Documentation ¶
Index ¶
Constants ¶
const ( // TypeClientMisbehaviour is the shared evidence misbehaviour type TypeClientMisbehaviour string = "client_misbehaviour" // Solomachine is used to indicate that the light client is a solo machine. Solomachine string = "06-solomachine" // Tendermint is used to indicate that the client uses the Tendermint Consensus Algorithm. Tendermint string = "07-tendermint" // Localhost is the client type for a localhost client. It is also used as the clientID // for the localhost client. Localhost string = "09-localhost" // Active is a status type of a client. An active client is allowed to be used. Active Status = "Active" // Frozen is a status type of a client. A frozen client is not allowed to be used. Frozen Status = "Frozen" // Expired is a status type of a client. An expired client is not allowed to be used. Expired Status = "Expired" // Unknown indicates there was an error in determining the status of a client. Unknown Status = "Unknown" )
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type Acknowledgement ¶
Acknowledgement defines the interface used to return acknowledgements in the OnRecvPacket callback.
type ChannelI ¶
type ChannelI interface { GetState() int32 GetOrdering() int32 GetCounterparty() CounterpartyChannelI GetConnectionHops() []string GetVersion() string ValidateBasic() error }
ChannelI defines the standard interface for a channel end.
type ClientState ¶
type ClientState interface { proto.Message ClientType() string GetLatestHeight() Height Validate() error // Initialization function // Clients must validate the initial consensus state, and may store any client-specific metadata // necessary for correct light client operation Initialize(sdk.Context, codec.BinaryCodec, sdk.KVStore, ConsensusState) error // Status function // Clients must return their status. Only Active clients are allowed to process packets. Status(ctx sdk.Context, clientStore sdk.KVStore, cdc codec.BinaryCodec) Status // Genesis function ExportMetadata(sdk.KVStore) []GenesisMetadata CheckHeaderAndUpdateState(sdk.Context, codec.BinaryCodec, sdk.KVStore, Header) (ClientState, ConsensusState, error) CheckMisbehaviourAndUpdateState(sdk.Context, codec.BinaryCodec, sdk.KVStore, Misbehaviour) (ClientState, error) CheckSubstituteAndUpdateState(ctx sdk.Context, cdc codec.BinaryCodec, subjectClientStore, substituteClientStore sdk.KVStore, substituteClient ClientState) (ClientState, error) // Upgrade functions // NOTE: proof heights are not included as upgrade to a new revision is expected to pass only on the last // height committed by the current revision. Clients are responsible for ensuring that the planned last // height of the current revision is somehow encoded in the proof verification process. // This is to ensure that no premature upgrades occur, since upgrade plans committed to by the counterparty // may be cancelled or modified before the last planned height. VerifyUpgradeAndUpdateState( ctx sdk.Context, cdc codec.BinaryCodec, store sdk.KVStore, newClient ClientState, newConsState ConsensusState, proofUpgradeClient, proofUpgradeConsState []byte, ) (ClientState, ConsensusState, error) // Utility function that zeroes out any client customizable fields in client state // Ledger enforced fields are maintained while all custom fields are zero values // Used to verify upgrades ZeroCustomFields() ClientState VerifyClientState( store sdk.KVStore, cdc codec.BinaryCodec, height Height, prefix Prefix, counterpartyClientIdentifier string, proof []byte, clientState ClientState, ) error VerifyClientConsensusState( store sdk.KVStore, cdc codec.BinaryCodec, height Height, counterpartyClientIdentifier string, consensusHeight Height, prefix Prefix, proof []byte, consensusState ConsensusState, ) error VerifyConnectionState( store sdk.KVStore, cdc codec.BinaryCodec, height Height, prefix Prefix, proof []byte, connectionID string, connectionEnd ConnectionI, ) error VerifyChannelState( store sdk.KVStore, cdc codec.BinaryCodec, height Height, prefix Prefix, proof []byte, portID, channelID string, channel ChannelI, ) error VerifyPacketCommitment( ctx sdk.Context, store sdk.KVStore, cdc codec.BinaryCodec, height Height, delayTimePeriod uint64, delayBlockPeriod uint64, prefix Prefix, proof []byte, portID, channelID string, sequence uint64, commitmentBytes []byte, ) error VerifyPacketAcknowledgement( ctx sdk.Context, store sdk.KVStore, cdc codec.BinaryCodec, height Height, delayTimePeriod uint64, delayBlockPeriod uint64, prefix Prefix, proof []byte, portID, channelID string, sequence uint64, acknowledgement []byte, ) error VerifyPacketReceiptAbsence( ctx sdk.Context, store sdk.KVStore, cdc codec.BinaryCodec, height Height, delayTimePeriod uint64, delayBlockPeriod uint64, prefix Prefix, proof []byte, portID, channelID string, sequence uint64, ) error VerifyNextSequenceRecv( ctx sdk.Context, store sdk.KVStore, cdc codec.BinaryCodec, height Height, delayTimePeriod uint64, delayBlockPeriod uint64, prefix Prefix, proof []byte, portID, channelID string, nextSequenceRecv uint64, ) error }
ClientState defines the required common functions for light clients.
type ConnectionI ¶
type ConnectionI interface { GetClientID() string GetState() int32 GetCounterparty() CounterpartyConnectionI GetVersions() []Version GetDelayPeriod() uint64 ValidateBasic() error }
ConnectionI describes the required methods for a connection.
type ConsensusState ¶
type ConsensusState interface { proto.Message ClientType() string // Consensus kind // GetRoot returns the commitment root of the consensus state, // which is used for key-value pair verification. GetRoot() Root // GetTimestamp returns the timestamp (in nanoseconds) of the consensus state GetTimestamp() uint64 ValidateBasic() error }
ConsensusState is the state of the consensus process
type CounterpartyChannelI ¶
type CounterpartyChannelI interface { GetPortID() string GetChannelID() string ValidateBasic() error }
CounterpartyChannelI defines the standard interface for a channel end's counterparty.
type CounterpartyConnectionI ¶
type CounterpartyConnectionI interface { GetClientID() string GetConnectionID() string GetPrefix() Prefix ValidateBasic() error }
CounterpartyConnectionI describes the required methods for a counterparty connection.
type GenesisMetadata ¶
type GenesisMetadata interface { // return store key that contains metadata without clientID-prefix GetKey() []byte // returns metadata value GetValue() []byte }
GenesisMetadata is a wrapper interface over clienttypes.GenesisMetadata all clients must use the concrete implementation in types
type Header ¶
type Header interface { proto.Message ClientType() string GetHeight() Height ValidateBasic() error }
Header is the consensus state update information
type Height ¶
type Height interface { IsZero() bool LT(Height) bool LTE(Height) bool EQ(Height) bool GT(Height) bool GTE(Height) bool GetRevisionNumber() uint64 GetRevisionHeight() uint64 Increment() Height Decrement() (Height, bool) String() string }
Height is a wrapper interface over clienttypes.Height all clients must use the concrete implementation in types
type Misbehaviour ¶
type Misbehaviour interface { proto.Message ClientType() string GetClientID() string ValidateBasic() error }
Misbehaviour defines counterparty misbehaviour for a specific consensus type
type PacketI ¶
type PacketI interface { GetSequence() uint64 GetTimeoutHeight() Height GetTimeoutTimestamp() uint64 GetSourcePort() string GetSourceChannel() string GetDestPort() string GetDestChannel() string GetData() []byte ValidateBasic() error }
PacketI defines the standard interface for IBC packets
type Path ¶
Path implements spec:CommitmentPath. A path is the additional information provided to the verification function.
type Prefix ¶
Prefix implements spec:CommitmentPrefix. Prefix represents the common "prefix" that a set of keys shares.
type Proof ¶
type Proof interface { VerifyMembership([]*ics23.ProofSpec, Root, Path, []byte) error VerifyNonMembership([]*ics23.ProofSpec, Root, Path) error Empty() bool ValidateBasic() error }
Proof implements spec:CommitmentProof. Proof can prove whether the key-value pair is a part of the Root or not. Each proof has designated key-value pair it is able to prove. Proofs includes key but value is provided dynamically at the verification time.
type Root ¶
Root implements spec:CommitmentRoot. A root is constructed from a set of key-value pairs, and the inclusion or non-inclusion of an arbitrary key-value pair can be proven with the proof.