So i wanted to learn Rust and though it might be a good idea to implement RetroShare in Rust as an exercise.
Some parts might still look "c like" and some design pattern might be stupid or "anti Rust".

• I’ve refactored a lot and then everything broke!

  • I’ve continued asyncifying everything

    • Previously there were only a few threads

      • one for each peer, handling communication and (peer) services (that are the services that only core for their single peer, like heartbeat, status or rtt)

      • one for everything else aka. the core, handling all other services (that work with all peers, like chat or gxs stuff)

    • now there are 0 (zero) threads! (well this is kinda a lie but let me explain)

      • everything is a task, each service is an individual task, each peer and the core

      • core and peer tasks only move messages around

      • what are tasks in contrast to threads, you ask? well just have a look here!

    • every is async with queues (except where it is not :rolling_eyes:)

• I’ve properly restructured (=it’s better than before!) the gxs/nxs code into a gxs backend.

  • still some gxs id specifics are not separated properly but it’s cleaner then before

  • one cool feature: I can request a gxs id (from the database, not peers) with a timeout in one line completely asynchronous, no polling involved!

• I’ve introduces proper flag support (Rust’s bitflags).

  • This ensures type safety and enables nice debug printing

• gxs/nxs might still be not working a 100%, need to invest some more time

• the chat service is stabilized, bugs are fixed and everything is supposed to work …​ (famous last words)

  • i do need to refactor some stuff, for example, handling of (identity) keys.

• GXS! Yes that one big system that keeps most parts of RS going

  • currently only GxsId

    • can request missing identities

    • can answer (and provide) identity requests

  • overall a big mix, need to refactor and untangle the database, nxs and id service

  • reads RS database from disk, nothing it written.

  • writes received data into an in-memory database (which is also used as a cache)

• things i’m unhappy with

  • right now there is one big main loop for everything + one per peer. This should be split up into more (async) tasks

  • database operations should probably spawned blocking (?)

  • there might be deadlocks…​ i lost track of all the mutex’s …​ need to refactor that, too

• finally managed to get TLV working with serde. Wasn’t that hard after

• all - once you know how to do it.

  • it’s quite easy now, you only have to deal with::

    • Tlv generic TLV type with fixed length content (e.g. a struct)

    • Tlv2 generic TLV type with variable length content (e.g. a vector)

    • TlvSet generic TLV set

    • TlvMap generic TLV map

    • TlvMapWithPair generic TLV map that wraps both Key and Value in a TlvGenericPairRef …​

    • also TlvIpAddress requires extra work since the same packet/tag can contain a IPv4 or IPv6 TlvIpAddress and you have to check the inner tag to find out

    • also TlvSecurityKeySet requires extra work since private and public keys are the same and you have to check the key flags after serializing it

• everything blocking is now async (network, queues) using tokio

• added support for sqlite(-cipher) (very basic)

• added support for the REST api (using actix), not much is implemented yet

  • also the RsNewWebUi doesn’t use content-type so actix will complain (complain == doesn’t do anything)

    • can be fixed in RsNewWebUi by adding headers['Content-type'] = 'application/json'; in rswebui

• removed any manual serialization (looking at you serial_stuff.rs)

• stubbed out chat service

  • currently all available lobbies are joined and both events and messages are logged

• Added/factored out retroshare_compat lib for handling wire format and similar.

• Implemented discovery to receive ip updates.

• Implemented turtle (currently only forwards generic tunnels).

• Slice format is used whenever sending.

• There is Xeres! It’s a RetroShare client written in Java.