Callum Waters 31b182b7aa | 4 years ago | |
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assets | 5 years ago | |
README.md | 5 years ago | |
accountability.md | 4 years ago | |
detection.md | 5 years ago | |
verification.md | 5 years ago |
NOTE: This specification is under heavy development and is not yet complete nor accurate.
The Tendermint Light Client is motivated by the need for a light weight protocol to sync with a Tendermint blockchain, with the least processing necessary to securely verify a recent state. The protocol consists of managing trusted validator sets and trusted block headers, and is based primarily on checking hashes and verifying Tendermint commit signatures.
Motivating use cases include:
The Tendermint Light Client consists of three primary components:
While every light client must perform core verification and fork detection to achieve their prescribed security level, fork accountability is expected to be done by full nodes and validators, and is thus more accurately a component of the full node consensus protocol, though it is included here since it is primarily concerned with providing security to light clients.
A schematic of the core verification and fork detection components in a Light Node are depicted below. The schematic is quite similar for other use cases. Note that fork accountability is not depicted, as it is the responsibility of the full nodes.
Light clients are fundamentally synchronous protocols, where security is restricted by the interval during which a validator can be punished for Byzantine behaviour. We assume here that such intervals have fixed and known minimal duration referred to commonly as a blockchain's Unbonding Period.
A secure light client must guarantee that all three components - core verification, fork detection, and fork accountability - each with their own synchrony assumptions and fault model, can execute sequentially and to completion within the given Unbonding Period.
TODO: define all the synchrony parameters used in the protocol and their relation to the Unbonding Period.