_TYPE=${BUILD_TYPE}
ENV BUILD_DRIVER=${BUILD_DRIVER}
ENV BUILD_BPF=${BUILD_BPF}
ENV BUILD_WARNINGS_AS_ERRORS=${BUILD_WARNINGS_AS_ERRORS}
ENV MAKE_JOBS=${MAKE_JOBS}
ENV FALCO_VERSION=${FALCO_VERSION}
# build toolchain
RUN yum -y install centos-release-scl && \
INSTALL_PKGS="devtoolset-7-gcc devtoolset-7-gcc-c++ devtoolset-7-toolchain devtoolset-7-libstdc++-devel devtoolset-7-elfutils-libelf-devel llvm-toolset-7 glibc-static autoconf automake libtool createrepo expect git which libcurl-devel zlib-devel ncurses-devel rpm-build libyaml-devel" && \
yum -y install --setopt=tsflags=nodocs $INSTALL_PKGS && \
rpm -V $INSTALL_PKGS
ARG CMAKE_VERSION=3.5.1
RUN source scl_source enable devtoolset-7 llvm-toolset-7 && \
cd /tmp && \
curl -L https://github.com/kitware/cmake/releases/download/v${CMAKE_VERSION}/cmake-${CMAKE_VERSION}.tar.gz | tar xz; \
cd cmake-${CMAKE_VERSION} && \
./bootstrap --system-curl && \
make -j${MAKE_JOBS} && \
make install && \
rm -rf /tmp/cmake-${CMAKE_VERSION}
COPY ./root /
# DTS
ENV BASH_ENV=/usr/bin/scl_enable \
ENV=/usr/bin/scl_enable \
PROMPT_COMMAND=". /usr/bin/scl_enable"
ENTRYPOINT ["entrypoint"]
CMD ["usage"]

6
docker/builder/README.md
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@@ -1,6 +0,0 @@
# Builder folder
* We use `modern-falco-builder.Dockerfile` to build Falco with the modern probe and return it as a Dockerfile output. This Dockerfile doesn't generate a Docker image but returns as output (through the `--output` command):
* Falco `tar.gz`.
* Falco `deb` package.
* Falco `rpm` package.

43
docker/builder/modern-falco-builder.Dockerfile
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@@ -1,43 +0,0 @@
FROM centos:7 AS build-stage
# To build Falco you need to pass the cmake option
ARG CMAKE_OPTIONS=""
ARG MAKE_JOBS=6
# Install all the dependencies
WORKDIR /
RUN yum -y install centos-release-scl; \
yum -y install devtoolset-9-gcc devtoolset-9-gcc-c++; \
source scl_source enable devtoolset-9; \
yum install -y git wget make m4 rpm-build
# With some previous cmake versions it fails when downloading `zlib` with curl in the libs building phase
RUN curl -L -o /tmp/cmake.tar.gz https://github.com/Kitware/CMake/releases/download/v3.22.5/cmake-3.22.5-linux-$(uname -m).tar.gz; \
gzip -d /tmp/cmake.tar.gz; \
tar -xpf /tmp/cmake.tar --directory=/tmp; \
cp -R /tmp/cmake-3.22.5-linux-$(uname -m)/* /usr; \
rm -rf /tmp/cmake-3.22.5-linux-$(uname -m)/
# Copy Falco folder from the build context
COPY . /source
WORKDIR /build/release
RUN source scl_source enable devtoolset-9; \
cmake ${CMAKE_OPTIONS} /source; \
make falco -j${MAKE_JOBS}
RUN make package
# We need `make all` for integration tests.
RUN make all -j${MAKE_JOBS}
FROM scratch AS export-stage
LABEL org.opencontainers.image.source="https://github.com/falcosecurity/falco"
ARG DEST_BUILD_DIR="/build"
COPY --from=build-stage /build/release/falco-*.tar.gz /packages/
COPY --from=build-stage /build/release/falco-*.deb /packages/
COPY --from=build-stage /build/release/falco-*.rpm /packages/

60
docker/builder/root/usr/bin/entrypoint Executable file
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@@ -0,0 +1,60 @@
#!/usr/bin/env bash
set -eu -o pipefail
SOURCE_DIR=/source
BUILD_DIR=/build
CMD=${1:-usage}
shift
# Build type can be "debug" or "release", fallbacks to "release" by default
BUILD_TYPE=$(echo "$BUILD_TYPE" | tr "[:upper:]" "[:lower:]")
DRAIOS_DEBUG_FLAGS=
case "$BUILD_TYPE" in
"debug")
DRAIOS_DEBUG_FLAGS="-D_DEBUG -DNDEBUG"
;;
*)
BUILD_TYPE="release"
;;
esac
case "$CMD" in
"cmake")
# Check that source directory contains Falco
if [ ! -d "$SOURCE_DIR/falco" ]; then
echo "Missing falco source." >&2
exit 1
fi
# Prepare build directory
mkdir -p "$BUILD_DIR/$BUILD_TYPE"
cd "$BUILD_DIR/$BUILD_TYPE"
cmake \
-DCMAKE_BUILD_TYPE="$BUILD_TYPE" \
-DCMAKE_INSTALL_PREFIX=/usr \
-DBUILD_DRIVER="$BUILD_DRIVER" \
-DMINIMAL_BUILD="$MINIMAL_BUILD" \
-DBUILD_BPF="$BUILD_BPF" \
-DBUILD_WARNINGS_AS_ERRORS="$BUILD_WARNINGS_AS_ERRORS" \
-DFALCO_VERSION="$FALCO_VERSION" \
-DDRAIOS_DEBUG_FLAGS="$DRAIOS_DEBUG_FLAGS" \
-DUSE_BUNDLED_DEPS=ON \
"$SOURCE_DIR/falco"
exit "$(printf '%d\n' $?)"
;;
"bash")
CMD=/bin/bash
;& # fallthrough
"usage")
exec "$CMD" "$@"
;;
*)
if [ ! -d "$BUILD_DIR/$BUILD_TYPE" ]; then
echo "Missing $BUILD_DIR/$BUILD_TYPE directory: run cmake."
exit 1
fi
cd "$BUILD_DIR/$BUILD_TYPE"
make -j"$MAKE_JOBS" "$CMD"
;;
esac

6
docker/builder/root/usr/bin/scl_enable Normal file
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@@ -0,0 +1,6 @@
# IMPORTANT: Do not add more content to this file unless you know what you are doing.
# This file is sourced everytime the shell session is opened.
#
# This will make scl collection binaries work out of box.
unset BASH_ENV PROMPT_COMMAND ENV
source scl_source enable devtoolset-7 llvm-toolset-7

53
docker/builder/root/usr/bin/usage Executable file
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@@ -0,0 +1,53 @@
#!/usr/bin/env bash
gccversion=$(gcc --version | head -n1)
cppversion=$(g++ -dM -E -x c++ /dev/null | grep -F __cplusplus | cut -d' ' -f3)
cmakeversion=$(cmake --version | head -n1)
clangversion=$(clang --version | head -n1)
cat <<EOF
Hello, this is the Falco builder container.
How to use.
The default commands for the Falco builder image reports usage and environment info.
* docker run falcosecurity/falco-builder
* docker run falcosecurity/falco-builder usage
It supports bash.
* docker run -ti falcosecurity/falco-builder bash
To build Falco it needs:
- a bind-mount on the source directory (ie., the directory containing Falco and sysdig source as siblings)
Optionally, you can also bind-mount the build directory.
So, you can execute it from the Falco root directory as follows.
* docker run -v $PWD/..:/source -v $PWD/build:/build falcosecurity/falco-builder cmake
* docker run -v $PWD/..:/source -v $PWD/build:/build falcosecurity/falco-builder [<cmake-target-x>, ..., <cmake-target-y>]
Eg.,
* docker run -v $PWD/..:/source -v $PWD/build:/build falcosecurity/falco-builder tests
* docker run -v $PWD/..:/source -v $PWD/build:/build falcosecurity/falco-builder install
How to build.
* cd docker/builder && DOCKER_BUILDKIT=1 docker build -t falcosecurity/falco-builder .
In case you want to customise the builder at build time the following build arguments are provided:
- BUILD_TYPE whether you want a "release" or "debug" build (defaults to "release").
- BUILD_DRIVER whether to build the driver or not (defaults to "OFF")
- BUILD_BPF whether to build the BPF driver or not (defaults to "OFF")
- BUILD_WARNINGS_AS_ERRORS whether to intend warnings as errors or not (defaults to "ON")
- MAKE_JOBS the number of jobs to use during make (defaults to "4")
- FALCO_VERSION the version to label the build (built from git index in case it is missing)
It is possible to change these at runtime (in the container) since environment variables with the same names are provided, too.
Environment.
* ${gccversion}
* cplusplus ${cppversion}
* ${cmakeversion}
* ${clangversion}
EOF

7
docker/driver-loader/Dockerfile
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@@ -1,14 +1,13 @@
ARG FALCO_IMAGE_TAG=latest
FROM docker.io/falcosecurity/falco:${FALCO_IMAGE_TAG}
FROM falcosecurity/falco:${FALCO_IMAGE_TAG}
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
LABEL org.opencontainers.image.source="https://github.com/falcosecurity/falco"
LABEL usage="docker run -i -t --privileged -v /root/.falco:/root/.falco -v /proc:/host/proc:ro -v /boot:/host/boot:ro -v /lib/modules:/host/lib/modules:ro -v /usr:/host/usr:ro -v /etc:/host/etc:ro --name NAME IMAGE"
LABEL usage="docker run -i -t -v /dev:/host/dev -v /proc:/host/proc:ro -v /boot:/host/boot:ro -v /lib/modules:/host/lib/modules:ro -v /usr:/host/usr:ro --name NAME IMAGE"
ENV HOST_ROOT /host
ENV HOME /root
COPY ./docker-entrypoint.sh /
ENTRYPOINT ["/docker-entrypoint.sh"]
ENTRYPOINT ["/docker-entrypoint.sh"]

78
docker/falco/Dockerfile
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@@ -1,11 +1,8 @@
FROM debian:buster
FROM debian:stable
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
LABEL org.opencontainers.image.source="https://github.com/falcosecurity/falco"
LABEL usage="docker run -i -t --privileged -v /var/run/docker.sock:/host/var/run/docker.sock -v /dev:/host/dev -v /proc:/host/proc:ro -v /boot:/host/boot:ro -v /lib/modules:/host/lib/modules:ro -v /usr:/host/usr:ro -v /etc:/host/etc --name NAME IMAGE"
ARG TARGETARCH
LABEL usage="docker run -i -t -v /var/run/docker.sock:/host/var/run/docker.sock -v /dev:/host/dev -v /proc:/host/proc:ro -v /boot:/host/boot:ro -v /lib/modules:/host/lib/modules:ro -v /usr:/host/usr:ro --name NAME IMAGE"
ARG FALCO_VERSION=latest
ARG VERSION_BUCKET=deb
@@ -21,64 +18,53 @@ RUN apt-get update \
&& apt-get install -y --no-install-recommends \
bash-completion \
bc \
bison \
clang-7 \
ca-certificates \
curl \
dkms \
flex \
gnupg2 \
gcc \
jq \
libc6-dev \
libelf-dev \
libssl-dev \
libmpx2 \
llvm-7 \
netcat \
patchelf \
xz-utils \
&& rm -rf /var/lib/apt/lists/*
RUN if [ "$TARGETARCH" = "amd64" ]; \
then apt-get install -y --no-install-recommends libmpx2; \
fi
# gcc 6 is no longer included in debian stable, but we need it to
# build kernel modules on the default debian-based ami used by
# kops. So grab copies we've saved from debian snapshots with the
# prefix https://snapshot.debian.org/archive/debian/20170517T033514Z
# or so.
RUN if [ "$TARGETARCH" = "amd64" ]; then curl -L -o libcilkrts5_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/libcilkrts5_6.3.0-18_${TARGETARCH}.deb; fi; \
curl -L -o cpp-6_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/cpp-6_6.3.0-18_${TARGETARCH}.deb \
&& curl -L -o gcc-6-base_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/gcc-6-base_6.3.0-18_${TARGETARCH}.deb \
&& curl -L -o gcc-6_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/gcc-6_6.3.0-18_${TARGETARCH}.deb \
&& curl -L -o libasan3_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/libasan3_6.3.0-18_${TARGETARCH}.deb \
&& curl -L -o libgcc-6-dev_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/libgcc-6-dev_6.3.0-18_${TARGETARCH}.deb \
&& curl -L -o libubsan0_6.3.0-18_${TARGETARCH}.deb https://download.falco.org/dependencies/libubsan0_6.3.0-18_${TARGETARCH}.deb \
&& curl -L -o libmpfr4_3.1.3-2_${TARGETARCH}.deb https://download.falco.org/dependencies/libmpfr4_3.1.3-2_${TARGETARCH}.deb \
&& curl -L -o libisl15_0.18-1_${TARGETARCH}.deb https://download.falco.org/dependencies/libisl15_0.18-1_${TARGETARCH}.deb \
&& dpkg -i cpp-6_6.3.0-18_${TARGETARCH}.deb gcc-6-base_6.3.0-18_${TARGETARCH}.deb gcc-6_6.3.0-18_${TARGETARCH}.deb libasan3_6.3.0-18_${TARGETARCH}.deb; \
if [ "$TARGETARCH" = "amd64" ]; then dpkg -i libcilkrts5_6.3.0-18_${TARGETARCH}.deb; fi; \
dpkg -i libgcc-6-dev_6.3.0-18_${TARGETARCH}.deb libubsan0_6.3.0-18_${TARGETARCH}.deb libmpfr4_3.1.3-2_${TARGETARCH}.deb libisl15_0.18-1_${TARGETARCH}.deb \
&& rm -f cpp-6_6.3.0-18_${TARGETARCH}.deb gcc-6-base_6.3.0-18_${TARGETARCH}.deb gcc-6_6.3.0-18_${TARGETARCH}.deb libasan3_6.3.0-18_${TARGETARCH}.deb libcilkrts5_6.3.0-18_${TARGETARCH}.deb libgcc-6-dev_6.3.0-18_${TARGETARCH}.deb libubsan0_6.3.0-18_${TARGETARCH}.deb libmpfr4_3.1.3-2_${TARGETARCH}.deb libisl15_0.18-1_${TARGETARCH}.deb
RUN curl -L -o cpp-6_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/cpp-6_6.3.0-18_amd64.deb \
&& curl -L -o gcc-6-base_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-6-base_6.3.0-18_amd64.deb \
&& curl -L -o gcc-6_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-6_6.3.0-18_amd64.deb \
&& curl -L -o libasan3_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libasan3_6.3.0-18_amd64.deb \
&& curl -L -o libcilkrts5_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libcilkrts5_6.3.0-18_amd64.deb \
&& curl -L -o libgcc-6-dev_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libgcc-6-dev_6.3.0-18_amd64.deb \
&& curl -L -o libubsan0_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libubsan0_6.3.0-18_amd64.deb \
&& curl -L -o libmpfr4_3.1.3-2_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libmpfr4_3.1.3-2_amd64.deb \
&& curl -L -o libisl15_0.18-1_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libisl15_0.18-1_amd64.deb \
&& dpkg -i cpp-6_6.3.0-18_amd64.deb gcc-6-base_6.3.0-18_amd64.deb gcc-6_6.3.0-18_amd64.deb libasan3_6.3.0-18_amd64.deb libcilkrts5_6.3.0-18_amd64.deb libgcc-6-dev_6.3.0-18_amd64.deb libubsan0_6.3.0-18_amd64.deb libmpfr4_3.1.3-2_amd64.deb libisl15_0.18-1_amd64.deb \
&& rm -f cpp-6_6.3.0-18_amd64.deb gcc-6-base_6.3.0-18_amd64.deb gcc-6_6.3.0-18_amd64.deb libasan3_6.3.0-18_amd64.deb libcilkrts5_6.3.0-18_amd64.deb libgcc-6-dev_6.3.0-18_amd64.deb libubsan0_6.3.0-18_amd64.deb libmpfr4_3.1.3-2_amd64.deb libisl15_0.18-1_amd64.deb
# gcc 5 is no longer included in debian stable, but we need it to
# build centos kernels, which are 3.x based and explicitly want a gcc
# version 3, 4, or 5 compiler. So grab copies we've saved from debian
# snapshots with the prefix https://snapshot.debian.org/archive/debian/20190122T000000Z.
RUN if [ "$TARGETARCH" = "amd64" ]; then curl -L -o libmpx0_5.5.0-12_${TARGETARCH}.deb https://download.falco.org/dependencies/libmpx0_5.5.0-12_${TARGETARCH}.deb; fi; \
curl -L -o cpp-5_5.5.0-12_${TARGETARCH}.deb https://download.falco.org/dependencies/cpp-5_5.5.0-12_${TARGETARCH}.deb \
&& curl -L -o gcc-5-base_5.5.0-12_${TARGETARCH}.deb https://download.falco.org/dependencies/gcc-5-base_5.5.0-12_${TARGETARCH}.deb \
&& curl -L -o gcc-5_5.5.0-12_${TARGETARCH}.deb https://download.falco.org/dependencies/gcc-5_5.5.0-12_${TARGETARCH}.deb \
&& curl -L -o libasan2_5.5.0-12_${TARGETARCH}.deb https://download.falco.org/dependencies/libasan2_5.5.0-12_${TARGETARCH}.deb \
&& curl -L -o libgcc-5-dev_5.5.0-12_${TARGETARCH}.deb https://download.falco.org/dependencies/libgcc-5-dev_5.5.0-12_${TARGETARCH}.deb \
&& curl -L -o libisl15_0.18-4_${TARGETARCH}.deb https://download.falco.org/dependencies/libisl15_0.18-4_${TARGETARCH}.deb \
&& dpkg -i cpp-5_5.5.0-12_${TARGETARCH}.deb gcc-5-base_5.5.0-12_${TARGETARCH}.deb gcc-5_5.5.0-12_${TARGETARCH}.deb libasan2_5.5.0-12_${TARGETARCH}.deb; \
if [ "$TARGETARCH" = "amd64" ]; then dpkg -i libmpx0_5.5.0-12_${TARGETARCH}.deb; fi; \
dpkg -i libgcc-5-dev_5.5.0-12_${TARGETARCH}.deb libisl15_0.18-4_${TARGETARCH}.deb \
&& rm -f cpp-5_5.5.0-12_${TARGETARCH}.deb gcc-5-base_5.5.0-12_${TARGETARCH}.deb gcc-5_5.5.0-12_${TARGETARCH}.deb libasan2_5.5.0-12_${TARGETARCH}.deb libgcc-5-dev_5.5.0-12_${TARGETARCH}.deb libisl15_0.18-4_${TARGETARCH}.deb libmpx0_5.5.0-12_${TARGETARCH}.deb
RUN curl -L -o cpp-5_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/cpp-5_5.5.0-12_amd64.deb \
&& curl -L -o gcc-5-base_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-5-base_5.5.0-12_amd64.deb \
&& curl -L -o gcc-5_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-5_5.5.0-12_amd64.deb \
&& curl -L -o libasan2_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libasan2_5.5.0-12_amd64.deb \
&& curl -L -o libgcc-5-dev_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libgcc-5-dev_5.5.0-12_amd64.deb \
&& curl -L -o libisl15_0.18-4_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libisl15_0.18-4_amd64.deb \
&& curl -L -o libmpx0_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libmpx0_5.5.0-12_amd64.deb \
&& dpkg -i cpp-5_5.5.0-12_amd64.deb gcc-5-base_5.5.0-12_amd64.deb gcc-5_5.5.0-12_amd64.deb libasan2_5.5.0-12_amd64.deb libgcc-5-dev_5.5.0-12_amd64.deb libisl15_0.18-4_amd64.deb libmpx0_5.5.0-12_amd64.deb \
&& rm -f cpp-5_5.5.0-12_amd64.deb gcc-5-base_5.5.0-12_amd64.deb gcc-5_5.5.0-12_amd64.deb libasan2_5.5.0-12_amd64.deb libgcc-5-dev_5.5.0-12_amd64.deb libisl15_0.18-4_amd64.deb libmpx0_5.5.0-12_amd64.deb
# Since our base Debian image ships with GCC 7 which breaks older kernels, revert the
# default to gcc-5.
@@ -89,8 +75,8 @@ RUN rm -rf /usr/bin/clang \
&& ln -s /usr/bin/clang-7 /usr/bin/clang \
&& ln -s /usr/bin/llc-7 /usr/bin/llc
RUN curl -s https://falco.org/repo/falcosecurity-packages.asc | apt-key add - \
&& echo "deb https://download.falco.org/packages/${VERSION_BUCKET} stable main" | tee -a /etc/apt/sources.list.d/falcosecurity.list \
RUN curl -s https://falco.org/repo/falcosecurity-3672BA8F.asc | apt-key add - \
&& echo "deb https://dl.bintray.com/falcosecurity/${VERSION_BUCKET} stable main" | tee -a /etc/apt/sources.list.d/falcosecurity.list \
&& apt-get update -y \
&& if [ "$FALCO_VERSION" = "latest" ]; then apt-get install -y --no-install-recommends falco; else apt-get install -y --no-install-recommends falco=${FALCO_VERSION}; fi \
&& apt-get clean \
@@ -110,16 +96,10 @@ RUN rm -df /lib/modules \
# debian:stable head contains binutils 2.31, which generates
# binaries that are incompatible with kernels < 4.16. So manually
# forcibly install binutils 2.30-22 instead.
RUN if [ "$TARGETARCH" = "amd64" ] ; then \
curl -L -o binutils-x86-64-linux-gnu_2.30-22_${TARGETARCH}.deb https://download.falco.org/dependencies/binutils-x86-64-linux-gnu_2.30-22_${TARGETARCH}.deb; \
else \
curl -L -o binutils-aarch64-linux-gnu_2.30-22_${TARGETARCH}.deb https://download.falco.org/dependencies/binutils-aarch64-linux-gnu_2.30-22_${TARGETARCH}.deb; \
fi
RUN curl -L -o binutils_2.30-22_${TARGETARCH}.deb https://download.falco.org/dependencies/binutils_2.30-22_${TARGETARCH}.deb \
&& curl -L -o libbinutils_2.30-22_${TARGETARCH}.deb https://download.falco.org/dependencies/libbinutils_2.30-22_${TARGETARCH}.deb \
&& curl -L -o binutils-common_2.30-22_${TARGETARCH}.deb https://download.falco.org/dependencies/binutils-common_2.30-22_${TARGETARCH}.deb \
RUN curl -L -o binutils_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/binutils_2.30-22_amd64.deb \
&& curl -L -o libbinutils_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libbinutils_2.30-22_amd64.deb \
&& curl -L -o binutils-x86-64-linux-gnu_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/binutils-x86-64-linux-gnu_2.30-22_amd64.deb \
&& curl -L -o binutils-common_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/binutils-common_2.30-22_amd64.deb \
&& dpkg -i *binutils*.deb \
&& rm -f *binutils*.deb

7
docker/falco/docker-entrypoint.sh
View File

@@ -16,9 +16,14 @@
# limitations under the License.
#
# todo(leogr): remove deprecation notice within a couple of releases
if [[ ! -z "${SKIP_MODULE_LOAD}" ]]; then
echo "* SKIP_MODULE_LOAD is deprecated and will be removed soon, use SKIP_DRIVER_LOADER instead"
fi
# Set the SKIP_DRIVER_LOADER variable to skip loading the driver
if [[ -z "${SKIP_DRIVER_LOADER}" ]]; then
if [[ -z "${SKIP_DRIVER_LOADER}" ]] && [[ -z "${SKIP_MODULE_LOAD}" ]]; then
echo "* Setting up /usr/src links from host"
for i in "$HOST_ROOT/usr/src"/*

17
docker/local/CMakeLists.txt Normal file
View File

@@ -0,0 +1,17 @@
add_subdirectory(traces)
add_subdirectory(rules)
add_custom_target(local-Dockerfile ALL
DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/Dockerfile)
add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/Dockerfile
COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_CURRENT_SOURCE_DIR}/Dockerfile ${CMAKE_CURRENT_BINARY_DIR}/Dockerfile
DEPENDS ${CMAKE_CURRENT_SOURCE_DIR}/Dockerfile)
add_custom_target(local-docker-entrypoint ALL
DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/docker-entrypoint)
add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/docker-entrypoint
COMMAND ${CMAKE_COMMAND} -E copy ${CMAKE_CURRENT_SOURCE_DIR}/docker-entrypoint.sh ${CMAKE_CURRENT_BINARY_DIR}/docker-entrypoint.sh
DEPENDS ${CMAKE_CURRENT_SOURCE_DIR}/docker-entrypoint.sh)

120
docker/local/Dockerfile Normal file
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@@ -0,0 +1,120 @@
FROM debian:stable
LABEL usage="docker run -i -t -v /var/run/docker.sock:/host/var/run/docker.sock -v /dev:/host/dev -v /proc:/host/proc:ro -v /boot:/host/boot:ro -v /lib/modules:/host/lib/modules:ro -v /usr:/host/usr:ro --name NAME IMAGE"
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ARG FALCO_VERSION=
RUN test -n FALCO_VERSION
ENV FALCO_VERSION ${FALCO_VERSION}
ENV HOST_ROOT /host
ENV HOME /root
RUN cp /etc/skel/.bashrc /root && cp /etc/skel/.profile /root
RUN apt-get update \
&& apt-get install -y --no-install-recommends \
bash-completion \
bc \
clang-7 \
ca-certificates \
curl \
dkms \
gnupg2 \
gcc \
jq \
libc6-dev \
libelf-dev \
libyaml-0-2 \
llvm-7 \
netcat \
xz-utils \
libmpc3 \
binutils \
libgomp1 \
libitm1 \
libatomic1 \
liblsan0 \
libtsan0 \
libmpx2 \
libquadmath0 \
libcc1-0 \
&& rm -rf /var/lib/apt/lists/*
# gcc 6 is no longer included in debian stable, but we need it to
# build kernel modules on the default debian-based ami used by
# kops. So grab copies we've saved from debian snapshots with the
# prefix https://snapshot.debian.org/archive/debian/20170517T033514Z
# or so.
RUN curl -L -o cpp-6_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/cpp-6_6.3.0-18_amd64.deb \
&& curl -L -o gcc-6-base_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-6-base_6.3.0-18_amd64.deb \
&& curl -L -o gcc-6_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-6_6.3.0-18_amd64.deb \
&& curl -L -o libasan3_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libasan3_6.3.0-18_amd64.deb \
&& curl -L -o libcilkrts5_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libcilkrts5_6.3.0-18_amd64.deb \
&& curl -L -o libgcc-6-dev_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libgcc-6-dev_6.3.0-18_amd64.deb \
&& curl -L -o libubsan0_6.3.0-18_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libubsan0_6.3.0-18_amd64.deb \
&& curl -L -o libmpfr4_3.1.3-2_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libmpfr4_3.1.3-2_amd64.deb \
&& curl -L -o libisl15_0.18-1_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libisl15_0.18-1_amd64.deb \
&& dpkg -i cpp-6_6.3.0-18_amd64.deb gcc-6-base_6.3.0-18_amd64.deb gcc-6_6.3.0-18_amd64.deb libasan3_6.3.0-18_amd64.deb libcilkrts5_6.3.0-18_amd64.deb libgcc-6-dev_6.3.0-18_amd64.deb libubsan0_6.3.0-18_amd64.deb libmpfr4_3.1.3-2_amd64.deb libisl15_0.18-1_amd64.deb \
&& rm -f cpp-6_6.3.0-18_amd64.deb gcc-6-base_6.3.0-18_amd64.deb gcc-6_6.3.0-18_amd64.deb libasan3_6.3.0-18_amd64.deb libcilkrts5_6.3.0-18_amd64.deb libgcc-6-dev_6.3.0-18_amd64.deb libubsan0_6.3.0-18_amd64.deb libmpfr4_3.1.3-2_amd64.deb libisl15_0.18-1_amd64.deb
# gcc 5 is no longer included in debian stable, but we need it to
# build centos kernels, which are 3.x based and explicitly want a gcc
# version 3, 4, or 5 compiler. So grab copies we've saved from debian
# snapshots with the prefix https://snapshot.debian.org/archive/debian/20190122T000000Z.
RUN curl -L -o cpp-5_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/cpp-5_5.5.0-12_amd64.deb \
&& curl -L -o gcc-5-base_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-5-base_5.5.0-12_amd64.deb \
&& curl -L -o gcc-5_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/gcc-5_5.5.0-12_amd64.deb \
&& curl -L -o libasan2_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libasan2_5.5.0-12_amd64.deb \
&& curl -L -o libgcc-5-dev_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libgcc-5-dev_5.5.0-12_amd64.deb \
&& curl -L -o libisl15_0.18-4_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libisl15_0.18-4_amd64.deb \
&& curl -L -o libmpx0_5.5.0-12_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libmpx0_5.5.0-12_amd64.deb \
&& dpkg -i cpp-5_5.5.0-12_amd64.deb gcc-5-base_5.5.0-12_amd64.deb gcc-5_5.5.0-12_amd64.deb libasan2_5.5.0-12_amd64.deb libgcc-5-dev_5.5.0-12_amd64.deb libisl15_0.18-4_amd64.deb libmpx0_5.5.0-12_amd64.deb \
&& rm -f cpp-5_5.5.0-12_amd64.deb gcc-5-base_5.5.0-12_amd64.deb gcc-5_5.5.0-12_amd64.deb libasan2_5.5.0-12_amd64.deb libgcc-5-dev_5.5.0-12_amd64.deb libisl15_0.18-4_amd64.deb libmpx0_5.5.0-12_amd64.deb
# Since our base Debian image ships with GCC 7 which breaks older kernels, revert the
# default to gcc-5.
RUN rm -rf /usr/bin/gcc && ln -s /usr/bin/gcc-5 /usr/bin/gcc
RUN rm -rf /usr/bin/clang \
&& rm -rf /usr/bin/llc \
&& ln -s /usr/bin/clang-7 /usr/bin/clang \
&& ln -s /usr/bin/llc-7 /usr/bin/llc
# Some base images have an empty /lib/modules by default
# If it's not empty, docker build will fail instead of
# silently overwriting the existing directory
RUN rm -df /lib/modules \
&& ln -s $HOST_ROOT/lib/modules /lib/modules
ADD falco-${FALCO_VERSION}-x86_64.deb /
RUN dpkg -i /falco-${FALCO_VERSION}-x86_64.deb
# Change the falco config within the container to enable ISO 8601
# output.
RUN sed -e 's/time_format_iso_8601: false/time_format_iso_8601: true/' < /etc/falco/falco.yaml > /etc/falco/falco.yaml.new \
&& mv /etc/falco/falco.yaml.new /etc/falco/falco.yaml
# debian:stable head contains binutils 2.31, which generates
# binaries that are incompatible with kernels < 4.16. So manually
# forcibly install binutils 2.30-22 instead.
RUN curl -L -o binutils_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/binutils_2.30-22_amd64.deb \
&& curl -L -o libbinutils_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/libbinutils_2.30-22_amd64.deb \
&& curl -L -o binutils-x86-64-linux-gnu_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/binutils-x86-64-linux-gnu_2.30-22_amd64.deb \
&& curl -L -o binutils-common_2.30-22_amd64.deb https://dl.bintray.com/falcosecurity/dependencies/binutils-common_2.30-22_amd64.deb \
&& dpkg -i *binutils*.deb \
&& rm -f *binutils*.deb
# The local container also copies some test trace files and
# corresponding rules that are used when running regression tests.
COPY rules/*.yaml /rules/
COPY traces/*.scap /traces/
COPY ./docker-entrypoint.sh /
ENTRYPOINT ["/docker-entrypoint.sh"]
CMD ["/usr/bin/falco"]

34
docker/local/docker-entrypoint.sh Executable file
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@@ -0,0 +1,34 @@
#!/usr/bin/env bash
#
# Copyright (C) 2020 The Falco Authors.
#
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# Set the SKIP_DRIVER_LOADER variable to skip loading the driver
if [[ -z "${SKIP_DRIVER_LOADER}" ]]; then
echo "* Setting up /usr/src links from host"
for i in "$HOST_ROOT/usr/src"/*
do
base=$(basename "$i")
ln -s "$i" "/usr/src/$base"
done
/usr/bin/falco-driver-loader
fi
exec "$@"

13
docker/local/rules/CMakeLists.txt Normal file
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@@ -0,0 +1,13 @@
# Note: list of rules is created at cmake time, not build time
file(GLOB test_rule_files
"${CMAKE_CURRENT_SOURCE_DIR}/../../../test/rules/*.yaml")
foreach(rule_file_path ${test_rule_files})
get_filename_component(rule_file ${rule_file_path} NAME)
add_custom_target(docker-local-rule-${rule_file} ALL
DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${rule_file})
add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${rule_file}
COMMAND ${CMAKE_COMMAND} -E copy ${rule_file_path} ${CMAKE_CURRENT_BINARY_DIR}/${rule_file}
DEPENDS ${rule_file_path})
endforeach()

13
docker/local/traces/CMakeLists.txt Normal file
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@@ -0,0 +1,13 @@
# Note: list of traces is created at cmake time, not build time
file(GLOB test_trace_files
"${CMAKE_CURRENT_SOURCE_DIR}/../../../test/trace_files/*.scap")
foreach(trace_file_path ${test_trace_files})
get_filename_component(trace_file ${trace_file_path} NAME)
add_custom_target(docker-local-trace-${trace_file} ALL
DEPENDS ${CMAKE_CURRENT_BINARY_DIR}/${trace_file})
add_custom_command(OUTPUT ${CMAKE_CURRENT_BINARY_DIR}/${trace_file}
COMMAND ${CMAKE_COMMAND} -E copy ${trace_file_path} ${CMAKE_CURRENT_BINARY_DIR}/${trace_file}
DEPENDS ${trace_file_path})
endforeach()

32
docker/no-driver/Dockerfile
View File

@@ -1,39 +1,27 @@
FROM ubuntu:18.04 as ubuntu
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ARG FALCO_VERSION
ARG VERSION_BUCKET=bin
ENV FALCO_VERSION=${FALCO_VERSION}
ENV VERSION_BUCKET=${VERSION_BUCKET}
RUN apt-get -y update && apt-get -y install gridsite-clients curl ca-certificates
WORKDIR /
RUN curl -L -o falco.tar.gz \
https://download.falco.org/packages/${VERSION_BUCKET}/$(uname -m)/falco-$(urlencode ${FALCO_VERSION})-$(uname -m).tar.gz && \
tar -xvf falco.tar.gz && \
rm -f falco.tar.gz && \
mv falco-${FALCO_VERSION}-$(uname -m) falco && \
rm -rf /falco/usr/src/falco-* /falco/usr/bin/falco-driver-loader
ADD https://bintray.com/api/ui/download/falcosecurity/${VERSION_BUCKET}/x86_64/falco-${FALCO_VERSION}-x86_64.tar.gz /
RUN tar -xvf falco-${FALCO_VERSION}-x86_64.tar.gz && \
rm -f falco-${FALCO_VERSION}-x86_64.tar.gz && \
mv falco-${FALCO_VERSION}-x86_64 falco && \
rm -rf falco/usr/src/falco-* falco/usr/bin/falco-driver-loader
RUN sed -e 's/time_format_iso_8601: false/time_format_iso_8601: true/' < /falco/etc/falco/falco.yaml > /falco/etc/falco/falco.yaml.new \
&& mv /falco/etc/falco/falco.yaml.new /falco/etc/falco/falco.yaml
FROM debian:11-slim
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
LABEL org.opencontainers.image.source="https://github.com/falcosecurity/falco"
LABEL usage="docker run -i -t --privileged -v /var/run/docker.sock:/host/var/run/docker.sock -v /dev:/host/dev -v /proc:/host/proc:ro --name NAME IMAGE"
# NOTE: for the "least privileged" use case, please refer to the official documentation
RUN apt-get -y update && apt-get -y install ca-certificates curl jq \
&& apt clean -y && rm -rf /var/lib/apt/lists/*
ENV HOST_ROOT /host
ENV HOME /root
FROM scratch
COPY --from=ubuntu /falco /
CMD ["/usr/bin/falco", "-o", "time_format_iso_8601=true"]
CMD ["/usr/bin/falco", "-o", "time_format_iso_8601=true"]

22
docker/tester/Dockerfile Normal file
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@@ -0,0 +1,22 @@
FROM fedora:31
LABEL name="falcosecurity/falco-tester"
LABEL usage="docker run -v /boot:/boot:ro -v /var/run/docker.sock:/var/run/docker.sock -v $PWD/..:/source -v $PWD/build:/build --name <name> falcosecurity/falco-tester test"
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ENV FALCO_VERSION=
ENV BUILD_TYPE=release
ADD https://github.com/fullstorydev/grpcurl/releases/download/v1.6.0/grpcurl_1.6.0_linux_x86_64.tar.gz /
RUN dnf install -y python-pip python docker findutils jq unzip && dnf clean all
ENV PATH="/root/.local/bin/:${PATH}"
RUN pip install --user avocado-framework==69.0
RUN pip install --user avocado-framework-plugin-varianter-yaml-to-mux==69.0
RUN pip install --user watchdog==0.10.2
RUN pip install --user pathtools==0.1.2
RUN tar -C /usr/bin -xvf grpcurl_1.6.0_linux_x86_64.tar.gz
COPY ./root /
ENTRYPOINT ["entrypoint"]
CMD ["usage"]

21
docker/tester/root/runners/deb.Dockerfile Normal file
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@@ -0,0 +1,21 @@
FROM ubuntu:18.04
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ARG FALCO_VERSION=
RUN test -n FALCO_VERSION
ENV FALCO_VERSION ${FALCO_VERSION}
RUN apt update -y
RUN apt install dkms -y
ADD falco-${FALCO_VERSION}-x86_64.deb /
RUN dpkg -i /falco-${FALCO_VERSION}-x86_64.deb
# Change the falco config within the container to enable ISO 8601 output.
RUN sed -e 's/time_format_iso_8601: false/time_format_iso_8601: true/' < /etc/falco/falco.yaml > /etc/falco/falco.yaml.new \
&& mv /etc/falco/falco.yaml.new /etc/falco/falco.yaml
COPY rules/*.yaml /rules/
COPY trace_files/*.scap /traces/
CMD ["/usr/bin/falco"]

22
docker/tester/root/runners/rpm.Dockerfile Normal file
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@@ -0,0 +1,22 @@
FROM centos:7
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ARG FALCO_VERSION=
RUN test -n FALCO_VERSION
ENV FALCO_VERSION ${FALCO_VERSION}
RUN yum update -y
RUN yum install epel-release -y
ADD falco-${FALCO_VERSION}-x86_64.rpm /
RUN yum install -y /falco-${FALCO_VERSION}-x86_64.rpm
# Change the falco config within the container to enable ISO 8601 output.
RUN sed -e 's/time_format_iso_8601: false/time_format_iso_8601: true/' < /etc/falco/falco.yaml > /etc/falco/falco.yaml.new \
&& mv /etc/falco/falco.yaml.new /etc/falco/falco.yaml
COPY rules/*.yaml /rules/
COPY trace_files/*.scap /traces/
CMD ["/usr/bin/falco"]

21
docker/tester/root/runners/tar.gz.Dockerfile Normal file
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@@ -0,0 +1,21 @@
FROM ubuntu:18.04
LABEL maintainer="cncf-falco-dev@lists.cncf.io"
ARG FALCO_VERSION=
RUN test -n FALCO_VERSION
ENV FALCO_VERSION ${FALCO_VERSION}
RUN apt update -y
RUN apt install dkms curl -y
ADD falco-${FALCO_VERSION}-x86_64.tar.gz /
RUN cp -R /falco-${FALCO_VERSION}-x86_64/* /
# Change the falco config within the container to enable ISO 8601 output.
RUN sed -e 's/time_format_iso_8601: false/time_format_iso_8601: true/' < /etc/falco/falco.yaml > /etc/falco/falco.yaml.new \
&& mv /etc/falco/falco.yaml.new /etc/falco/falco.yaml
COPY rules/*.yaml /rules/
COPY trace_files/*.scap /traces/
CMD ["/usr/bin/falco"]

91
docker/tester/root/usr/bin/entrypoint Executable file
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@@ -0,0 +1,91 @@
#!/usr/bin/env bash
set -u -o pipefail
BUILD_DIR=${BUILD_DIR:-/build}
SOURCE_DIR=${SOURCE_DIR:-/source}
SKIP_PACKAGES_TESTS=${SKIP_PACKAGES_TESTS:-false}
CMD=${1:-test}
shift
# build type can be "debug" or "release", fallbacks to "release" by default
BUILD_TYPE=$(echo "$BUILD_TYPE" | tr "[:upper:]" "[:lower:]")
case "$BUILD_TYPE" in
"debug")
;;
*)
BUILD_TYPE="release"
;;
esac
build_image() {
BUILD_DIR=$1
BUILD_TYPE=$2
FALCO_VERSION=$3
PACKAGE_TYPE=$4
PACKAGE="$BUILD_DIR/$BUILD_TYPE/falco-$FALCO_VERSION-x86_64.${PACKAGE_TYPE}"
if [ ! -f "$PACKAGE" ]; then
echo "Package not found: ${PACKAGE}." >&2
exit 1
fi
DOCKER_IMAGE_NAME="falcosecurity/falco:test-${PACKAGE_TYPE}"
echo "Building local docker image $DOCKER_IMAGE_NAME from latest ${PACKAGE_TYPE} package..."
mkdir -p /runner-rootfs
cp "$PACKAGE" /runner-rootfs
cp -R "$SOURCE_DIR/falco/test/rules" /runner-rootfs
cp -R "$SOURCE_DIR/falco/test/trace_files" /runner-rootfs
docker build -f "/runners/$PACKAGE_TYPE.Dockerfile" --build-arg FALCO_VERSION="$FALCO_VERSION" -t "$DOCKER_IMAGE_NAME" /runner-rootfs
}
clean_image() {
PACKAGE_TYPE=$1
DOCKER_IMAGE_NAME="falcosecurity/falco:test-${PACKAGE_TYPE}"
docker rmi -f "$DOCKER_IMAGE_NAME"
}
case "$CMD" in
"test")
if [ -z "$FALCO_VERSION" ]; then
echo "Automatically figuring out Falco version."
FALCO_VERSION=$("$BUILD_DIR/$BUILD_TYPE/userspace/falco/falco" --version | head -n 1 | cut -d' ' -f3 | tr -d '\r')
echo "Falco version: $FALCO_VERSION"
fi
if [ -z "$FALCO_VERSION" ]; then
echo "Falco version cannot be guessed, please provide it with the FALCO_VERSION environment variable." >&2
exit 1
fi
# build docker images
if [ "$SKIP_PACKAGES_TESTS" = false ] ; then
build_image "$BUILD_DIR" "$BUILD_TYPE" "$FALCO_VERSION" "deb"
build_image "$BUILD_DIR" "$BUILD_TYPE" "$FALCO_VERSION" "rpm"
build_image "$BUILD_DIR" "$BUILD_TYPE" "$FALCO_VERSION" "tar.gz"
fi
# check that source directory contains Falco
if [ ! -d "$SOURCE_DIR/falco/test" ]; then
echo "Missing $SOURCE_DIR/falco/test directory." >&2
exit 1
fi
# run tests
echo "Running regression tests ..."
cd "$SOURCE_DIR/falco/test"
SKIP_PACKAGES_TESTS=$SKIP_PACKAGES_TESTS ./run_regression_tests.sh -d "$BUILD_DIR/$BUILD_TYPE"
# clean docker images
if [ "$SKIP_PACKAGES_TESTS" = false ] ; then
clean_image "deb"
clean_image "rpm"
clean_image "tar.gz"
fi
;;
"bash")
CMD=/bin/bash
;& # fallthrough
"usage")
exec "$CMD" "$@"
;;
esac

41
docker/tester/root/usr/bin/usage Executable file
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@@ -0,0 +1,41 @@
#!/usr/bin/env bash
pythonversion=$(python -c 'import sys; version=sys.version_info[:3]; print("{0}.{1}.{2}".format(*version))')
pipversion=$(pip --version | cut -d' ' -f 1,2,5,6)
dockerversion=$(docker --version)
avocadoversion=$(pip2 show avocado-framework | grep Version)
avocadoversion=${avocadoversion#"Version: "}
cat <<EOF
Hello, this is the Falco tester container.
How to use.
The default commands for the Falco tester image reports usage and environment info.
* docker run falcosecurity/falco-tester
* docker run falcosecurity/falco-tester usage
It supports bash.
* docker run -ti falcosecurity/falco-tester bash
To run Falco regression tests you need to provide:
- the docker socket
- the boot directory
- the source directory
- the directory where Falco has been built
- the environment variable FALCO_VARIABLE set to the value obtained during the Falco's build
Assuming you are running it from the Falco root directory, you can run it as follows.
* docker run -v /boot:/boot:ro -v /var/run/docker.sock:/var/run/docker.sock -v $PWD/..:/source -v $PWD/build:/build -e FALCO_VERSION=<current_falco_version> falcosecurity/falco-tester test
How to build.
* cd docker/tester && DOCKER_BUILDKIT=1 docker build -t falcosecurity/falco-tester .
Environment.
* python ${pythonversion}
* ${pipversion}
* avocado ${avocadoversion}
* ${dockerversion}
EOF

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@@ -47,7 +47,7 @@ The motivation behind this proposal is to design a new output implementation tha
### Non-Goals
- To substitute existing outputs (stdout, syslog, etc.)
- To support different queuing systems than the default (round-robin) one
- To support different queing systems than the default (round-robin) one
- To support queuing mechanisms for message retransmission
- Users can have a local gRPC relay server along with Falco that multiplexes connections and handles retires and backoff
- To change the output format

4
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@@ -27,7 +27,7 @@ That's where Falco comes in. We want to make it possible for Falco to perform a
Transparently read a candidate PSP into an equivalent set of Falco rules that can look for the conditions in the PSP.
The PSP is converted into a set of Falco rules which can be either saved as a file for later use/inspection, or loaded directly so that they can monitor system calls and k8s audit activity.
The PSP is converted into a set of Falco rules which can be either saved as a file for later use/inspection, or loaded directly so they they can monitor system calls and k8s audit activity.
### Non-Goals
@@ -51,6 +51,6 @@ No diagrams yet.
* We'll use [inja](https://github.com/pantor/inja) as the templating engine.
* For the most part, we can rely on the existing framework of rules, filter expressions, and output expressions that already exist in Falco. One significant change will be that filter fields can extract more than one "value" per event, and we'll need to define new operators to perform set comparisons between values in an event and values in the comparison right-hand-side.
* For the most part, we can rely on the existing framework of rules, filter expressions, and output expressions that already exist in Falco. One significant change will be that filter fields can extract more than one "value" per event, and we'll need to define new operators to perform set comparisions betweeen values in an event and values in the comparison right-hand-side.
* This will rely heavily on existing support for [K8s Audit Events](https://falco.org/docs/event-sources/kubernetes-audit/) in Falco.

8
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@@ -6,13 +6,13 @@ This is a proposal to better structure the Falco API.
The Falco API is a set of contracts describing how users can interacts with Falco.
By defining a set of interfaces the Falco Authors intend to decouple Falco from other software and data (eg., from the input sources) and, at the same time, make it more extensible.
By definiing a set of interfaces the Falco Authors intend to decouple Falco from other softwares and data (eg., from the input sources) and, at the same time, make it more extensible.
Thus, this document intent is to propose a list of services that constitute the Falco API (targeting the first stable version of Falco, v1.0.0).
Thus, this document intent is to propose a list of services that contistute the Falco API (targeting the first stable version of Falco, v1.0.0).
## Motivation
We want to enable users to use third-party clients to interface with Falco outputs, inputs, rules, and configurations.
We want to enable users to use thirdy-party clients to interface with Falco outputs, inputs, rules, and configurations.
Such ability would enable the community to create a whole set of OSS tools, built on top of Falco.
@@ -94,7 +94,7 @@ This translates in having the following set of `proto` files.
}
```
- one or more `.proto` containing the command models - ie., the already existing `schema.proto` containing source enum, etc.
- one or more `.proto` containing the commond models - ie., the already existing `schema.proto` containing source enum, etc.
```proto3
# schema.proto

2
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@@ -36,7 +36,7 @@ There will be no intention to cover Falco rule syntax in this proposal.
### Use cases
When new PRs are created in the area of rules, reviewers need to examine whether there are new rules, macros or lists are introduced. If yes, check whether follow the naming convention.
When new PRs are created in the area of rules, reviewers need to examine whether there are new rules, macros or lists are introduced. If yes, check wether follow the naming convention.
### Diagrams

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@@ -82,7 +82,7 @@ This is done as needed, and can best be measured by the need to cut a release an
### official support
As the need for a project grows, it can ultimately achieve the highest and most coveted status within The Falco Project. "_Official support_."
As the need for a project grows, it can ultimately achieve the highest and most coveted status within The Falco Project. "_Offical support_."
The artifacts listed above are part of the official Falco release process. These artifact will be refined and amended by the [Part 2](./20200506-artifacts-scope-part-2.md).
@@ -111,4 +111,4 @@ Update documentation in [falco-website#184](https://github.com/falcosecurity/fal
### Adjusting projects
- YAML manifest documentation to be moved to `contrib`
- Minikube, Kind, Puppet, Ansible, etc documentation to be moved to `contrib`
- Minkube, Kind, Puppet, Ansible, etc documentation to be moved to `contrib`

240
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@@ -1,240 +0,0 @@
# Proposal for First Class Structured Exceptions in Falco Rules
## Summary
## Motivation
Almost all Falco Rules have cases where the behavior detected by the
rule should be allowed. For example, The rule Write Below Binary Dir
has exceptions for specific programs that are known to write below
these directories as a part of software installation/management:
```yaml
- rule: Write below binary dir
desc: an attempt to write to any file below a set of binary directories
condition: >
bin_dir and evt.dir = < and open_write
and not package_mgmt_procs
and not exe_running_docker_save
and not python_running_get_pip
and not python_running_ms_oms
and not user_known_write_below_binary_dir_activities
...
```
In most cases, these exceptions are expressed as concatenations to the original rule's condition. For example, looking at the macro package_mgmt_procs:
```yaml
- macro: package_mgmt_procs
condition: proc.name in (package_mgmt_binaries)
```
The result is appending `and not proc.name in (package_mgmt_binaries)` to the condition of the rule.
A more extreme case of this is the write_below_etc macro used by Write below etc rule. It has tens of exceptions:
```
...
and not sed_temporary_file
and not exe_running_docker_save
and not ansible_running_python
and not python_running_denyhosts
and not fluentd_writing_conf_files
and not user_known_write_etc_conditions
and not run_by_centrify
and not run_by_adclient
and not qualys_writing_conf_files
and not git_writing_nssdb
...
```
The exceptions all generally follow the same structure--naming a program and a directory prefix below /etc where that program is allowed to write files.
### Using Appends/Overwrites to Customize Rules
An important way to customize rules and macros is to use `append: true` to add to them, or `append: false` to define a new rule/macro, overwriting the original rule/macro. Here's an example from Update Package Repository:
```yaml
- list: package_mgmt_binaries
items: [rpm_binaries, deb_binaries, update-alternat, gem, pip, pip3, sane-utils.post, alternatives, chef-client, apk, snapd]
- macro: package_mgmt_procs
condition: proc.name in (package_mgmt_binaries)
- macro: user_known_update_package_registry
condition: (never_true)
- rule: Update Package Repository
desc: Detect package repositories get updated
condition: >
((open_write and access_repositories) or (modify and modify_repositories))
and not package_mgmt_procs
and not exe_running_docker_save
and not user_known_update_package_registry
```
If someone wanted to add additional exceptions to this rule, they could add the following to the user_rules file:
```yaml
- list: package_mgmt_binaries
items: [puppet]
append: true
- macro: package_mgmt_procs
condition: and not proc.pname=chef
append: true
- macro: user_known_update_package_registry
condition: (proc.name in (npm))
append: false
```
This adds an 3 different exceptions:
* an additional binary to package_mgmt_binaries (because append is true),
* adds to package_mgmt_procs, adding an exception for programs spawned by chef (because append is true)
* overrides the macro user_known_update_package_registry to add an exception for npm (because append is false).
### Problems with Appends/Overrides to Define Exceptions
Although the concepts of macros and lists in condition fields, combined with appending to lists/conditions in macros/rules, is very general purpose, it can be unwieldy:
* Appending to conditions can result in incorrect behavior, unless the original condition has its logical operators set up properly with parentheses. For example:
```yaml
rule: my_rule
condition: (evt.type=open and (fd.name=/tmp/foo or fd.name=/tmp/bar))
rule: my_rule
condition: or fd.name=/tmp/baz
append: true
```
Results in unintended behavior. It will match any fd related event where the name is /tmp/baz, when the intent was probably to add /tmp/baz as an additional opened file.
* A good convention many rules use is to have a clause "and not user_known_xxxx" built into the condition field. However, it's not in all rules and its use is a bit haphazard.
* Appends and overrides can get confusing if you try to apply them multiple times. For example:
```yaml
macro: allowed_files
condition: fd.name=/tmp/foo
...
macro: allowed_files
condition: and fd.name=/tmp/bar
append: true
```
If someone wanted to override the original behavior of allowed_files, they would have to use `append: false` in a third definition of allowed_files, but this would result in losing the append: true override.
## Solution: Exceptions as first class objects
To address some of these problems, we will add the notion of Exceptions as top level objects alongside Rules, Macros, and Lists. A rule that supports exceptions must define a new key `exceptions` in the rule. The exceptions key is a list of identifier plus list of tuples of filtercheck fields. Here's an example:
```yaml
- rule: Write below binary dir
desc: an attempt to write to any file below a set of binary directories
condition: >
bin_dir and evt.dir = < and open_write
and not package_mgmt_procs
and not exe_running_docker_save
and not python_running_get_pip
and not python_running_ms_oms
and not user_known_write_below_binary_dir_activities
exceptions:
- name: proc_writer
fields: [proc.name, fd.directory]
- name: container_writer
fields: [container.image.repository, fd.directory]
comps: [=, startswith]
- name: proc_filenames
fields: [proc.name, fd.name]
comps: [=, in]
- name: filenames
fields: fd.filename
comps: in
```
This rule defines four kinds of exceptions:
* proc_writer: uses a combination of proc.name and fd.directory
* container_writer: uses a combination of container.image.repository and fd.directory
* proc_filenames: uses a combination of process and list of filenames.
* filenames: uses a list of filenames
The specific strings "proc_writer"/"container_writer"/"proc_filenames"/"filenames" are arbitrary strings and don't have a special meaning to the rules file parser. They're only used to link together the list of field names with the list of field values that exist in the exception object.
proc_writer does not have any comps property, so the fields are directly compared to values using the = operator. container_writer does have a comps property, so each field will be compared to the corresponding exception items using the corresponding comparison operator.
proc_filenames uses the in comparison operator, so the corresponding values entry should be a list of filenames.
filenames differs from the others in that it names a single field and single comp operator. This changes how the exception condition snippet is constructed (see below).
Notice that exceptions are defined as a part of the rule. This is important because the author of the rule defines what construes a valid exception to the rule. In this case, an exception can consist of a process and file directory (actor and target), but not a process name only (too broad).
Exception values will most commonly be defined in rules with append: true. Here's an example:
```yaml
- list: apt_files
items: [/bin/ls, /bin/rm]
- rule: Write below binary dir
exceptions:
- name: proc_writer
values:
- [apk, /usr/lib/alpine]
- [npm, /usr/node/bin]
- name: container_writer
values:
- [docker.io/alpine, /usr/libexec/alpine]
- name: proc_filenames
values:
- [apt, apt_files]
- [rpm, [/bin/cp, /bin/pwd]]
- name: filenames
values: [python, go]
```
A rule exception applies if for a given event, the fields in a rule.exception match all of the values in some exception.item. For example, if a program `apk` writes to a file below `/usr/lib/alpine`, the rule will not trigger, even if the condition is met.
Notice that an item in a values list can be a list. This allows building exceptions with operators like "in", "pmatch", etc. that work on a list of items. The item can also be a name of an existing list. If not present surrounding parentheses will be added.
Finally, note that the structure of the values property differs between the items where fields is a list of fields (proc_writer/container_writer/proc_filenames) and when it is a single field (procs_only). This changes how the condition snippet is constructed.
### Implementation
For exception items where the fields property is a list of field names, each exception can be thought of as an implicit "and not (field1 cmp1 val1 and field2 cmp2 val2 and...)" appended to the rule's condition. For exception items where the fields property is a single field name, the exception can be thought of as an implicit "and not field cmp (val1, val2, ...)". In practice, that's how exceptions will be implemented.
When a rule is parsed, the original condition will be wrapped in an extra layer of parentheses and all exception values will be appended to the condition. For example, using the example above, the resulting condition will be:
```
(<Write below binary dir condition>) and not (
(proc.name = apk and fd.directory = /usr/lib/alpine) or (proc.name = npm and fd.directory = /usr/node/bin) or
(container.image.repository = docker.io/alpine and fd.directory startswith /usr/libexec/alpine) or
(proc.name=apt and fd.name in (apt_files))) or
(fd.filename in (python, go))))
```
The exceptions are effectively syntactic sugar that allows expressing sets of exceptions in a concise way.
### Advantages
Adding Exception objects as described here has several advantages:
* All rules will implicitly support exceptions. A rule writer doesn't need to define a user_known_xxx macro and add it to the condition.
* The rule writer has some controls on what defines a valid exception. The rule author knows best what is a good exception, and can define the fields that make up the exception.
* With this approach, it's much easier to add and manage multiple sets of exceptions from multiple sources. You're just combining lists of tuples of filtercheck field values.
## Backwards compatibility
To take advantage of these new features, users will need to upgrade Falco to a version that supports exception objects and exception keys in rules. For the most part, however, the rules file structure is unchanged.
This approach does not remove the ability to append to exceptions nor the existing use of user_xxx macros to define exceptions to rules. It only provides an additional way to express exceptions. Hopefully, we can migrate existing exceptions to use this approach, but there isn't any plan to make wholesale rules changes as a part of this.
This approach is for the most part backwards compatible with older Falco releases. To implement exceptions, we'll add a preprocessing element to rule parsing. The main Falco engine is unchanged.
However, there are a few changes we'll have to make to Falco rules file parsing:
* Currently, Falco will reject files containing anything other than rule/macro/list top-level objects. As a result, `exception` objects would be rejected. We'll probably want to make a one-time change to Falco to allow arbitrary top level objects.
* Similarly, Falco will reject rule objects with exception keys. We'll also probably want to change Falco to allow unknown keys inside rule/macro/list/exception objects.

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@@ -2,8 +2,6 @@
This document reflects when and how we clean up the Falco artifacts from their storage location.
**Superseded by**: [drivers-storage-s3 proposal](https://github.com/falcosecurity/falco/blob/master/proposals/20201025-drivers-storage-s3.md).
## Motivation
The [bintray](https://bintray.com/falcosecurity) open-source plan offers 10GB free space for storing artifacts.
@@ -90,25 +88,15 @@ This way, assuming the number of prebuilt drivers does not skyrocket, we can rea
Notice that, in case a Falco stable release will not depend on a new driver version, this means the last two driver versions will, in this case, cover more than the two Falco stable releases.
### Archiving
### Archivation
Since the process of building drivers is time and resource consuming, this document also proposes to move the driver versions in other storage facilities.
The candidate is an AWS S3 bucket responsible for holding the deleted driver version files.
#### Notice
The current mechanism the Falco community uses to store the Falco drivers is explained by the [drivers-storage-s3](https://github.com/falcosecurity/falco/blob/master/proposals/20201025-drivers-storage-s3.md) proposal.
### Implementation
The [test-infra](https://github.com/falcosecurity/test-infra) CI, specifically its part dedicated to run the **Drivers Build Grid** that runs every time it detects changes into the `driverkit` directory of the [test-infra](https://github.com/falcosecurity/test-infra) repository,
will have a new job - called `drivers/cleanup` - responsible for removing all the Falco driver versions except the last two.
This job will be triggered after the `drivers/publish` completed successfully on the master branch.
#### Notice
At the moment of writing (2021 09 28) the `drivers/cleanup` job is no more in place.
Pragmatically, this means that the older Falco drivers will remain available in their [S3 bucket](https://download.falco.org/?prefix=driver/).
This job will be triggered after the `drivers/publish` completed successfully on the master branch.

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@@ -1,137 +0,0 @@
# Falco Drivers Storage S3
Supersedes: [20200818-artifacts-storage.md#drivers](20200818-artifacts-storage.md#drivers)
Supersedes: [20200901-artifacts-cleanup.md#drivers](20200901-artifacts-cleanup.md#drivers)
## Introduction
In the past days, as many people probably noticed, Bintray started rate-limiting our users, effectively preventing them from downloading any kernel module, rpm/deb package or any pre-built dependency we host there.
This does not only interrupt the workflow of our users but also the workflow of the contributors, since without bintray most of our container images and CMake files cant download the dependencies we mirror.
### What is the cause?
We had a spike in adoption apparently, either a user with many nodes or an increased number of users. We dont know this detail specifically yet because bintray does not give us very fine-grained statistics on this.
This is the 30-days history:
![A spike on driver downloads the last ten days](20201025-drivers-storage-s3_downloads.png)
As you can see, we can only see that they downloaded the latest kernel module driver version, however we cant see if:
* Its a single source or many different users
* What is the kernel/OS they are using
### What do we host on Bintray?
* RPM packages: high traffic but very manageable ~90k downloads a month
* Deb packages:low traffic ~5k downloads a month
* Pre-built image Dependencies: low traffic, will eventually disappear in the future
* Kernel modules: very high traffic, 700k downloads in 10 days, this is what is causing the current problems. They are primarily used by users of our container images.
* eBPF probes: low traffic ~5k downloads a month
### Motivations to go to S3 instead of Bintray for the Drivers
Bintray does an excellent service at building the rpm/deb structures for us, however we also use them for S3-like storage for the drivers. We have ten thousand files hosted there and the combinations are infinite.
Before today, we had many issues with storage even without the spike in users we are seeing since the last ten days.
## Context on AWS
Amazon AWS, recently gave credits to the Falco project to operate some parts of the infrastructure on AWS. The CNCF is providing a sub-account we are already using for the migration of the other pieces (like Prow).
## Interactions with other teams and the CNCF
* The setup on the AWS account side already done, this is all technical work.
* We need to open a CNCF service account ticket for the download.falco.org subdomain to point to the S3 bucket we want to use
## The Plan
We want to propose to move the drivers and the container dependencies to S3.
#### Moving means:
* We create a public S3 bucket with [stats enabled](https://docs.aws.amazon.com/AmazonS3/latest/dev/analytics-storage-class.html)
* We attach the bucket to a cloudfront distribution behind the download.falco.org subdomain
* We move the current content keeping the same web server directory structure
* We change the Falco Dockerfiles and driver loader script accordingly
* We update test-infra to push the drivers to S3
* Once we have the drivers in S3, we can ask bintray to relax the limits for this month so that our users are able to download the other packages we keep there. Otherwise they will have to wait until November 1st. We only want to do that after the moving because otherwise we will hit the limits pretty quickly.
#### The repositories we want to move are:
* [https://bintray.com/falcosecurity/driver](https://bintray.com/falcosecurity/driver) will become https://download.falco.org/driver
* [https://bintray.com/falcosecurity/dependencies](https://bintray.com/falcosecurity/dependencies) will become https://download.falco.org/dependencies
#### Changes in Falco
* [Search for bintray ](https://github.com/falcosecurity/falco/search?p=2&q=bintray)on the Falco repo and replace the URL for the CMake and Docker files.
* Its very important to change the DRIVERS_REPO environment variable [here](https://github.com/falcosecurity/falco/blob/0a33f555eb8e019806b46fea8b80a6302a935421/CMakeLists.txt#L86) - this is what updates the falco-driver-loader scripts that the users and container images use to fetch the module
#### Changes in Test Infra
* We need to use the S3 cli instead of jfrog cli to upload to the s3 bucket after building [here](https://github.com/falcosecurity/test-infra/blob/master/.circleci/config.yml)
* We can probably remove jfrog from that repo since it only deals with drivers and drivers are being put on S3 now
* Instructions on how to setup the S3 directory structure [here](https://falco.org/docs/installation/#install-driver)
* `/$driver_version$/falco_$target$_$kernelrelease$_$kernelversion$.[ko|o]`
#### Changes to Falco website
* Changes should not be necessary, we are not updating the way people install Falco but only the driver. The driver is managed by a script we can change.
## Mitigation and next steps for the users
* **The average users should be good to go now, Bintray raised our limits and we have some room to do this without requiring manual steps on your end**
* **Users that cant wait for us to have the S3 setup done: **can setup an S3 as driver repo themselves, push the drivers they need to it after compiling them (they can use [Driverkit](https://github.com/falcosecurity/driverkit) for that) Instructions on how to setup the S3 directory structure [here](https://falco.org/docs/installation/#install-driver).
* **Users that cant wait but dont want to setup a webserver themselves**: the falco-driver-loader script can also compile the module for you. Make sure to install the kernel-headers on your nodes.
* **Users that can wait** we will approve this document and act on the plan described here by providing the DRIVERS_REPO at [https://download.falco.org/driver](https://download.falco.org/driver) that then you can use
### How to use an alternative DRIVERS_REPO ?
**On bash:**
export DRIVERS_REPO=https://your-url-here
**Docker**
Pass it as environment variable using the docker run flag -e - for example:
docker run -e DRIVERS_REPO=[https://your-url-here](https://your-url-here)
**Kubernetes**
spec:
containers:
- env:
- name: DRIVERS_REPO
value: https://your-url-here
## Release
Next release is on December 1st, we want to rollout a hotfix 0.26.2 release that only contains the updated script before that date so that users dont get confused and we can just tell them "update Falco" to get the thing working again.

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# OSS Libraries Contribution Plan
## Summary
Sysdig Inc. intends to donate **libsinsp**, **libscap**, the **kernel module driver** and the **eBPF driver sources** by moving them to the Falco project.
This means that some parts of the [draios/sysdig](https://github.com/draios/sysdig) repository will be moved to a new GitHub repository called [falcosecurity/libs](https://github.com/falcosecurity/libs).
This plan aims to describe and clarify the terms and goals to get the contribution done.
## Motivation
There are two main OSS projects using the libraries and drivers that we are aware of:
- [sysdig](https://github.com/draios/sysdig) the command line tool
- [Falco](https:/github.com/falcosecurity/falco), the CNCF project.
Since the Falco project is a heavy user of the libraries, a lot more than the sysdig cli tool, Sysdig (the company) decided to donate the libraries and the driver to the Falco community.
Sysdig (the command line tool) will continue to use the libraries now provided by the Falco community underneath.
This change is win-win for both parties because of the following reasons:
- The Falco community owns the source code of the three most important parts of the software it distributes.
- Right now it is "only" an engine on top of the libraries. This **contribution** helps in making the scope of the Falco project broader. Having the majority of the source code under an **open governance** in the same organization gives the Falco project more contribution opportunities, helps it in **evolving independently** and makes the whole Falco community a strong owner of the processes and decision making regarding those crucial parts.
- Given the previous point, Sysdig (the command line tool) will benefit from the now **extended contributors base**
- Sysdig (the company) can now focus on the user experience and user space features
- **Contributions** to the libraries and drivers will be **easier** to spread across the Falco community
- By being donated, with their own **release process**, **release artifacts**, and **documentation**, the libraries can now live on their own and possibly be used directly in other projects by becoming fundamental pieces for their success.
## Goals
There are many sub-projects and each of them interacts in a different way in this contribution.
Let's see the goals per sub-project.
### libsinsp
1. Extract libsinsp from `draios/sysdig/userspace/libsinsp` (keeping the commit history) into [falcosecurity/libs](https://github.com/falcosecurity/libs)
2. The migration comes first, then we can do additional PRs for the points below so that we do only one thing at a time and keep the history linear
3. Keep the same code, refactorings will need to be done in subsequent PRs and approved separately
4. Adapt the CMake and build files
5. Install [poiana](https://github.com/poiana) and its workflows on it
6. Define the `OWNERS`
- Owners are chosen from the current major contributors (considering the past two years) to this project, given their availability, commitment is key
7. When possible, migrate issues and PRs to the new repository
8. Distribute the `libsinsp.so` library and headers as an artifact (rpm, deb, tar.gz) following the falcosecurity current process
9. Distribute the `libsinsp.a` library and headers as an artifact (rpm, deb, tar.gz) following the falcosecurity current process
10. Creation of the CI scripts using the Falco CI and Falco Infra
11. The CI scripts will need to publish the artifacts in the current falcosecurity artifacts repository
12. Artifacts will be pushed for every tag (release) and for every master merge (development release)
13. Falco follows a [multi-stage model for adopting new projects](https://github.com/falcosecurity/evolution#falco-project-evolution), in this case we will do an exception since the library is foundational for Falco and it has a very good track record already
14. This project will go already "Official support" once the contribution is completed
15. Contributing, Code of Conduct, Governance, Security, and Support will be the same as the rest of the organization, find them [here](https://github.com/falcosecurity/.github)
16. Every other additional change will need to have its own process with a proposal
17. Implement the release process as described above
18. Propose a change to Falco repository to use the artifacts produced by the libsinsp release process for the build
19. Document the API
### libscap
1. Extract libscap from `draios/sysdig/userspace/libscap` (keeping the commit history) into [falcosecurity/libs](https://github.com/falcosecurity/libs)
2. The migration comes first, then we can do additional PRs for the points below so that we do only one thing at a time and keep the history linear
3. Keep the same code, refactorings will need to be done in subsequent PRs and approved separately
4. Adapt the CMake and build files
5. Install [poiana](https://github.com/poiana) and its workflows on it
6. Define the `OWNERS`
- Owners are chosen from the current major contributors (considering the past two years) to this project, given their availability, commitment is key
7. When possible, migrate issues and PRs to the new repository
8. Distribute the `libscap.so` library and headers as an artifact (rpm, deb, tar.gz) following the falcosecurity current process
9. Distribute the `libscap.a` library and headers as an artifact (rpm, deb, tar.gz) following the falcosecurity current process
10. Creation of the CI scripts using the Falco CI and Falco Infra
11. The CI scripts will need to publish the artifacts in the current falcosecurity artifacts repository
12. Artifacts will be pushed for every tag (release) and for every master merge (development release)
13. Falco follows a [multi-stage model for adopting new projects](https://github.com/falcosecurity/evolution#falco-project-evolution), in this case we will do an exception since the library is foundational for Falco and it has a very good track record already
14. This project will go already "Official support" once the contribution is completed
15. Contributing, Code of Conduct, Governance, Security, and Support will be the same as the rest of the organization, find them [here](https://github.com/falcosecurity/.github)
16. Every other additional change will need to have its own process with a proposal
17. Implement the release process as described above
18. Propose a change to Falco repository to use the artifacts produced by the libscap release process for the build
19. Document the API
### Drivers: Kernel module and eBPF probe
1. Extract them from `draios/sysdig/driver` (keeping the commit history) into [falcosecurity/libs](https://github.com/falcosecurity/libs)
2. The migration comes first, then we can do additional PRs for the point below so that we do only one thing at a time and keep the history linear
3. Keep the same code, refactorings will need to be done in subsequent PRs and approved separately
4. Adapt the Makefiles and build files
5. Install [poiana](https://github.com/poiana) and its workflows on it
6. Define the `OWNERS`
- Owners are chosen from the current major contributors (considering the past two years) to this project, given their availability, commitment is key
7. When possible, migrate issues and PRs to the new repository
8. Falco follows a [multi-stage model for adopting new projects](https://github.com/falcosecurity/evolution#falco-project-evolution), in this case we will do an exception since the library is foundational for Falco and it has a very good track record already. We are just changing maintenance ownership
9. Contributing, Code of Conduct, Governance, Security, and Support will be the same as the rest of the organization, find them [here](https://github.com/falcosecurity/.github)
10. Every other additional change will need to have its own process with a proposal
11. The Falco community already ships driver artifacts using [driverkit](https://github.com/falcosecurity/driverkit) and the [test-infra repository](https://github.com/falcosecurity/test-infra)
- Adapt the place from which [driverkit](https://github.com/falcosecurity/driverkit) grabs the drivers source
12. This project will go already "Official support" once the migration is completed.
### Falco
1. Adapt the CMake files to point to the new homes for libscap, libsinsp and the drivers
2. When distributing the deb and rpm, libscap and libsinsp will need to be install dependencies and not anymore compiled into Falco
### Driverkit
1. Change the source location for the drivers to point to the new driver repository
### pdig
1. The project will need to be adapted to use libscap and libsinsp and the fillers from their new location

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# Plugin System
## Summary
This is a proposal to create an infrastructure to extend the functionality of the Falco libraries via plugins.
Plugins will allow users to easily extend the functionality of the libraries and, as a consequence, of Falco and any other tool based on the libraries.
This proposal, in particular, focuses on two types of plugins: source plugins and extractor plugins.
## Motivation
[libscap](https://github.com/falcosecurity/libs/tree/master/userspace/libscap) and [libsinsp](https://github.com/falcosecurity/libs/tree/master/userspace/libsinsp) provide a powerful data capture framework, with a rich set of features that includes:
- data capture
- trace files management
- enrichment
- filtering
- formatting and screen rendering
- Lua scripting (chisels)
These features have been designed with one specific input in mind: system calls. However, they are generically adaptable to a broad set of inputs, such as cloud logs.
With this proposal, we want to dramatically extend the scope of what the libraries, Falco and other tools can be applied to. We want to do it in a way that is easy, efficient and empowers anyone in the community to write a plugin.
## Goals
- To design and implement a plugin framework that makes the libraries more modular and extensible
- To have a framework that is easy to use
- To support dynamic loading of plugins, so that the libraries can be extended without having to be recompiled and relinked
- To enable users to write plugins in any language, with a particular focus on Go, C and C++
- To have an efficient plugin framework so that, performance-wise, writing a plugin is as close as possible as extending the libraries internal source code
- To make it possible to write plugins for Linux, MacOS and Windows
## Non-Goals
- To implement plugins other than source and extractor: to be approached as separate task
- To document the plugin framework and interface: to be approached as separate task
## Proposal
### Plugin Common Information
Both source and extractor plugins have the following:
- A required api version, to ensure compatibility with the plugin framework.
- A name
- A description
- A version
- A contact field for the plugin authors (website, github repo, twitter, etc).
- Functions to initialize and destroy the plugin internal state.
### Plugin types
Initially, we will implement support for two types of plugins: source plugins and extractor plugins.
#### Source Plugin
A source plugin implements a new sinsp/scap event source. It has the ability to "open" and "close" a session that provides events. It also has the ability to return an event to the plugin framework via a next() method. Events returned by source plugins have an "event source", which describes the information in the event. This is distinct from the plugin name to allow for multiple kinds of plugins to generate the same kind of events. For example, there might be plugins gke-audit-bridge, eks-audit-bridge, ibmcloud-audit-bridge, etc. that all fetch [K8s Audit](https://kubernetes.io/docs/tasks/debug-application-cluster/audit/) information. The plugins would have different names but would have the same event source "k8s_audit".
Source plugins also have the ability to extract information from events based on fields. For example, a field proc.name extracts a process name from a syscall event. The plugin returns a set of supported fields, and there are functions to extract a value given an event and field. The plugin framework can then build filtering expressions/Falco rule conditions based on these fields combined with relational and/or logical operators. For example, given an expression "ct.name=root and ct.region=us-east-1", the plugin framework handles parsing the expression, calling the plugin to extract values for a given event, and determining the result of the expression. In a Falco output string like "An EC2 Node was created (name=%ec2.name region=%ct.region)", the plugin framework handles parsing the output string, calling the plugin to extract values for a given event, and building the resolved string.
Source plugins also provide an "id", which is globally unique and is used in capture files (see below).
#### Extractor Plugin
An extractor plugin focuses only on field extraction from events generated by other plugins, or by the core libraries. It does *not* provide an event source, but can extract fields from other event sources. An example is json field extraction, where a plugin might be able to extract fields from arbitrary json payloads.
An extractor plugin provides an optional set of event sources. When the framework receives an event with an event source in the plugin's set of event sources, fields in expressions/Falco outputs will be extracted from events using the plugin. An extractor plugin can also *not* name a set of event sources. In this case, fields will be extracted from *all* events, regardless of source. In this case, the extractor plugin must detect the format of arbitrary payloads and be able to return NULL/no value when the payload is not supported.
### Support for Plugin Events in Capture Files.
libscap will define a new event type called "pluginevent" that contains two fields:
* "plugin ID": This uniquely identifies the plugin that generated this event.
* "event_data": This is a variable-length data buffer containing the event data, as returned by the plugin.
Defining an event for plugins allows creating capture files from plugins. These capture files can be saved, read, filtered, etc, like any other capture file, allowing for later analysis/display/etc.
### Plugins format
Plugins are dynamic libraries (.so files in Unix, .dll files in windows) that export a minimum set of functions that the libraries will recognize.
Plugins are versioned using semantic versioning to minimize regressions and compatibility issues.
Plugins can be written in any language, as long as they export the required functions. Go, however, is the preferred language to write plugins, followed by C/C++.
### Protecting from plugin issues
The libraries will do everything possible to validate the data coming from the plugins and protect Falco and the other consumers from corrupted data. However, for performance reasons, plugins will be "trusted": they will run in the same thread and address space as Falco and they could crash the program. We assume that the user will be in control of plugin loading and will make sure only trusted plugins are loaded/packaged with Falco.
### Plugin/Event Source registries
Every source plugin requires its own, unique plugin ID to interoperate with Falco and the other plugins. The plugin ID will be used by the libs to properly process incoming events (for example, when saving events to file and loading them back), and by plugins to unambiguously recognize their dependencies.
To facilitate the allocation and distribution of plugin IDs, we will require that plugin developers request IDs for their plugins to the Falco organization. The mechanism used for plugin allocation is not determined yet and will be discussed in the future.
Similarly, plugin developers must register event sources with the Falco organization. This allows coordination between plugins that wish to provide compatible payloads, and to allow extractor plugins to know what data format is associated with a given event source.
### golang plugin SDK
To facilitate the development of plugins written in go, an SDK has been developed. We intend this SDK (and future SDKs for other languages) to be part of the Falco organization. For this reason, we submitted the following incubation request: https://github.com/falcosecurity/evolution/issues/62
### Proposed API (subject to change)
```c
// This struct represents an event returned by the plugin, and is used
// below in next()/next_batch().
// - data: pointer to a memory buffer pointer. The plugin will set it
// to point to the memory containing the next event. Once returned,
// the memory is owned by the plugin framework and will be freed via
// a call to free().
// - datalen: pointer to a 32bit integer. The plugin will set it the size of the
// buffer pointed by data.
// - ts: the event timestamp. Can be (uint64_t)-1, in which case the engine will
// automatically fill the event time with the current time.
typedef struct ss_plugin_event
{
uint8_t *data;
uint32_t datalen;
uint64_t ts;
} ss_plugin_event;
//
// This is the opaque pointer to the state of a plugin.
// It points to any data that might be needed plugin-wise. It is
// allocated by init() and must be destroyed by destroy().
// It is defined as void because the engine doesn't care what it is
// and it treats is as opaque.
//
typedef void ss_plugin_t;
//
// This is the opaque pointer to the state of an open instance of the source
// plugin.
// It points to any data that is needed while a capture is running. It is
// allocated by open() and must be destroyed by close().
// It is defined as void because the engine doesn't care what it is
// and it treats is as opaque.
//
typedef void ss_instance_t;
//
// Interface for a sinsp/scap source plugin
//
//
// NOTE: For all functions below that return a char *, the memory
// pointed to by the char * must be allocated by the plugin using
// malloc() and should be freed by the caller using free().
//
// For each function below, the exported symbol from the dynamic
// library should have a prefix of "plugin_"
// (e.g. plugin_get_required_api_version, plugin_init, etc.)
//
typedef struct
{
//
// Return the version of the plugin API used by this plugin.
// Required: yes
// Return value: the API version string, in the following format:
// "<major>.<minor>.<patch>", e.g. "1.2.3".
// NOTE: to ensure correct interoperability between the engine and the plugins,
// we use a semver approach. Plugins are required to specify the version
// of the API they run against, and the engine will take care of checking
// and enforcing compatibility.
//
char* (*get_required_api_version)();
//
// Return the plugin type.
// Required: yes
// Should return TYPE_SOURCE_PLUGIN. It still makes sense to
// have a function get_type() as the plugin interface will
// often dlsym() functions from shared libraries, and can't
// inspect any C struct type.
//
uint32_t (*get_type)();
//
// Initialize the plugin and, if needed, allocate its state.
// Required: yes
// Arguments:
// - config: a string with the plugin configuration. The format of the
// string is chosen by the plugin itself.
// - rc: pointer to an integer that will contain the initialization result,
// as a SCAP_* value (e.g. SCAP_SUCCESS=0, SCAP_FAILURE=1)
// Return value: pointer to the plugin state that will be treated as opaque
// by the engine and passed to the other plugin functions.
// If rc is SCAP_FAILURE, this function should return NULL.
//
ss_plugin_t* (*init)(char* config, int32_t* rc);
//
// Destroy the plugin and, if plugin state was allocated, free it.
// Required: yes
//
void (*destroy)(ss_plugin_t* s);
//
// Return a string with the error that was last generated by
// the plugin.
// Required: yes
//
// In cases where any other api function returns an error, the
// plugin should be prepared to return a human-readable error
// string with more context for the error. The plugin manager
// calls get_last_error() to access that string.
//
char* (*get_last_error)(ss_plugin_t* s);
//
// Return the unique ID of the plugin.
// Required: yes
// EVERY SOURCE PLUGIN (see get_type()) MUST OBTAIN AN OFFICIAL ID FROM THE
// FALCOSECURITY ORGANIZATION, OTHERWISE IT WON'T PROPERLY COEXIST WITH OTHER PLUGINS.
//
uint32_t (*get_id)();
//
// Return the name of the plugin, which will be printed when displaying
// information about the plugin.
// Required: yes
//
char* (*get_name)();
//
// Return the descriptions of the plugin, which will be printed when displaying
// information about the plugin or its events.
// Required: yes
//
char* (*get_description)();
//
// Return a string containing contact info (url, email, twitter, etc) for
// the plugin authors.
// Required: yes
//
char* (*get_contact)();
//
// Return the version of this plugin itself
// Required: yes
// Return value: a string with a version identifier, in the following format:
// "<major>.<minor>.<patch>", e.g. "1.2.3".
// This differs from the api version in that this versions the
// plugin itself, as compared to the plugin interface. When
// reading capture files, the major version of the plugin that
// generated events must match the major version of the plugin
// used to read events.
//
char* (*get_version)();
//
// Return a string describing the events generated by this source plugin.
// Required: yes
// Example event sources would be strings like "syscall",
// "k8s_audit", etc. The source can be used by extractor
// plugins to filter the events they receive.
//
char* (*get_event_source)();
//
// Return the list of extractor fields exported by this plugin. Extractor
// fields can be used in Falco rule conditions and sysdig filters.
// Required: no
// Return value: a string with the list of fields encoded as a json
// array.
// Each field entry is a json object with the following properties:
// "type": one of "string", "uint64"
// "name": a string with a name for the field
// "desc": a string with a description of the field
// Example return value:
// [
// {"type": "string", "name": "field1", "desc": "Describing field 1"},
// {"type": "uint64", "name": "field2", "desc": "Describing field 2"}
// ]
char* (*get_fields)();
//
// Open the source and start a capture.
// Required: yes
// Arguments:
// - s: the plugin state returned by init()
// - params: the open parameters, as a string. The format is defined by the plugin
// itself
// - rc: pointer to an integer that will contain the open result, as a SCAP_* value
// (e.g. SCAP_SUCCESS=0, SCAP_FAILURE=1)
// Return value: a pointer to the open context that will be passed to next(),
// close(), event_to_string() and extract_*.
//
ss_instance_t* (*open)(ss_plugin_t* s, char* params, int32_t* rc);
//
// Close a capture.
// Required: yes
// Arguments:
// - s: the plugin context, returned by init(). Can be NULL.
// - h: the capture context, returned by open(). Can be NULL.
//
void (*close)(ss_plugin_t* s, ss_instance_t* h);
//
// Return the next event.
// Required: yes
// Arguments:
// - s: the plugin context, returned by init(). Can be NULL.
// - h: the capture context, returned by open(). Can be NULL.
//
// - evt: pointer to a ss_plugin_event pointer. The plugin should
// allocate a ss_plugin_event struct using malloc(), as well as
// allocate the data buffer within the ss_plugin_event struct.
// Both the struct and data buffer are owned by the plugin framework
// and will free them using free().
//
// Return value: the status of the operation (e.g. SCAP_SUCCESS=0, SCAP_FAILURE=1,
// SCAP_TIMEOUT=-1)
//
int32_t (*next)(ss_plugin_t* s, ss_instance_t* h, ss_plugin_event **evt);
//
// Return the read progress.
// Required: no
// Arguments:
// - progress_pct: the read progress, as a number between 0 (no data has been read)
// and 10000 (100% of the data has been read). This encoding allows the engine to
// print progress decimals without requiring to deal with floating point numbers
// (which could cause incompatibility problems with some languages).
// Return value: a string representation of the read
// progress. This might include the progress percentage
// combined with additional context added by the plugin. If
// NULL, progress_pct should be used.
// NOTE: reporting progress is optional and in some case could be impossible. However,
// when possible, it's recommended as it provides valuable information to the
// user.
//
char* (*get_progress)(ss_plugin_t* s, ss_instance_t* h, uint32_t* progress_pct);
//
// Return a text representation of an event generated by this source plugin.
// Required: yes
// Arguments:
// - data: the buffer from an event produced by next().
// - datalen: the length of the buffer from an event produced by next().
// Return value: the text representation of the event. This is used, for example,
// by sysdig to print a line for the given event.
//
char *(*event_to_string)(ss_plugin_t *s, const uint8_t *data, uint32_t datalen);
//
// Extract a filter field value from an event.
// We offer multiple versions of extract(), differing from each other only in
// the type of the value they return (string, integer...).
// Required: no
// Arguments:
// - evtnum: the number of the event that is bein processed
// - id: the numeric identifier of the field to extract. It corresponds to the
// position of the field in the array returned by get_fields().
// - arg: the field argument, if an argument has been specified for the field,
// otherwise it's NULL. For example:
// * if the field specified by the user is foo.bar[pippo], arg will be the
// string "pippo"
// * if the field specified by the user is foo.bar, arg will be NULL
// - data: the buffer produced by next().
// - datalen: the length of the buffer produced by next().
// - field_present: nonzero if the field is present for the given event.
// Return value: the produced value of the filter field. For extract_str(), a
// NULL return value means that the field is missing for the given event.
//
char *(*extract_str)(ss_plugin_t *s, uint64_t evtnum, const char * field, const char *arg, uint8_t *data, uint32_t datalen);
uint64_t (*extract_u64)(ss_plugin_t *s, uint64_t evtnum, const char *field, const char *arg, uint8_t *data, uint32_t datalen, uint32_t *field_present);
//
// This is an optional, internal, function used to speed up event capture by
// batching the calls to next().
// On success:
// - nevts will be filled in with the number of events.
// - evts: pointer to an ss_plugin_event pointer. The plugin should
// allocate an array of contiguous ss_plugin_event structs using malloc(),
// as well as allocate each data buffer within each ss_plugin_event
// struct using malloc(). Both the array of structs and each data buffer are
// owned by the plugin framework and will free them using free().
// Required: no
//
int32_t (*next_batch)(ss_plugin_t* s, ss_instance_t* h, uint32_t *nevts, ss_plugin_event **evts);
//
// This is an optional, internal, function used to speed up value extraction
// Required: no
//
int32_t (*register_async_extractor)(ss_plugin_t *s, async_extractor_info *info);
//
// The following members are PRIVATE for the engine and should not be touched.
//
ss_plugin_t* state;
ss_instance_t* handle;
uint32_t id;
char *name;
} source_plugin_info;
//
// Interface for a sinsp/scap extractor plugin
//
//
// NOTE: For all functions below that return a char *, the memory
// pointed to by the char * must be allocated by the plugin using
// malloc() and should be freed by the caller using free().
//
typedef struct
{
//
// Return the version of the plugin API used by this plugin.
// Required: yes
// Return value: the API version string, in the following format:
// "<major>.<minor>.<patch>", e.g. "1.2.3".
// NOTE: to ensure correct interoperability between the engine and the plugins,
// we use a semver approach. Plugins are required to specify the version
// of the API they run against, and the engine will take care of checking
// and enforcing compatibility.
//
char* (*get_required_api_version)();
//
// Return the plugin type.
// Required: yes
// Should return TYPE_EXTRACTOR_PLUGIN. It still makes sense to
// have a function get_type() as the plugin interface will
// often dlsym() functions from shared libraries, and can't
// inspect any C struct type.
//
uint32_t (*get_type)();
//
// Initialize the plugin and, if needed, allocate its state.
// Required: yes
// Arguments:
// - config: a string with the plugin configuration. The format of the
// string is chosen by the plugin itself.
// - rc: pointer to an integer that will contain the initialization result,
// as a SCAP_* value (e.g. SCAP_SUCCESS=0, SCAP_FAILURE=1)
// Return value: pointer to the plugin state that will be treated as opaque
// by the engine and passed to the other plugin functions.
//
ss_plugin_t* (*init)(char* config, int32_t* rc);
//
// Destroy the plugin and, if plugin state was allocated, free it.
// Required: yes
//
void (*destroy)(ss_plugin_t* s);
//
// Return a string with the error that was last generated by
// the plugin.
// Required: yes
//
// In cases where any other api function returns an error, the
// plugin should be prepared to return a human-readable error
// string with more context for the error. The plugin manager
// calls get_last_error() to access that string.
//
char* (*get_last_error)(ss_plugin_t* s);
//
// Return the name of the plugin, which will be printed when displaying
// information about the plugin.
// Required: yes
//
char* (*get_name)();
//
// Return the descriptions of the plugin, which will be printed when displaying
// information about the plugin or its events.
// Required: yes
//
char* (*get_description)();
//
// Return a string containing contact info (url, email, twitter, etc) for
// the plugin author.
// Required: yes
//
char* (*get_contact)();
//
// Return the version of this plugin itself
// Required: yes
// Return value: a string with a version identifier, in the following format:
// "<major>.<minor>.<patch>", e.g. "1.2.3".
// This differs from the api version in that this versions the
// plugin itself, as compared to the plugin interface. When
// reading capture files, the major version of the plugin that
// generated events must match the major version of the plugin
// used to read events.
//
char* (*get_version)();
//
// Return a string describing the event sources that this
// extractor plugin can consume.
// Required: no
// Return value: a json array of strings containing event
// sources returned by a source plugin's get_event_source()
// function.
// This function is optional--if NULL then the extractor
// plugin will receive every event.
//
char* (*get_extract_event_sources)();
//
// Return the list of extractor fields exported by this plugin. Extractor
// fields can be used in Falco rules and sysdig filters.
// Required: yes
// Return value: a string with the list of fields encoded as a json
// array.
//
char* (*get_fields)();
//
// Extract a filter field value from an event.
// We offer multiple versions of extract(), differing from each other only in
// the type of the value they return (string, integer...).
// Required: for plugins of type TYPE_EXTRACTOR_PLUGIN only
// Arguments:
// - evtnum: the number of the event that is being processed
// - id: the numeric identifier of the field to extract. It corresponds to the
// position of the field in the array returned by get_fields().
// - arg: the field argument, if an argument has been specified for the field,
// otherwise it's NULL. For example:
// * if the field specified by the user is foo.bar[pippo], arg will be the
// string "pippo"
// * if the field specified by the user is foo.bar, arg will be NULL
// - data: the buffer produced by next().
// - datalen: the length of the buffer produced by next().
// - field_present: nonzero if the field is present for the given event.
// Return value: the produced value of the filter field. For extract_str(), a
// NULL return value means that the field is missing for the given event.
//
char *(*extract_str)(ss_plugin_t *s, uint64_t evtnum, const char *field, const char *arg, uint8_t *data, uint32_t datalen);
uint64_t (*extract_u64)(ss_plugin_t *s, uint64_t evtnum, const char *field, const char *arg, uint8_t *data, uint32_t datalen, uint32_t *field_present);
} extractor_plugin_info;
```
### Event Sources and Falco Rules
Falco rules already have the notion of a "source", using the source property in rules objects, and there are currently two kinds of event sources: "syscall" and "k8s_audit". We will use the source property in Falco rules to map a given rule to the event source on which the rule runs.
For example, given a plugin with source "aws_cloudtrail", and a Falco rule with source "aws_cloudtrail", the rule will be evaluated for any events generated by the plugin.
Similarly, an extractor plugin that includes "aws_cloudtrail" in its set of event sources will have the opportunity to extract information from aws_cloudtrail events if a matching field is found in the rule's condition, exception, or output properties.
This, combined with the restrictions below, allows a set of loaded rules files to contain a mix of rules for plugins as well as "core" syscall/k8s_audit events.
We will also make a change to compile rules/macros/lists selectively based on the set of loaded plugins (specifically, their event sources), instead of unconditionally as Falco is started. This is especially important for macros, which do not contain a source property, but might contain fields that are only implemented by a given plugin.
### Handling Duplicate/Overlapping Fields in Plugins/Libraries Core
At an initial glance, adding plugins introduces the possibility of tens/hundreds of new filtercheck fields that could potentially overlap/conflict. For example, what happens if a plugin defines a "proc.name" field? However, the notion of "event source" makes these potential conflicts manageable.
Remember that field extraction is always done in the context of an event, and each event can be mapped back to an event source. So we only need to ensure that filtercheck fields are distinct for a given event source. For example, it's perfectly valid for an AWS Cloudtrail plugin to define a proc.name field, as the events generated by that plugin are wholly separate from syscall events. For syscall events, the AWS Cloudtrail plugin is not involved and the core libraries extract the process name for the tid performing a syscall. For AWS Cloudtrail events, the core libraries are not involved in field extraction and is performed by the AWS Cloudtrail plugin instead.
We only need to ensure the following:
* That only one plugin is loaded at a time that exports a given event source. For example, the libraries can load either a gke-audit-bridge plugin with event source k8s_audit, or eks-audit-bridge with event source k8s_audit, but not both.
* That for a mix of source and extractor plugins having the same event source, that the fields are distinct. For example, a source plugin with source k8s_audit can export ka.* fields, and an extractor plugin with event source k8s_audit can export a jevt.value[/...] field, and the appropriate plugin will be used to extract fields from k8s_audit events as fields are parsed from condition expressions/output format strings.
### Plugin Versions and Falco Rules
To allow rules files to document the plugin versions they are compatible with, we will add a new top-level field `required_plugin_versions` to the Falco rules file format. The field is optional, and if not provided no plugin compatibility checks will be performed. The syntax of `required_plugin_versions` will be the following:
```yaml
- required_plugin_versions:
- name: <plugin_name>
version: x.y.z
...
```
Below required_plugin_versions is a list of objects, where each object has `name` and `version` properties. If a plugin is loaded, and if an entry in `required_plugin_versions` has a matching name, then the loaded plugin version must be semver compatible with the version property.
Falco can load multiple rules files, and each file may contain its own `required_plugin_versions` property. In this case, name+version pairs across all files will be merged, and in the case of duplicate names all provided versions must be compatible.
### Loading the plugins
The mechanics of loading a plugin are implemented in the libraries and leverage the dynamic library functionality of the operating system (dlopen/dlsym in unix, LoadLibrary/GetProcAddress in Windows). The plugin loading code also ensures that:
- the plugin is valid, i.e. that it exports the set of expected symbols
- the plugin has an api version number that is compatible with the libraries instance
- that only one source plugin is loaded at a time for a given event source
- if a mix of source and extractor plugins are loaded for a given event source, that the exported fields have unique names that don't overlap across plugins
#### Loading plugins in falcosecurity/libs
At the libraries level, loading plugins is handled via the static method:
```c++
void sinsp_plugin::register_plugin(sinsp* inspector, string filepath, char* config, ...)
```
filepath points to a dynamic library containing code that exports plugin API functions. config contains arbitrary config content which is passed to init().
Note that the code using the libraries is responsible for determining the location of plugin libraries and their configuration.
#### Loading plugins in falcosecurity/falco
Falco will control/configure loading plugins via the new "plugins" property in falco.yaml. Here's an example:
```yaml
plugins:
- name: aws_cloudtrail
library_path: aws_cloudtrail/plugin.so
init_config: "..."
open_params: "..."
- name: http_json
library_path: http_json/plugin.so
init_config_file: http_json/config.txt
open_params_file: http_json/params.txt
# Optional
load_plugins: [aws_cloudtrail]
```
A new "plugins" property in falco.yaml will define the set of plugins that can be loaded by Falco. The property contains a list of objects, with the following properties:
* name: Only used for load_plugins, but by convention should be the same as the value returned by the name() api function.
* library_path: a path to the shared library. The path can be relative, in which case it is relative to Falco's "share" directory under a "plugins" subdirectory e.g. /usr/share/falco/plugins.
* init_config: If present, the exact configuration text that will be provided as an argument to the init() function.
* init_config_file: If present, the provided file will be read and the contents will be provided as an argument to the init() function.
* open_params: If present, the exact params text that will be provided as an argument to the open() function.
* open_params_file: If present, the provided file will be read and the contents will be provided as an argument to the open() function.
For a given yaml object in the plugins list, only one of init_config/init_config_file and one of open_params/open_params_file can be provided at a time.
A new "load_plugins" property in falco.yaml will allow for loading a subset of the plugins defined in plugins. If present, only the plugins with the provided names will be loaded.
### Examples
We have an initial version working, consisting of:
* A version of falcosecurity/libs that supports the [plugin framework](https://github.com/falcosecurity/libs/tree/new/plugin-system-api-additions)
* Support code and examples for [writing plugins in go](https://github.com/mstemm/libsinsp-plugin-sdk-go/tree/new/plugin-system-api-additions)
* A [cloudtrail](https://github.com/mstemm/plugins/tree/new/plugin-system-api-additions) plugin that can generate events from cloudtrail logs and extract fields from those events.
* A version of Falco that uses all of the above to [load and evaluate rules with plugins](https://github.com/leogr/falco/tree/new/plugin-system-api-additions)

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