github.com/hack0072008/kafka-go@v1.0.1/protocol/record.go (about)

     1  package protocol
     2  
     3  import (
     4  	"bytes"
     5  	"encoding/binary"
     6  	"fmt"
     7  	"io"
     8  	"time"
     9  
    10  	"github.com/hack0072008/kafka-go/compress"
    11  )
    12  
    13  // Attributes is a bitset representing special attributes set on records.
    14  type Attributes int16
    15  
    16  const (
    17  	Gzip          Attributes = Attributes(compress.Gzip)   // 1
    18  	Snappy        Attributes = Attributes(compress.Snappy) // 2
    19  	Lz4           Attributes = Attributes(compress.Lz4)    // 3
    20  	Zstd          Attributes = Attributes(compress.Zstd)   // 4
    21  	Transactional Attributes = 1 << 4
    22  	Control       Attributes = 1 << 5
    23  )
    24  
    25  func (a Attributes) Compression() compress.Compression {
    26  	return compress.Compression(a & 7)
    27  }
    28  
    29  func (a Attributes) Transactional() bool {
    30  	return (a & Transactional) != 0
    31  }
    32  
    33  func (a Attributes) Control() bool {
    34  	return (a & Control) != 0
    35  }
    36  
    37  func (a Attributes) String() string {
    38  	s := a.Compression().String()
    39  	if a.Transactional() {
    40  		s += "+transactional"
    41  	}
    42  	if a.Control() {
    43  		s += "+control"
    44  	}
    45  	return s
    46  }
    47  
    48  // Header represents a single entry in a list of record headers.
    49  type Header struct {
    50  	Key   string
    51  	Value []byte
    52  }
    53  
    54  // Record is an interface representing a single kafka record.
    55  //
    56  // Record values are not safe to use concurrently from multiple goroutines.
    57  type Record struct {
    58  	// The offset at which the record exists in a topic partition. This value
    59  	// is ignored in produce requests.
    60  	Offset int64
    61  
    62  	// Returns the time of the record. This value may be omitted in produce
    63  	// requests to let kafka set the time when it saves the record.
    64  	Time time.Time
    65  
    66  	// Returns a byte sequence containing the key of this record. The returned
    67  	// sequence may be nil to indicate that the record has no key. If the record
    68  	// is part of a RecordSet, the content of the key must remain valid at least
    69  	// until the record set is closed (or until the key is closed).
    70  	Key Bytes
    71  
    72  	// Returns a byte sequence containing the value of this record. The returned
    73  	// sequence may be nil to indicate that the record has no value. If the
    74  	// record is part of a RecordSet, the content of the value must remain valid
    75  	// at least until the record set is closed (or until the value is closed).
    76  	Value Bytes
    77  
    78  	// Returns the list of headers associated with this record. The returned
    79  	// slice may be reused across calls, the program should use it as an
    80  	// immutable value.
    81  	Headers []Header
    82  }
    83  
    84  // RecordSet represents a sequence of records in Produce requests and Fetch
    85  // responses. All v0, v1, and v2 formats are supported.
    86  type RecordSet struct {
    87  	// The message version that this record set will be represented as, valid
    88  	// values are 1, or 2.
    89  	//
    90  	// When reading, this is the value of the highest version used in the
    91  	// batches that compose the record set.
    92  	//
    93  	// When writing, this value dictates the format that the records will be
    94  	// encoded in.
    95  	Version int8
    96  
    97  	// Attributes set on the record set.
    98  	//
    99  	// When reading, the attributes are the combination of all attributes in
   100  	// the batches that compose the record set.
   101  	//
   102  	// When writing, the attributes apply to the whole sequence of records in
   103  	// the set.
   104  	Attributes Attributes
   105  
   106  	// A reader exposing the sequence of records.
   107  	//
   108  	// When reading a RecordSet from an io.Reader, the Records field will be a
   109  	// *RecordStream. If the program needs to access the details of each batch
   110  	// that compose the stream, it may use type assertions to access the
   111  	// underlying types of each batch.
   112  	Records RecordReader
   113  }
   114  
   115  // bufferedReader is an interface implemented by types like bufio.Reader, which
   116  // we use to optimize prefix reads by accessing the internal buffer directly
   117  // through calls to Peek.
   118  type bufferedReader interface {
   119  	Discard(int) (int, error)
   120  	Peek(int) ([]byte, error)
   121  }
   122  
   123  // bytesBuffer is an interface implemented by types like bytes.Buffer, which we
   124  // use to optimize prefix reads by accessing the internal buffer directly
   125  // through calls to Bytes.
   126  type bytesBuffer interface {
   127  	Bytes() []byte
   128  }
   129  
   130  // magicByteOffset is the position of the magic byte in all versions of record
   131  // sets in the kafka protocol.
   132  const magicByteOffset = 16
   133  
   134  // ReadFrom reads the representation of a record set from r into rs, returning
   135  // the number of bytes consumed from r, and an non-nil error if the record set
   136  // could not be read.
   137  func (rs *RecordSet) ReadFrom(r io.Reader) (int64, error) {
   138  	d, _ := r.(*decoder)
   139  	if d == nil {
   140  		d = &decoder{
   141  			reader: r,
   142  			remain: 4,
   143  		}
   144  	}
   145  
   146  	*rs = RecordSet{}
   147  	limit := d.remain
   148  	size := d.readInt32()
   149  
   150  	if d.err != nil {
   151  		return int64(limit - d.remain), d.err
   152  	}
   153  
   154  	if size <= 0 {
   155  		return 4, nil
   156  	}
   157  
   158  	stream := &RecordStream{
   159  		Records: make([]RecordReader, 0, 4),
   160  	}
   161  
   162  	var err error
   163  	d.remain = int(size)
   164  
   165  	for d.remain > 0 && err == nil {
   166  		var version byte
   167  
   168  		if d.remain < (magicByteOffset + 1) {
   169  			if len(stream.Records) != 0 {
   170  				break
   171  			}
   172  			return 4, fmt.Errorf("impossible record set shorter than %d bytes", magicByteOffset+1)
   173  		}
   174  
   175  		switch r := d.reader.(type) {
   176  		case bufferedReader:
   177  			b, err := r.Peek(magicByteOffset + 1)
   178  			if err != nil {
   179  				n, _ := r.Discard(len(b))
   180  				return 4 + int64(n), dontExpectEOF(err)
   181  			}
   182  			version = b[magicByteOffset]
   183  		case bytesBuffer:
   184  			version = r.Bytes()[magicByteOffset]
   185  		default:
   186  			b := make([]byte, magicByteOffset+1)
   187  			if n, err := io.ReadFull(d.reader, b); err != nil {
   188  				return 4 + int64(n), dontExpectEOF(err)
   189  			}
   190  			version = b[magicByteOffset]
   191  			// Reconstruct the prefix that we had to read to determine the version
   192  			// of the record set from the magic byte.
   193  			//
   194  			// Technically this may recurisvely stack readers when consuming all
   195  			// items of the batch, which could hurt performance. In practice this
   196  			// path should not be taken tho, since the decoder would read from a
   197  			// *bufio.Reader which implements the bufferedReader interface.
   198  			d.reader = io.MultiReader(bytes.NewReader(b), d.reader)
   199  		}
   200  
   201  		var tmp RecordSet
   202  		switch version {
   203  		case 0, 1:
   204  			err = tmp.readFromVersion1(d)
   205  		case 2:
   206  			err = tmp.readFromVersion2(d)
   207  		default:
   208  			err = fmt.Errorf("unsupported message version %d for message of size %d", version, size)
   209  		}
   210  
   211  		if tmp.Version > rs.Version {
   212  			rs.Version = tmp.Version
   213  		}
   214  
   215  		rs.Attributes |= tmp.Attributes
   216  
   217  		if tmp.Records != nil {
   218  			stream.Records = append(stream.Records, tmp.Records)
   219  		}
   220  	}
   221  
   222  	if len(stream.Records) != 0 {
   223  		rs.Records = stream
   224  		// Ignore errors if we've successfully read records, so the
   225  		// program can keep making progress.
   226  		err = nil
   227  	}
   228  
   229  	d.discardAll()
   230  	rn := 4 + (int(size) - d.remain)
   231  	d.remain = limit - rn
   232  	return int64(rn), err
   233  }
   234  
   235  // WriteTo writes the representation of rs into w. The value of rs.Version
   236  // dictates which format that the record set will be represented as.
   237  //
   238  // The error will be ErrNoRecord if rs contained no records.
   239  //
   240  // Note: since this package is only compatible with kafka 0.10 and above, the
   241  // method never produces messages in version 0. If rs.Version is zero, the
   242  // method defaults to producing messages in version 1.
   243  func (rs *RecordSet) WriteTo(w io.Writer) (int64, error) {
   244  	if rs.Records == nil {
   245  		return 0, ErrNoRecord
   246  	}
   247  
   248  	// This optimization avoids rendering the record set in an intermediary
   249  	// buffer when the writer is already a pageBuffer, which is a common case
   250  	// due to the way WriteRequest and WriteResponse are implemented.
   251  	buffer, _ := w.(*pageBuffer)
   252  	bufferOffset := int64(0)
   253  
   254  	if buffer != nil {
   255  		bufferOffset = buffer.Size()
   256  	} else {
   257  		buffer = newPageBuffer()
   258  		defer buffer.unref()
   259  	}
   260  
   261  	size := packUint32(0)
   262  	buffer.Write(size[:]) // size placeholder
   263  
   264  	var err error
   265  	switch rs.Version {
   266  	case 0, 1:
   267  		err = rs.writeToVersion1(buffer, bufferOffset+4)
   268  	case 2:
   269  		err = rs.writeToVersion2(buffer, bufferOffset+4)
   270  	default:
   271  		err = fmt.Errorf("unsupported record set version %d", rs.Version)
   272  	}
   273  	if err != nil {
   274  		return 0, err
   275  	}
   276  
   277  	n := buffer.Size() - bufferOffset
   278  	if n == 0 {
   279  		size = packUint32(^uint32(0))
   280  	} else {
   281  		size = packUint32(uint32(n) - 4)
   282  	}
   283  	buffer.WriteAt(size[:], bufferOffset)
   284  
   285  	// This condition indicates that the output writer received by `WriteTo` was
   286  	// not a *pageBuffer, in which case we need to flush the buffered records
   287  	// data into it.
   288  	if buffer != w {
   289  		return buffer.WriteTo(w)
   290  	}
   291  
   292  	return n, nil
   293  }
   294  
   295  func makeTime(t int64) time.Time {
   296  	return time.Unix(t/1000, (t%1000)*int64(time.Millisecond))
   297  }
   298  
   299  func timestamp(t time.Time) int64 {
   300  	if t.IsZero() {
   301  		return 0
   302  	}
   303  	return t.UnixNano() / int64(time.Millisecond)
   304  }
   305  
   306  func packUint32(u uint32) (b [4]byte) {
   307  	binary.BigEndian.PutUint32(b[:], u)
   308  	return
   309  }
   310  
   311  func packUint64(u uint64) (b [8]byte) {
   312  	binary.BigEndian.PutUint64(b[:], u)
   313  	return
   314  }