393aca86cc
Replace agl's Elligator2 implementation with a different one, that fixes the various distinguishers stemming from bugs in the original implementation and "The Elligator paper is extremely hard to read". All releases prior to this commit are trivially distinguishable with simple math, so upgrading is strongly recommended. The upgrade is fully backward-compatible with existing implementations, however the non-upgraded side will emit traffic that is trivially distinguishable from random. Special thanks to Loup Vaillant for his body of work on this primitive, and for motivating me to fix it.
3.4 KiB
obfs4 - The obfourscator
Yawning Angel (yawning at schwanenlied dot me)
What?
This is a look-like nothing obfuscation protocol that incorporates ideas and concepts from Philipp Winter's ScrambleSuit protocol. The obfs naming was chosen primarily because it was shorter, in terms of protocol ancestery obfs4 is much closer to ScrambleSuit than obfs2/obfs3.
The notable differences between ScrambleSuit and obfs4:
- The handshake always does a full key exchange (no such thing as a Session Ticket Handshake).
- The handshake uses the Tor Project's ntor handshake with public keys obfuscated via the Elligator 2 mapping.
- The link layer encryption uses NaCl secret boxes (Poly1305/XSalsa20).
As an added bonus, obfs4proxy also supports acting as an obfs2/3 client and bridge to ease the transition to the new protocol.
Why not extend ScrambleSuit?
It's my protocol and I'll obfuscate if I want to.
Since a lot of the changes are to the handshaking process, it didn't make sense to extend ScrambleSuit as writing a server implementation that supported both handshake variants without being obscenely slow is non-trivial.
Dependencies
Build time library dependencies are handled by the Go module automatically.
If you are on Go versions earlier than 1.11, you might need to run go get -d ./... to download all the dependencies. Note however, that modules always use
the same dependency versions, while go get -d always downloads master.
- Go 1.11.0 or later. Patches to support up to 2 prior major releases will be accepted if they are not overly intrusive and well written.
- See
go.mod,go.sumandgo list -m -u allfor build time dependencies.
Installation
To build:
`go build -o obfs4proxy/obfs4proxy ./obfs4proxy`
To install, copy ./obfs4proxy/obfsproxy to a permanent location
(Eg: /usr/local/bin)
Client side torrc configuration:
ClientTransportPlugin obfs4 exec /usr/local/bin/obfs4proxy
Bridge side torrc configuration:
# Act as a bridge relay.
BridgeRelay 1
# Enable the Extended ORPort
ExtORPort auto
# Use obfs4proxy to provide the obfs4 protocol.
ServerTransportPlugin obfs4 exec /usr/local/bin/obfs4proxy
# (Optional) Listen on the specified address/port for obfs4 connections as
# opposed to picking a port automatically.
#ServerTransportListenAddr obfs4 0.0.0.0:443
Tips and tricks
-
On modern Linux systems it is possible to have obfs4proxy bind to reserved ports (<=1024) even when not running as root by granting the
CAP_NET_BIND_SERVICEcapability with setcap:# setcap 'cap_net_bind_service=+ep' /usr/local/bin/obfs4proxy -
obfs4proxy can also act as an obfs2 and obfs3 client or server. Adjust the
ClientTransportPluginandServerTransportPluginlines in the torrc as appropriate. -
obfs4proxy can also act as a ScrambleSuit client. Adjust the
ClientTransportPluginline in the torrc as appropriate. -
The autogenerated obfs4 bridge parameters are placed in
DataDir/pt_state/obfs4_state.json. To ease deployment, the client side bridge line is written toDataDir/pt_state/obfs4_bridgeline.txt.
Thanks
- Loup Vaillant for motivating me to replace the Elligator implementation and a body of code I could draw on to accelerate the replacement process.
- David Fifield for goptlib.
- Adam Langley for his initial Elligator implementation.
- Philipp Winter for the ScrambleSuit protocol which provided much of the design.