melstf

Crates.iomelstf
lib.rsmelstf
version0.12.3
sourcesrc
created_at2023-02-25 04:42:31.838969
updated_at2023-02-27 00:47:51.84184
descriptionCore state-transition function and data structures for Mel
homepage
repositoryhttps://github.com/themeliolabs/melstf
max_upload_size
id794165
size192,911
Eric Tung (nullchinchilla)

documentation

README

melstructs: Mel's core state transition function

This crate contains the data structures and core algorithms that comprise Mel's core state transition function. Any piece of software needing to validate Mel transactions or answer questions like "what happens to the Mel state if transactions A, B, and C happen" can use this minimal-dependency crate.

The State type

The most important type in the crate is State, and the closely associated type SealedState. The yellow paper talks about them further, but in short:

  • State represents an mutable Mel world-state and it's not directly serializable. It includes all the information needed to validate new transactions and blocks, such as a SMT of all outstanding coins, Melmint parameters, etc. It has methods taking Transactions etc that advance the state, as well as others to produce serializable blocks, headers, etc.
  • SealedState represents a sealed state. This roughly corresponds to the notion of "the blockchain state at a given height". Blocks represent transitions from one SealedState to another.

Note

This crate is the most consensus-critical part of Mel, and essentially defines the entire on-chain logic of the Mel blockchain.

Versions incompatible with the latest Mel state are thus all yanked.

Example Usage in themelio-node

To illustrate STF's usage, let's look at themelio-node as an example.

When a node is run for the first time, it will instantiate storage to keep track of the State. It does this by reading it from persisted history data, or create a new genesis state.

During it's lifetime, the node will need to update it's current knowledge of the State by doing things like handling incoming apply_tx RPCs, or syncing up its blocks (apply_block) with other nodes.

For example, an incoming apply_tx RPC call to the node will take the current provisional State and call State::apply_tx. If the node is a staker, this provisional state is later used to participate in the consensus algorithm (e.g. streamlette).

When a slower node syncs its state with a peer at a higher height, it will continuously call apply_block on its current highest state.

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