mirror of https://github.com/status-im/consul.git
452 lines
14 KiB
Protocol Buffer
452 lines
14 KiB
Protocol Buffer
syntax = "proto3";
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package hashicorp.consul.internal.peering;
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import "annotations/ratelimit/ratelimit.proto";
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import "google/protobuf/timestamp.proto";
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// PeeringService handles operations for establishing peering relationships
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// between disparate Consul clusters.
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service PeeringService {
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rpc GenerateToken(GenerateTokenRequest) returns (GenerateTokenResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_WRITE};
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}
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rpc Establish(EstablishRequest) returns (EstablishResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_WRITE};
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}
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rpc PeeringRead(PeeringReadRequest) returns (PeeringReadResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_READ};
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}
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rpc PeeringList(PeeringListRequest) returns (PeeringListResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_READ};
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}
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rpc PeeringDelete(PeeringDeleteRequest) returns (PeeringDeleteResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_WRITE};
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}
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// TODO(peering): As of writing, this method is only used in tests to set up Peerings in the state store.
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// Consider removing if we can find another way to populate state store in peering_endpoint_test.go
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rpc PeeringWrite(PeeringWriteRequest) returns (PeeringWriteResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_WRITE};
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}
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// TODO(peering): Rename this to PeeredServiceRoots? or something like that?
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rpc TrustBundleListByService(TrustBundleListByServiceRequest) returns (TrustBundleListByServiceResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_READ};
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}
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rpc TrustBundleRead(TrustBundleReadRequest) returns (TrustBundleReadResponse) {
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option (hashicorp.consul.internal.ratelimit.spec) = {operation_type: OPERATION_TYPE_READ};
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}
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}
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// PeeringState enumerates all the states a peering can be in.
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enum PeeringState {
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// Undefined represents an unset value for PeeringState during
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// writes.
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UNDEFINED = 0;
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// Pending means the peering was created by generating a peering token.
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// Peerings stay in a pending state until the peer uses the token to dial
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// the local cluster.
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PENDING = 1;
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// Establishing means the peering is being established from a peering token.
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// This is the initial state for dialing peers.
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ESTABLISHING = 2;
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// Active means that the peering connection is active and healthy.
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ACTIVE = 3;
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// Failing means the peering connection has been interrupted but has not yet
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// been terminated.
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FAILING = 4;
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// Deleting means a peering was marked for deletion and is in the process
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// of being deleted.
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DELETING = 5;
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// Terminated means the peering relationship has been removed.
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TERMINATED = 6;
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}
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// SecretsWriteRequest encodes a request to write a peering secret as the result
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// of some operation. Different operations, such as generating a peering token,
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// lead to modifying the known secrets associated with a peering.
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message SecretsWriteRequest {
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// PeerID is the local UUID of the peering this request applies to.
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string PeerID = 1;
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oneof Request {
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GenerateTokenRequest generate_token = 2;
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ExchangeSecretRequest exchange_secret = 3;
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PromotePendingRequest promote_pending = 4;
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EstablishRequest establish = 5;
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}
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// GenerateTokenRequest encodes a request to persist a peering establishment
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// secret. It is triggered by generating a new peering token for a peer cluster.
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message GenerateTokenRequest {
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// establishment_secret is the proposed secret ID to store as the establishment
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// secret for this peering.
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string establishment_secret = 1;
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}
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// ExchangeSecretRequest encodes a request to persist a pending stream secret
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// secret. It is triggered by an acceptor peer generating a long-lived stream secret
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// in exchange for an establishment secret.
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message ExchangeSecretRequest {
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// establishment_secret is the secret to exchange for the given pending stream secret.
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string establishment_secret = 1;
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// pending_stream_secret is the proposed secret ID to store as the pending stream
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// secret for this peering.
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string pending_stream_secret = 2;
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}
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// PromotePendingRequest encodes a request to promote a pending stream secret
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// to be an active stream secret. It is triggered when the accepting stream handler
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// validates an Open request from a peer with a pending stream secret.
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message PromotePendingRequest {
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// active_stream_secret is the proposed secret ID to store as the active stream
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// secret for this peering.
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string active_stream_secret = 1;
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}
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// EstablishRequest encodes a request to persist an active stream secret.
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// It is triggered after a dialing peer exchanges their establishment secret
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// for a long-lived active stream secret.
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message EstablishRequest {
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// active_stream_secret is the proposed secret ID to store as the active stream
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// secret for this peering.
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string active_stream_secret = 1;
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}
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}
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// PeeringSecrets defines a secret used for authenticating/authorizing peer clusters.
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message PeeringSecrets {
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// PeerID is the local UUID of the peering this secret was generated for.
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string PeerID = 1;
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message Establishment {
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// SecretID is the one-time-use peering establishment secret.
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string SecretID = 1;
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}
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message Stream {
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// ActiveSecretID is the active UUID-v4 secret being used for authorization at
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// the peering stream.
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string ActiveSecretID = 1;
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// PendingSecretID is a UUID-v4 secret introduced during secret rotation.
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// When a peering is established or re-established, both the active secret and
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// pending secret are considered valid. However, once the dialing peer uses
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// the pending secret then it transitions to active and the previously active
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// secret is discarded.
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//
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// Pending secret IDs are only valid for long-lived stream secrets.
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// Only one establishment secret can exist for a peer at a time since they
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// are designed for one-time use.
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string PendingSecretID = 2;
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}
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Establishment establishment = 2;
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Stream stream = 3;
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}
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// Peering defines a peering relationship between two disparate Consul clusters
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//
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.Peering
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// output=peering.gen.go
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// name=API
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message Peering {
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// ID is a datacenter-scoped UUID for the peering.
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// The ID is generated when a peering is first written to the state store.
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string ID = 1;
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// Name is the local alias for the peering relationship.
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string Name = 2;
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// Partition is the local partition connecting to the peer.
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string Partition = 3;
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// DeletedAt is the time when the Peering was marked for deletion
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// This is nullable so that we can omit if empty when encoding in JSON
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// mog: func-to=TimePtrFromProto func-from=TimePtrToProto
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google.protobuf.Timestamp DeletedAt = 4;
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// Meta is a mapping of some string value to any other string value
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map<string, string> Meta = 5;
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// State is one of the valid PeeringState values to represent the status of
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// peering relationship.
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//
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// mog: func-to=PeeringStateToAPI func-from=PeeringStateFromAPI
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PeeringState State = 6;
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// PeerID is the ID that our peer assigned to this peering.
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// This ID is to be used when dialing the peer, so that it can know who dialed it.
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string PeerID = 7;
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// PeerCAPems contains all the CA certificates for the remote peer.
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repeated string PeerCAPems = 8;
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// PeerServerName is the name of the remote server as it relates to TLS.
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string PeerServerName = 9;
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// PeerServerAddresses contains all the the connection addresses for the remote peer.
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repeated string PeerServerAddresses = 10;
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// StreamStatus contains information computed on read based on the state of the stream.
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//
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// mog: func-to=StreamStatusToAPI func-from=StreamStatusFromAPI
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StreamStatus StreamStatus = 13;
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// CreateIndex is the Raft index at which the Peering was created.
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// @gotags: bexpr:"-"
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uint64 CreateIndex = 11;
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// ModifyIndex is the latest Raft index at which the Peering. was modified.
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// @gotags: bexpr:"-"
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uint64 ModifyIndex = 12;
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// Remote contains metadata about the remote peer.
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RemoteInfo Remote = 17;
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// ManualServerAddresses provides a list of manually specified server addresses from the
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// user. If this is defined, then the automatic PeerServerAddresses are ignored.
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repeated string ManualServerAddresses = 18;
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}
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// RemoteInfo contains metadata about the remote peer.
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.PeeringRemoteInfo
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// output=peering.gen.go
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// name=API
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message RemoteInfo {
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// Partition is the remote peer's partition.
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string Partition = 1;
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// Datacenter is the remote peer's datacenter.
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string Datacenter = 2;
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// Locality identifies where the peer is running.
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Locality Locality = 3;
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}
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.Locality
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// output=peering.gen.go
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// name=API
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message Locality {
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// Region is region the zone belongs to.
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string Region = 1;
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// Zone is the zone the entity is running in.
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string Zone = 2;
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}
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// StreamStatus represents information about an active peering stream.
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message StreamStatus {
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// ImportedServices is the list of services imported from this peering.
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repeated string ImportedServices = 1;
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// ExportedServices is the list of services exported to this peering.
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repeated string ExportedServices = 2;
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// LastHeartbeat represents when the last heartbeat message was received.
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google.protobuf.Timestamp LastHeartbeat = 3;
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// LastReceive represents when any message was last received, regardless of success or error.
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google.protobuf.Timestamp LastReceive = 4;
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// LastSend represents when any message was last sent, regardless of success or error.
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google.protobuf.Timestamp LastSend = 5;
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}
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// PeeringTrustBundle holds the trust information for validating requests from a peer.
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message PeeringTrustBundle {
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// TrustDomain is the domain for the bundle, example.com, foo.bar.gov for example. Note that this must not have a prefix such as "spiffe://".
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string TrustDomain = 1;
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// PeerName associates the trust bundle with a peer.
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string PeerName = 2;
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// Partition isolates the bundle from other trust bundles in separate local partitions.
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string Partition = 3;
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// RootPEMs holds ASN.1 DER encoded X.509 certificate data for the trust bundle.
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repeated string RootPEMs = 4;
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// ExportedPartition references the remote partition of the peer
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// which sent this trust bundle. Used for generating SpiffeIDs.
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string ExportedPartition = 5;
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// CreateIndex is the Raft index at which the trust domain was created.
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// @gotags: bexpr:"-"
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uint64 CreateIndex = 6;
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// ModifyIndex is the latest Raft index at which the trust bundle was modified.
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// @gotags: bexpr:"-"
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uint64 ModifyIndex = 7;
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}
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// PeeringServerAddresses contains the latest snapshot of all known
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// server addresses for a peer.
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message PeeringServerAddresses {
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repeated string Addresses = 1;
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}
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// @consul-rpc-glue: LeaderReadTODO
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message PeeringReadRequest {
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string Name = 1;
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string Partition = 2;
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}
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message PeeringReadResponse {
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Peering Peering = 1;
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}
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// @consul-rpc-glue: LeaderReadTODO
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message PeeringListRequest {
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string Partition = 1;
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}
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message PeeringListResponse {
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repeated Peering Peerings = 1;
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uint64 Index = 2;
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}
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message PeeringWriteRequest {
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// Peering is the peering to write with the request.
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Peering Peering = 1;
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// SecretsWriteRequest contains the optional peering secrets to persist
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// with the peering. Peering secrets are not embedded in the peering
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// object to avoid leaking them.
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SecretsWriteRequest SecretsRequest = 2;
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map<string, string> Meta = 3;
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}
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// TODO(peering): Consider returning Peering if we keep this endpoint around
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message PeeringWriteResponse {}
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message PeeringDeleteRequest {
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string Name = 1;
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string Partition = 2;
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}
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message PeeringDeleteResponse {}
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message TrustBundleListByServiceRequest {
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string ServiceName = 1;
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string Namespace = 2;
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string Partition = 3;
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string Kind = 4;
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}
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message TrustBundleListByServiceResponse {
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uint64 Index = 1;
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repeated PeeringTrustBundle Bundles = 2;
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}
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message TrustBundleReadRequest {
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string Name = 1;
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string Partition = 2;
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}
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message TrustBundleReadResponse {
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uint64 Index = 1;
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PeeringTrustBundle Bundle = 2;
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}
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// This is a purely internal type and does not require query metadata.
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message PeeringTerminateByIDRequest {
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string ID = 1;
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}
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message PeeringTerminateByIDResponse {}
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message PeeringTrustBundleWriteRequest {
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PeeringTrustBundle PeeringTrustBundle = 1;
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}
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message PeeringTrustBundleWriteResponse {}
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message PeeringTrustBundleDeleteRequest {
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string Name = 1;
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string Partition = 2;
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}
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message PeeringTrustBundleDeleteResponse {}
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.PeeringGenerateTokenRequest
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// output=peering.gen.go
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// name=API
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message GenerateTokenRequest {
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// Name of the remote peer.
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string PeerName = 1;
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// Partition is the local partition being peered.
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string Partition = 2;
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// Meta is a mapping of some string value to any other string value
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map<string, string> Meta = 5;
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// ServerExternalAddresses is a list of addresses to put into the generated token. This could be used to specify
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// load balancer(s) or external IPs to reach the servers from the dialing side, and will override any server
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// addresses obtained from the "consul" service.
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repeated string ServerExternalAddresses = 6;
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}
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.PeeringGenerateTokenResponse
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// output=peering.gen.go
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// name=API
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message GenerateTokenResponse {
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// PeeringToken is an opaque string provided to the remote peer for it to complete
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// the peering initialization handshake.
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string PeeringToken = 1;
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}
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.PeeringEstablishRequest
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// output=peering.gen.go
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// name=API
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message EstablishRequest {
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// Name of the remote peer.
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string PeerName = 1;
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// The peering token returned from the peer's GenerateToken endpoint.
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string PeeringToken = 2;
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// Partition is the local partition being peered.
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string Partition = 3;
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// Meta is a mapping of some string value to any other string value
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map<string, string> Meta = 4;
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}
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// mog annotation:
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//
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// target=github.com/hashicorp/consul/api.PeeringEstablishResponse
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// output=peering.gen.go
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// name=API
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message EstablishResponse {}
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