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[tor-commits] [obfsproxy/master] Add obfsproxy architecture draft.
commit 2a65bc2ac1a6257351291afc86fb95fd8bc1e480
Author: George Kadianakis <desnacked@xxxxxxxxx>
Date: Tue Dec 13 14:44:11 2011 +0100
Add obfsproxy architecture draft.
---
doc/obfsproxy_architecture.txt | 186 ++++++++++++++++++++++++++++++++++++++++
1 files changed, 186 insertions(+), 0 deletions(-)
diff --git a/doc/obfsproxy_architecture.txt b/doc/obfsproxy_architecture.txt
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+architecture
+
+ : Top Level View
+
+obfsproxy is a pluggable transports proxy written in C. It's compliant
+to the pluggable transports specification [0], and its modular
+architecture allows it to support multiple pluggable transports.
+
+# It supports two modes of operation, the 'external proxy' mode and the
+# 'managed proxy' mode. When used as an 'external proxy', the user
+# configures obfsproxy using the command-line. When used as a 'managed
+# proxy', obfsproxy can be configured by another application using the
+# managed proxy configuration protocol defined in the pluggable
+# transports specification [0].
+
+ : Modularity
+
+obfsproxy uses callbacks and object-oriented programming principles to
+achieve modularity. This way, a developer who is interested in writing
+a pluggable transport doesn't need to know obfsproxy's code inside
+out.
+
+- Callbacks
+
+ obfsproxy provides a set of callbacks that the plugin writer can use
+ to execute his transport's code, in an event-driven programming
+ fashion.
+
+ As a basic example, there is a callback triggering when obfsproxy
+ receives network data. The plugin writer uses that callback to
+ retrieve and process data according to his pluggable transport
+ protocol.
+
+- OOP
+
+ obfsproxy provides a set of base classes, representing networking
+ concepts, that the developer can inherit and populate with his
+ transport's data.
+
+ As an example, the 'conn_t' structure represents a bidirectional
+ network connection between two peers. The pluggable transport writer
+ can inherit 'conn_t' and save his transport's state for that
+ connection to the new struct.
+
+Developers that make good use of obfsproxy's callbacks and OOP, should
+be able to implement most pluggable transports.
+
+ : Codebase tour
+
+This section does a short introduction into some areas of obfsproxy's
+code.
+
+- Networking subsystem
+
+This section explains the networking concepts and terminology of
+obfsproxy. The relevant code can be found in src/network.c.
+
+A 'connection' is a bidirectional communications channel, usually
+backed by a network socket. For example, the communication channel
+between tor and obfsproxy is a 'connection'.
+
+A 'circuit' is a pair of connections, referred to as the 'upstream'
+and 'downstream' connections. The upstream connection of a circuit
+communicates in cleartext with the higher-level program that wishes to
+make use of our obfuscation service. The downstream connection
+commmunicates in an obfuscated fashion with the remote peer that the
+higher-level client wishes to contact.
+
+The diagram below might help demonstrate the relationship between
+connections and circuits:
+
+ downstream
+
+ 'circuit_t C' 'conn_t CD' 'conn_t SD' 'circuit_t S'
+ +-----------+ +-----------+
+ upstream ----|obfsproxy c|-------------|obfsproxy s|---- upstream
+ | +-----------+ +-----------+ |
+ 'conn_t CU'| |'conn_t SU'
+ +------------+ +--------------+
+ | Tor Client | | Tor Bridge |
+ +------------+ +--------------+
+
+In the above diagram, "obfsproxy c" is the client-side obfsproxy, and
+"obfsproxy s" is the server-side obfsproxy. "conn_t CU" is the
+Client's Upstream connection, the communication channel between tor
+and obfsproxy. "conn_t CD" is the Client's Downstream connection, the
+communication channel between obfsproxy and the remote peer. These two
+connections form "circuit_t C".
+
+A 'listener' is a listening socket bound to a particular obfuscation
+protocol. Connecting to a listener creates one connection of a
+circuit, and causes this program to initiate the other connection
+(possibly after receiving in-band instructions about where to connect
+to). A listener is said to be a 'client' listener if connecting to it
+creates the upstream connection, and a 'server' listener if connecting
+to it creates the downstream connection.
+
+There are two kinds of client listeners: a 'simple' client listener
+always connects to the same remote peer every time it needs to
+initiate a downstream connection; a 'socks' client listener can be
+told to connect to an arbitrary remote peer using the SOCKS protocol
+(version 4 or 5).
+
+- Protocol subsystem
+
+Pluggable transports are called 'protocols' in obfsproxy
+code. Protocol-specific code can be found in src/protocols/.
+
+src/protocol.c acts as an intermediary between generic obfsproxy code
+and protocol-specific code. It wraps protocol-specific functions for
+use by the rest of obfsproxy, and provides various protocol-related
+functions.
+
+All supported protocols are registered to obfsproxy by adding them to
+the supported_protocols[] array in src/protocol.c.
+
+- Cryptography subsystem
+
+The primary goal of pluggable transports is to obfuscate network
+traffic. This means that most transports will need to use
+cryptography.
+
+obfsproxy provides a cryptography subsystem for transports that need
+it; the code can be found in src/crypt.c. It supports various
+cryptographic operations, like hashing, symmetric encryption and
+random-number generation.
+
+ : Extending obfsproxy
+
+- Adding pluggable transports
+
+Ideally, this is the only thing you will ever want to add to
+obfsproxy: your pluggable transport. A low-level guide on how to add
+your own pluggable transport can be found in doc/HACKING. This is a
+high level overview:
+
+ * Write your pluggable transport, by writing code for the callback
+ events in protocol.c:protocol_vtable and by subclassing the base
+ classes of network.h and protocol.h. Look at doc/HACKING and at the
+ code of existing transports in src/protocols/.
+
+ * Register your transport to the protocol subsystem by adding it to
+ the supported_protocols list in src/protocol.c.
+
+ * Add all new files to the Makefile.
+
+- Extending callbacks
+
+obfsproxy's modularity is based on callbacks, and even though the
+defaults should satisfy the needs of many plugin writers, it's
+possible that some plugin writers will need to extend obfsproxy to
+write their own callbacks.
+
+As an example, think of a plugin that needs to send fake data in the
+absense of network activity: the current obfsproxy doesn't have a
+callback for this scenario. The plugin writer would have to dive into
+the networking subsystem of obfsproxy, write the callback triggering
+code, register the new callback and finally write the code that
+executes when the callback triggers.
+
+Depending on the scenario's complexity this might be a difficult task,
+but there is not much that obfsproxy can do, since it's not possible
+to have callbacks for any potentially useful scenario.
+
+- Extending crypto
+
+The current cryptography subsystem is made to order for the current
+transports, and might not be sufficient for all transports. If a
+transport needs more crypto, the plugin writer can add his own
+cryptography functions to src/crypt.c.
+
+- Extending architecture logic
+
+obfsproxy tries to keep obfsproxy code and protocol-specific code as
+disconnected as possible. This means that protocol-specific code
+should know as little as possible about generic code internals, and
+generic code should know nothing about protocol-specific code except
+from what's exported through the protocol subsystem (src/protocol.[ch]).
+
+Plugin writers should not use their protocol-specific functions in
+generic code, and should find a way to complete their task in the most
+protocol-agnostic way possible. This helps keep both parts of the code
+clean.
+
+[0]:
+https://gitweb.torproject.org/torspec.git/blob/HEAD:/proposals/180-pluggable-transport.txt
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