0g-chain/third_party/proto/ibc/lightclients/solomachine/v1/solomachine.proto

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syntax = "proto3";
package ibc.lightclients.solomachine.v1;
option go_package = "github.com/cosmos/ibc-go/modules/core/02-client/legacy/v100";
import "ibc/core/connection/v1/connection.proto";
import "ibc/core/channel/v1/channel.proto";
import "gogoproto/gogo.proto";
import "google/protobuf/any.proto";
// ClientState defines a solo machine client that tracks the current consensus
// state and if the client is frozen.
message ClientState {
option (gogoproto.goproto_getters) = false;
// latest sequence of the client state
uint64 sequence = 1;
// frozen sequence of the solo machine
uint64 frozen_sequence = 2 [(gogoproto.moretags) = "yaml:\"frozen_sequence\""];
ConsensusState consensus_state = 3 [(gogoproto.moretags) = "yaml:\"consensus_state\""];
// when set to true, will allow governance to update a solo machine client.
// The client will be unfrozen if it is frozen.
bool allow_update_after_proposal = 4 [(gogoproto.moretags) = "yaml:\"allow_update_after_proposal\""];
}
// ConsensusState defines a solo machine consensus state. The sequence of a
// consensus state is contained in the "height" key used in storing the
// consensus state.
message ConsensusState {
option (gogoproto.goproto_getters) = false;
// public key of the solo machine
google.protobuf.Any public_key = 1 [(gogoproto.moretags) = "yaml:\"public_key\""];
// diversifier allows the same public key to be re-used across different solo
// machine clients (potentially on different chains) without being considered
// misbehaviour.
string diversifier = 2;
uint64 timestamp = 3;
}
// Header defines a solo machine consensus header
message Header {
option (gogoproto.goproto_getters) = false;
// sequence to update solo machine public key at
uint64 sequence = 1;
uint64 timestamp = 2;
bytes signature = 3;
google.protobuf.Any new_public_key = 4 [(gogoproto.moretags) = "yaml:\"new_public_key\""];
string new_diversifier = 5 [(gogoproto.moretags) = "yaml:\"new_diversifier\""];
}
// Misbehaviour defines misbehaviour for a solo machine which consists
// of a sequence and two signatures over different messages at that sequence.
message Misbehaviour {
option (gogoproto.goproto_getters) = false;
string client_id = 1 [(gogoproto.moretags) = "yaml:\"client_id\""];
uint64 sequence = 2;
SignatureAndData signature_one = 3 [(gogoproto.moretags) = "yaml:\"signature_one\""];
SignatureAndData signature_two = 4 [(gogoproto.moretags) = "yaml:\"signature_two\""];
}
// SignatureAndData contains a signature and the data signed over to create that
// signature.
message SignatureAndData {
option (gogoproto.goproto_getters) = false;
bytes signature = 1;
DataType data_type = 2 [(gogoproto.moretags) = "yaml:\"data_type\""];
bytes data = 3;
uint64 timestamp = 4;
}
// TimestampedSignatureData contains the signature data and the timestamp of the
// signature.
message TimestampedSignatureData {
option (gogoproto.goproto_getters) = false;
bytes signature_data = 1 [(gogoproto.moretags) = "yaml:\"signature_data\""];
uint64 timestamp = 2;
}
// SignBytes defines the signed bytes used for signature verification.
message SignBytes {
option (gogoproto.goproto_getters) = false;
uint64 sequence = 1;
uint64 timestamp = 2;
string diversifier = 3;
// type of the data used
DataType data_type = 4 [(gogoproto.moretags) = "yaml:\"data_type\""];
// marshaled data
bytes data = 5;
}
// DataType defines the type of solo machine proof being created. This is done
// to preserve uniqueness of different data sign byte encodings.
enum DataType {
option (gogoproto.goproto_enum_prefix) = false;
// Default State
DATA_TYPE_UNINITIALIZED_UNSPECIFIED = 0 [(gogoproto.enumvalue_customname) = "UNSPECIFIED"];
// Data type for client state verification
DATA_TYPE_CLIENT_STATE = 1 [(gogoproto.enumvalue_customname) = "CLIENT"];
// Data type for consensus state verification
DATA_TYPE_CONSENSUS_STATE = 2 [(gogoproto.enumvalue_customname) = "CONSENSUS"];
// Data type for connection state verification
DATA_TYPE_CONNECTION_STATE = 3 [(gogoproto.enumvalue_customname) = "CONNECTION"];
// Data type for channel state verification
DATA_TYPE_CHANNEL_STATE = 4 [(gogoproto.enumvalue_customname) = "CHANNEL"];
// Data type for packet commitment verification
DATA_TYPE_PACKET_COMMITMENT = 5 [(gogoproto.enumvalue_customname) = "PACKETCOMMITMENT"];
// Data type for packet acknowledgement verification
DATA_TYPE_PACKET_ACKNOWLEDGEMENT = 6 [(gogoproto.enumvalue_customname) = "PACKETACKNOWLEDGEMENT"];
// Data type for packet receipt absence verification
DATA_TYPE_PACKET_RECEIPT_ABSENCE = 7 [(gogoproto.enumvalue_customname) = "PACKETRECEIPTABSENCE"];
// Data type for next sequence recv verification
DATA_TYPE_NEXT_SEQUENCE_RECV = 8 [(gogoproto.enumvalue_customname) = "NEXTSEQUENCERECV"];
// Data type for header verification
DATA_TYPE_HEADER = 9 [(gogoproto.enumvalue_customname) = "HEADER"];
}
// HeaderData returns the SignBytes data for update verification.
message HeaderData {
option (gogoproto.goproto_getters) = false;
// header public key
google.protobuf.Any new_pub_key = 1 [(gogoproto.moretags) = "yaml:\"new_pub_key\""];
// header diversifier
string new_diversifier = 2 [(gogoproto.moretags) = "yaml:\"new_diversifier\""];
}
// ClientStateData returns the SignBytes data for client state verification.
message ClientStateData {
option (gogoproto.goproto_getters) = false;
bytes path = 1;
google.protobuf.Any client_state = 2 [(gogoproto.moretags) = "yaml:\"client_state\""];
}
// ConsensusStateData returns the SignBytes data for consensus state
// verification.
message ConsensusStateData {
option (gogoproto.goproto_getters) = false;
bytes path = 1;
google.protobuf.Any consensus_state = 2 [(gogoproto.moretags) = "yaml:\"consensus_state\""];
}
// ConnectionStateData returns the SignBytes data for connection state
// verification.
message ConnectionStateData {
option (gogoproto.goproto_getters) = false;
bytes path = 1;
ibc.core.connection.v1.ConnectionEnd connection = 2;
}
// ChannelStateData returns the SignBytes data for channel state
// verification.
message ChannelStateData {
option (gogoproto.goproto_getters) = false;
bytes path = 1;
ibc.core.channel.v1.Channel channel = 2;
}
// PacketCommitmentData returns the SignBytes data for packet commitment
// verification.
message PacketCommitmentData {
bytes path = 1;
bytes commitment = 2;
}
// PacketAcknowledgementData returns the SignBytes data for acknowledgement
// verification.
message PacketAcknowledgementData {
bytes path = 1;
bytes acknowledgement = 2;
}
// PacketReceiptAbsenceData returns the SignBytes data for
// packet receipt absence verification.
message PacketReceiptAbsenceData {
bytes path = 1;
}
// NextSequenceRecvData returns the SignBytes data for verification of the next
// sequence to be received.
message NextSequenceRecvData {
bytes path = 1;
uint64 next_seq_recv = 2 [(gogoproto.moretags) = "yaml:\"next_seq_recv\""];
}