3
0
mirror of https://github.com/ergochat/ergo.git synced 2024-11-26 05:49:25 +01:00

update tor guidelines

This commit is contained in:
Shivaram Lingamneni 2019-11-07 14:05:35 -05:00
parent 33d7e019d7
commit 74ab52d6e4
2 changed files with 5 additions and 5 deletions

View File

@ -706,9 +706,9 @@ kline = "DLINE ANDKILL 2h %i :Open proxy found on your host.";
## Tor ## Tor
Oragono has code support for adding an .onion address to an IRC server, or operating an IRC server as a Tor hidden service. This is subtle, so you should be familiar with the [Tor Project](https://www.torproject.org/) and the concept of a [hidden service](https://www.torproject.org/docs/tor-onion-service.html.en). Oragono has code support for adding an .onion address to an IRC server, or operating an IRC server as a Tor onion service ("hidden service"). This is subtle, so you should be familiar with the [Tor Project](https://www.torproject.org/) and the concept of an [onion service](https://www.torproject.org/docs/tor-onion-service.html.en).
There are two possible ways to serve Oragono over Tor. One is to add a .onion address to a server that also serves non-Tor clients, and whose IP address is public information. This is relatively straightforward. Add a separate listener, for example `127.0.0.2:6668`, to Oragono's `server.listen`, then add it to `server.tor-listeners.listeners`. Then configure Tor like this: There are two possible ways to serve Oragono over Tor. One is to add a .onion address to a server that also serves non-Tor clients, and whose IP address is public information. This is relatively straightforward. Add a separate listener, for example `127.0.0.2:6668`, to Oragono's `server.listeners`, then configure it with `tor: true`. Then configure Tor like this:
```` ````
HiddenServiceDir /var/lib/tor/oragono_hidden_service HiddenServiceDir /var/lib/tor/oragono_hidden_service
@ -720,13 +720,13 @@ HiddenServiceNonAnonymousMode 1
HiddenServiceSingleHopMode 1 HiddenServiceSingleHopMode 1
```` ````
Tor provides end-to-end encryption for hidden services, so there's no need to enable TLS in Oragono for the listener (`127.0.0.2:6668` in this example). Doing so is not recommended, given the difficulty in obtaining a TLS certificate valid for an .onion address. Tor provides end-to-end encryption for onion services, so there's no need to enable TLS in Oragono for the listener (`127.0.0.2:6668` in this example). Doing so is not recommended, given the difficulty in obtaining a TLS certificate valid for an .onion address.
The second way is to run Oragono as a true hidden service, where the server's actual IP address is a secret. This requires hardening measures on the Oragono side: The second way is to run Oragono as a true hidden service, where the server's actual IP address is a secret. This requires hardening measures on the Oragono side:
* Oragono should not accept any connections on its public interfaces. You should remove any listener that starts with the address of a public interface, or with `:`, which means "listen on all available interfaces". You should listen only on `127.0.0.1:6667` and a Unix domain socket such as `/hidden_service_sockets/oragono.sock`. * Oragono should not accept any connections on its public interfaces. You should remove any listener that starts with the address of a public interface, or with `:`, which means "listen on all available interfaces". You should listen only on `127.0.0.1:6667` and a Unix domain socket such as `/hidden_service_sockets/oragono.sock`.
* In this mode, it is especially important that all operator passwords are strong and all operators are trusted (operators have a larger attack surface to deanonymize the server). * In this mode, it is especially important that all operator passwords are strong and all operators are trusted (operators have a larger attack surface to deanonymize the server).
* Tor hidden services are at risk of being deanonymized if a client can trick the server into performing a non-Tor network request. Oragono should not perform any such requests (such as hostname resolution or ident lookups) in response to input received over a correctly configured Tor listener. However, Oragono has not been thoroughly audited against such deanonymization attacks --- therefore, Oragono should be deployed with additional sandboxing to protect against this: * Onion services are at risk of being deanonymized if a client can trick the server into performing a non-Tor network request. Oragono should not perform any such requests (such as hostname resolution or ident lookups) in response to input received over a correctly configured Tor listener. However, Oragono has not been thoroughly audited against such deanonymization attacks --- therefore, Oragono should be deployed with additional sandboxing to protect against this:
* Oragono should run with no direct network connectivity, e.g., by running in its own Linux network namespace. systemd implements this with the [PrivateNetwork](https://www.freedesktop.org/software/systemd/man/systemd.exec.html) configuration option: add `PrivateNetwork=true` to Oragono's systemd unit file. * Oragono should run with no direct network connectivity, e.g., by running in its own Linux network namespace. systemd implements this with the [PrivateNetwork](https://www.freedesktop.org/software/systemd/man/systemd.exec.html) configuration option: add `PrivateNetwork=true` to Oragono's systemd unit file.
* Since the loopback adapters are local to a specific network namespace, and the Tor daemon will run in the root namespace, Tor will be unable to connect to Oragono over loopback TCP. Instead, Oragono must listen on a named Unix domain socket that the Tor daemon can connect to. However, distributions typically package Tor with its own hardening profiles, which restrict which sockets it can access. Below is a recipe for configuring this with the official Tor packages for Debian: * Since the loopback adapters are local to a specific network namespace, and the Tor daemon will run in the root namespace, Tor will be unable to connect to Oragono over loopback TCP. Instead, Oragono must listen on a named Unix domain socket that the Tor daemon can connect to. However, distributions typically package Tor with its own hardening profiles, which restrict which sockets it can access. Below is a recipe for configuring this with the official Tor packages for Debian:

View File

@ -37,7 +37,7 @@ server:
# Example of a Tor listener: any connection that comes in on this listener will # Example of a Tor listener: any connection that comes in on this listener will
# be considered a Tor connection. It is strongly recommended that this listener # be considered a Tor connection. It is strongly recommended that this listener
# *not* be on a public interface --- it should be on 127.0.0.0/8 or unix domain: # *not* be on a public interface --- it should be on 127.0.0.0/8 or unix domain:
# "/tmp/oragono_tor_sock": # "/hidden_service_sockets/oragono_tor_sock":
# tor: true # tor: true
# sets the permissions for Unix listen sockets. on a typical Linux system, # sets the permissions for Unix listen sockets. on a typical Linux system,