Adding upstream version 1.29.0.upstream/1.29.0

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 128 insertions, 0 deletions

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+<!--
+title: "External build-system"
+date: 2020-03-31
+custom_edit_url: https://github.com/netdata/netdata/edit/master/build_external/README.md
+-->
+
+# External build-system
+
+This wraps the build-system in Docker so that the host system and the target system are
+decoupled. This allows:
+
+-   Cross-compilation (e.g. linux development from macOS)
+-   Cross-distro (e.g. using CentOS user-land while developing on Debian)
+-   Multi-host scenarios (e.g. parent-child configurations)
+-   Bleeding-edge scenarios (e.g. using the ACLK (**currently for internal-use only**))
+
+The advantage of these scenarios is that they allow **reproducible** builds and testing
+for developers. This is the first iteration of the build-system to allow the team to use
+it and get used to it.
+
+For configurations that involve building and running the agent alone, we still use
+`docker-compose` for consistency with more complex configurations. The more complex
+configurations allow the agent to be run in conjunction with parts of the cloud
+infrastructure (these parts of the code are not public), or with external brokers
+(such as VerneMQ for MQTT), or with other external tools (such as TSDB to allow the agent to
+export metrics). Note: no external TSDB scenarios are available in the first iteration,
+they will be added in subsequent iterations.
+
+This differs from the packaging dockerfiles as it designed to be used for local development.
+The main difference is that these files are designed to support incremental compilation in
+the following way:
+
+1. The initial build should be performed using `bin/clean-install.sh` to create a docker
+   image with the agent built from the source tree and installed into standard system paths
+   using `netdata-installer.sh`. In addition to the steps performed by the standard packaging
+   builds a manifest is created to allow subsequent builds to be made incrementally using
+   `make` inside the container. Any libraries that are required for 'bleeding-edge' development
+   are added on top of the standard install.
+2. When the `bin/make-install.sh` script is used the docker container will be updated with
+   a sanitized version of the current build-tree. The manifest will be used to line up the
+   state of the incoming docker cache with `make`'s view of the file-system according to the
+   manifest. This means the `make install` inside the container will only rebuild changes
+   since the last time the disk image was created.
+
+The exact improvement on the compile-cycle depends on the speed of the network connection
+to pull the netdata dependencies, but should shrink the time considerably. For example,
+on a macbook pro the initial install takes about 1min + network delay [Note: there is
+something bad happening with the standard installer at the end of the container build as
+it tries to kill the running agent - this is very slow and bad] and the incremental
+step only takes 15s. On a debian host with a fast network this reduces 1m30 -> 13s.
+
+## Examples
+
+1. Simple cross-compilation / cross-distro builds.
+
+```bash
+build_external/bin/clean-install.sh arch current
+docker run -it --rm arch_current_dev
+echo >>daemon/main.c     # Simulate edit by touching file
+build_external/bin/make-install.sh arch current
+docker run -it --rm arch_current_dev
+```
+
+Currently there is no detection of when the installer needs to be rerun (really this is
+when the `autoreconf` / `configure` step must be rerun). Netdata was not written with
+multi-stage builds in mind and we need to work out how to do this in the future. For now
+it is up to you to know when you need to rerun the clean build step.
+
+```bash
+build_external/bin/clean-install.sh arch current
+build_external/bin/clean-install.sh ubuntu 19.10
+docker run -it --rm arch_current_dev
+echo >>daemon/main.c     # Simulate edit by touching file
+build_external/bin/make-install.sh arch current
+docker run -it --rm arch_current_dev
+echo >>daemon/daemon.c     # Simulate second edit step
+build_external/bin/make-install.sh arch current   # Observe a single file is rebuilt
+build_external/bin/make-install.sh arch current   # Observe both files are rebuilt
+```
+
+The state of the build in the two containers is independent.
+
+2. Single agent config in docker-compose
+
+This functions the same as the previous example but is wrapped in docker-compose to
+allow injection into more complex test configurations.
+
+```bash
+Distro=debian Version=10 docker-compose -f projects/only-agent/docker-compose.yml up
+```
+
+Note: it is possible to run multiple copies of the agent using the `--scale` option for
+`docker-compose up`.
+
+```bash
+Distro=debian Version=10 docker-compose -f projects/only-agent/docker-compose.yml up --scale agent=3
+```
+
+3. A simple parent-child scenario
+
+```bash
+# Need to call clean-install on the configs used in the parent-child containers
+docker-compose -f parent-child/docker-compose.yml up --scale agent_child1=2
+```
+
+Note: this is not production ready yet, but it is left in so that we can see how it behaves
+and improve it. Currently it produces the following problems:
+  * Only the base-configuration in the compose without scaling works.
+  * The containers are hard-coded in the compose.
+  * There is no way to separate the agent configurations, so running multiple agent child nodes with the same GUID kills
+    the parent which exits with a fatal condition.
+
+4. The ACLK
+
+This is for internal use only as it requires access to a private repo. Clone the vernemq-docker
+repo and follow the instructions within to build an image called `vernemq`.
+
+```bash
+build_external/bin/clean-install.sh arch current  # Only needed first time
+docker-compose -f build_external/projects/aclk-testing/vernemq-compose.yml -f build_external/projects/aclk-testing/agent-compose.yml up --build
+```
+
+Notes:
+* We are currently limited to arch because of restrictions on libwebsockets
+* There is not yet a good way to configure the target agent container from the docker-compose command line.
+* Several other containers should be in this compose (a paho client, tshark etc).
+
+[![analytics](https://www.google-analytics.com/collect?v=1&aip=1&t=pageview&_s=1&ds=github&dr=https%3A%2F%2Fgithub.com%2Fnetdata%2Fnetdata&dl=https%3A%2F%2Fmy-netdata.io%2Fgithub%2Fbuild_external%2FREADME&_u=MAC~&cid=5792dfd7-8dc4-476b-af31-da2fdb9f93d2&tid=UA-64295674-3)]()