Trait sp_consensus_grandpa::GrandpaApi

pub trait GrandpaApi<Block: BlockT>: Core<Block> {
    // Provided methods
    fn grandpa_authorities(
        &self,
        __runtime_api_at_param__: <Block as BlockT>::Hash
    ) -> Result<AuthorityList, ApiError> { ... }
    fn submit_report_equivocation_unsigned_extrinsic(
        &self,
        __runtime_api_at_param__: <Block as BlockT>::Hash,
        equivocation_proof: EquivocationProof<Block::Hash, NumberFor<Block>>,
        key_owner_proof: OpaqueKeyOwnershipProof
    ) -> Result<Option<()>, ApiError> { ... }
    fn generate_key_ownership_proof(
        &self,
        __runtime_api_at_param__: <Block as BlockT>::Hash,
        set_id: SetId,
        authority_id: AuthorityId
    ) -> Result<Option<OpaqueKeyOwnershipProof>, ApiError> { ... }
    fn current_set_id(
        &self,
        __runtime_api_at_param__: <Block as BlockT>::Hash
    ) -> Result<SetId, ApiError> { ... }
}

APIs for integrating the GRANDPA finality gadget into runtimes. This should be implemented on the runtime side.

This is primarily used for negotiating authority-set changes for the gadget. GRANDPA uses a signaling model of changing authority sets: changes should be signaled with a delay of N blocks, and then automatically applied in the runtime after those N blocks have passed.

The consensus protocol will coordinate the handoff externally.

Provided Methods

fn grandpa_authorities( &self, __runtime_api_at_param__: <Block as BlockT>::Hash ) -> Result<AuthorityList, ApiError>

Get the current GRANDPA authorities and weights. This should not change except for when changes are scheduled and the corresponding delay has passed.

When called at block B, it will return the set of authorities that should be used to finalize descendants of this block (B+1, B+2, …). The block B itself is finalized by the authorities from block B-1.

fn submit_report_equivocation_unsigned_extrinsic( &self, __runtime_api_at_param__: <Block as BlockT>::Hash, equivocation_proof: EquivocationProof<Block::Hash, NumberFor<Block>>, key_owner_proof: OpaqueKeyOwnershipProof ) -> Result<Option<()>, ApiError>

Submits an unsigned extrinsic to report an equivocation. The caller must provide the equivocation proof and a key ownership proof (should be obtained using generate_key_ownership_proof). The extrinsic will be unsigned and should only be accepted for local authorship (not to be broadcast to the network). This method returns None when creation of the extrinsic fails, e.g. if equivocation reporting is disabled for the given runtime (i.e. this method is hardcoded to return None). Only useful in an offchain context.

fn generate_key_ownership_proof( &self, __runtime_api_at_param__: <Block as BlockT>::Hash, set_id: SetId, authority_id: AuthorityId ) -> Result<Option<OpaqueKeyOwnershipProof>, ApiError>

Generates a proof of key ownership for the given authority in the given set. An example usage of this module is coupled with the session historical module to prove that a given authority key is tied to a given staking identity during a specific session. Proofs of key ownership are necessary for submitting equivocation reports. NOTE: even though the API takes a set_id as parameter the current implementations ignore this parameter and instead rely on this method being called at the correct block height, i.e. any point at which the given set id is live on-chain. Future implementations will instead use indexed data through an offchain worker, not requiring older states to be available.

fn current_set_id( &self, __runtime_api_at_param__: <Block as BlockT>::Hash ) -> Result<SetId, ApiError>

Get current GRANDPA authority set id.

Trait Implementations

impl<Block: BlockT> RuntimeApiInfo for dyn GrandpaApi<Block>

const ID: [u8; 8] = _

The identifier of the runtime api.

const VERSION: u32 = 3u32

The version of the runtime api.

Implementors