seaweedfs/weed/pb/mq.proto
chrislu 2190d59bc3 refactor
ToDo
1. handle unassignment on client side
2. get notified of completed unassignment
3. in consumer_group.go, balance and send unassignment
2024-05-21 08:05:56 -07:00

309 lines
8.0 KiB
Protocol Buffer

syntax = "proto3";
package messaging_pb;
import "schema.proto";
option go_package = "github.com/seaweedfs/seaweedfs/weed/pb/mq_pb";
option java_package = "seaweedfs.mq";
option java_outer_classname = "MessageQueueProto";
//////////////////////////////////////////////////
service SeaweedMessaging {
// control plane
rpc FindBrokerLeader (FindBrokerLeaderRequest) returns (FindBrokerLeaderResponse) {
}
// control plane for balancer
rpc PublisherToPubBalancer (stream PublisherToPubBalancerRequest) returns (stream PublisherToPubBalancerResponse) {
}
rpc BalanceTopics (BalanceTopicsRequest) returns (BalanceTopicsResponse) {
}
// control plane for topic partitions
rpc ListTopics (ListTopicsRequest) returns (ListTopicsResponse) {
}
rpc ConfigureTopic (ConfigureTopicRequest) returns (ConfigureTopicResponse) {
}
rpc LookupTopicBrokers (LookupTopicBrokersRequest) returns (LookupTopicBrokersResponse) {
}
// invoked by the balancer, running on each broker
rpc AssignTopicPartitions (AssignTopicPartitionsRequest) returns (AssignTopicPartitionsResponse) {
}
rpc ClosePublishers(ClosePublishersRequest) returns (ClosePublishersResponse) {
}
rpc CloseSubscribers(CloseSubscribersRequest) returns (CloseSubscribersResponse) {
}
// subscriber connects to broker balancer, which coordinates with the subscribers
rpc SubscriberToSubCoordinator (stream SubscriberToSubCoordinatorRequest) returns (stream SubscriberToSubCoordinatorResponse) {
}
// data plane for each topic partition
rpc PublishMessage (stream PublishMessageRequest) returns (stream PublishMessageResponse) {
}
rpc SubscribeMessage (stream SubscribeMessageRequest) returns (stream SubscribeMessageResponse) {
}
// The lead broker asks a follower broker to follow itself
rpc PublishFollowMe (stream PublishFollowMeRequest) returns (stream PublishFollowMeResponse) {
}
rpc SubscribeFollowMe (stream SubscribeFollowMeRequest) returns (SubscribeFollowMeResponse) {
}
}
//////////////////////////////////////////////////
message FindBrokerLeaderRequest {
string filer_group = 1;
}
message FindBrokerLeaderResponse {
string broker = 1;
}
message Topic {
string namespace = 1;
string name = 2;
}
message Partition {
int32 ring_size = 1;
int32 range_start = 2;
int32 range_stop = 3;
int64 unix_time_ns = 4;
}
message Offset {
Topic topic = 1;
repeated PartitionOffset partition_offsets = 2;
}
enum PartitionOffsetStartType {
EARLIEST = 0;
EARLIEST_IN_MEMORY = 1;
LATEST = 2;
}
message PartitionOffset {
Partition partition = 1;
int64 start_ts_ns = 2;
int64 stop_ts_ns = 3;
PartitionOffsetStartType start_type = 4;
}
//////////////////////////////////////////////////
message BrokerStats {
int32 cpu_usage_percent = 1;
map<string, TopicPartitionStats> stats = 2;
}
message TopicPartitionStats {
Topic topic = 1;
Partition partition = 2;
int32 publisher_count = 3;
int32 subscriber_count = 4;
string follower = 5;
}
message PublisherToPubBalancerRequest {
message InitMessage {
string broker = 1;
}
oneof message {
InitMessage init = 1;
BrokerStats stats = 2;
}
}
message PublisherToPubBalancerResponse {
}
message BalanceTopicsRequest {
}
message BalanceTopicsResponse {
}
//////////////////////////////////////////////////
message ConfigureTopicRequest {
Topic topic = 1;
int32 partition_count = 2;
schema_pb.RecordType record_type = 3;
}
message ConfigureTopicResponse {
repeated BrokerPartitionAssignment broker_partition_assignments = 2;
schema_pb.RecordType record_type = 3;
}
message ListTopicsRequest {
}
message ListTopicsResponse {
repeated Topic topics = 1;
}
message LookupTopicBrokersRequest {
Topic topic = 1;
}
message LookupTopicBrokersResponse {
Topic topic = 1;
repeated BrokerPartitionAssignment broker_partition_assignments = 2;
}
message BrokerPartitionAssignment {
Partition partition = 1;
string leader_broker = 2;
string follower_broker = 3;
}
message AssignTopicPartitionsRequest {
Topic topic = 1;
repeated BrokerPartitionAssignment broker_partition_assignments = 2;
bool is_leader = 3;
bool is_draining = 4;
}
message AssignTopicPartitionsResponse {
}
message SubscriberToSubCoordinatorRequest {
message InitMessage {
string consumer_group = 1;
string consumer_group_instance_id = 2;
Topic topic = 3;
// The consumer group instance will be assigned at most max_partition_count partitions.
// If the number of partitions is less than the sum of max_partition_count,
// the consumer group instance may be assigned partitions less than max_partition_count.
// Default is 1.
int32 max_partition_count = 4;
// If consumer group instance changes, wait for rebalance_seconds before reassigning partitions
// Exception: if adding a new consumer group instance and sum of max_partition_count equals the number of partitions,
// the rebalance will happen immediately.
// Default is 10 seconds.
int32 rebalance_seconds = 5;
}
oneof message {
InitMessage init = 1;
}
}
message SubscriberToSubCoordinatorResponse {
message Assignment {
BrokerPartitionAssignment partition_assignment = 1;
}
message UnAssignment {
Partition partition = 1;
}
oneof message {
Assignment assignment = 1;
UnAssignment un_assignment = 2;
}
}
//////////////////////////////////////////////////
message ControlMessage {
bool is_close = 1;
}
message DataMessage {
bytes key = 1;
bytes value = 2;
int64 ts_ns = 3;
ControlMessage ctrl = 4;
}
message PublishMessageRequest {
message InitMessage {
Topic topic = 1;
Partition partition = 2;
int32 ack_interval = 3;
string follower_broker = 4;
string publisher_name = 5; // for debugging
}
oneof message {
InitMessage init = 1;
DataMessage data = 2;
}
int64 sequence = 3;
}
message PublishMessageResponse {
int64 ack_sequence = 1;
string error = 2;
bool should_close = 3;
}
message PublishFollowMeRequest {
message InitMessage {
Topic topic = 1;
Partition partition = 2;
}
message FlushMessage {
int64 ts_ns = 1;
}
message CloseMessage {
}
oneof message {
InitMessage init = 1;
DataMessage data = 2;
FlushMessage flush = 3;
CloseMessage close = 4;
}
}
message PublishFollowMeResponse {
int64 ack_ts_ns = 1;
}
message SubscribeMessageRequest {
message InitMessage {
string consumer_group = 1;
string consumer_id = 2;
string client_id = 3;
Topic topic = 4;
PartitionOffset partition_offset = 5;
string filter = 6;
string follower_broker = 7;
int32 concurrency = 8;
}
message AckMessage {
int64 sequence = 1;
bytes key = 2;
}
oneof message {
InitMessage init = 1;
AckMessage ack = 2;
}
}
message SubscribeMessageResponse {
message SubscribeCtrlMessage {
string error = 1;
bool is_end_of_stream = 2;
bool is_end_of_topic = 3;
}
oneof message {
SubscribeCtrlMessage ctrl = 1;
DataMessage data = 2;
}
}
message SubscribeFollowMeRequest {
message InitMessage {
Topic topic = 1;
Partition partition = 2;
string consumer_group = 3;
}
message AckMessage {
int64 ts_ns = 1;
}
message CloseMessage {
}
oneof message {
InitMessage init = 1;
AckMessage ack = 2;
CloseMessage close = 3;
}
}
message SubscribeFollowMeResponse {
int64 ack_ts_ns = 1;
}
message ClosePublishersRequest {
Topic topic = 1;
int64 unix_time_ns = 2;
}
message ClosePublishersResponse {
}
message CloseSubscribersRequest {
Topic topic = 1;
int64 unix_time_ns = 2;
}
message CloseSubscribersResponse {
}