It currently is being designed for testnet-L, a test network where all* txids are normalized. The plan is to eventually use the agreed longer-term solution (segwit?), but we want to not be concerned with updates to segwit, so we're running with this. Normalized txids fixes malleability but isn't something that can be cleanly done to the existing bitcoin network.
Lnd is not yet functional, but we hope to have a proof of concept on testnet-L soon. The projection is it will be operational before necessary the necessary malleabilty soft-forks are into bitcoin mainnet (may be significantly before if there are any delays in mainnet malleability fix).
A package centered around a generic interface for receiving transaction/confirmation based notifications concerning the blockchain. Such notifications are required in order for pending payment channels to be notified once the funding transaction gains a specified number of confirmations, and in order to catch a counter-party attempting a non-cooperative close using a past commitment transaction to steal funds.
At the moment, it only has a single concrete implementation: using btcd's websockets notifications. However, more implementations of the interface are planned, such as electrum, polling via JSON-RPC, Bitcoin Core's ZeroMQ notifications, and more.
lnd's primary datastore. It uses a generic interface defined in [walletdb](https://godoc.org/github.com/btcsuite/btcwallet/walletdb) allowing for usage of any sotrage backend which adheres to the interface. The current concrete implementation used is driven by [bolt](https://github.com/boltdb/bolt). `channeldb` is responsible for storing state such as meta-data concerning the current open channels, closed channels, past routes we used, fee schedules within the network, and information about remote peers (ID, uptime, reputation, etc).
Library to send and receive a tree structure of hashes which can be sequentially revealed. If you want to send N secrets, you only need to send N secrets (no penalty there) but the receiver only needs to store log2(N) hashes, and can quickly compute any previous secret from those.
This is useful for the hashed secrets in LN payment channels.
Library for authenticated encrypted communication between LN nodes. It uses chacha20_poly1305 for the symmetric cipher, and the secp256k1 curve used in bitcoin for public keys. No signing is used, only two ECDH calculations: first with ephemeral keypairs and second with persistent identifying public keys.
An application specific, yet general Bitcoin wallet which understands all the fancy script, and transaction formats needed to transact on the Lightning Network. The interface, and interaction with the core wallet logic has been designed independent of any peer-to-peer communication. The goal is to make lnwallet self-contained, and easily embeddable within future projects interacting with the Lightning Network. The current state machine for channel updates is blocking, only allowing one pending update at a time. This will soon be replaced in favor of the highly concurrent, non-blocking state machine within `lnstate`.
Library of messages for Lightning Network node to node communcations. Messages for opening and closing channels, as well as updating and revoking channel states are described here.