Documentation ¶
Overview ¶
Package api implements the random beacon and time keeping APIs.
Index ¶
- Constants
- Variables
- func RegisterService(server *grpc.Server, service Backend)
- type Backend
- type BeaconEvent
- type ConsensusParameters
- type EpochEvent
- type EpochTime
- type EpochTimeState
- type Genesis
- type InsecureParameters
- type PrevVRFState
- type SetableBackend
- type VRFBackend
- type VRFEvent
- type VRFParameters
- type VRFProve
- type VRFState
Constants ¶
const ( // ModuleName is a unique module name for the beacon module. ModuleName = "beacon" // BeaconSize is the size of the beacon in bytes. BeaconSize = 32 // EpochInvalid is the placeholder invalid epoch. EpochInvalid EpochTime = 0xffffffffffffffff // ~50 quadrillion years away. // BackendInsecure is the name of the insecure backend. BackendInsecure = "insecure" // BackendVRF is the name of the VRF backend. BackendVRF = "vrf" )
const GasOpVRFProve transaction.Op = "vrf_prove"
GasOpVRFProve is the gas operation identifier for VRF proof submission.
Variables ¶
var ( // MethodVRFProve is the method name for a VRF proof. MethodVRFProve = transaction.NewMethodName(ModuleName, "VRFProve", VRFProve{}) // DefaultVRFGasCosts are the default gas costs for VRF operations. DefaultVRFGasCosts = transaction.Costs{ GasOpVRFProve: 1000, } )
var ErrBeaconNotAvailable = errors.New(ModuleName, 1, "beacon: random beacon not available")
ErrBeaconNotAvailable is the error returned when a beacon is not available for the requested height for any reason.
Functions ¶
func RegisterService ¶ added in v0.2100.0
RegisterService registers a new beacon service with the given gRPC server.
Types ¶
type Backend ¶
type Backend interface { // GetBaseEpoch returns the base epoch. GetBaseEpoch(context.Context) (EpochTime, error) // GetEpoch returns the epoch number at the specified block height. // Calling this method with height `consensus.HeightLatest`, should // return the epoch of latest known block. GetEpoch(context.Context, int64) (EpochTime, error) // GetFutureEpoch returns any future epoch that is currently scheduled // to occur at a specific height. // // Note that this may return a nil state in case no future epoch is // currently scheduled. GetFutureEpoch(context.Context, int64) (*EpochTimeState, error) // GetEpochBlock returns the block height at the start of the said // epoch. GetEpochBlock(context.Context, EpochTime) (int64, error) // WaitEpoch waits for a specific epoch. // // Note that an epoch is considered reached even if any epoch greater // than the one specified is reached (e.g., that the current epoch // is already in the future). WaitEpoch(ctx context.Context, epoch EpochTime) error // WatchEpochs returns a channel that produces a stream of messages // on epoch transitions. // // Upon subscription the current epoch is sent immediately. WatchEpochs(ctx context.Context) (<-chan EpochTime, pubsub.ClosableSubscription, error) // WatchLatestEpoch returns a channel that produces a stream of // messages on epoch transitions. If an epoch transition happens // before the previous epoch is read from the channel, the old // epochs are overwritten. // // Upon subscription the current epoch is sent immediately. WatchLatestEpoch(ctx context.Context) (<-chan EpochTime, pubsub.ClosableSubscription, error) // GetBeacon gets the beacon for the provided block height. // Calling this method with height `consensus.HeightLatest` should // return the beacon for the latest finalized block. GetBeacon(context.Context, int64) ([]byte, error) // StateToGenesis returns the genesis state at specified block height. StateToGenesis(context.Context, int64) (*Genesis, error) // ConsensusParameters returns the beacon consensus parameters. ConsensusParameters(ctx context.Context, height int64) (*ConsensusParameters, error) }
Backend is a random beacon/time keeping implementation.
func NewBeaconClient ¶ added in v0.2100.0
func NewBeaconClient(c *grpc.ClientConn) Backend
NewBeaconClient creates a new gRPC scheduler client service.
type BeaconEvent ¶ added in v0.2200.0
type BeaconEvent struct { // Beacon is the new beacon value. Beacon []byte `json:"beacon,omitempty"` }
BeaconEvent is the beacon event.
func (*BeaconEvent) EventKind ¶ added in v0.2200.0
func (ev *BeaconEvent) EventKind() string
EventKind returns a string representation of this event's kind.
type ConsensusParameters ¶
type ConsensusParameters struct { // Backend is the beacon backend. Backend string `json:"backend"` // DebugMockBackend is flag for enabling the mock epochtime backend. DebugMockBackend bool `json:"debug_mock_backend,omitempty"` // InsecureParameters are the beacon parameters for the insecure backend. InsecureParameters *InsecureParameters `json:"insecure_parameters,omitempty"` // VRFParamenters are the beacon parameters for the VRF backend. VRFParameters *VRFParameters `json:"vrf_parameters,omitempty"` }
ConsensusParameters are the beacon consensus parameters.
type EpochEvent ¶ added in v0.2200.0
type EpochEvent struct { // Epoch is the new epoch. Epoch EpochTime `json:"epoch,omitempty"` }
EpochEvent is the epoch event.
func (*EpochEvent) EventKind ¶ added in v0.2200.0
func (ev *EpochEvent) EventKind() string
EventKind returns a string representation of this event's kind.
type EpochTime ¶ added in v0.2100.0
type EpochTime uint64
EpochTime is the number of intervals (epochs) since a fixed instant in time/block height (epoch date/height).
type EpochTimeState ¶ added in v0.2100.0
EpochTimeState is the epoch state.
type Genesis ¶
type Genesis struct { // Base is the starting epoch. Base EpochTime `json:"base"` // Parameters are the beacon consensus parameters. Parameters ConsensusParameters `json:"params"` }
Genesis is the genesis state.
func (*Genesis) SanityCheck ¶
SanityCheck does basic sanity checking on the genesis state.
type InsecureParameters ¶ added in v0.2100.0
type InsecureParameters struct { // Interval is the epoch interval (in blocks). Interval int64 `json:"interval,omitempty"` }
InsecureParameters are the beacon parameters for the insecure backend.
type PrevVRFState ¶ added in v0.2200.0
type PrevVRFState struct { // Pi is the accumulated pi_string (VRF proof) outputs for the // previous epoch. Pi map[signature.PublicKey]*signature.Proof `json:"pi.omitempty"` // CanElectCommittees is true iff the previous alpha was generated // from high quality input such that committee elections are possible. CanElectCommittees bool `json:"can_elect,omitempty"` }
PrevVRFState is the previous epoch's VRF state that is to be used for elections.
type SetableBackend ¶ added in v0.2100.0
type SetableBackend interface { Backend // SetEpoch sets the current epoch. SetEpoch(context.Context, EpochTime) error }
SetableBackend is a Backend that supports setting the current epoch.
type VRFBackend ¶ added in v0.2200.0
type VRFBackend interface { Backend // GetVRFState gets the VRF state for the provided block height. GetVRFState(context.Context, int64) (*VRFState, error) // WatchLatestVRFEvent returns a channel that produces a stream // of messages on VRF events. If an epoch transition happens // before the previous epoch event is read from the channel, old // events are overwritten. // // Upon subscription the current epoch event is sent immediately. WatchLatestVRFEvent(ctx context.Context) (<-chan *VRFEvent, *pubsub.Subscription, error) }
VRFBackend is a Backend that is backed by VRFs.
type VRFEvent ¶ added in v0.2200.0
type VRFEvent struct { // Epoch is the epoch that Alpha is valid for. Epoch EpochTime `json:"epoch,omitempty"` // Alpha is the active VRF alpha_string input. Alpha []byte `json:"alpha,omitempty"` // SubmitAfter is the block height after which nodes may submit // VRF proofs for the current epoch. SubmitAfter int64 `json:"submit_after"` }
VRFEvent is a VRF backend event.
type VRFParameters ¶ added in v0.2200.0
type VRFParameters struct { // AlphaHighQualityThreshold is the minimum number of proofs (Pi) // that must be received for the next input (Alpha) to be considered // high quality. If the VRF input is not high quality, runtimes will // be disabled for the next epoch. AlphaHighQualityThreshold uint64 `json:"alpha_hq_threshold,omitempty"` // Interval is the epoch interval (in blocks). Interval int64 `json:"interval,omitempty"` // ProofSubmissionDelay is the wait peroid in blocks after an epoch // transition that nodes MUST wait before attempting to submit a // VRF proof for the next epoch's elections. ProofSubmissionDelay int64 `json:"proof_delay,omitempty"` // GasCosts are the VRF proof gas costs. GasCosts transaction.Costs `json:"gas_costs,omitempty"` }
VRFParameters are the beacon parameters for the VRF backend.
type VRFState ¶ added in v0.2200.0
type VRFState struct { // Epoch is the epoch for which this alpha is valid. Epoch EpochTime `json:"epoch,omitempty"` // Alpha is the active VRF alpha_string input. Alpha []byte `json:"alpha,omitempty"` // Pi is the accumulated pi_string (VRF proof) outputs. Pi map[signature.PublicKey]*signature.Proof `json:"pi,omitempty"` // AlphaIsHighQuality is true iff the alpha was generated from // high quality input such that elections will be possible. AlphaIsHighQuality bool `json:"alpha_hq,omitempty"` // SubmitAfter is the block height after which nodes may submit // VRF proofs for the current epoch. SubmitAfter int64 `json:"submit_after,omitempty"` // PrevState is the VRF state from the previous epoch, for the // current epoch's elections. PrevState *PrevVRFState `json:"prev_state,omitempty"` }
VRFState is the VRF backend state.