/** * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // This file contains protocol buffers that are used to transfer data // to and from the datanode, as well as between datanodes. option java_package = "org.apache.hadoop.hdfs.protocol.proto"; option java_outer_classname = "DataTransferProtos"; option java_generate_equals_and_hash = true; package hadoop.hdfs; import "Security.proto"; import "hdfs.proto"; message DataTransferEncryptorMessageProto { enum DataTransferEncryptorStatus { SUCCESS = 0; ERROR_UNKNOWN_KEY = 1; ERROR = 2; } required DataTransferEncryptorStatus status = 1; optional bytes payload = 2; optional string message = 3; } message BaseHeaderProto { required ExtendedBlockProto block = 1; optional hadoop.common.TokenProto token = 2; } message ClientOperationHeaderProto { required BaseHeaderProto baseHeader = 1; required string clientName = 2; } message OpReadBlockProto { required ClientOperationHeaderProto header = 1; required uint64 offset = 2; required uint64 len = 3; optional bool sendChecksums = 4 [default = true]; } message ChecksumProto { required ChecksumTypeProto type = 1; required uint32 bytesPerChecksum = 2; } message OpWriteBlockProto { required ClientOperationHeaderProto header = 1; repeated DatanodeInfoProto targets = 2; optional DatanodeInfoProto source = 3; enum BlockConstructionStage { PIPELINE_SETUP_APPEND = 0; // pipeline set up for failed PIPELINE_SETUP_APPEND recovery PIPELINE_SETUP_APPEND_RECOVERY = 1; // data streaming DATA_STREAMING = 2; // pipeline setup for failed data streaming recovery PIPELINE_SETUP_STREAMING_RECOVERY = 3; // close the block and pipeline PIPELINE_CLOSE = 4; // Recover a failed PIPELINE_CLOSE PIPELINE_CLOSE_RECOVERY = 5; // pipeline set up for block creation PIPELINE_SETUP_CREATE = 6; // transfer RBW for adding datanodes TRANSFER_RBW = 7; // transfer Finalized for adding datanodes TRANSFER_FINALIZED = 8; } required BlockConstructionStage stage = 4; required uint32 pipelineSize = 5; required uint64 minBytesRcvd = 6; required uint64 maxBytesRcvd = 7; required uint64 latestGenerationStamp = 8; /** * The requested checksum mechanism for this block write. */ required ChecksumProto requestedChecksum = 9; } message OpTransferBlockProto { required ClientOperationHeaderProto header = 1; repeated DatanodeInfoProto targets = 2; } message OpReplaceBlockProto { required BaseHeaderProto header = 1; required string delHint = 2; required DatanodeInfoProto source = 3; } message OpCopyBlockProto { required BaseHeaderProto header = 1; } message OpBlockChecksumProto { required BaseHeaderProto header = 1; } message PacketHeaderProto { // All fields must be fixed-length! required sfixed64 offsetInBlock = 1; required sfixed64 seqno = 2; required bool lastPacketInBlock = 3; required sfixed32 dataLen = 4; optional bool syncBlock = 5 [default = false]; } enum Status { SUCCESS = 0; ERROR = 1; ERROR_CHECKSUM = 2; ERROR_INVALID = 3; ERROR_EXISTS = 4; ERROR_ACCESS_TOKEN = 5; CHECKSUM_OK = 6; } message PipelineAckProto { required sint64 seqno = 1; repeated Status status = 2; optional uint64 downstreamAckTimeNanos = 3 [default = 0]; } /** * Sent as part of the BlockOpResponseProto * for READ_BLOCK and COPY_BLOCK operations. */ message ReadOpChecksumInfoProto { required ChecksumProto checksum = 1; /** * The offset into the block at which the first packet * will start. This is necessary since reads will align * backwards to a checksum chunk boundary. */ required uint64 chunkOffset = 2; } message BlockOpResponseProto { required Status status = 1; optional string firstBadLink = 2; optional OpBlockChecksumResponseProto checksumResponse = 3; optional ReadOpChecksumInfoProto readOpChecksumInfo = 4; /** explanatory text which may be useful to log on the client side */ optional string message = 5; } /** * Message sent from the client to the DN after reading the entire * read request. */ message ClientReadStatusProto { required Status status = 1; } message DNTransferAckProto { required Status status = 1; } message OpBlockChecksumResponseProto { required uint32 bytesPerCrc = 1; required uint64 crcPerBlock = 2; required bytes md5 = 3; optional ChecksumTypeProto crcType = 4 [default = CHECKSUM_CRC32]; }