ceremonyclient/protobufs/node.proto

syntax = "proto3";

package quilibrium.node.node.pb;

option go_package = "source.quilibrium.com/quilibrium/monorepo/node/protobufs";

import "channel.proto";
import "global.proto";
import "google/protobuf/wrappers.proto";

message GetPeerInfoRequest {}

message GetNodeInfoRequest {}

message GetWorkerInfoRequest {}

message Reachability {
  // The filter this reachability information references.
  bytes filter = 1;
  // The node's pubsub interface multiaddrs for the given shard.
  repeated string pubsub_multiaddrs = 2;
  // The node's streaming interface multiaddrs for the given shard.
  repeated string stream_multiaddrs = 3;
}

message PeerInfo {
  // The node's peer id, derived from ed448 public key.
  bytes peer_id = 1;
  // The node's reachability information for given filters.
  repeated Reachability reachability = 2;
  // The timestamp the peer info report was generated.
  int64 timestamp = 3;
  // The core version string of the node, in semantic versioning:
  // [byte 0].[byte 1].[byte 2]
  bytes version = 4;
  // The patch version of the node
  bytes patch_number = 5;
  // The list of supported capabilities.
  repeated Capability capabilities = 6;
  // The public key of the node.
  bytes public_key = 7;
  // The signature of the node.
  bytes signature = 8;
}

message PeerInfoResponse {
  repeated PeerInfo peer_info = 1;
}

message NodeInfoResponse {
  string peer_id = 1;
  uint64 peer_score = 2;
  bytes version = 3;
  bytes peer_seniority = 4;
  uint32 running_workers = 5;
  uint32 allocated_workers = 6;
  bytes patch_number = 7;
}

message WorkerInfo {
  uint32 core_id = 1;
  bytes filter = 2;
  uint64 available_storage = 3;
  uint64 total_storage = 4;
}

message WorkerInfoResponse {
  repeated WorkerInfo worker_info = 1;
}

message Capability {
  // A general protocol identifier as a uint32 – this is expected to rarely
  // iterate, and should be uniquely identifying both protocol and version.
  // Pragmatically speaking, this implies that the least significant byte
  // specifies version (which should iterate most minimally), and the three most
  // significant bytes should specify protocol. Recipients SHOULD ignore
  // messages with incompatible protocol identifiers, but also SHOULD warn on
  // identifiers with versions higher than the supported protocol. A large
  // number of unsupported protocol messages may indicate spam/some other
  // attack, whereas a large number of unsupported protocol versions may
  // indicate an out of date client, respective to which side is the maximum of
  // the version number.
  uint32 protocol_identifier = 1;
  // An optional bundle of information specific to the capability – used for
  // extensibility in negotiating variations of a protocol – e.g. Triple-Ratchet
  // but only for certain curve types.
  bytes additional_metadata = 2;
}

message InlineKey {
  bytes ref = 1;
  bytes key = 2;
}
 
message KeyRing {
  repeated InlineKey keys = 1;
}

// Specifies the delivery method for the transaction's dispatchable outputs.
// Must match the number of outputs for the given transaction for multiple
// output transactions (for example, token transfers).
message DeliveryMethod {
  // Dictates the method of delivery to be performed, 0 for normal inbox
  // delivery, 1 for suppressed delivery.
  uint32 delivery_type = 1;
  // The inbox or hub address to deliver to.
  bytes address = 2;
}

message DeliveryData {
  repeated quilibrium.node.channel.pb.InboxMessage messages = 1;
}

// Sends either a message, delivery data, or both
message SendRequest {
  // The applicable domain to the messages
  bytes domain = 1;
  // The underlying request(s) to send
  quilibrium.node.global.pb.MessageBundle request = 2;
  // The authentication token
  bytes authentication = 3;
  // Delivery data to send
  repeated DeliveryData delivery_data = 4;
}

// The response confirming deliveries
message SendResponse {
  repeated DeliveryData delivery_data = 1;
}

message OriginatedAccountRef {
  bytes address = 1;
}

message ImplicitAccount {
  uint32 implicit_type = 1;
  bytes address = 2;
  bytes domain = 3;
}

message AccountRef {
  oneof account {
    OriginatedAccountRef originated_account = 1;
    ImplicitAccount implicit_account = 2;
  }
}

message Coin {
  bytes amount = 1;
  bytes intersection = 2;
  AccountRef owner = 3;
}

message LegacyCoin {
  Coin coin = 1;
  uint64 frame_number = 2;
  bytes address = 3;
}

message MaterializedTransaction {
  bytes address = 1;
  bytes raw_balance = 2;
  uint64 frame_number = 3;
  bytes commitment = 4;
  bytes one_time_key = 5;
  bytes verification_key = 6;
  bytes coin_balance = 7;
  bytes mask = 8;
  bytes additional_reference = 9;
  bytes additional_reference_key = 10;
}

message MaterializedPendingTransaction {
  bytes address = 1;
  bytes raw_balance = 2;
  uint64 frame_number = 3;
  bytes commitment = 4;
  bytes to_one_time_key = 5;
  bytes refund_one_time_key = 6;
  bytes to_verification_key = 7;
  bytes refund_verification_key = 8;
  bytes to_coin_balance = 9;
  bytes refund_coin_balance = 10;
  bytes to_mask = 11;
  bytes refund_mask = 12;
  bytes to_additional_reference = 13;
  bytes to_additional_reference_key = 14;
  bytes refund_additional_reference = 15;
  bytes refund_additional_reference_key = 16;
  uint64 expiration = 17;
}

message GetTokensByAccountRequest {
  bytes address = 1;
  bytes domain = 2;
}

message GetTokensByAccountResponse {
  repeated LegacyCoin legacy_coins = 1;
  repeated MaterializedTransaction transactions = 2;
  repeated MaterializedPendingTransaction pending_transactions = 3;
}

service NodeService {
  rpc GetPeerInfo(GetPeerInfoRequest) returns (PeerInfoResponse);
  rpc GetNodeInfo(GetNodeInfoRequest) returns (NodeInfoResponse);
  rpc GetWorkerInfo(GetWorkerInfoRequest) returns (WorkerInfoResponse);
  rpc Send(SendRequest) returns (SendResponse);
  rpc GetTokensByAccount(GetTokensByAccountRequest)
    returns (GetTokensByAccountResponse);
}

message RespawnRequest {
  bytes filter = 1;
}

message RespawnResponse {
}

message CreateJoinProofRequest {
  bytes challenge = 1;
  uint32 difficulty = 2;
  repeated bytes ids = 3;
  uint32 prover_index = 4;
}

message CreateJoinProofResponse {
  bytes response = 1;
}

service DataIPCService {
  rpc Respawn(RespawnRequest) returns (RespawnResponse);
  rpc CreateJoinProof(CreateJoinProofRequest) returns (CreateJoinProofResponse);
}