nwaku/waku/v2/README.md

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# Waku v2
This folder contains code related to Waku v1, both as a node and as a protocol.
## Introduction
This is an implementation in Nim of Waku v2, which is currently in draft/beta stage.
See [spec](https://specs.vac.dev/specs/waku/v2/waku-v2.html).
## How to Build & Run
### Prerequisites
* GNU Make, Bash and the usual POSIX utilities. Git 2.9.4 or newer.
### Wakunode
```bash
# The first `make` invocation will update all Git submodules.
# You'll run `make update` after each `git pull`, in the future, to keep those submodules up to date.
make wakunode2
# See available command line options
./build/wakunode2 --help
# Connect the client directly with the Status test fleet
# TODO NYI
#./build/wakunode2 --log-level:debug --discovery:off --fleet:test --log-metrics
```
### Waku v2 Protocol Test Suite
```bash
# Run all the Waku v2 tests
make test2
```
You can also run a specific test (and alter compile options as you want):
```bash
# Get a shell with the right environment variables set
./env.sh bash
# Run a specific test
nim c -r ./tests/v2/test_waku_filter.nim
```
### Waku v2 Protocol Example
There is a more basic example, more limited in features and configuration than
the `wakunode1`, located in `examples/v2/basic2.nim`.
There is also a more full featured example in `examples/v2/chat2.nim`.
### Waku Quick Simulation
*NOTE: This section might be slightly out of date as it was written for Waku v1.*
One can set up several nodes, get them connected and then instruct them via the
JSON-RPC interface. This can be done via e.g. web3.js, nim-web3 (needs to be
updated) or simply curl your way out.
The JSON-RPC interface is currently the same as the one of Whisper. The only
difference is the addition of broadcasting the topics interest when a filter
with a certain set of topics is subcribed.
The quick simulation uses this approach, `start_network` launches a set of
`wakunode`s, and `quicksim` instructs the nodes through RPC calls.
Example of how to build and run:
```bash
# Build wakunode + quicksim with metrics enabled
make NIMFLAGS="-d:insecure" wakusim2
# Start the simulation nodes, this currently requires multitail to be installed
# TODO Partial support for Waku v2
./build/start_network2 --topology:FullMesh --amount:6 --test-node-peers:2
# In another shell run
./build/quicksim2
```
The `start_network2` tool will also provide a `prometheus.yml` with targets
set to all simulation nodes that are started. This way you can easily start
prometheus with this config, e.g.:
```bash
cd ./metrics/prometheus
prometheus --config.file=prometheus.yml
```
A Grafana dashboard containing the example dashboard for each simulation node
is also generated and can be imported in case you have Grafana running.
This dashboard can be found at `./metrics/waku-sim-all-nodes-grafana-dashboard.json`
To read more details about metrics, see [next](#using-metrics) section.
## Using Metrics
Metrics are available for valid envelopes and dropped envelopes.
To compile in an HTTP endpoint for accessing the metrics we need to provide the
`insecure` flag:
```bash
make NIMFLAGS="-d:insecure" wakunode2
./build/wakunode2 --metrics-server
```
Ensure your Prometheus config `prometheus.yml` contains the targets you care about, e.g.:
```
scrape_configs:
- job_name: "waku"
static_configs:
- targets: ['localhost:8008', 'localhost:8009', 'localhost:8010']
```
For visualisation, similar steps can be used as is written down for Nimbus
[here](https://github.com/status-im/nimbus#metric-visualisation).
There is a similar example dashboard that includes visualisation of the
envelopes available at `metrics/waku-grafana-dashboard.json`.
## Spec support
*This section last updated November 16, 2020*
All Waku v2 specs, except for bridge, are currently in draft.
## Docker Image
By default, the target will be a docker image with `wakunode`, which is the Waku v1 node.
You can change this to `wakunode2`, the Waku v2 node like this:
```bash
make docker-image MAKE_TARGET=wakunode2
docker run --rm -it statusteam/nim-waku:latest --help
```
## Configuring a domain name
It is possible to configure an IPv4 DNS domain name that resolves to the node's public IPv4 address.
```shell
wakunode2 --dns4-domain-name=mynode.example.com
```
This allows for the node's publically announced `multiaddrs` to use the `/dns4` scheme.
In addition, nodes with domain name and [secure websocket configured](#enabling-websocket),
will generate a discoverable ENR containing the `/wss` multiaddr with `/dns4` domain name.
This is necessary to verify domain certificates when connecting to this node over secure websocket.
## Using DNS discovery to connect to existing nodes
A node can discover other nodes to connect to using [DNS-based discovery](../../docs/tutorial/dns-disc.md).
The following command line options are available:
```
--dns-discovery Enable DNS Discovery
--dns-discovery-url URL for DNS node list in format 'enrtree://<key>@<fqdn>'
--dns-discovery-name-server DNS name server IPs to query. Argument may be repeated.
```
- `--dns-discovery` is used to enable DNS discovery on the node.
Waku DNS discovery is disabled by default.
- `--dns-discovery-url` is mandatory if DNS discovery is enabled.
It contains the URL for the node list.
The URL must be in the format `enrtree://<key>@<fqdn>` where `<fqdn>` is the fully qualified domain name and `<key>` is the base32 encoding of the compressed 32-byte public key that signed the list at that location.
- `--dns-discovery-name-server` is optional and contains the IP(s) of the DNS name servers to query.
If left unspecified, the Cloudflare servers `1.1.1.1` and `1.0.0.1` will be used by default.
A node will attempt connection to all discovered nodes.
This can be used, for example, to connect to one of the existing fleets.
Current URLs for the published fleet lists:
- production fleet: `enrtree://ANTL4SLG2COUILKAPE7EF2BYNL2SHSHVCHLRD5J7ZJLN5R3PRJD2Y@prod.waku.nodes.status.im`
- test fleet: `enrtree://AOFTICU2XWDULNLZGRMQS4RIZPAZEHYMV4FYHAPW563HNRAOERP7C@test.waku.nodes.status.im`
See the [separate tutorial](../../docs/tutorial/dns-disc.md) for a complete guide to DNS discovery.
## Enabling Websocket
Websocket is currently the only Waku transport supported by browser nodes that uses [js-waku](https://github.com/status-im/js-waku).
Setting up websocket enables your node to directly serve browser peers.
A valid certificate is necessary to serve browser nodes,
you can use [`letsencrypt`](https://letsencrypt.org/):
```shell
sudo letsencrypt -d <your.domain.name>
```
You will need the `privkey.pem` and `fullchain.pem` files.
To enable secure websocket, pass the generated files to `wakunode2`:
Note, the default port for websocket is 8000.
```shell
wakunode2 --websocket-secure-support=true --websocket-secure-key-path="<letsencrypt cert dir>/privkey.pem" --websocket-secure-cert-path="<letsencrypt cert dir>/fullchain.pem"
```
### Self-signed certificates
Self-signed certificates are not recommended for production setups because:
- Browsers do not accept self-signed certificates
- Browsers do not display an error when rejecting a certificate for websocket.
However, they can be used for local testing purposes:
```shell
mkdir -p ./ssl_dir/
openssl req -x509 -newkey rsa:4096 -keyout ./ssl_dir/key.pem -out ./ssl_dir/cert.pem -sha256 -nodes
wakunode2 --websocket-secure-support=true --websocket-secure-key-path="./ssl_dir/key.pem" --websocket-secure-cert-path="./ssl_dir/cert.pem"
```