Documentation ¶
Overview ¶
Package api implements the runtime and entity registry APIs.
Index ¶
- Constants
- Variables
- type AnyNodeRuntimeAdmissionPolicy
- type ConsensusAddressQuery
- type ConsensusParameterChanges
- type ConsensusParameters
- type DeregisterEntity
- type EntityEvent
- type EntityWhitelistConfig
- type EntityWhitelistRuntimeAdmissionPolicy
- type Event
- type ExecutorParameters
- type Fault
- type Genesis
- type GetRuntimeQuery
- type GetRuntimesQuery
- type IDQuery
- type MaxNodesConstraint
- type MinPoolSizeConstraint
- type NamespaceQuery
- type NodeEvent
- type NodeList
- type NodeListEpochEvent
- type NodeStatus
- type NodeUnfrozenEvent
- type Runtime
- type RuntimeAdmissionPolicy
- type RuntimeEvent
- type RuntimeGenesis
- type RuntimeGovernanceModel
- type RuntimeKind
- type RuntimeStakingParameters
- type SchedulingConstraints
- type StorageParameters
- type TxnSchedulerParameters
- type UnfreezeNode
- type ValidatorSetConstraint
- type VersionInfo
Constants ¶
const ( // GasOpRegisterEntity is the gas operation identifier for entity registration. GasOpRegisterEntity transaction.Op = "register_entity" // GasOpDeregisterEntity is the gas operation identifier for entity deregistration. GasOpDeregisterEntity transaction.Op = "deregister_entity" // GasOpRegisterNode is the gas operation identifier for entity registration. GasOpRegisterNode transaction.Op = "register_node" // GasOpUnfreezeNode is the gas operation identifier for unfreezing nodes. GasOpUnfreezeNode transaction.Op = "unfreeze_node" // GasOpRegisterRuntime is the gas operation identifier for runtime registration. GasOpRegisterRuntime transaction.Op = "register_runtime" // GasOpRuntimeEpochMaintenance is the gas operation identifier for per-epoch // runtime maintenance costs. GasOpRuntimeEpochMaintenance transaction.Op = "runtime_epoch_maintenance" // GasOpUpdateKeyManager is the gas operation identifier for key manager // policy updates costs. GasOpUpdateKeyManager transaction.Op = "update_keymanager" // GasOpProveFreshness is the gas operation identifier for freshness proofs. GasOpProveFreshness transaction.Op = "prove_freshness" )
const ( // StakeClaimRegisterEntity is the stake claim identifier used for registering an entity. StakeClaimRegisterEntity = "registry.RegisterEntity" // StakeClaimRegisterNode is the stake claim template used for registering nodes. StakeClaimRegisterNode = "registry.RegisterNode.%s" // StakeClaimRegisterRuntime is the stake claim template used for registering runtimes. StakeClaimRegisterRuntime = "registry.RegisterRuntime.%s" )
const FreezeForever beacon.EpochTime = 0xffffffffffffffff
FreezeForever is an epoch that can be used to freeze a node for all (practical) time.
const ( // LatestRuntimeDescriptorVersion is the latest entity descriptor version that should be used // for all new descriptors. Using earlier versions may be rejected. LatestRuntimeDescriptorVersion = 3 )
const ModuleName = "registry"
ModuleName is a unique module name for the registry module.
Variables ¶
var ( // RegisterEntitySignatureContext is the context used for entity // registration. RegisterEntitySignatureContext = original.RegisterEntitySignatureContext // RegisterGenesisEntitySignatureContext is the context used for // entity registration in the genesis document. // // Note: This is identical to non-gensis registrations to support // migrating existing registrations into a new genesis document. RegisterGenesisEntitySignatureContext = RegisterEntitySignatureContext // RegisterNodeSignatureContext is the context used for node // registration. RegisterNodeSignatureContext = original.RegisterNodeSignatureContext )
Functions ¶
This section is empty.
Types ¶
type AnyNodeRuntimeAdmissionPolicy ¶
type AnyNodeRuntimeAdmissionPolicy struct{}
AnyNodeRuntimeAdmissionPolicy allows any node to register.
type ConsensusAddressQuery ¶
ConsensusAddressQuery is a registry query by consensus address. The nature and format of the consensus address depends on the specific consensus backend implementation used.
type ConsensusParameterChanges ¶
type ConsensusParameterChanges struct { // DisableRuntimeRegistration is the new disable runtime registration flag. DisableRuntimeRegistration *bool `json:"disable_runtime_registration,omitempty"` // DisableKeyManagerRuntimeRegistration the new disable key manager runtime registration flag. DisableKeyManagerRuntimeRegistration *bool `json:"disable_km_runtime_registration,omitempty"` // GasCosts are the new gas costs. GasCosts transaction.Costs `json:"gas_costs,omitempty"` // MaxNodeExpiration is the maximum node expiration. MaxNodeExpiration *uint64 `json:"max_node_expiration,omitempty"` // EnableRuntimeGovernanceModels are the new enabled runtime governance models. EnableRuntimeGovernanceModels map[RuntimeGovernanceModel]bool `json:"enable_runtime_governance_models,omitempty"` // TEEFeatures are the new TEE features. TEEFeatures **node.TEEFeatures `json:"tee_features,omitempty"` // MaxRuntimeDeployments is the new maximum number of runtime deployments. MaxRuntimeDeployments *uint8 `json:"max_runtime_deployments,omitempty"` }
ConsensusParameterChanges are allowed registry consensus parameter changes.
type ConsensusParameters ¶
type ConsensusParameters struct { // DebugAllowUnroutableAddresses is true iff node registration should // allow unroutable addresses. DebugAllowUnroutableAddresses bool `json:"debug_allow_unroutable_addresses,omitempty"` // DebugAllowTestRuntimes is true iff test runtimes should be allowed to // be registered. DebugAllowTestRuntimes bool `json:"debug_allow_test_runtimes,omitempty"` // DebugBypassStake is true iff the registry should bypass all of the staking // related checks and operations. DebugBypassStake bool `json:"debug_bypass_stake,omitempty"` // DebugDeployImmediately is true iff runtime registrations should // allow immediate deployment. DebugDeployImmediately bool `json:"debug_deploy_immediately,omitempty"` // DisableRuntimeRegistration is true iff runtime registration should be // disabled outside of the genesis block. DisableRuntimeRegistration bool `json:"disable_runtime_registration,omitempty"` // DisableKeyManagerRuntimeRegistration is true iff key manager runtime registration should be // disabled outside of the genesis block. DisableKeyManagerRuntimeRegistration bool `json:"disable_km_runtime_registration,omitempty"` // GasCosts are the registry transaction gas costs. GasCosts transaction.Costs `json:"gas_costs,omitempty"` // MaxNodeExpiration is the maximum number of epochs relative to the epoch // at registration time that a single node registration is valid for. MaxNodeExpiration uint64 `json:"max_node_expiration,omitempty"` // EnableRuntimeGovernanceModels is a set of enabled runtime governance models. EnableRuntimeGovernanceModels map[RuntimeGovernanceModel]bool `json:"enable_runtime_governance_models,omitempty"` // TEEFeatures contains the configuration of supported TEE features. TEEFeatures *node.TEEFeatures `json:"tee_features,omitempty"` // MaxRuntimeDeployments is the maximum number of runtime deployments. MaxRuntimeDeployments uint8 `json:"max_runtime_deployments,omitempty"` }
ConsensusParameters are the registry consensus parameters.
type DeregisterEntity ¶
type DeregisterEntity struct{}
DeregisterEntity is a request to deregister an entity.
type EntityEvent ¶
type EntityEvent struct { Entity *entity.Entity `json:"entity"` IsRegistration bool `json:"is_registration"` }
EntityEvent is the event that is returned via WatchEntities to signify entity registration changes and updates.
type EntityWhitelistConfig ¶
type EntityWhitelistConfig struct { // MaxNodes is the maximum number of nodes that an entity can register under // the given runtime for a specific role. If the map is empty or absent, the // number of nodes is unlimited. If the map is present and non-empty, the // the number of nodes is restricted to the specified maximum (where zero // means no nodes allowed), any missing roles imply zero nodes. MaxNodes map[node.RolesMask]uint16 `json:"max_nodes,omitempty"` }
type EntityWhitelistRuntimeAdmissionPolicy ¶
type EntityWhitelistRuntimeAdmissionPolicy struct {
Entities map[signature.PublicKey]EntityWhitelistConfig `json:"entities"`
}
EntityWhitelistRuntimeAdmissionPolicy allows only whitelisted entities' nodes to register.
type Event ¶
type Event struct { Height int64 `json:"height,omitempty"` TxHash hash.Hash `json:"tx_hash,omitempty"` RuntimeEvent *RuntimeEvent `json:"runtime,omitempty"` EntityEvent *EntityEvent `json:"entity,omitempty"` NodeEvent *NodeEvent `json:"node,omitempty"` NodeUnfrozenEvent *NodeUnfrozenEvent `json:"node_unfrozen,omitempty"` }
Event is a registry event returned via GetEvents.
type ExecutorParameters ¶
type ExecutorParameters struct { // GroupSize is the size of the committee. GroupSize uint16 `json:"group_size"` // GroupBackupSize is the size of the discrepancy resolution group. GroupBackupSize uint16 `json:"group_backup_size"` // AllowedStragglers is the number of allowed stragglers. AllowedStragglers uint16 `json:"allowed_stragglers"` // RoundTimeout is the round timeout in consensus blocks. RoundTimeout int64 `json:"round_timeout"` // MaxMessages is the maximum number of messages that can be emitted by the runtime in a // single round. MaxMessages uint32 `json:"max_messages"` // MinLiveRoundsPercent is the minimum percentage of rounds in an epoch that a node must // participate in positively in order to be considered live. Nodes not satisfying this may be // penalized. MinLiveRoundsPercent uint8 `json:"min_live_rounds_percent,omitempty"` // MinLiveRoundsForEvaluation is the minimum number of live rounds in an epoch for the liveness // calculations to be considered for evaluation. MinLiveRoundsForEvaluation uint64 `json:"min_live_rounds_eval,omitempty"` // MaxLivenessFailures is the maximum number of liveness failures that are tolerated before // suspending and/or slashing the node. Zero means unlimited. MaxLivenessFailures uint8 `json:"max_liveness_fails,omitempty"` }
ExecutorParameters are parameters for the executor committee.
type Fault ¶
type Fault struct { // Failures is the number of times a node has been declared faulty. Failures uint8 `json:"failures,omitempty"` // SuspendedUntil specifies the epoch number until the node is not eligible for being scheduled // into the committee for which it is deemed faulty. SuspendedUntil beacon.EpochTime `json:"suspended_until,omitempty"` }
Fault is used to track the state of nodes that are experiencing liveness failures.
type Genesis ¶
type Genesis struct { // Parameters are the registry consensus parameters. Parameters ConsensusParameters `json:"params"` // Entities is the initial list of entities. Entities []*entity.SignedEntity `json:"entities,omitempty"` // Runtimes is the initial list of runtimes. Runtimes []*Runtime `json:"runtimes,omitempty"` // SuspendedRuntimes is the list of suspended runtimes. SuspendedRuntimes []*Runtime `json:"suspended_runtimes,omitempty"` // Nodes is the initial list of nodes. Nodes []*node.MultiSignedNode `json:"nodes,omitempty"` // NodeStatuses is a set of node statuses. NodeStatuses map[signature.PublicKey]*NodeStatus `json:"node_statuses,omitempty"` }
Genesis is the registry genesis state.
type GetRuntimeQuery ¶
type GetRuntimeQuery struct { Height int64 `json:"height"` ID common.Namespace `json:"id"` IncludeSuspended bool `json:"include_suspended,omitempty"` }
GetRuntimeQuery is a registry query by namespace (Runtime ID).
type GetRuntimesQuery ¶
type GetRuntimesQuery struct { Height int64 `json:"height"` IncludeSuspended bool `json:"include_suspended"` }
GetRuntimesQuery is a registry get runtimes query.
type MaxNodesConstraint ¶
type MaxNodesConstraint struct {
Limit uint16 `json:"limit"`
}
MaxNodesConstraint specifies that only the given number of nodes may be eligible per entity.
type MinPoolSizeConstraint ¶
type MinPoolSizeConstraint struct {
Limit uint16 `json:"limit"`
}
MinPoolSizeConstraint is the minimum required candidate pool size constraint.
type NamespaceQuery ¶
NamespaceQuery is a registry query by namespace (Runtime ID).
type NodeEvent ¶
type NodeEvent struct { Node *node.Node `json:"node"` IsRegistration bool `json:"is_registration"` }
NodeEvent is the event that is returned via WatchNodes to signify node registration changes and updates.
type NodeListEpochEvent ¶
type NodeListEpochEvent struct{}
NodeListEpochEvent is the per epoch node list event.
type NodeStatus ¶
type NodeStatus struct { // ExpirationProcessed is a flag specifying whether the node expiration // has already been processed. // // If you want to check whether a node has expired, check the node // descriptor directly instead of this flag. ExpirationProcessed bool `json:"expiration_processed"` // FreezeEndTime is the epoch when a frozen node can become unfrozen. // // After the specified epoch passes, this flag needs to be explicitly // cleared (set to zero) in order for the node to become unfrozen. FreezeEndTime beacon.EpochTime `json:"freeze_end_time"` // ElectionEligibleAfter specifies the epoch after which a node is // eligible to be included in non-validator committee elections. // // Note: A value of 0 is treated unconditionally as "ineligible". ElectionEligibleAfter beacon.EpochTime `json:"election_eligible_after"` // Faults is a set of fault records for nodes that are experiencing // liveness failures when participating in specific committees. Faults map[common.Namespace]*Fault `json:"faults,omitempty"` }
NodeStatus is live status of a node.
type NodeUnfrozenEvent ¶
NodeUnfrozenEvent signifies when node becomes unfrozen.
type Runtime ¶
type Runtime struct { cbor.Versioned // ID is a globally unique long term identifier of the runtime. ID common.Namespace `json:"id"` // EntityID is the public key identifying the Entity controlling // the runtime. EntityID signature.PublicKey `json:"entity_id"` // Genesis is the runtime genesis information. Genesis RuntimeGenesis `json:"genesis"` // Kind is the type of runtime. Kind RuntimeKind `json:"kind"` // TEEHardware specifies the runtime's TEE hardware requirements. TEEHardware node.TEEHardware `json:"tee_hardware"` // KeyManager is the key manager runtime ID for this runtime. KeyManager *common.Namespace `json:"key_manager,omitempty"` // Executor stores parameters of the executor committee. Executor ExecutorParameters `json:"executor,omitempty"` // TxnScheduler stores transaction scheduling parameters of the executor // committee. TxnScheduler TxnSchedulerParameters `json:"txn_scheduler,omitempty"` // Storage stores parameters of the storage committee. Storage StorageParameters `json:"storage,omitempty"` // AdmissionPolicy sets which nodes are allowed to register for this runtime. // This policy applies to all roles. AdmissionPolicy RuntimeAdmissionPolicy `json:"admission_policy"` // Constraints are the node scheduling constraints. Constraints map[scheduler.CommitteeKind]map[scheduler.Role]SchedulingConstraints `json:"constraints,omitempty"` // Staking stores the runtime's staking-related parameters. Staking RuntimeStakingParameters `json:"staking,omitempty"` // GovernanceModel specifies the runtime governance model. GovernanceModel RuntimeGovernanceModel `json:"governance_model"` // Deployments specifies the runtime deployments (versions). Deployments []*VersionInfo `json:"deployments,omitempty"` }
Runtime represents a runtime.
type RuntimeAdmissionPolicy ¶
type RuntimeAdmissionPolicy struct { AnyNode *AnyNodeRuntimeAdmissionPolicy `json:"any_node,omitempty"` EntityWhitelist *EntityWhitelistRuntimeAdmissionPolicy `json:"entity_whitelist,omitempty"` }
RuntimeAdmissionPolicy is a specification of which nodes are allowed to register for a runtime.
type RuntimeEvent ¶
type RuntimeEvent struct {
Runtime *Runtime `json:"runtime"`
}
RuntimeEvent signifies new runtime registration.
type RuntimeGenesis ¶
type RuntimeGenesis struct { // StateRoot is the state root that should be used at genesis time. If // the runtime should start with empty state, this must be set to the // empty hash. StateRoot hash.Hash `json:"state_root"` // Round is the runtime round in the genesis. Round uint64 `json:"round"` }
RuntimeGenesis is the runtime genesis information that is used to initialize runtime state in the first block.
type RuntimeGovernanceModel ¶
type RuntimeGovernanceModel uint8
RuntimeGovernanceModel specifies the runtime governance model.
const ( GovernanceInvalid RuntimeGovernanceModel = 0 GovernanceEntity RuntimeGovernanceModel = 1 GovernanceRuntime RuntimeGovernanceModel = 2 GovernanceConsensus RuntimeGovernanceModel = 3 GovernanceMax = GovernanceConsensus )
func (RuntimeGovernanceModel) MarshalText ¶
func (gm RuntimeGovernanceModel) MarshalText() ([]byte, error)
func (RuntimeGovernanceModel) String ¶
func (gm RuntimeGovernanceModel) String() string
String returns a string representation of a runtime governance model.
func (*RuntimeGovernanceModel) UnmarshalText ¶
func (gm *RuntimeGovernanceModel) UnmarshalText(text []byte) error
type RuntimeKind ¶
type RuntimeKind uint32
RuntimeKind represents the runtime functionality.
const ( // KindInvalid is an invalid runtime and should never be explicitly set. KindInvalid RuntimeKind = 0 // KindCompute is a generic compute runtime. KindCompute RuntimeKind = 1 // KindKeyManager is a key manager runtime. KindKeyManager RuntimeKind = 2 )
func (RuntimeKind) String ¶
func (k RuntimeKind) String() string
String returns a string representation of a runtime kind.
type RuntimeStakingParameters ¶
type RuntimeStakingParameters struct { // Thresholds are the minimum stake thresholds for a runtime. These per-runtime thresholds are // in addition to the global thresholds. May be left unspecified. // // In case a node is registered for multiple runtimes, it will need to satisfy the maximum // threshold of all the runtimes. Thresholds map[staking.ThresholdKind]quantity.Quantity `json:"thresholds,omitempty"` // Slashing are the per-runtime misbehavior slashing parameters. Slashing map[staking.SlashReason]staking.Slash `json:"slashing,omitempty"` // RewardSlashEquvocationRuntimePercent is the percentage of the reward obtained when slashing // for equivocation that is transferred to the runtime's account. RewardSlashEquvocationRuntimePercent uint8 `json:"reward_equivocation,omitempty"` // RewardSlashBadResultsRuntimePercent is the percentage of the reward obtained when slashing // for incorrect results that is transferred to the runtime's account. RewardSlashBadResultsRuntimePercent uint8 `json:"reward_bad_results,omitempty"` // MinInMessageFee specifies the minimum fee that the incoming message must include for the // message to be queued. MinInMessageFee quantity.Quantity `json:"min_in_message_fee,omitempty"` }
RuntimeStakingParameters are the stake-related parameters for a runtime.
type SchedulingConstraints ¶
type SchedulingConstraints struct { ValidatorSet *ValidatorSetConstraint `json:"validator_set,omitempty"` MaxNodes *MaxNodesConstraint `json:"max_nodes,omitempty"` MinPoolSize *MinPoolSizeConstraint `json:"min_pool_size,omitempty"` }
SchedulingConstraints are the node scheduling constraints.
Multiple fields may be set in which case the ALL the constraints must be satisfied.
type StorageParameters ¶
type StorageParameters struct { // CheckpointInterval is the expected runtime state checkpoint interval (in rounds). CheckpointInterval uint64 `json:"checkpoint_interval"` // CheckpointNumKept is the expected minimum number of checkpoints to keep. CheckpointNumKept uint64 `json:"checkpoint_num_kept"` // CheckpointChunkSize is the chunk size parameter for checkpoint creation. CheckpointChunkSize uint64 `json:"checkpoint_chunk_size"` }
StorageParameters are parameters for the storage committee.
type TxnSchedulerParameters ¶
type TxnSchedulerParameters struct { // BatchFlushTimeout denotes, if using the "simple" algorithm, how long to // wait for a scheduled batch. BatchFlushTimeout time.Duration `json:"batch_flush_timeout"` // MaxBatchSize denotes what is the max size of a scheduled batch. MaxBatchSize uint64 `json:"max_batch_size"` // MaxBatchSizeBytes denote what is the max size of a scheduled batch in bytes. MaxBatchSizeBytes uint64 `json:"max_batch_size_bytes"` // MaxInMessages specifies the maximum size of the incoming message queue. MaxInMessages uint32 `json:"max_in_messages,omitempty"` // ProposerTimeout denotes the timeout (in consensus blocks) for scheduler // to propose a batch. ProposerTimeout int64 `json:"propose_batch_timeout"` }
TxnSchedulerParameters are parameters for the runtime transaction scheduler.
type UnfreezeNode ¶
UnfreezeNode is a request to unfreeze a frozen node.
type ValidatorSetConstraint ¶
type ValidatorSetConstraint struct{}
ValidatorSetConstraint specifies that the entity must have a node that is part of the validator set. No other options can currently be specified.
type VersionInfo ¶
type VersionInfo struct { // Version of the runtime. Version version.Version `json:"version"` // ValidFrom stores the epoch at which, this version is valid. ValidFrom beacon.EpochTime `json:"valid_from"` // TEE is the enclave version information, in an enclave provider specific // format if any. TEE []byte `json:"tee,omitempty"` }
VersionInfo is the per-runtime version information.