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https://source.quilibrium.com/quilibrium/ceremonyclient.git
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5a3af70dc8
* v1.4.13 * adjust blossomsub param
206 lines
7.6 KiB
Protocol Buffer
206 lines
7.6 KiB
Protocol Buffer
syntax = "proto3";
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package quilibrium.node.ceremony.pb;
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option go_package = "source.quilibrium.com/quilibrium/monorepo/node/protobufs";
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import "channel.proto";
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import "clock.proto";
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import "keys.proto";
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// Describes the transcript of KZG ceremony execution
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message CeremonyTranscript {
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// The active collection of powers over G1
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repeated quilibrium.node.keys.pb.BLS48581G1PublicKey g1_powers = 1;
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// The active collection of powers over G2
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repeated quilibrium.node.keys.pb.BLS48581G2PublicKey g2_powers = 2;
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// The running s^256 G1 witnesses – the choice of the 256th power is to ensure
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// combinatorial birthday paradox-based attacks are not possible. In common
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// KZG ceremonies, the collection of witnesses to PoT pubkeys produce the
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// relationship of e(w*G1, s*G2) == (s'*G1, G2), where w*s == s'. The problem
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// with this is that there are n powers under G2 (excl. the case where PoT
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// ceremonies _only_ have the first G2 power), and so the chance of collision
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// by combination to a target value for s' is feasible such that a sum of a
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// permutation of valid G2 powers could forge witness values to reach a
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// a desired outcome, as there are matching pairs of the G1 and G2 powers to
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// permute. When the number of G2 powers is low, or one, this reduces to the
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// discrete log assumption and so the only viable attack is of
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// O(sqrt(<bit size>)) per Pollard's Rho (barring any advancements), but in
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// many cases the number of G2 powers is high enough such that n! naive
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// combinations of additions are greater (and cheap, since the additions are
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// first tested in G1) than the required time of testing the discrete log,
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// and combined with many generated target values, significantly reduces the
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// amount of time required to complete the attack. This means that in
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// traditional KZG ceremonies, the last contributor to a ceremony can
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// potentially control the secret. Or, we can just track the witnesses to the
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// highest power in the ceremony and avoid the whole problem. :)
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repeated quilibrium.node.keys.pb.BLS48581G1PublicKey running_g1_256_witnesses = 3;
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// The running s^256 G2 powers – see notes on running_g1_256_witnesses for why
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// we do this.
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repeated quilibrium.node.keys.pb.BLS48581G2PublicKey running_g2_256_powers = 4;
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}
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message CeremonyLobbyState {
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int32 lobby_state = 1;
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oneof ceremony_state {
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CeremonyOpenState ceremony_open_state = 2;
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CeremonyInProgressState ceremony_in_progress_state = 3;
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CeremonyFinalizingState ceremony_finalizing_state = 4;
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CeremonyValidatingState ceremony_validating_state = 5;
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}
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CeremonyTranscript latest_transcript = 6;
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bytes reward_trie = 7;
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}
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message CeremonySeenProverAttestation {
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quilibrium.node.keys.pb.Ed448PublicKey seen_prover_key = 1;
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uint64 last_seen_frame = 2;
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quilibrium.node.keys.pb.Ed448Signature prover_signature = 3;
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}
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message CeremonyDroppedProverAttestation {
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quilibrium.node.keys.pb.Ed448PublicKey dropped_prover_key = 1;
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uint64 last_seen_frame = 2;
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quilibrium.node.keys.pb.Ed448Signature prover_signature = 3;
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}
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message CeremonyTranscriptShare {
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repeated quilibrium.node.keys.pb.BLS48581G1PublicKey additive_g1_powers = 1;
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repeated quilibrium.node.keys.pb.BLS48581G2PublicKey additive_g2_powers = 2;
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quilibrium.node.keys.pb.BLS48581G1PublicKey additive_g1_256_witness = 3;
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quilibrium.node.keys.pb.BLS48581G2PublicKey additive_g2_256_witness = 4;
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quilibrium.node.keys.pb.Ed448Signature prover_signature = 5;
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}
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// Describes the required proof to commit to a transcript to advance a round,
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// and as a proof to move to the verification state
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message CeremonyTranscriptCommit {
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// Prover key signature over the G1 point of the additive share of the first
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// power.
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quilibrium.node.keys.pb.Ed448Signature prover_signature = 1;
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// BLS short signature over the Ed448 prover public key, using the additive
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// share of the first power.
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quilibrium.node.keys.pb.BLS48581Signature contribution_signature = 2;
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}
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message CeremonyAdvanceRound {
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repeated CeremonyTranscriptCommit commits = 1;
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}
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message CeremonyLobbyJoin {
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uint64 frame_number = 1;
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quilibrium.node.keys.pb.X448PublicKey identity_key = 2;
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quilibrium.node.keys.pb.X448PublicKey signed_pre_key = 3;
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quilibrium.node.keys.pb.Ed448Signature public_key_signature_ed448 = 4;
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bytes peer_id = 5;
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}
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message CeremonyLobbyStateTransition {
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repeated string type_urls = 1;
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repeated bytes transition_inputs = 2;
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}
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message CeremonyOpenState {
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repeated CeremonyLobbyJoin joined_participants = 1;
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repeated quilibrium.node.keys.pb.Ed448PublicKey preferred_participants = 2;
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}
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message CeremonyInProgressState {
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repeated CeremonyLobbyJoin active_participants = 1;
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repeated CeremonySeenProverAttestation latest_seen_prover_attestations = 2;
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repeated CeremonyDroppedProverAttestation dropped_participant_attestations = 3;
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repeated CeremonyAdvanceRound transcript_round_advance_commits = 4;
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repeated quilibrium.node.keys.pb.Ed448PublicKey next_round_participants = 5;
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}
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message CeremonyFinalizingState {
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repeated CeremonyLobbyJoin active_participants = 1;
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repeated CeremonySeenProverAttestation latest_seen_prover_attestations = 2;
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repeated CeremonyDroppedProverAttestation dropped_participant_attestations = 3;
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repeated CeremonyTranscriptCommit commits = 4;
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repeated CeremonyTranscriptShare shares = 5;
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repeated quilibrium.node.keys.pb.Ed448PublicKey next_round_participants = 6;
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}
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message CeremonyValidatingState {
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repeated CeremonyTranscriptCommit commits = 1;
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CeremonyTranscript updated_transcript = 2;
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repeated quilibrium.node.keys.pb.Ed448PublicKey next_round_participants = 3;
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}
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message CeremonyPeerListAnnounce {
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repeated CeremonyPeer peer_list = 1;
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}
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message CeremonyPeer {
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bytes peer_id = 1;
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string multiaddr = 2;
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uint64 max_frame = 3;
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int64 timestamp = 4;
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bytes version = 5;
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bytes signature = 6;
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bytes public_key = 7;
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bytes total_distance = 8;
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}
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message CeremonyCompressedSync {
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uint64 from_frame_number = 1;
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uint64 to_frame_number = 2;
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repeated quilibrium.node.clock.pb.ClockFrame truncated_clock_frames = 3;
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repeated InclusionProofsMap proofs = 4;
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repeated InclusionSegmentsMap segments = 5;
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}
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message SyncRequestAuthentication {
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bytes peer_id = 1;
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bytes challenge = 2;
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quilibrium.node.keys.pb.Ed448Signature response = 3;
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}
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message CeremonyCompressedSyncRequestMessage {
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oneof sync_message {
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quilibrium.node.clock.pb.ClockFramesPreflight preflight = 1;
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quilibrium.node.clock.pb.ClockFramesRequest request = 2;
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SyncRequestAuthentication authentication = 3;
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}
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}
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message CeremonyCompressedSyncResponseMessage {
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oneof sync_message {
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quilibrium.node.clock.pb.ClockFramesPreflight preflight = 1;
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CeremonyCompressedSync response = 2;
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}
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}
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message InclusionProofsMap {
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bytes frame_commit = 1;
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bytes proof = 2;
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repeated InclusionCommitmentsMap commitments = 3;
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}
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message InclusionSegmentsMap {
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bytes hash = 1;
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bytes data = 2;
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}
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message InclusionCommitmentsMap {
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bytes commitment = 1;
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string type_url = 2;
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repeated bytes segment_hashes = 3;
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}
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message GetDataFrameRequest {
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uint64 frame_number = 1;
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}
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message DataFrameResponse {
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quilibrium.node.clock.pb.ClockFrame clock_frame = 1;
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bytes proof = 2;
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}
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service CeremonyService {
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rpc GetCompressedSyncFrames (quilibrium.node.clock.pb.ClockFramesRequest) returns (stream CeremonyCompressedSync);
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rpc NegotiateCompressedSyncFrames (stream CeremonyCompressedSyncRequestMessage) returns (stream CeremonyCompressedSyncResponseMessage);
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rpc GetPublicChannel (stream quilibrium.node.channel.pb.P2PChannelEnvelope) returns (stream quilibrium.node.channel.pb.P2PChannelEnvelope);
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rpc GetDataFrame (GetDataFrameRequest) returns (DataFrameResponse);
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} |