mirror of https://github.com/waku-org/nwaku.git
240 lines
8.1 KiB
Markdown
240 lines
8.1 KiB
Markdown
# Waku
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This folder contains code related to Waku, both as a node and as a protocol.
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## Introduction
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This is an implementation in Nim of the Waku suite of protocols.
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See [specifications](https://rfc.vac.dev/waku/standards/core/10/waku2).
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## How to Build & Run
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### Prerequisites
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* GNU Make, Bash and the usual POSIX utilities. Git 2.9.4 or newer.
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### Wakunode binary
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```bash
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# The first `make` invocation will update all Git submodules.
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# You'll run `make update` after each `git pull`, in the future, to keep those submodules up to date.
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make wakunode2
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# See available command line options
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./build/wakunode2 --help
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# Connect the client directly with the Status test fleet
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# TODO NYI
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#./build/wakunode2 --log-level:debug --discovery:off --fleet:test --log-metrics
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```
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Note: building `wakunode2` requires 2GB of RAM. The build will fail on systems not fulfilling this requirement.
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Setting up a `wakunode2` on the smallest [digital ocean](https://docs.digitalocean.com/products/droplets/how-to/) droplet, you can either
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* compile on a stronger droplet featuring the same CPU architecture and downgrade after compiling, or
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* activate swap on the smallest droplet, or
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* use Docker.
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### Waku Protocol Test Suite
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```bash
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# Run all the Waku tests
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make test
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```
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To run a specific test.
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```bash
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# Get a shell with the right environment variables set
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./env.sh bash
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# Run a specific test
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nim c -r ./tests/test_waku_filter_legacy.nim
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```
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You can also alter compile options. For example, if you want a less verbose output you can do the following. For more, refer to the [compiler flags](https://nim-lang.org/docs/nimc.html#compiler-usage) and [chronicles documentation](https://github.com/status-im/nim-chronicles#compile-time-configuration).
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```bash
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nim c -r -d:chronicles_log_level=WARN --verbosity=0 --hints=off ./tests/waku_filter_v2/test_waku_filter.nim
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```
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You may also want to change the `outdir` to a folder ignored by git.
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```bash
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nim c -r -d:chronicles_log_level=WARN --verbosity=0 --hints=off --outdir=build ./tests/waku_filter_v2/test_waku_filter.nim
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```
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### Waku Protocol Example
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There are basic examples of both publishing and subscribing,
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more limited in features and configuration than the `wakunode2` binary,
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located in `examples/`.
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There is also a more full featured example in `apps/chat2/`.
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## Using Metrics
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Metrics are available for Waku nodes.
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```bash
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make wakunode2
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./build/wakunode2 --metrics-server
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```
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Ensure your Prometheus config `prometheus.yml` contains the targets you care about, e.g.:
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```
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scrape_configs:
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- job_name: "waku"
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static_configs:
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- targets: ['localhost:8008', 'localhost:8009', 'localhost:8010']
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```
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For visualisation, similar steps can be used as is written down for Nimbus
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[here](https://github.com/status-im/nimbus#metric-visualisation).
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There is a similar example dashboard that includes visualisation of the
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envelopes available at `metrics/waku-grafana-dashboard.json`.
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## Spec support
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All Waku RFCs reside at rfc.vac.dev.
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Note that Waku specs are titled `WAKU2-XXX`
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to differentiate them from a previous legacy version of Waku with RFC titles in the format `WAKU-XXX`.
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The legacy Waku protocols are stable, but not under active development.
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## Generating and configuring a private key
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By default a node will generate a new, random key pair each time it boots,
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resulting in a different public libp2p `multiaddrs` after each restart.
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To maintain consistent addressing across restarts,
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it is possible to configure the node with a previously generated private key using the `--nodekey` option.
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```shell
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wakunode2 --nodekey=<64_char_hex>
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```
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This option takes a [Secp256k1](https://en.bitcoin.it/wiki/Secp256k1) private key in 64 char hexstring format.
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To generate such a key on Linux systems,
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use the openssl `rand` command to generate a pseudo-random 32 byte hexstring.
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```sh
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openssl rand -hex 32
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```
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Example output:
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```sh
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$ openssl rand -hex 32
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6a29e767c96a2a380bb66b9a6ffcd6eb54049e14d796a1d866307b8beb7aee58
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```
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where the key `6a29e767c96a2a380bb66b9a6ffcd6eb54049e14d796a1d866307b8beb7aee58` can be used as `nodekey`.
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To create a reusable keyfile on Linux using `openssl`,
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use the `ecparam` command coupled with some standard utilities
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whenever you want to extract the 32 byte private key in hex format.
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```sh
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# Generate keyfile
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openssl ecparam -genkey -name secp256k1 -out my_private_key.pem
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# Extract 32 byte private key
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openssl ec -in my_private_key.pem -outform DER | tail -c +8 | head -c 32| xxd -p -c 32
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```
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Example output:
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```sh
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read EC key
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writing EC key
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0c687bb8a7984c770b566eae08520c67f53d302f24b8d4e5e47cc479a1e1ce23
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```
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where the key `0c687bb8a7984c770b566eae08520c67f53d302f24b8d4e5e47cc479a1e1ce23` can be used as `nodekey`.
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```sh
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wakunode2 --nodekey=0c687bb8a7984c770b566eae08520c67f53d302f24b8d4e5e47cc479a1e1ce23
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```
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## Configuring a domain name
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It is possible to configure an IPv4 DNS domain name that resolves to the node's public IPv4 address.
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```shell
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wakunode2 --dns4-domain-name=mynode.example.com
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```
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This allows for the node's publicly announced `multiaddrs` to use the `/dns4` scheme.
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In addition, nodes with domain name and [secure websocket configured](#enabling-websocket),
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will generate a discoverable ENR containing the `/wss` multiaddr with `/dns4` domain name.
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This is necessary to verify domain certificates when connecting to this node over secure websocket.
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## Using DNS discovery to connect to existing nodes
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A node can discover other nodes to connect to using [DNS-based discovery](../docs/tutorial/dns-disc.md).
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The following command line options are available:
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```
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--dns-discovery Enable DNS Discovery
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--dns-discovery-url URL for DNS node list in format 'enrtree://<key>@<fqdn>'
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--dns-discovery-name-server DNS name server IPs to query. Argument may be repeated.
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```
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- `--dns-discovery` is used to enable DNS discovery on the node.
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Waku DNS discovery is disabled by default.
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- `--dns-discovery-url` is mandatory if DNS discovery is enabled.
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It contains the URL for the node list.
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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.
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- `--dns-discovery-name-server` is optional and contains the IP(s) of the DNS name servers to query.
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If left unspecified, the Cloudflare servers `1.1.1.1` and `1.0.0.1` will be used by default.
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A node will attempt connection to all discovered nodes.
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This can be used, for example, to connect to one of the existing fleets.
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Current URLs for the published fleet lists:
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- production fleet: `enrtree://AIRVQ5DDA4FFWLRBCHJWUWOO6X6S4ZTZ5B667LQ6AJU6PEYDLRD5O@sandbox.waku.nodes.status.im`
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- test fleet: `enrtree://AOGYWMBYOUIMOENHXCHILPKY3ZRFEULMFI4DOM442QSZ73TT2A7VI@test.waku.nodes.status.im`
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See the [separate tutorial](../docs/tutorial/dns-disc.md) for a complete guide to DNS discovery.
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## Enabling Websocket
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Websocket is currently the only Waku transport supported by browser nodes that uses [js-waku](https://github.com/status-im/js-waku).
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Setting up websocket enables your node to directly serve browser peers.
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A valid certificate is necessary to serve browser nodes,
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you can use [`letsencrypt`](https://letsencrypt.org/):
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```shell
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sudo letsencrypt -d <your.domain.name>
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```
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You will need the `privkey.pem` and `fullchain.pem` files.
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To enable secure websocket, pass the generated files to `wakunode2`:
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Note, the default port for websocket is 8000.
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```shell
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wakunode2 --websocket-secure-support=true --websocket-secure-key-path="<letsencrypt cert dir>/privkey.pem" --websocket-secure-cert-path="<letsencrypt cert dir>/fullchain.pem"
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```
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### Self-signed certificates
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Self-signed certificates are not recommended for production setups because:
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- Browsers do not accept self-signed certificates
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- Browsers do not display an error when rejecting a certificate for websocket.
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However, they can be used for local testing purposes:
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```shell
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mkdir -p ./ssl_dir/
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openssl req -x509 -newkey rsa:4096 -keyout ./ssl_dir/key.pem -out ./ssl_dir/cert.pem -sha256 -nodes
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wakunode2 --websocket-secure-support=true --websocket-secure-key-path="./ssl_dir/key.pem" --websocket-secure-cert-path="./ssl_dir/cert.pem"
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```
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