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226 lines
10 KiB
226 lines
10 KiB
3 years ago
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# TOR SUPPORT IN BITCOIN
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It is possible to run Bitcoin Core as a Tor onion service, and connect to such services.
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The following directions assume you have a Tor proxy running on port 9050. Many distributions default to having a SOCKS proxy listening on port 9050, but others may not. In particular, the Tor Browser Bundle defaults to listening on port 9150. See [Tor Project FAQ:TBBSocksPort](https://www.torproject.org/docs/faq.html.en#TBBSocksPort) for how to properly
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configure Tor.
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## Compatibility
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- Starting with version 22.0, Bitcoin Core only supports Tor version 3 hidden
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services (Tor v3). Tor v2 addresses are ignored by Bitcoin Core and neither
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relayed nor stored.
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- Tor removed v2 support beginning with version 0.4.6.
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## How to see information about your Tor configuration via Bitcoin Core
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There are several ways to see your local onion address in Bitcoin Core:
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- in the debug log (grep for "tor:" or "AddLocal")
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- in the output of RPC `getnetworkinfo` in the "localaddresses" section
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- in the output of the CLI `-netinfo` peer connections dashboard
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You may set the `-debug=tor` config logging option to have additional
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information in the debug log about your Tor configuration.
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CLI `-addrinfo` returns the number of addresses known to your node per network
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type, including Tor v2 and v3. This is useful to see how many onion addresses
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are known to your node for `-onlynet=onion` and how many Tor v3 addresses it
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knows when upgrading to Bitcoin Core v22.0 and up that supports Tor v3 only.
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## 1. Run Bitcoin Core behind a Tor proxy
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The first step is running Bitcoin Core behind a Tor proxy. This will already anonymize all
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outgoing connections, but more is possible.
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-proxy=ip:port Set the proxy server. If SOCKS5 is selected (default), this proxy
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server will be used to try to reach .onion addresses as well.
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You need to use -noonion or -onion=0 to explicitly disable
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outbound access to onion services.
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-onion=ip:port Set the proxy server to use for Tor onion services. You do not
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need to set this if it's the same as -proxy. You can use -onion=0
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to explicitly disable access to onion services.
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Note: Only the -proxy option sets the proxy for DNS requests;
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with -onion they will not route over Tor, so use -proxy if you
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have privacy concerns.
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-listen When using -proxy, listening is disabled by default. If you want
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to manually configure an onion service (see section 3), you'll
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need to enable it explicitly.
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-connect=X When behind a Tor proxy, you can specify .onion addresses instead
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-addnode=X of IP addresses or hostnames in these parameters. It requires
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-seednode=X SOCKS5. In Tor mode, such addresses can also be exchanged with
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other P2P nodes.
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-onlynet=onion Make outgoing connections only to .onion addresses. Incoming
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connections are not affected by this option. This option can be
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specified multiple times to allow multiple network types, e.g.
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ipv4, ipv6 or onion. If you use this option with values other
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than onion you *cannot* disable onion connections; outgoing onion
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connections will be enabled when you use -proxy or -onion. Use
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-noonion or -onion=0 if you want to be sure there are no outbound
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onion connections over the default proxy or your defined -proxy.
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In a typical situation, this suffices to run behind a Tor proxy:
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./bitcoind -proxy=127.0.0.1:9050
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## 2. Automatically create a Bitcoin Core onion service
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Bitcoin Core makes use of Tor's control socket API to create and destroy
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ephemeral onion services programmatically. This means that if Tor is running and
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proper authentication has been configured, Bitcoin Core automatically creates an
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onion service to listen on. The goal is to increase the number of available
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onion nodes.
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This feature is enabled by default if Bitcoin Core is listening (`-listen`) and
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it requires a Tor connection to work. It can be explicitly disabled with
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`-listenonion=0`. If it is not disabled, it can be configured using the
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`-torcontrol` and `-torpassword` settings.
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To see verbose Tor information in the bitcoind debug log, pass `-debug=tor`.
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### Control Port
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You may need to set up the Tor Control Port. On Linux distributions there may be
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some or all of the following settings in `/etc/tor/torrc`, generally commented
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out by default (if not, add them):
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```
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ControlPort 9051
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CookieAuthentication 1
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CookieAuthFileGroupReadable 1
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```
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Add or uncomment those, save, and restart Tor (usually `systemctl restart tor`
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or `sudo systemctl restart tor` on most systemd-based systems, including recent
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Debian and Ubuntu, or just restart the computer).
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On some systems (such as Arch Linux), you may also need to add the following
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line:
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```
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DataDirectoryGroupReadable 1
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```
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### Authentication
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Connecting to Tor's control socket API requires one of two authentication
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methods to be configured: cookie authentication or bitcoind's `-torpassword`
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configuration option.
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#### Cookie authentication
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For cookie authentication, the user running bitcoind must have read access to
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the `CookieAuthFile` specified in the Tor configuration. In some cases this is
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preconfigured and the creation of an onion service is automatic. Don't forget to
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use the `-debug=tor` bitcoind configuration option to enable Tor debug logging.
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If a permissions problem is seen in the debug log, e.g. `tor: Authentication
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cookie /run/tor/control.authcookie could not be opened (check permissions)`, it
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can be resolved by adding both the user running Tor and the user running
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bitcoind to the same Tor group and setting permissions appropriately.
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On Debian-derived systems, the Tor group will likely be `debian-tor` and one way
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to verify could be to list the groups and grep for a "tor" group name:
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```
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getent group | cut -d: -f1 | grep -i tor
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```
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You can also check the group of the cookie file. On most Linux systems, the Tor
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auth cookie will usually be `/run/tor/control.authcookie`:
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```
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stat -c '%G' /run/tor/control.authcookie
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```
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Once you have determined the `${TORGROUP}` and selected the `${USER}` that will
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run bitcoind, run this as root:
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```
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usermod -a -G ${TORGROUP} ${USER}
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```
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Then restart the computer (or log out) and log in as the `${USER}` that will run
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bitcoind.
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#### `torpassword` authentication
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For the `-torpassword=password` option, the password is the clear text form that
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was used when generating the hashed password for the `HashedControlPassword`
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option in the Tor configuration file.
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The hashed password can be obtained with the command `tor --hash-password
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password` (refer to the [Tor Dev
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Manual](https://2019.www.torproject.org/docs/tor-manual.html.en) for more
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details).
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## 3. Manually create a Bitcoin Core onion service
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You can also manually configure your node to be reachable from the Tor network.
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Add these lines to your `/etc/tor/torrc` (or equivalent config file):
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HiddenServiceDir /var/lib/tor/bitcoin-service/
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HiddenServicePort 8333 127.0.0.1:8334
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The directory can be different of course, but virtual port numbers should be equal to
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your bitcoind's P2P listen port (8333 by default), and target addresses and ports
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should be equal to binding address and port for inbound Tor connections (127.0.0.1:8334 by default).
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-externalip=X You can tell bitcoin about its publicly reachable addresses using
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this option, and this can be an onion address. Given the above
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configuration, you can find your onion address in
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/var/lib/tor/bitcoin-service/hostname. For connections
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coming from unroutable addresses (such as 127.0.0.1, where the
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Tor proxy typically runs), onion addresses are given
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preference for your node to advertise itself with.
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You can set multiple local addresses with -externalip. The
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one that will be rumoured to a particular peer is the most
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compatible one and also using heuristics, e.g. the address
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with the most incoming connections, etc.
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-listen You'll need to enable listening for incoming connections, as this
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is off by default behind a proxy.
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-discover When -externalip is specified, no attempt is made to discover local
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IPv4 or IPv6 addresses. If you want to run a dual stack, reachable
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from both Tor and IPv4 (or IPv6), you'll need to either pass your
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other addresses using -externalip, or explicitly enable -discover.
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Note that both addresses of a dual-stack system may be easily
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linkable using traffic analysis.
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In a typical situation, where you're only reachable via Tor, this should suffice:
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./bitcoind -proxy=127.0.0.1:9050 -externalip=7zvj7a2imdgkdbg4f2dryd5rgtrn7upivr5eeij4cicjh65pooxeshid.onion -listen
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(obviously, replace the .onion address with your own). It should be noted that you still
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listen on all devices and another node could establish a clearnet connection, when knowing
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your address. To mitigate this, additionally bind the address of your Tor proxy:
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./bitcoind ... -bind=127.0.0.1
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If you don't care too much about hiding your node, and want to be reachable on IPv4
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as well, use `discover` instead:
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./bitcoind ... -discover
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and open port 8333 on your firewall (or use port mapping, i.e., `-upnp` or `-natpmp`).
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If you only want to use Tor to reach .onion addresses, but not use it as a proxy
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for normal IPv4/IPv6 communication, use:
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./bitcoind -onion=127.0.0.1:9050 -externalip=7zvj7a2imdgkdbg4f2dryd5rgtrn7upivr5eeij4cicjh65pooxeshid.onion -discover
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## 4. Privacy recommendations
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- Do not add anything but Bitcoin Core ports to the onion service created in section 3.
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If you run a web service too, create a new onion service for that.
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Otherwise it is trivial to link them, which may reduce privacy. Onion
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services created automatically (as in section 2) always have only one port
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open.
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