syntax = "proto3"; package tikvpb; import "coprocessor.proto"; import "kvrpcpb.proto"; import "mpp.proto"; import "raft_serverpb.proto"; import "gogoproto/gogo.proto"; import "rustproto.proto"; option (gogoproto.sizer_all) = true; option (gogoproto.marshaler_all) = true; option (gogoproto.unmarshaler_all) = true; option (rustproto.lite_runtime_all) = true; option java_package = "org.tikv.kvproto"; // Key/value store API for TiKV. service Tikv { // Commands using a transactional interface. rpc KvGet(kvrpcpb.GetRequest) returns (kvrpcpb.GetResponse) {} rpc KvScan(kvrpcpb.ScanRequest) returns (kvrpcpb.ScanResponse) {} rpc KvPrewrite(kvrpcpb.PrewriteRequest) returns (kvrpcpb.PrewriteResponse) {} rpc KvPessimisticLock(kvrpcpb.PessimisticLockRequest) returns (kvrpcpb.PessimisticLockResponse) {} rpc KVPessimisticRollback(kvrpcpb.PessimisticRollbackRequest) returns (kvrpcpb.PessimisticRollbackResponse) {} rpc KvTxnHeartBeat(kvrpcpb.TxnHeartBeatRequest) returns (kvrpcpb.TxnHeartBeatResponse) {} rpc KvCheckTxnStatus(kvrpcpb.CheckTxnStatusRequest) returns (kvrpcpb.CheckTxnStatusResponse) {} rpc KvCheckSecondaryLocks(kvrpcpb.CheckSecondaryLocksRequest) returns (kvrpcpb.CheckSecondaryLocksResponse) {} rpc KvCommit(kvrpcpb.CommitRequest) returns (kvrpcpb.CommitResponse) {} rpc KvImport(kvrpcpb.ImportRequest) returns (kvrpcpb.ImportResponse) {} rpc KvCleanup(kvrpcpb.CleanupRequest) returns (kvrpcpb.CleanupResponse) {} rpc KvBatchGet(kvrpcpb.BatchGetRequest) returns (kvrpcpb.BatchGetResponse) {} rpc KvBatchRollback(kvrpcpb.BatchRollbackRequest) returns (kvrpcpb.BatchRollbackResponse) {} rpc KvScanLock(kvrpcpb.ScanLockRequest) returns (kvrpcpb.ScanLockResponse) {} rpc KvResolveLock(kvrpcpb.ResolveLockRequest) returns (kvrpcpb.ResolveLockResponse) {} rpc KvGC(kvrpcpb.GCRequest) returns (kvrpcpb.GCResponse) {} rpc KvDeleteRange(kvrpcpb.DeleteRangeRequest) returns (kvrpcpb.DeleteRangeResponse) {} // Raw commands; no transaction support. rpc RawGet(kvrpcpb.RawGetRequest) returns (kvrpcpb.RawGetResponse) {} rpc RawBatchGet(kvrpcpb.RawBatchGetRequest) returns (kvrpcpb.RawBatchGetResponse) {} rpc RawPut(kvrpcpb.RawPutRequest) returns (kvrpcpb.RawPutResponse) {} rpc RawBatchPut(kvrpcpb.RawBatchPutRequest) returns (kvrpcpb.RawBatchPutResponse) {} rpc RawDelete(kvrpcpb.RawDeleteRequest) returns (kvrpcpb.RawDeleteResponse) {} rpc RawBatchDelete(kvrpcpb.RawBatchDeleteRequest) returns (kvrpcpb.RawBatchDeleteResponse) {} rpc RawScan(kvrpcpb.RawScanRequest) returns (kvrpcpb.RawScanResponse) {} rpc RawDeleteRange(kvrpcpb.RawDeleteRangeRequest) returns (kvrpcpb.RawDeleteRangeResponse) {} rpc RawBatchScan(kvrpcpb.RawBatchScanRequest) returns (kvrpcpb.RawBatchScanResponse) {} // Get TTL of the key. Returns 0 if TTL is not set for the key. rpc RawGetKeyTTL(kvrpcpb.RawGetKeyTTLRequest) returns (kvrpcpb.RawGetKeyTTLResponse) {} // Compare if the value in database equals to `RawCASRequest.previous_value` before putting the new value. If not, this request will have no effect and the value in the database will be returned. rpc RawCompareAndSwap(kvrpcpb.RawCASRequest) returns (kvrpcpb.RawCASResponse) {} rpc RawChecksum(kvrpcpb.RawChecksumRequest) returns (kvrpcpb.RawChecksumResponse) {} // Store commands (sent to a each TiKV node in a cluster, rather than a certain region). rpc UnsafeDestroyRange(kvrpcpb.UnsafeDestroyRangeRequest) returns (kvrpcpb.UnsafeDestroyRangeResponse) {} rpc RegisterLockObserver(kvrpcpb.RegisterLockObserverRequest) returns (kvrpcpb.RegisterLockObserverResponse) {} rpc CheckLockObserver(kvrpcpb.CheckLockObserverRequest) returns (kvrpcpb.CheckLockObserverResponse) {} rpc RemoveLockObserver(kvrpcpb.RemoveLockObserverRequest) returns (kvrpcpb.RemoveLockObserverResponse) {} rpc PhysicalScanLock(kvrpcpb.PhysicalScanLockRequest) returns (kvrpcpb.PhysicalScanLockResponse) {} // Commands for executing SQL in the TiKV coprocessor (i.e., 'pushed down' to TiKV rather than // executed in TiDB). rpc Coprocessor(coprocessor.Request) returns (coprocessor.Response) {} rpc CoprocessorStream(coprocessor.Request) returns (stream coprocessor.Response) {} rpc BatchCoprocessor(coprocessor.BatchRequest) returns (stream coprocessor.BatchResponse) {} // Command for executing custom user requests in TiKV coprocessor_v2. rpc RawCoprocessor(kvrpcpb.RawCoprocessorRequest) returns (kvrpcpb.RawCoprocessorResponse) {} // Raft commands (sent between TiKV nodes). rpc Raft(stream raft_serverpb.RaftMessage) returns (raft_serverpb.Done) {} rpc BatchRaft(stream BatchRaftMessage) returns (raft_serverpb.Done) {} rpc Snapshot(stream raft_serverpb.SnapshotChunk) returns (raft_serverpb.Done) {} // Sent from PD or TiDB to a TiKV node. rpc SplitRegion (kvrpcpb.SplitRegionRequest) returns (kvrpcpb.SplitRegionResponse) {} // Sent from TiFlash or TiKV to a TiKV node. rpc ReadIndex(kvrpcpb.ReadIndexRequest) returns (kvrpcpb.ReadIndexResponse) {} // Commands for debugging transactions. rpc MvccGetByKey(kvrpcpb.MvccGetByKeyRequest) returns (kvrpcpb.MvccGetByKeyResponse) {} rpc MvccGetByStartTs(kvrpcpb.MvccGetByStartTsRequest) returns (kvrpcpb.MvccGetByStartTsResponse) {} // Batched commands. rpc BatchCommands(stream BatchCommandsRequest) returns (stream BatchCommandsResponse) {} // These are for mpp execution. rpc DispatchMPPTask(mpp.DispatchTaskRequest) returns (mpp.DispatchTaskResponse) {} rpc CancelMPPTask(mpp.CancelTaskRequest) returns (mpp.CancelTaskResponse) {} rpc EstablishMPPConnection(mpp.EstablishMPPConnectionRequest) returns (stream mpp.MPPDataPacket) {} rpc IsAlive(mpp.IsAliveRequest) returns (mpp.IsAliveResponse) {} /// CheckLeader sends all information (includes region term and epoch) to other stores. /// Once a store receives a request, it checks term and epoch for each region, and sends the regions whose /// term and epoch match with local information in the store. /// After the client collected all responses from all stores, it checks if got a quorum of responses from /// other stores for every region, and decides to advance resolved ts from these regions. rpc CheckLeader(kvrpcpb.CheckLeaderRequest) returns (kvrpcpb.CheckLeaderResponse); /// Get the minimal `safe_ts` from regions at the store rpc GetStoreSafeTS(kvrpcpb.StoreSafeTSRequest) returns (kvrpcpb.StoreSafeTSResponse); /// Get the information about lock waiting from TiKV. rpc GetLockWaitInfo(kvrpcpb.GetLockWaitInfoRequest) returns (kvrpcpb.GetLockWaitInfoResponse); } message BatchCommandsRequest { repeated Request requests = 1; repeated uint64 request_ids = 2; message Request { oneof cmd { kvrpcpb.GetRequest Get = 1; kvrpcpb.ScanRequest Scan = 2; kvrpcpb.PrewriteRequest Prewrite = 3; kvrpcpb.CommitRequest Commit = 4; kvrpcpb.ImportRequest Import = 5; kvrpcpb.CleanupRequest Cleanup = 6; kvrpcpb.BatchGetRequest BatchGet = 7; kvrpcpb.BatchRollbackRequest BatchRollback = 8; kvrpcpb.ScanLockRequest ScanLock = 9; kvrpcpb.ResolveLockRequest ResolveLock = 10; kvrpcpb.GCRequest GC = 11; kvrpcpb.DeleteRangeRequest DeleteRange = 12; kvrpcpb.RawGetRequest RawGet = 13; kvrpcpb.RawBatchGetRequest RawBatchGet = 14; kvrpcpb.RawPutRequest RawPut = 15; kvrpcpb.RawBatchPutRequest RawBatchPut = 16; kvrpcpb.RawDeleteRequest RawDelete = 17; kvrpcpb.RawBatchDeleteRequest RawBatchDelete = 18; kvrpcpb.RawScanRequest RawScan = 19; kvrpcpb.RawDeleteRangeRequest RawDeleteRange = 20; kvrpcpb.RawBatchScanRequest RawBatchScan = 21; coprocessor.Request Coprocessor = 22; kvrpcpb.PessimisticLockRequest PessimisticLock = 23; kvrpcpb.PessimisticRollbackRequest PessimisticRollback = 24; kvrpcpb.CheckTxnStatusRequest CheckTxnStatus = 25; kvrpcpb.TxnHeartBeatRequest TxnHeartBeat = 26; kvrpcpb.CheckSecondaryLocksRequest CheckSecondaryLocks = 33; kvrpcpb.RawCoprocessorRequest RawCoprocessor = 34; // For some test cases. BatchCommandsEmptyRequest Empty = 255; } // Reserved for deprecated VerKV reserved 27 to 32; } } message BatchCommandsResponse { repeated Response responses = 1; repeated uint64 request_ids = 2; // 280 means TiKV gRPC cpu usage is 280%. uint64 transport_layer_load = 3; message Response { oneof cmd { kvrpcpb.GetResponse Get = 1; kvrpcpb.ScanResponse Scan = 2; kvrpcpb.PrewriteResponse Prewrite = 3; kvrpcpb.CommitResponse Commit = 4; kvrpcpb.ImportResponse Import = 5; kvrpcpb.CleanupResponse Cleanup = 6; kvrpcpb.BatchGetResponse BatchGet = 7; kvrpcpb.BatchRollbackResponse BatchRollback = 8; kvrpcpb.ScanLockResponse ScanLock = 9; kvrpcpb.ResolveLockResponse ResolveLock = 10; kvrpcpb.GCResponse GC = 11; kvrpcpb.DeleteRangeResponse DeleteRange = 12; kvrpcpb.RawGetResponse RawGet = 13; kvrpcpb.RawBatchGetResponse RawBatchGet = 14; kvrpcpb.RawPutResponse RawPut = 15; kvrpcpb.RawBatchPutResponse RawBatchPut = 16; kvrpcpb.RawDeleteResponse RawDelete = 17; kvrpcpb.RawBatchDeleteResponse RawBatchDelete = 18; kvrpcpb.RawScanResponse RawScan = 19; kvrpcpb.RawDeleteRangeResponse RawDeleteRange = 20; kvrpcpb.RawBatchScanResponse RawBatchScan = 21; coprocessor.Response Coprocessor = 22; kvrpcpb.PessimisticLockResponse PessimisticLock = 23; kvrpcpb.PessimisticRollbackResponse PessimisticRollback = 24; kvrpcpb.CheckTxnStatusResponse CheckTxnStatus = 25; kvrpcpb.TxnHeartBeatResponse TxnHeartBeat = 26; kvrpcpb.CheckSecondaryLocksResponse CheckSecondaryLocks = 33; kvrpcpb.RawCoprocessorResponse RawCoprocessor = 34; // For some test cases. BatchCommandsEmptyResponse Empty = 255; } // Reserved for deprecated VerKV reserved 27 to 32; } } message BatchRaftMessage { repeated raft_serverpb.RaftMessage msgs = 1; } message BatchCommandsEmptyRequest { // ID of the test request. uint64 test_id = 1; // TiKV needs to delay at least such a time to response the client. uint64 delay_time = 2; } message BatchCommandsEmptyResponse { // ID of the test request. uint64 test_id = 1; }