This repository contains the backend ingestion server for Substrate Telemetry (which itself is comprised of two binaries; telemetry_shard
and telemetry_core
) as well as the Frontend you typically see running at telemetry.polkadot.io.
The backend is a Rust project and the frontend is React/Typescript project.
Substrate based nodes can be connected to an arbitrary Telemetry backend using the --telemetry-url
(see below for more complete instructions on how to get this up and running).
Depending on the configured verbosity, substrate nodes will send different types of messages to the Telemetry server. Verbosity level 0
is sufficient to provide the Telemetry server with almost all of the node information needed. Using this verbosity level will lead to the substrate node sending the following message types to Telemetry:
system.connected
system.interval
block.import
notify.finalized
Increasing the verbosity level to 1 will lead to additional "consensus info" messages being sent, one of which has the identifier:
afg.authority_set
Which we use to populate the "validator address" field if applicable.
Increasing the verbosity level beyond 1 is unnecessary, and will not result in any additional messages that Telemetry can handle (but other metric gathering systems might find them useful).
To run the backend, you will need cargo
to build the binary. We recommend using rustup
.
To run the frontend make sure to grab the latest stable version of node and install dependencies before doing anything:
nvm install stable
(cd frontend && npm install)
Build the backend binaries by running the following:
cd backend
cargo build --release
And then, in two different terminals, run:
./target/release/telemetry_core
and
./target/release/telemetry_shard
Use --help
on either binary to see the available options.
By default, telemetry_core
will listen on 127.0.0.1:8000, and telemetry_shard
will listen on 127.0.0.1:8001, and expect the telemetry_core
to be listening on its default address. To listen on different addresses, use the --listen
option on either binary, for example --listen 0.0.0.0:8000
. The telemetry_shard
also needs to be told where the core is, so if the core is configured with --listen 127.0.0.1:9090
, remember to pass --core 127.0.0.1:9090
to the shard, too.
cd frontend
npm install
npm run start
Once this is running, you'll be able to navigate to http://localhost:3000 to view the UI.
Follow up installation instructions from the Polkadot repo
If you started the backend binaries with their default arguments, you can connect a node to the shard by running:
polkadot --dev --telemetry-url 'ws://localhost:8001/submit 0'
Note: The "0" at the end of the URL is a verbosity level, and not part of the URL itself. Verbosity levels range from 0-9, with 0 denoting the lowest verbosity. The URL and this verbosity level are parts of a single argument and must therefore be surrounded in quotes (as seen above) in order to be treated as such by your shell.
To build the backend docker image, navigate into the backend
folder of this repository and run:
docker build -t parity/substrate-telemetry-backend .
The backend image contains both the telemetry_core
and telemetry_shard
binaries.
To build the frontend docker image, navigate into the frontend
folder and run:
docker build -t parity/substrate-telemetry-frontend .
The easiest way to run the backend and frontend images is to use docker-compose
. To do this, run docker-compose up
in the root of this repository to build and run the images. Once running, you can view the UI by navigating a browser to http://localhost:3000
.
To connect a substrate node and have it send telemetry to this running instance, you have to tell it where to send telemetry by appending the argument --telemetry-url 'ws://localhost:8001/submit 0'
(see "Terminal 4 - Node" above).
If you'd like to get things running manually using Docker, you can do the following. This assumes that you've built the images as per the above, and have two images named parity/substrate-telemetry-backend
and parity/substrate-telemetry-frontend
.
-
Create a new shared network so that the various containers can communicate with eachother:
docker network create telemetry
-
Start up the backend core process. We expose port 8000 so that a UI running in a host browser can connect to the
/feed
endpoint.docker run --rm -it --network=telemetry \ --name backend-core \ -p 8000:8000 \ --read-only \ parity/substrate-telemetry-backend \ telemetry_core -l 0.0.0.0:8000
-
In another terminal, start up the backend shard process. We tell it where it can reach the core to send messages (possible because it has been started on the same network), and we listen on and expose port 8001 so that nodes running in the host can connect and send telemetry to it.
docker run --rm -it --network=telemetry \ --name backend-shard \ -p 8001:8001 \ --read-only \ parity/substrate-telemetry-backend \ telemetry_shard -l 0.0.0.0:8001 -c http://backend-core:8000/shard_submit
-
In another terminal, start up the frontend server. We pass a
SUBSTRATE_TELEMETRY_URL
env var to tell the UI how to connect to the core process to receive telemetry. This is relative to the host machine, since that is where the browser and UI will be running.docker run --rm -it --network=telemetry \ --name frontend \ -p 3000:8000 \ -e SUBSTRATE_TELEMETRY_URL=ws://localhost:8000/feed \ parity/substrate-telemetry-frontend
NOTE: Here we used
SUBSTRATE_TELEMETRY_URL=ws://localhost:8000/feed
. This will work if you test with everything running locally on your machine but NOT if your backend runs on a remote server. Keep in mind that the frontend docker image is serving a static site running your browser. TheSUBSTRATE_TELEMETRY_URL
is the WebSocket url that your browser will use to reach the backend. Say your backend runs on a remote server atfoo.example.com
, you will need to set the IP/url accordingly inSUBSTRATE_TELEMETRY_URL
(in this case, tows://foo.example.com/feed
).NOTE: Running the frontend container in read-only mode reduces attack surface that could be used to exploit a container. It requires however a little more effort and mounting additional volumes as shown below:
docker run --rm -it -p 80:8000 --name frontend \ -e SUBSTRATE_TELEMETRY_URL=ws://localhost:8000/feed \ --tmpfs /var/cache/nginx:uid=101,gid=101 \ --tmpfs /var/run:uid=101,gid=101 \ --tmpfs /app/tmp:uid=101,gid=101 \ --read-only \ parity/substrate-telemetry-frontend
With these running, you'll be able to navigate to http://localhost:3000 to view the UI. If you'd like to connect a node and have it send telemetry to your running shard, you can run the following:
docker run --rm -it --network=telemetry \
--name substrate \
-p 9944:9944 \
chevdor/substrate \
substrate --dev --telemetry-url 'ws://backend-shard:8001/submit 0'
You should now see your node showing up in your local telemetry frontend:
This section covers the internal deployment of Substrate Telemetry to our staging and live environments.
Every time new code is merged to master
, a new version of telemetry will be automatically built and deployed to our staging environment, so there is nothing that you need to do. Roughly what will happen is:
- An image tag will be generated that looks like
$CI_COMMIT_SHORT_SHA-beta
, for example224b1fae-beta
. - Docker images for the frontend and backend will be pushed to the docker repo (see https://hub.docker.com/r/parity/substrate-telemetry-backend/tags?page=1&ordering=last_updated and https://hub.docker.com/r/parity/substrate-telemetry-frontend/tags?page=1&ordering=last_updated).
- A deployment to the staging environment will be performed using these images. Go to https://gitlab.parity.io/parity/substrate-telemetry/-/pipelines to inspect the progress of such deployments.
Once we're happy with things in staging, we can do a deployment to live as follows:
- Ensure that the PRs you'd like to deploy are merged to master.
- Tag the commit on
master
that you'd like to deploy with the formv1.0-a1b2c3d
.- The version number (
1.0
here) should just be incremented from whatever the latest version found usinggit tag
is. We don't use semantic versioning or anything like that; this is just a dumb "increment version number" approach so that we can see clearly what we've deployed to live and in what order. - The suffix is a short git commit hash (which can be generated with
git rev-parse --short HEAD
), just so that it's really easy to relate the built docker images back to the corresponding code.
- The version number (
- Pushing the tag (eg
git push origin v1.0-a1b2c3d
) will kick off the deployment process, which in this case will also lead to new docker images being built. You can view the progress at https://gitlab.parity.io/parity/substrate-telemetry/-/pipelines. - Once a deployment to staging has been successful, run whatever tests you need against the staging deployment to convince yourself that you're happy with it.
- Visit the CI/CD pipelines page again (URl above) and click the "play" button on the "Deploy-production" stage to perform the deployment to live.
- Confirm that things are working once the deployment has finished by visiting https://telemetry.polkadot.io/.
If something goes wrong running the above, we can roll back the deployment to live as follows.
- Decide what image tag you'd like to roll back to. Go to https://hub.docker.com/r/parity/substrate-telemetry-backend/tags?page=1&ordering=last_updated and have a look at the available tags (eg
v1.0-a1b2c3d
) to select one you'd like. You can cross reference this with the tags available usinggit tag
in the repository to help see which tags correspond to which code changes. - Navigate to https://gitlab.parity.io/parity/substrate-telemetry/-/pipelines/new.
- Add a variable called
FORCE_DEPLOY
with the valuetrue
. - Add a variable called
FORCE_DOCKER_TAG
with a value corresponding to the tag you want to deploy, egv1.0-a1b2c3d
. Images must exist already for this tag. - Hit 'Run Pipeline'. As above, a deployment to staging will be carried out, and if you're happy with that, you can hit the "play" button on the "Deploy-production" stage to perform the deployment to live.
- Confirm that things are working once the deployment has finished by visiting https://telemetry.polkadot.io/.