DockerCLI/vendor/go.etcd.io/etcd/raft/v3/raftpb/raft.proto

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syntax = "proto2";
package raftpb;
import "gogoproto/gogo.proto";
option (gogoproto.marshaler_all) = true;
option (gogoproto.sizer_all) = true;
option (gogoproto.unmarshaler_all) = true;
option (gogoproto.goproto_getters_all) = false;
option (gogoproto.goproto_enum_prefix_all) = false;
option (gogoproto.goproto_unkeyed_all) = false;
option (gogoproto.goproto_unrecognized_all) = false;
option (gogoproto.goproto_sizecache_all) = false;
enum EntryType {
EntryNormal = 0;
EntryConfChange = 1; // corresponds to pb.ConfChange
EntryConfChangeV2 = 2; // corresponds to pb.ConfChangeV2
}
message Entry {
optional uint64 Term = 2 [(gogoproto.nullable) = false]; // must be 64-bit aligned for atomic operations
optional uint64 Index = 3 [(gogoproto.nullable) = false]; // must be 64-bit aligned for atomic operations
optional EntryType Type = 1 [(gogoproto.nullable) = false];
optional bytes Data = 4;
}
message SnapshotMetadata {
optional ConfState conf_state = 1 [(gogoproto.nullable) = false];
optional uint64 index = 2 [(gogoproto.nullable) = false];
optional uint64 term = 3 [(gogoproto.nullable) = false];
}
message Snapshot {
optional bytes data = 1;
optional SnapshotMetadata metadata = 2 [(gogoproto.nullable) = false];
}
// For description of different message types, see:
// https://pkg.go.dev/go.etcd.io/etcd/raft/v3#hdr-MessageType
enum MessageType {
MsgHup = 0;
MsgBeat = 1;
MsgProp = 2;
MsgApp = 3;
MsgAppResp = 4;
MsgVote = 5;
MsgVoteResp = 6;
MsgSnap = 7;
MsgHeartbeat = 8;
MsgHeartbeatResp = 9;
MsgUnreachable = 10;
MsgSnapStatus = 11;
MsgCheckQuorum = 12;
MsgTransferLeader = 13;
MsgTimeoutNow = 14;
MsgReadIndex = 15;
MsgReadIndexResp = 16;
MsgPreVote = 17;
MsgPreVoteResp = 18;
}
message Message {
optional MessageType type = 1 [(gogoproto.nullable) = false];
optional uint64 to = 2 [(gogoproto.nullable) = false];
optional uint64 from = 3 [(gogoproto.nullable) = false];
optional uint64 term = 4 [(gogoproto.nullable) = false];
// logTerm is generally used for appending Raft logs to followers. For example,
// (type=MsgApp,index=100,logTerm=5) means leader appends entries starting at
// index=101, and the term of entry at index 100 is 5.
// (type=MsgAppResp,reject=true,index=100,logTerm=5) means follower rejects some
// entries from its leader as it already has an entry with term 5 at index 100.
optional uint64 logTerm = 5 [(gogoproto.nullable) = false];
optional uint64 index = 6 [(gogoproto.nullable) = false];
repeated Entry entries = 7 [(gogoproto.nullable) = false];
optional uint64 commit = 8 [(gogoproto.nullable) = false];
optional Snapshot snapshot = 9 [(gogoproto.nullable) = false];
optional bool reject = 10 [(gogoproto.nullable) = false];
optional uint64 rejectHint = 11 [(gogoproto.nullable) = false];
optional bytes context = 12;
}
message HardState {
optional uint64 term = 1 [(gogoproto.nullable) = false];
optional uint64 vote = 2 [(gogoproto.nullable) = false];
optional uint64 commit = 3 [(gogoproto.nullable) = false];
}
// ConfChangeTransition specifies the behavior of a configuration change with
// respect to joint consensus.
enum ConfChangeTransition {
// Automatically use the simple protocol if possible, otherwise fall back
// to ConfChangeJointImplicit. Most applications will want to use this.
ConfChangeTransitionAuto = 0;
// Use joint consensus unconditionally, and transition out of them
// automatically (by proposing a zero configuration change).
//
// This option is suitable for applications that want to minimize the time
// spent in the joint configuration and do not store the joint configuration
// in the state machine (outside of InitialState).
ConfChangeTransitionJointImplicit = 1;
// Use joint consensus and remain in the joint configuration until the
// application proposes a no-op configuration change. This is suitable for
// applications that want to explicitly control the transitions, for example
// to use a custom payload (via the Context field).
ConfChangeTransitionJointExplicit = 2;
}
message ConfState {
// The voters in the incoming config. (If the configuration is not joint,
// then the outgoing config is empty).
repeated uint64 voters = 1;
// The learners in the incoming config.
repeated uint64 learners = 2;
// The voters in the outgoing config.
repeated uint64 voters_outgoing = 3;
// The nodes that will become learners when the outgoing config is removed.
// These nodes are necessarily currently in nodes_joint (or they would have
// been added to the incoming config right away).
repeated uint64 learners_next = 4;
// If set, the config is joint and Raft will automatically transition into
// the final config (i.e. remove the outgoing config) when this is safe.
optional bool auto_leave = 5 [(gogoproto.nullable) = false];
}
enum ConfChangeType {
ConfChangeAddNode = 0;
ConfChangeRemoveNode = 1;
ConfChangeUpdateNode = 2;
ConfChangeAddLearnerNode = 3;
}
message ConfChange {
optional ConfChangeType type = 2 [(gogoproto.nullable) = false];
optional uint64 node_id = 3 [(gogoproto.nullable) = false, (gogoproto.customname) = "NodeID" ];
optional bytes context = 4;
// NB: this is used only by etcd to thread through a unique identifier.
// Ideally it should really use the Context instead. No counterpart to
// this field exists in ConfChangeV2.
optional uint64 id = 1 [(gogoproto.nullable) = false, (gogoproto.customname) = "ID" ];
}
// ConfChangeSingle is an individual configuration change operation. Multiple
// such operations can be carried out atomically via a ConfChangeV2.
message ConfChangeSingle {
optional ConfChangeType type = 1 [(gogoproto.nullable) = false];
optional uint64 node_id = 2 [(gogoproto.nullable) = false, (gogoproto.customname) = "NodeID"];
}
// ConfChangeV2 messages initiate configuration changes. They support both the
// simple "one at a time" membership change protocol and full Joint Consensus
// allowing for arbitrary changes in membership.
//
// The supplied context is treated as an opaque payload and can be used to
// attach an action on the state machine to the application of the config change
// proposal. Note that contrary to Joint Consensus as outlined in the Raft
// paper[1], configuration changes become active when they are *applied* to the
// state machine (not when they are appended to the log).
//
// The simple protocol can be used whenever only a single change is made.
//
// Non-simple changes require the use of Joint Consensus, for which two
// configuration changes are run. The first configuration change specifies the
// desired changes and transitions the Raft group into the joint configuration,
// in which quorum requires a majority of both the pre-changes and post-changes
// configuration. Joint Consensus avoids entering fragile intermediate
// configurations that could compromise survivability. For example, without the
// use of Joint Consensus and running across three availability zones with a
// replication factor of three, it is not possible to replace a voter without
// entering an intermediate configuration that does not survive the outage of
// one availability zone.
//
// The provided ConfChangeTransition specifies how (and whether) Joint Consensus
// is used, and assigns the task of leaving the joint configuration either to
// Raft or the application. Leaving the joint configuration is accomplished by
// proposing a ConfChangeV2 with only and optionally the Context field
// populated.
//
// For details on Raft membership changes, see:
//
// [1]: https://github.com/ongardie/dissertation/blob/master/online-trim.pdf
message ConfChangeV2 {
optional ConfChangeTransition transition = 1 [(gogoproto.nullable) = false];
repeated ConfChangeSingle changes = 2 [(gogoproto.nullable) = false];
optional bytes context = 3;
}