nix-bitcoin/docs/services.md

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# Nodeinfo
Run `nodeinfo` to see onion addresses and local addresses for enabled services.
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# Managing services
NixOS uses the [systemd](https://wiki.archlinux.org/title/systemd) service manager.
Usage:
```shell
# Show service status
systemctl status bitcoind
# Show the last 100 log messages
journalctl -u bitcoind -n 100
# Show all log messages since the last system boot
journalctl -b -u bitcoind
# These commands require root permissions
systemctl stop bitcoind
systemctl start bitcoind
systemctl restart bitcoind
# Show the service definition
systemctl cat bitcoind
# Show all service parameters
systemctl show bitcoind
```
# clightning database replication
The clightning database can be replicated to a local path
or to a remote SSH target.\
When remote replication is enabled, nix-bitcoin mounts a SSHFS to a local path.\
Optionally, backups can be encrypted via `gocryptfs`.
Note: You should also backup the static file `hsm_secret` (located at
`/var/lib/clightning/bitcoin/hsm_secret` by default), either manually
or via the `services.backups` module.
## Remote target via SSHFS
1. Add this to your `configuration.nix`:
```nix
services.clightning.replication = {
enable = true;
sshfs.destination = "user@hostname:directory";
# This is optional
encrypt = true;
};
programs.ssh.knownHosts."hostname".publicKey = "<ssh public key from running `ssh-keyscan` on the host>";
```
Leave out the `encrypt` line if you want to store data on your destination
in plaintext.\
Adjust `user`, `hostname` and `directory` as necessary.
2. Deploy
3. To allow SSH access from the nix-bitcoin node to the target node, either
use the remote node config below, or copy the contents of `$secretsDir/clightning-replication-ssh.pub`
to the `authorized_keys` file of `user` (or use `ssh-copy-id`).
4. You can restrict the nix-bitcoin node's capabilities on the SSHFS target
using OpenSSH's builtin features, as detailed
[here](https://serverfault.com/questions/354615/allow-sftp-but-disallow-ssh).
To implement this on NixOS, add the following to the NixOS configuration of
the SSHFS target node:
```nix
systemd.tmpfiles.rules = [
# Because this directory is chrooted by sshd, it must only be writable by user/group root
"d /var/backup/nb-replication 0755 root root - -"
"d /var/backup/nb-replication/writable 0700 nb-replication - - -"
];
services.openssh = {
extraConfig = ''
Match user nb-replication
ChrootDirectory /var/backup/nb-replication
AllowTcpForwarding no
AllowAgentForwarding no
ForceCommand internal-sftp
PasswordAuthentication no
X11Forwarding no
'';
};
users.users.nb-replication = {
isSystemUser = true;
group = "nb-replication";
shell = "${pkgs.coreutils}/bin/false";
openssh.authorizedKeys.keys = [ "<contents of $secretsDir/clightning-replication-ssh.pub>" ];
};
users.groups.nb-replication = {};
```
With this setup, the corresponding `sshfs.destination` on the nix-bitcoin
node is `"nb-replication@hostname:writable"`.
## Local directory target
1. Add this to your `configuration.nix`
```nix
services.clightning.replication = {
enable = true;
local.directory = "/var/backup/clightning";
encrypt = true;
};
```
Leave out the `encrypt` line if you want to store data in
`local.directory` in plaintext.
2. Deploy
clightning will now replicate database files to `local.directory`. This
can be used to replicate to an external HDD by mounting it at path
`local.directory`.
## Custom remote destination
Follow the steps in section "Local directory target" above and mount a custom remote
destination (e.g., a NFS or SMB share) to `local.directory`.\
You might want to disable `local.setupDirectory` in order to create the mount directory
yourself with custom permissions.
# Connect to RTL
Normally you would connect to RTL via SSH tunneling with a command like this
```
ssh -L 3000:localhost:3000 root@bitcoin-node
```
Or like this, if you are using `netns-isolation`
```
ssh -L 3000:169.254.1.29:3000 root@bitcoin-node
```
Otherwise, you can access it via Tor Browser at `http://<onion-address>`.
You can find the `<onion-address>` with command `nodeinfo`.
The default password location is `$secretsDir/rtl-password`.
See: [Secrets dir](./configuration.md#secrets-dir)
# Use Zeus (mobile lightning wallet) via Tor
1. Install [Zeus](https://zeusln.app) (version ≥ 0.7.1)
2. Edit your `configuration.nix`
##### For lnd
Add the following config:
```nix
services.lnd.lndconnect = {
enable = true;
onion = true;
};
```
##### For clightning
Add the following config:
```nix
services.clightning-rest = {
enable = true;
lndconnect = {
enable = true;
onion = true;
};
};
```
3. Deploy your configuration
4. Run the following command on your node (as user `operator`) to create a QR code
with address and authentication information:
##### For lnd
```
lndconnect
```
##### For clightning
```
lndconnect-clightning
```
5. Configure Zeus
- Add a new node and scan the QR code
- Click `Save node config`
- Start sending and stacking sats privately
### Additional lndconnect features
- Create a plain text URL:
```bash
lndconnect --url
```
- Set a custom host. By default, `lndconnect` detects the system's external IP and uses it as the host.
```bash
lndconnect --host myhost
```
# Use Zeus (mobile lightning wallet) via WireGuard
Connecting Zeus directly to your node is much faster than using Tor, but a bit more complex to setup.
There are two ways to establish a secure, direct connection:
- Connecting via TLS. This requires installing your lightning app's
TLS Certificate on your mobile device.
- Connecting via WireGuard. This approach is simpler and more versatile, and is
described in this guide.
1. Install [Zeus](https://zeusln.app) (version ≥ 0.7.1) and
[WireGuard](https://www.wireguard.com/install/) on your mobile device.
2. Add the following to your `configuration.nix`:
```nix
imports = [
# Use this line when using the default deployment method
<nix-bitcoin/modules/presets/wireguard.nix>
# Use this line when using Flakes
(nix-bitcoin + /modules/presets/wireguard.nix)
]
# For lnd
services.lnd.lndconnect.enable = true;
# For clightning
services.clightning-rest = {
enable = true;
lndconnect.enable = true;
};
```
3. Deploy your configuration.
4. If your node is behind an external firewall or NAT, add the following port forwarding
rule to the external device:
- Port: 51820 (the default value of option `networking.wireguard.interfaces.wg-nb.listenPort`)
- Protocol: UDP
- Destination: IP of your node
5. Setup WireGuard on your mobile device.
Run the following command on your node (as user `operator`) to create a QR code
for WireGuard:
```bash
nix-bitcoin-wg-connect
# For debugging: Show the WireGuard config as text
nix-bitcoin-wg-connect --text
```
The above commands automatically detect your node's external IP.\
To set a custom IP or hostname, run the following:
```
nix-bitcoin-wg-connect 93.184.216.34
nix-bitcoin-wg-connect mynode.org
```
Configure WireGuard:
- Press the `+` button in the bottom right corner
- Scan the QR code
- Add the tunnel
6. Setup Zeus
Run the following command on your node (as user `operator`) to create a QR code for Zeus:
##### For lnd
```
lndconnect-wg
```
##### For clightning
```
lndconnect-clightning-wg
```
Configure Zeus:
- Add a new node and scan the QR code
- Click `Save node config`
- On the certificate warning screen, click `I understand, save node config`.\
Certificates are not needed when connecting via WireGuard.
- Start sending and stacking sats privately
### Additional lndconnect features
Create a plain text URL:
```bash
lndconnect-wg --url
``````
# Connect to spark-wallet
### Requirements
* Android phone
* [Orbot](https://guardianproject.info/apps/orbot/) installed from [F-Droid](https://guardianproject.info/fdroid) (recommended) or [Google Play](https://play.google.com/store/apps/details?id=org.torproject.android&hl=en)
* [Spark-wallet](https://github.com/shesek/spark-wallet) installed from [direct download](https://github.com/shesek/spark-wallet/releases) or [Google Play](https://play.google.com/store/apps/details?id=com.spark.wallet)
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1. Enable spark-wallet in `configuration.nix`
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Change
```
# services.spark-wallet.enable = true;
```
to
```
services.spark-wallet.enable = true;
```
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2. Deploy new `configuration.nix`
3. Enable Orbot VPN for spark-wallet
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```
Open Orbot app
Turn on "VPN Mode"
Select Gear icon under "Tor-Enabled Apps"
Toggle checkbox under Spark icon
```
4. Get the onion address, access key and QR access code for the spark wallet android app
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```
journalctl -eu spark-wallet
```
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Note: The qr code might have issues scanning if you have a light terminal theme. Try setting it to dark or highlighting the entire output to invert the colors.
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5. Connect to spark-wallet android app
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```
Server Settings
Scan QR
Done
```
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# Connect to electrs
### Requirements Android
* Android phone
* [Orbot](https://guardianproject.info/apps/orbot/) installed from [F-Droid](https://guardianproject.info/fdroid) (recommended) or [Google Play](https://play.google.com/store/apps/details?id=org.torproject.android&hl=en)
* [Electrum mobile app](https://electrum.org/#home) 4.0.1 and newer installed from [direct download](https://electrum.org/#download) or [Google Play](https://play.google.com/store/apps/details?id=org.electrum.electrum)
### Requirements Desktop
* [Tor](https://www.torproject.org/) installed from [source](https://www.torproject.org/docs/tor-doc-unix.html.en) or [repository](https://www.torproject.org/docs/debian.html.en)
* [Electrum](https://electrum.org/#download) installed
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1. Enable electrs in `configuration.nix`
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Change
```
# services.electrs.enable = true;
```
to
```
services.electrs.enable = true;
```
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2. Deploy new `configuration.nix`
3. Get electrs onion address with format `<onion-address>:<port>`
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```
nodeinfo | jq -r .electrs.onion_address
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```
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4. Connect to electrs
Make sure Tor is running on Desktop or as Orbot on Android.
On Desktop
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```
electrum --oneserver -1 -s "<electrs onion address>:t" -p socks5:localhost:9050
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```
On Android
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```
Three dots in the upper-right-hand corner
Network > Proxy mode: socks5, Host: 127.0.0.1, Port: 9050
Network > Auto-connect: OFF
Network > One-server mode: ON
Network > Server: <electrs onion address>:t
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```
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# Connect to nix-bitcoin node through the SSH onion service
1. Get the SSH onion address (excluding the port suffix)
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```
ssh operator@bitcoin-node
nodeinfo | jq -r .sshd.onion_address | sed 's/:.*//'
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```
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2. Create a SSH key
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```
ssh-keygen -t ed25519 -f ~/.ssh/id_ed25519
```
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3. Place the ed25519 key's fingerprint in the `configuration.nix` `openssh.authorizedKeys.keys` field like so
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```
# FIXME: Add your SSH pubkey
services.openssh.enable = true;
users.users.root = {
openssh.authorizedKeys.keys = [ "<contents of ~/.ssh/id_ed25519.pub>" ];
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};
```
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4. Connect to your nix-bitcoin node's SSH onion service, forwarding a local port to the nix-bitcoin node's SSH server
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```
ssh -i ~/.ssh/id_ed25519 -L <random port of your choosing>:localhost:22 root@<SSH onion address>
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```
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5. Edit your deployment tool's configuration and change the node's address to `localhost` and the ssh port to `<random port of your choosing>`.
If you use krops as described in the [installation tutorial](./install.md), set `target = "localhost:<random port of your choosing>";` in `krops/deploy.nix`.
6. After deploying the new configuration, it will connect through the SSH tunnel you established in step iv. This also allows you to do more complex SSH setups that some deployment tools don't support. An example would be authenticating with [Trezor's SSH agent](https://github.com/romanz/trezor-agent), which provides extra security.
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# Initialize a Trezor for Bitcoin Core's Hardware Wallet Interface
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1. Enable Trezor in `configuration.nix`
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Change
```
# services.hardware-wallets.trezor = true;
```
to
```
services.hardware-wallets.trezor = true;
```
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2. Deploy new `configuration.nix`
3. Check that your nix-bitcoin node recognizes your Trezor
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```
ssh operator@bitcoin-node
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lsusb
```
Should show something relating to your Trezor
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4. If your Trezor has outdated firmware or is not yet initialized: Start your Trezor in bootloader mode
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Trezor v1
```
Plug in your Trezor with both buttons depressed
```
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Trezor v2
```
Start swiping your finger across your Trezor's touchscreen and plug in the USB cable when your finger is halfway through
```
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5. If your Trezor's firmware is outdated: Update your Trezor's firmware
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```
trezorctl firmware-update
```
Follow the on-screen instructions
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**Caution: This command _will_ wipe your Trezor. If you already store Bitcoin on it, only do this with the recovery seed nearby.**
6. If your Trezor is not yet initialized: Set up your Trezor
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```
trezorctl reset-device -p
```
Follow the on-screen instructions
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7. Find your Trezor
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```
hwi enumerate
hwi -t trezor -d <path from previous command> promptpin
hwi -t trezor -d <path> sendpin <number positions for the PIN as displayed on your device's screen>
hwi enumerate
```
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8. Follow Bitcoin Core's instructions on [Using Bitcoin Core with Hardware Wallets](https://github.com/bitcoin-core/HWI/blob/master/docs/bitcoin-core-usage.md) to use your Trezor with `bitcoin-cli` on your nix-bitcoin node
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# JoinMarket
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## Diff to regular JoinMarket usage
For clarity reasons, nix-bitcoin renames all scripts to `jm-*` without `.py`, for
example `wallet-tool.py` becomes `jm-wallet-tool`. The rest of this section
details nix-bitcoin specific workflows for JoinMarket.
## Wallets
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By default, a wallet is automatically generated at service startup.
It's stored at `/var/lib/joinmarket/wallets/wallet.jmdat`, and its mnmenoic recovery
seed phrase is stored at `/var/lib/joinmarket/jm-wallet-seed`.
A missing wallet file is automatically recreated if the seed file is still present.
If you want to manually initialize your wallet instead, follow these steps:
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1. Enable JoinMarket in your node configuration
```
services.joinmarket.enable = true;
```
2. Move the automatically generated `wallet.jmdat`
```console
mv /var/lib/joinmarket/wallet.jmdat /var/lib/joinmarket/bak.jmdat
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```
3. Generate wallet on your node
```console
jm-wallet-tool generate
```
Follow the on-screen instructions and write down your seed.
In order to use nix-bitcoin's `joinmarket.yieldgenerator`, use the password
from `$secretsDir/jm-wallet-password` and use the suggested default wallet name
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`wallet.jmdat`. If you want to use your own `jm-wallet-password`, simply
replace the password string in your local secrets directory.
See: [Secrets dir](./configuration.md#secrets-dir)
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## Run the tumbler
The tumbler needs to be able to run in the background for a long time, use screen
to run it accross SSH sessions. You can also use tmux in the same fashion.
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1. Add screen to your `environment.systemPackages`, for example
```
environment.systemPackages = with pkgs; [
vim
screen
];
```
2. Start the screen session
```console
screen -S "tumbler"
```
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3. Start the tumbler
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Example: Tumbling into your wallet after buying from an exchange to improve privacy:
```console
jm-tumbler wallet.jmdat <addr1> <addr2> <addr3>
```
After tumbling your bitcoin end up in these three addresses. You can now
spend them without the exchange collecting data on your purchases.
Get more information [here](https://github.com/JoinMarket-Org/joinmarket-clientserver/blob/master/docs/tumblerguide.md)
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4. Detach the screen session to leave the tumbler running in the background
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```
Ctrl-a d or Ctrl-a Ctrl-d
```
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5. Re-attach to the screen session
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```console
screen -r tumbler
```
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6. End screen session
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Type exit when tumbler is done
```console
exit
```
## Run a "maker" or "yield generator"
The maker/yield generator in nix-bitcoin is implemented using a systemd service.
See [here](https://github.com/JoinMarket-Org/joinmarket-clientserver/blob/master/docs/YIELDGENERATOR.md) for more yield generator information.
1. Enable yield generator bot in your node configuration
```
services.joinmarket.yieldgenerator = {
enable = true;
# Optional: Add custom parameters
txfee = 200;
cjfee_a = 300;
};
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'';
```
2. Check service status
```console
systemctl status joinmarket-yieldgenerator
```
3. Profit
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# clightning
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## Plugins
There is a number of [plugins](https://github.com/lightningd/plugins) available for clightning.
See [`Readme: Features → clightning`](../README.md#features) or [search.nixos.org][1] for a complete list.
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[1]: https://search.nixos.org/flakes?channel=unstable&from=0&size=30&sort=relevance&type=options&query=services.clightning.plugins
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You can activate and configure these plugins like so:
```nix
services.clightning = {
enable = true;
plugins = {
prometheus.enable = true;
prometheus.listen = "0.0.0.0:9900";
};
};
```
Please have a look at the module for a plugin (e.g. [prometheus.nix](../modules/clightning-plugins/prometheus.nix)) to learn its configuration options.