From: Matt Corallo Date: Tue, 25 Feb 2020 20:57:58 +0000 (-0500) Subject: Add some basic arch diagrams/descriptions. X-Git-Tag: v0.0.12~95^2 X-Git-Url: http://git.bitcoin.ninja/?a=commitdiff_plain;h=refs%2Fheads%2F2020-02-checkin-arch;p=rust-lightning Add some basic arch diagrams/descriptions. --- diff --git a/ARCH.md b/ARCH.md new file mode 100644 index 000000000..dba91e7f2 --- /dev/null +++ b/ARCH.md @@ -0,0 +1,62 @@ +Rust-Lightning is broken into a number of high-level structures with APIs to hook them +together, as well as APIs for you, the user, to provide external data. + +The two most important structures which nearly every application of Rust-Lightning will +need to use are `ChannelManager` and `ChannelMonitor`. `ChannelManager` holds multiple +channels, routes payments between them, and exposes a simple API to make and receive +payments. Individual `ChannelMonitor`s monitor the on-chain state of a channel, punish +counterparties if they misbehave, and force-close channels if they contain unresolved +HTLCs which are near expiration. The `ManyChannelMonitor` API provides a way for you to +receive `ChannelMonitorUpdate`s from `ChannelManager` and persist them to disk before the +channel steps forward. + +There are two additional important structures that you may use either on the same device +as the `ChannelManager` or on a separate one. `Router` handles receiving channel and node +node announcements and calculates routes for sending payments. `PeerManager` handles the +authenticated and encrypted communication protocol, monitoring for liveness of peers, +routing messages to `ChannelManager` and `Router` instances directly, and receiving +messages from them via the `EventsProvider` interface. + +These structs communicate with each other using a public API, so that you can easily add +a proxy in between for special handling. Further, APIs for key generation, transaction +broadcasting, block fetching, and fee estimation must be implemented and the data +provided by you, the user. + +The library does not rely on the presence of a runtime environment outside of access to +heap, atomic integers, and basic Mutex primitives. This means the library will never +spawn threads or take any action whatsoever except when you call into it. Thus, +`ChannelManager` and `PeerManager` have public functions which you should call on a timer, +network reads and writes are external and provided by you, and the library relies only on +block time for current time knowledge. + +At a high level, some of the common interfaces fit together as follows: + + +``` + + ----------------- + | KeysInterface | -------------- + ----------------- | UserConfig | + -------------------- | -------------- + /------| MessageSendEvent | | | ---------------- + | -------------------- | | | FeeEstimator | + | (as MessageSendEventsProvider) | | ---------------- + | ^ | | / | ------------------------ + | \ | | / ---------> | BroadcasterInterface | + | \ | | / / | ------------------------ + | \ v v v / v ^ + | (as ------------------ ---------------------- + | ChannelMessageHandler)-> | ChannelManager | ----> | ManyChannelMonitor | + v / ------------------ ---------------------- +--------------- / ^ (as EventsProvider) ^ +| PeerManager |- | \ / / +--------------- | -------\---/---------- + | ----------------------- / \ / + | | ChainWatchInterface | - v + | ----------------------- --------- + | | | Event | +(as RoutingMessageHandler) v --------- + \ ---------- + -----------------> | Router | + ---------- +```