github.com/deanMdreon/kafka-go@v0.4.32/write.go (about) 1 package kafka 2 3 import ( 4 "bytes" 5 "encoding/binary" 6 "fmt" 7 "hash/crc32" 8 "io" 9 "time" 10 ) 11 12 type writeBuffer struct { 13 w io.Writer 14 b [16]byte 15 } 16 17 func (wb *writeBuffer) writeInt8(i int8) { 18 wb.b[0] = byte(i) 19 wb.Write(wb.b[:1]) 20 } 21 22 func (wb *writeBuffer) writeInt16(i int16) { 23 binary.BigEndian.PutUint16(wb.b[:2], uint16(i)) 24 wb.Write(wb.b[:2]) 25 } 26 27 func (wb *writeBuffer) writeInt32(i int32) { 28 binary.BigEndian.PutUint32(wb.b[:4], uint32(i)) 29 wb.Write(wb.b[:4]) 30 } 31 32 func (wb *writeBuffer) writeInt64(i int64) { 33 binary.BigEndian.PutUint64(wb.b[:8], uint64(i)) 34 wb.Write(wb.b[:8]) 35 } 36 37 func (wb *writeBuffer) writeVarInt(i int64) { 38 u := uint64((i << 1) ^ (i >> 63)) 39 n := 0 40 41 for u >= 0x80 && n < len(wb.b) { 42 wb.b[n] = byte(u) | 0x80 43 u >>= 7 44 n++ 45 } 46 47 if n < len(wb.b) { 48 wb.b[n] = byte(u) 49 n++ 50 } 51 52 wb.Write(wb.b[:n]) 53 } 54 55 func (wb *writeBuffer) writeString(s string) { 56 wb.writeInt16(int16(len(s))) 57 wb.WriteString(s) 58 } 59 60 func (wb *writeBuffer) writeVarString(s string) { 61 wb.writeVarInt(int64(len(s))) 62 wb.WriteString(s) 63 } 64 65 func (wb *writeBuffer) writeNullableString(s *string) { 66 if s == nil { 67 wb.writeInt16(-1) 68 } else { 69 wb.writeString(*s) 70 } 71 } 72 73 func (wb *writeBuffer) writeBytes(b []byte) { 74 n := len(b) 75 if b == nil { 76 n = -1 77 } 78 wb.writeInt32(int32(n)) 79 wb.Write(b) 80 } 81 82 func (wb *writeBuffer) writeVarBytes(b []byte) { 83 if b != nil { 84 wb.writeVarInt(int64(len(b))) 85 wb.Write(b) 86 } else { 87 //-1 is used to indicate nil key 88 wb.writeVarInt(-1) 89 } 90 } 91 92 func (wb *writeBuffer) writeBool(b bool) { 93 v := int8(0) 94 if b { 95 v = 1 96 } 97 wb.writeInt8(v) 98 } 99 100 func (wb *writeBuffer) writeArrayLen(n int) { 101 wb.writeInt32(int32(n)) 102 } 103 104 func (wb *writeBuffer) writeArray(n int, f func(int)) { 105 wb.writeArrayLen(n) 106 for i := 0; i < n; i++ { 107 f(i) 108 } 109 } 110 111 func (wb *writeBuffer) writeVarArray(n int, f func(int)) { 112 wb.writeVarInt(int64(n)) 113 for i := 0; i < n; i++ { 114 f(i) 115 } 116 } 117 118 func (wb *writeBuffer) writeStringArray(a []string) { 119 wb.writeArray(len(a), func(i int) { wb.writeString(a[i]) }) 120 } 121 122 func (wb *writeBuffer) writeInt32Array(a []int32) { 123 wb.writeArray(len(a), func(i int) { wb.writeInt32(a[i]) }) 124 } 125 126 func (wb *writeBuffer) write(a interface{}) { 127 switch v := a.(type) { 128 case int8: 129 wb.writeInt8(v) 130 case int16: 131 wb.writeInt16(v) 132 case int32: 133 wb.writeInt32(v) 134 case int64: 135 wb.writeInt64(v) 136 case string: 137 wb.writeString(v) 138 case []byte: 139 wb.writeBytes(v) 140 case bool: 141 wb.writeBool(v) 142 case writable: 143 v.writeTo(wb) 144 default: 145 panic(fmt.Sprintf("unsupported type: %T", a)) 146 } 147 } 148 149 func (wb *writeBuffer) Write(b []byte) (int, error) { 150 return wb.w.Write(b) 151 } 152 153 func (wb *writeBuffer) WriteString(s string) (int, error) { 154 return io.WriteString(wb.w, s) 155 } 156 157 func (wb *writeBuffer) Flush() error { 158 if x, ok := wb.w.(interface{ Flush() error }); ok { 159 return x.Flush() 160 } 161 return nil 162 } 163 164 type writable interface { 165 writeTo(*writeBuffer) 166 } 167 168 func (wb *writeBuffer) writeFetchRequestV2(correlationID int32, clientID, topic string, partition int32, offset int64, minBytes, maxBytes int, maxWait time.Duration) error { 169 h := requestHeader{ 170 ApiKey: int16(fetch), 171 ApiVersion: int16(v2), 172 CorrelationID: correlationID, 173 ClientID: clientID, 174 } 175 h.Size = (h.size() - 4) + 176 4 + // replica ID 177 4 + // max wait time 178 4 + // min bytes 179 4 + // topic array length 180 sizeofString(topic) + 181 4 + // partition array length 182 4 + // partition 183 8 + // offset 184 4 // max bytes 185 186 h.writeTo(wb) 187 wb.writeInt32(-1) // replica ID 188 wb.writeInt32(milliseconds(maxWait)) 189 wb.writeInt32(int32(minBytes)) 190 191 // topic array 192 wb.writeArrayLen(1) 193 wb.writeString(topic) 194 195 // partition array 196 wb.writeArrayLen(1) 197 wb.writeInt32(partition) 198 wb.writeInt64(offset) 199 wb.writeInt32(int32(maxBytes)) 200 201 return wb.Flush() 202 } 203 204 func (wb *writeBuffer) writeFetchRequestV5(correlationID int32, clientID, topic string, partition int32, offset int64, minBytes, maxBytes int, maxWait time.Duration, isolationLevel int8) error { 205 h := requestHeader{ 206 ApiKey: int16(fetch), 207 ApiVersion: int16(v5), 208 CorrelationID: correlationID, 209 ClientID: clientID, 210 } 211 h.Size = (h.size() - 4) + 212 4 + // replica ID 213 4 + // max wait time 214 4 + // min bytes 215 4 + // max bytes 216 1 + // isolation level 217 4 + // topic array length 218 sizeofString(topic) + 219 4 + // partition array length 220 4 + // partition 221 8 + // offset 222 8 + // log start offset 223 4 // max bytes 224 225 h.writeTo(wb) 226 wb.writeInt32(-1) // replica ID 227 wb.writeInt32(milliseconds(maxWait)) 228 wb.writeInt32(int32(minBytes)) 229 wb.writeInt32(int32(maxBytes)) 230 wb.writeInt8(isolationLevel) // isolation level 0 - read uncommitted 231 232 // topic array 233 wb.writeArrayLen(1) 234 wb.writeString(topic) 235 236 // partition array 237 wb.writeArrayLen(1) 238 wb.writeInt32(partition) 239 wb.writeInt64(offset) 240 wb.writeInt64(int64(0)) // log start offset only used when is sent by follower 241 wb.writeInt32(int32(maxBytes)) 242 243 return wb.Flush() 244 } 245 246 func (wb *writeBuffer) writeFetchRequestV10(correlationID int32, clientID, topic string, partition int32, offset int64, minBytes, maxBytes int, maxWait time.Duration, isolationLevel int8) error { 247 h := requestHeader{ 248 ApiKey: int16(fetch), 249 ApiVersion: int16(v10), 250 CorrelationID: correlationID, 251 ClientID: clientID, 252 } 253 h.Size = (h.size() - 4) + 254 4 + // replica ID 255 4 + // max wait time 256 4 + // min bytes 257 4 + // max bytes 258 1 + // isolation level 259 4 + // session ID 260 4 + // session epoch 261 4 + // topic array length 262 sizeofString(topic) + 263 4 + // partition array length 264 4 + // partition 265 4 + // current leader epoch 266 8 + // fetch offset 267 8 + // log start offset 268 4 + // partition max bytes 269 4 // forgotten topics data 270 271 h.writeTo(wb) 272 wb.writeInt32(-1) // replica ID 273 wb.writeInt32(milliseconds(maxWait)) 274 wb.writeInt32(int32(minBytes)) 275 wb.writeInt32(int32(maxBytes)) 276 wb.writeInt8(isolationLevel) // isolation level 0 - read uncommitted 277 wb.writeInt32(0) //FIXME 278 wb.writeInt32(-1) //FIXME 279 280 // topic array 281 wb.writeArrayLen(1) 282 wb.writeString(topic) 283 284 // partition array 285 wb.writeArrayLen(1) 286 wb.writeInt32(partition) 287 wb.writeInt32(-1) //FIXME 288 wb.writeInt64(offset) 289 wb.writeInt64(int64(0)) // log start offset only used when is sent by follower 290 wb.writeInt32(int32(maxBytes)) 291 292 // forgotten topics array 293 wb.writeArrayLen(0) // forgotten topics not supported yet 294 295 return wb.Flush() 296 } 297 298 func (wb *writeBuffer) writeListOffsetRequestV1(correlationID int32, clientID, topic string, partition int32, time int64) error { 299 h := requestHeader{ 300 ApiKey: int16(listOffsets), 301 ApiVersion: int16(v1), 302 CorrelationID: correlationID, 303 ClientID: clientID, 304 } 305 h.Size = (h.size() - 4) + 306 4 + // replica ID 307 4 + // topic array length 308 sizeofString(topic) + // topic 309 4 + // partition array length 310 4 + // partition 311 8 // time 312 313 h.writeTo(wb) 314 wb.writeInt32(-1) // replica ID 315 316 // topic array 317 wb.writeArrayLen(1) 318 wb.writeString(topic) 319 320 // partition array 321 wb.writeArrayLen(1) 322 wb.writeInt32(partition) 323 wb.writeInt64(time) 324 325 return wb.Flush() 326 } 327 328 func (wb *writeBuffer) writeProduceRequestV2(codec CompressionCodec, correlationID int32, clientID, topic string, partition int32, timeout time.Duration, requiredAcks int16, msgs ...Message) (err error) { 329 var size int32 330 var attributes int8 331 var compressed *bytes.Buffer 332 333 if codec == nil { 334 size = messageSetSize(msgs...) 335 } else { 336 compressed, attributes, size, err = compressMessageSet(codec, msgs...) 337 if err != nil { 338 return 339 } 340 msgs = []Message{{Value: compressed.Bytes()}} 341 } 342 343 h := requestHeader{ 344 ApiKey: int16(produce), 345 ApiVersion: int16(v2), 346 CorrelationID: correlationID, 347 ClientID: clientID, 348 } 349 h.Size = (h.size() - 4) + 350 2 + // required acks 351 4 + // timeout 352 4 + // topic array length 353 sizeofString(topic) + // topic 354 4 + // partition array length 355 4 + // partition 356 4 + // message set size 357 size 358 359 h.writeTo(wb) 360 wb.writeInt16(requiredAcks) // required acks 361 wb.writeInt32(milliseconds(timeout)) 362 363 // topic array 364 wb.writeArrayLen(1) 365 wb.writeString(topic) 366 367 // partition array 368 wb.writeArrayLen(1) 369 wb.writeInt32(partition) 370 371 wb.writeInt32(size) 372 cw := &crc32Writer{table: crc32.IEEETable} 373 374 for _, msg := range msgs { 375 wb.writeMessage(msg.Offset, attributes, msg.Time, msg.Key, msg.Value, cw) 376 } 377 378 releaseBuffer(compressed) 379 return wb.Flush() 380 } 381 382 func (wb *writeBuffer) writeProduceRequestV3(correlationID int32, clientID, topic string, partition int32, timeout time.Duration, requiredAcks int16, transactionalID *string, recordBatch *recordBatch) (err error) { 383 384 h := requestHeader{ 385 ApiKey: int16(produce), 386 ApiVersion: int16(v3), 387 CorrelationID: correlationID, 388 ClientID: clientID, 389 } 390 391 h.Size = (h.size() - 4) + 392 sizeofNullableString(transactionalID) + 393 2 + // required acks 394 4 + // timeout 395 4 + // topic array length 396 sizeofString(topic) + // topic 397 4 + // partition array length 398 4 + // partition 399 4 + // message set size 400 recordBatch.size 401 402 h.writeTo(wb) 403 wb.writeNullableString(transactionalID) 404 wb.writeInt16(requiredAcks) // required acks 405 wb.writeInt32(milliseconds(timeout)) 406 407 // topic array 408 wb.writeArrayLen(1) 409 wb.writeString(topic) 410 411 // partition array 412 wb.writeArrayLen(1) 413 wb.writeInt32(partition) 414 415 recordBatch.writeTo(wb) 416 417 return wb.Flush() 418 } 419 420 func (wb *writeBuffer) writeProduceRequestV7(correlationID int32, clientID, topic string, partition int32, timeout time.Duration, requiredAcks int16, transactionalID *string, recordBatch *recordBatch) (err error) { 421 422 h := requestHeader{ 423 ApiKey: int16(produce), 424 ApiVersion: int16(v7), 425 CorrelationID: correlationID, 426 ClientID: clientID, 427 } 428 h.Size = (h.size() - 4) + 429 sizeofNullableString(transactionalID) + 430 2 + // required acks 431 4 + // timeout 432 4 + // topic array length 433 sizeofString(topic) + // topic 434 4 + // partition array length 435 4 + // partition 436 4 + // message set size 437 recordBatch.size 438 439 h.writeTo(wb) 440 wb.writeNullableString(transactionalID) 441 wb.writeInt16(requiredAcks) // required acks 442 wb.writeInt32(milliseconds(timeout)) 443 444 // topic array 445 wb.writeArrayLen(1) 446 wb.writeString(topic) 447 448 // partition array 449 wb.writeArrayLen(1) 450 wb.writeInt32(partition) 451 452 recordBatch.writeTo(wb) 453 454 return wb.Flush() 455 } 456 457 func (wb *writeBuffer) writeRecordBatch(attributes int16, size int32, count int, baseTime, lastTime time.Time, write func(*writeBuffer)) { 458 var ( 459 baseTimestamp = timestamp(baseTime) 460 lastTimestamp = timestamp(lastTime) 461 lastOffsetDelta = int32(count - 1) 462 producerID = int64(-1) // default producer id for now 463 producerEpoch = int16(-1) // default producer epoch for now 464 baseSequence = int32(-1) // default base sequence 465 recordCount = int32(count) // record count 466 writerBackup = wb.w 467 ) 468 469 // dry run to compute the checksum 470 cw := &crc32Writer{table: crc32.MakeTable(crc32.Castagnoli)} 471 wb.w = cw 472 cw.writeInt16(attributes) // attributes, timestamp type 0 - create time, not part of a transaction, no control messages 473 cw.writeInt32(lastOffsetDelta) 474 cw.writeInt64(baseTimestamp) 475 cw.writeInt64(lastTimestamp) 476 cw.writeInt64(producerID) 477 cw.writeInt16(producerEpoch) 478 cw.writeInt32(baseSequence) 479 cw.writeInt32(recordCount) 480 write(wb) 481 wb.w = writerBackup 482 483 // actual write to the output buffer 484 wb.writeInt64(int64(0)) 485 wb.writeInt32(int32(size - 12)) // 12 = batch length + base offset sizes 486 wb.writeInt32(-1) // partition leader epoch 487 wb.writeInt8(2) // magic byte 488 wb.writeInt32(int32(cw.crc32)) 489 490 wb.writeInt16(attributes) 491 wb.writeInt32(lastOffsetDelta) 492 wb.writeInt64(baseTimestamp) 493 wb.writeInt64(lastTimestamp) 494 wb.writeInt64(producerID) 495 wb.writeInt16(producerEpoch) 496 wb.writeInt32(baseSequence) 497 wb.writeInt32(recordCount) 498 write(wb) 499 } 500 501 func compressMessageSet(codec CompressionCodec, msgs ...Message) (compressed *bytes.Buffer, attributes int8, size int32, err error) { 502 compressed = acquireBuffer() 503 compressor := codec.NewWriter(compressed) 504 wb := &writeBuffer{w: compressor} 505 cw := &crc32Writer{table: crc32.IEEETable} 506 507 for offset, msg := range msgs { 508 wb.writeMessage(int64(offset), 0, msg.Time, msg.Key, msg.Value, cw) 509 } 510 511 if err = compressor.Close(); err != nil { 512 releaseBuffer(compressed) 513 return 514 } 515 516 attributes = codec.Code() 517 size = messageSetSize(Message{Value: compressed.Bytes()}) 518 return 519 } 520 521 func (wb *writeBuffer) writeMessage(offset int64, attributes int8, time time.Time, key, value []byte, cw *crc32Writer) { 522 const magicByte = 1 // compatible with kafka 0.10.0.0+ 523 524 timestamp := timestamp(time) 525 size := messageSize(key, value) 526 527 // dry run to compute the checksum 528 cw.crc32 = 0 529 cw.writeInt8(magicByte) 530 cw.writeInt8(attributes) 531 cw.writeInt64(timestamp) 532 cw.writeBytes(key) 533 cw.writeBytes(value) 534 535 // actual write to the output buffer 536 wb.writeInt64(offset) 537 wb.writeInt32(size) 538 wb.writeInt32(int32(cw.crc32)) 539 wb.writeInt8(magicByte) 540 wb.writeInt8(attributes) 541 wb.writeInt64(timestamp) 542 wb.writeBytes(key) 543 wb.writeBytes(value) 544 } 545 546 // Messages with magic >2 are called records. This method writes messages using message format 2. 547 func (wb *writeBuffer) writeRecord(attributes int8, baseTime time.Time, offset int64, msg Message) { 548 timestampDelta := msg.Time.Sub(baseTime) 549 offsetDelta := int64(offset) 550 551 wb.writeVarInt(int64(recordSize(&msg, timestampDelta, offsetDelta))) 552 wb.writeInt8(attributes) 553 wb.writeVarInt(int64(milliseconds(timestampDelta))) 554 wb.writeVarInt(offsetDelta) 555 556 wb.writeVarBytes(msg.Key) 557 wb.writeVarBytes(msg.Value) 558 wb.writeVarArray(len(msg.Headers), func(i int) { 559 h := &msg.Headers[i] 560 wb.writeVarString(h.Key) 561 wb.writeVarBytes(h.Value) 562 }) 563 } 564 565 func varIntLen(i int64) int { 566 u := uint64((i << 1) ^ (i >> 63)) // zig-zag encoding 567 n := 0 568 569 for u >= 0x80 { 570 u >>= 7 571 n++ 572 } 573 574 return n + 1 575 } 576 577 func varBytesLen(b []byte) int { 578 return varIntLen(int64(len(b))) + len(b) 579 } 580 581 func varStringLen(s string) int { 582 return varIntLen(int64(len(s))) + len(s) 583 } 584 585 func varArrayLen(n int, f func(int) int) int { 586 size := varIntLen(int64(n)) 587 for i := 0; i < n; i++ { 588 size += f(i) 589 } 590 return size 591 } 592 593 func messageSize(key, value []byte) int32 { 594 return 4 + // crc 595 1 + // magic byte 596 1 + // attributes 597 8 + // timestamp 598 sizeofBytes(key) + 599 sizeofBytes(value) 600 } 601 602 func messageSetSize(msgs ...Message) (size int32) { 603 for _, msg := range msgs { 604 size += 8 + // offset 605 4 + // message size 606 4 + // crc 607 1 + // magic byte 608 1 + // attributes 609 8 + // timestamp 610 sizeofBytes(msg.Key) + 611 sizeofBytes(msg.Value) 612 } 613 return 614 }