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conn.go
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conn.go
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package kafka
import (
"bufio"
"errors"
"fmt"
"io"
"math"
"net"
"os"
"path/filepath"
"sync"
"sync/atomic"
"time"
)
var (
errInvalidWriteTopic = errors.New("writes must NOT set Topic on kafka.Message")
errInvalidWritePartition = errors.New("writes must NOT set Partition on kafka.Message")
)
// Conn represents a connection to a kafka broker.
//
// Instances of Conn are safe to use concurrently from multiple goroutines.
type Conn struct {
// base network connection
conn net.Conn
// number of inflight requests on the connection.
inflight int32
// offset management (synchronized on the mutex field)
mutex sync.Mutex
offset int64
// read buffer (synchronized on rlock)
rlock sync.Mutex
rbuf bufio.Reader
// write buffer (synchronized on wlock)
wlock sync.Mutex
wbuf bufio.Writer
wb writeBuffer
// deadline management
wdeadline connDeadline
rdeadline connDeadline
// immutable values of the connection object
clientID string
topic string
partition int32
fetchMaxBytes int32
fetchMinSize int32
broker int32
rack string
// correlation ID generator (synchronized on wlock)
correlationID int32
// number of replica acks required when publishing to a partition
requiredAcks int32
// lazily loaded API versions used by this connection
apiVersions atomic.Value // apiVersionMap
transactionalID *string
}
type apiVersionMap map[apiKey]ApiVersion
func (v apiVersionMap) negotiate(key apiKey, sortedSupportedVersions ...apiVersion) apiVersion {
x := v[key]
for i := len(sortedSupportedVersions) - 1; i >= 0; i-- {
s := sortedSupportedVersions[i]
if apiVersion(x.MaxVersion) >= s {
return s
}
}
return -1
}
// ConnConfig is a configuration object used to create new instances of Conn.
type ConnConfig struct {
ClientID string
Topic string
Partition int
Broker int
Rack string
// The transactional id to use for transactional delivery. Idempotent
// deliver should be enabled if transactional id is configured.
// For more details look at transactional.id description here: http://kafka.apache.org/documentation.html#producerconfigs
// Empty string means that this connection can't be transactional.
TransactionalID string
}
// ReadBatchConfig is a configuration object used for reading batches of messages.
type ReadBatchConfig struct {
// MinBytes indicates to the broker the minimum batch size that the consumer
// will accept. Setting a high minimum when consuming from a low-volume topic
// may result in delayed delivery when the broker does not have enough data to
// satisfy the defined minimum.
MinBytes int
// MaxBytes indicates to the broker the maximum batch size that the consumer
// will accept. The broker will truncate a message to satisfy this maximum, so
// choose a value that is high enough for your largest message size.
MaxBytes int
// IsolationLevel controls the visibility of transactional records.
// ReadUncommitted makes all records visible. With ReadCommitted only
// non-transactional and committed records are visible.
IsolationLevel IsolationLevel
// MaxWait is the amount of time for the broker while waiting to hit the
// min/max byte targets. This setting is independent of any network-level
// timeouts or deadlines.
//
// For backward compatibility, when this field is left zero, kafka-go will
// infer the max wait from the connection's read deadline.
MaxWait time.Duration
}
type IsolationLevel int8
const (
ReadUncommitted IsolationLevel = 0
ReadCommitted IsolationLevel = 1
)
var (
// DefaultClientID is the default value used as ClientID of kafka
// connections.
DefaultClientID string
)
func init() {
progname := filepath.Base(os.Args[0])
hostname, _ := os.Hostname()
DefaultClientID = fmt.Sprintf("%s@%s (github.com/segmentio/kafka-go)", progname, hostname)
}
// NewConn returns a new kafka connection for the given topic and partition.
func NewConn(conn net.Conn, topic string, partition int) *Conn {
return NewConnWith(conn, ConnConfig{
Topic: topic,
Partition: partition,
})
}
func emptyToNullable(transactionalID string) (result *string) {
if transactionalID != "" {
result = &transactionalID
}
return result
}
// NewConnWith returns a new kafka connection configured with config.
// The offset is initialized to FirstOffset.
func NewConnWith(conn net.Conn, config ConnConfig) *Conn {
if len(config.ClientID) == 0 {
config.ClientID = DefaultClientID
}
if config.Partition < 0 || config.Partition > math.MaxInt32 {
panic(fmt.Sprintf("invalid partition number: %d", config.Partition))
}
c := &Conn{
conn: conn,
rbuf: *bufio.NewReader(conn),
wbuf: *bufio.NewWriter(conn),
clientID: config.ClientID,
topic: config.Topic,
partition: int32(config.Partition),
broker: int32(config.Broker),
rack: config.Rack,
offset: FirstOffset,
requiredAcks: -1,
transactionalID: emptyToNullable(config.TransactionalID),
}
c.wb.w = &c.wbuf
// The fetch request needs to ask for a MaxBytes value that is at least
// enough to load the control data of the response. To avoid having to
// recompute it on every read, it is cached here in the Conn value.
c.fetchMinSize = (fetchResponseV2{
Topics: []fetchResponseTopicV2{{
TopicName: config.Topic,
Partitions: []fetchResponsePartitionV2{{
Partition: int32(config.Partition),
MessageSet: messageSet{{}},
}},
}},
}).size()
c.fetchMaxBytes = math.MaxInt32 - c.fetchMinSize
return c
}
func (c *Conn) negotiateVersion(key apiKey, sortedSupportedVersions ...apiVersion) (apiVersion, error) {
v, err := c.loadVersions()
if err != nil {
return -1, err
}
a := v.negotiate(key, sortedSupportedVersions...)
if a < 0 {
return -1, fmt.Errorf("no matching versions were found between the client and the broker for API key %d", key)
}
return a, nil
}
func (c *Conn) loadVersions() (apiVersionMap, error) {
v, _ := c.apiVersions.Load().(apiVersionMap)
if v != nil {
return v, nil
}
brokerVersions, err := c.ApiVersions()
if err != nil {
return nil, err
}
v = make(apiVersionMap, len(brokerVersions))
for _, a := range brokerVersions {
v[apiKey(a.ApiKey)] = a
}
c.apiVersions.Store(v)
return v, nil
}
// Broker returns a Broker value representing the kafka broker that this
// connection was established to.
func (c *Conn) Broker() Broker {
addr := c.conn.RemoteAddr()
host, port, _ := splitHostPortNumber(addr.String())
return Broker{
Host: host,
Port: port,
ID: int(c.broker),
Rack: c.rack,
}
}
// Controller requests kafka for the current controller and returns its URL.
func (c *Conn) Controller() (broker Broker, err error) {
err = c.readOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(metadata, v1, id, topicMetadataRequestV1([]string{}))
},
func(deadline time.Time, size int) error {
var res metadataResponseV1
if err := c.readResponse(size, &res); err != nil {
return err
}
for _, brokerMeta := range res.Brokers {
if brokerMeta.NodeID == res.ControllerID {
broker = Broker{ID: int(brokerMeta.NodeID),
Port: int(brokerMeta.Port),
Host: brokerMeta.Host,
Rack: brokerMeta.Rack}
break
}
}
return nil
},
)
return broker, err
}
// Brokers retrieve the broker list from the Kafka metadata.
func (c *Conn) Brokers() ([]Broker, error) {
var brokers []Broker
err := c.readOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(metadata, v1, id, topicMetadataRequestV1([]string{}))
},
func(deadline time.Time, size int) error {
var res metadataResponseV1
if err := c.readResponse(size, &res); err != nil {
return err
}
brokers = make([]Broker, len(res.Brokers))
for i, brokerMeta := range res.Brokers {
brokers[i] = Broker{
ID: int(brokerMeta.NodeID),
Port: int(brokerMeta.Port),
Host: brokerMeta.Host,
Rack: brokerMeta.Rack,
}
}
return nil
},
)
return brokers, err
}
// DeleteTopics deletes the specified topics.
func (c *Conn) DeleteTopics(topics ...string) error {
_, err := c.deleteTopics(deleteTopicsRequestV0{
Topics: topics,
})
return err
}
// findCoordinator finds the coordinator for the specified group or transaction
//
// See http://kafka.apache.org/protocol.html#The_Messages_FindCoordinator
func (c *Conn) findCoordinator(request findCoordinatorRequestV0) (findCoordinatorResponseV0, error) {
var response findCoordinatorResponseV0
err := c.readOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(findCoordinator, v0, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return findCoordinatorResponseV0{}, err
}
if response.ErrorCode != 0 {
return findCoordinatorResponseV0{}, Error(response.ErrorCode)
}
return response, nil
}
// heartbeat sends a heartbeat message required by consumer groups
//
// See http://kafka.apache.org/protocol.html#The_Messages_Heartbeat
func (c *Conn) heartbeat(request heartbeatRequestV0) (heartbeatResponseV0, error) {
var response heartbeatResponseV0
err := c.writeOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(heartbeat, v0, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return heartbeatResponseV0{}, err
}
if response.ErrorCode != 0 {
return heartbeatResponseV0{}, Error(response.ErrorCode)
}
return response, nil
}
// joinGroup attempts to join a consumer group
//
// See http://kafka.apache.org/protocol.html#The_Messages_JoinGroup
func (c *Conn) joinGroup(request joinGroupRequestV1) (joinGroupResponseV1, error) {
var response joinGroupResponseV1
err := c.writeOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(joinGroup, v1, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return joinGroupResponseV1{}, err
}
if response.ErrorCode != 0 {
return joinGroupResponseV1{}, Error(response.ErrorCode)
}
return response, nil
}
// leaveGroup leaves the consumer from the consumer group
//
// See http://kafka.apache.org/protocol.html#The_Messages_LeaveGroup
func (c *Conn) leaveGroup(request leaveGroupRequestV0) (leaveGroupResponseV0, error) {
var response leaveGroupResponseV0
err := c.writeOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(leaveGroup, v0, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return leaveGroupResponseV0{}, err
}
if response.ErrorCode != 0 {
return leaveGroupResponseV0{}, Error(response.ErrorCode)
}
return response, nil
}
// listGroups lists all the consumer groups
//
// See http://kafka.apache.org/protocol.html#The_Messages_ListGroups
func (c *Conn) listGroups(request listGroupsRequestV1) (listGroupsResponseV1, error) {
var response listGroupsResponseV1
err := c.readOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(listGroups, v1, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return listGroupsResponseV1{}, err
}
if response.ErrorCode != 0 {
return listGroupsResponseV1{}, Error(response.ErrorCode)
}
return response, nil
}
// offsetCommit commits the specified topic partition offsets
//
// See http://kafka.apache.org/protocol.html#The_Messages_OffsetCommit
func (c *Conn) offsetCommit(request offsetCommitRequestV2) (offsetCommitResponseV2, error) {
var response offsetCommitResponseV2
err := c.writeOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(offsetCommit, v2, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return offsetCommitResponseV2{}, err
}
for _, r := range response.Responses {
for _, pr := range r.PartitionResponses {
if pr.ErrorCode != 0 {
return offsetCommitResponseV2{}, Error(pr.ErrorCode)
}
}
}
return response, nil
}
// offsetFetch fetches the offsets for the specified topic partitions.
// -1 indicates that there is no offset saved for the partition.
//
// See http://kafka.apache.org/protocol.html#The_Messages_OffsetFetch
func (c *Conn) offsetFetch(request offsetFetchRequestV1) (offsetFetchResponseV1, error) {
var response offsetFetchResponseV1
err := c.readOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(offsetFetch, v1, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return offsetFetchResponseV1{}, err
}
for _, r := range response.Responses {
for _, pr := range r.PartitionResponses {
if pr.ErrorCode != 0 {
return offsetFetchResponseV1{}, Error(pr.ErrorCode)
}
}
}
return response, nil
}
// syncGroup completes the handshake to join a consumer group
//
// See http://kafka.apache.org/protocol.html#The_Messages_SyncGroup
func (c *Conn) syncGroup(request syncGroupRequestV0) (syncGroupResponseV0, error) {
var response syncGroupResponseV0
err := c.readOperation(
func(deadline time.Time, id int32) error {
return c.writeRequest(syncGroup, v0, id, request)
},
func(deadline time.Time, size int) error {
return expectZeroSize(func() (remain int, err error) {
return (&response).readFrom(&c.rbuf, size)
}())
},
)
if err != nil {
return syncGroupResponseV0{}, err
}
if response.ErrorCode != 0 {
return syncGroupResponseV0{}, Error(response.ErrorCode)
}
return response, nil
}
// Close closes the kafka connection.
func (c *Conn) Close() error {
return c.conn.Close()
}
// LocalAddr returns the local network address.
func (c *Conn) LocalAddr() net.Addr {
return c.conn.LocalAddr()
}
// RemoteAddr returns the remote network address.
func (c *Conn) RemoteAddr() net.Addr {
return c.conn.RemoteAddr()
}
// SetDeadline sets the read and write deadlines associated with the connection.
// It is equivalent to calling both SetReadDeadline and SetWriteDeadline.
//
// A deadline is an absolute time after which I/O operations fail with a timeout
// (see type Error) instead of blocking. The deadline applies to all future and
// pending I/O, not just the immediately following call to Read or Write. After
// a deadline has been exceeded, the connection may be closed if it was found to
// be in an unrecoverable state.
//
// A zero value for t means I/O operations will not time out.
func (c *Conn) SetDeadline(t time.Time) error {
c.rdeadline.setDeadline(t)
c.wdeadline.setDeadline(t)
return nil
}
// SetReadDeadline sets the deadline for future Read calls and any
// currently-blocked Read call.
// A zero value for t means Read will not time out.
func (c *Conn) SetReadDeadline(t time.Time) error {
c.rdeadline.setDeadline(t)
return nil
}
// SetWriteDeadline sets the deadline for future Write calls and any
// currently-blocked Write call.
// Even if write times out, it may return n > 0, indicating that some of the
// data was successfully written.
// A zero value for t means Write will not time out.
func (c *Conn) SetWriteDeadline(t time.Time) error {
c.wdeadline.setDeadline(t)
return nil
}
// Offset returns the current offset of the connection as pair of integers,
// where the first one is an offset value and the second one indicates how
// to interpret it.
//
// See Seek for more details about the offset and whence values.
func (c *Conn) Offset() (offset int64, whence int) {
c.mutex.Lock()
offset = c.offset
c.mutex.Unlock()
switch offset {
case FirstOffset:
offset = 0
whence = SeekStart
case LastOffset:
offset = 0
whence = SeekEnd
default:
whence = SeekAbsolute
}
return
}
const (
SeekStart = 0 // Seek relative to the first offset available in the partition.
SeekAbsolute = 1 // Seek to an absolute offset.
SeekEnd = 2 // Seek relative to the last offset available in the partition.
SeekCurrent = 3 // Seek relative to the current offset.
// This flag may be combined to any of the SeekAbsolute and SeekCurrent
// constants to skip the bound check that the connection would do otherwise.
// Programs can use this flag to avoid making a metadata request to the kafka
// broker to read the current first and last offsets of the partition.
SeekDontCheck = 1 << 30
)
// Seek sets the offset for the next read or write operation according to whence, which
// should be one of SeekStart, SeekAbsolute, SeekEnd, or SeekCurrent.
// When seeking relative to the end, the offset is subtracted from the current offset.
// Note that for historical reasons, these do not align with the usual whence constants
// as in lseek(2) or os.Seek.
// The method returns the new absolute offset of the connection.
func (c *Conn) Seek(offset int64, whence int) (int64, error) {
seekDontCheck := (whence & SeekDontCheck) != 0
whence &= ^SeekDontCheck
switch whence {
case SeekStart, SeekAbsolute, SeekEnd, SeekCurrent:
default:
return 0, fmt.Errorf("whence must be one of 0, 1, 2, or 3. (whence = %d)", whence)
}
if seekDontCheck {
if whence == SeekAbsolute {
c.mutex.Lock()
c.offset = offset
c.mutex.Unlock()
return offset, nil
}
if whence == SeekCurrent {
c.mutex.Lock()
c.offset += offset
offset = c.offset
c.mutex.Unlock()
return offset, nil
}
}
if whence == SeekAbsolute {
c.mutex.Lock()
unchanged := offset == c.offset
c.mutex.Unlock()
if unchanged {
return offset, nil
}
}
if whence == SeekCurrent {
c.mutex.Lock()
offset = c.offset + offset
c.mutex.Unlock()
}
first, last, err := c.ReadOffsets()
if err != nil {
return 0, err
}
switch whence {
case SeekStart:
offset = first + offset
case SeekEnd:
offset = last - offset
}
if offset < first || offset > last {
return 0, OffsetOutOfRange
}
c.mutex.Lock()
c.offset = offset
c.mutex.Unlock()
return offset, nil
}
// Read reads the message at the current offset from the connection, advancing
// the offset on success so the next call to a read method will produce the next
// message.
// The method returns the number of bytes read, or an error if something went
// wrong.
//
// While it is safe to call Read concurrently from multiple goroutines it may
// be hard for the program to predict the results as the connection offset will
// be read and written by multiple goroutines, they could read duplicates, or
// messages may be seen by only some of the goroutines.
//
// The method fails with io.ErrShortBuffer if the buffer passed as argument is
// too small to hold the message value.
//
// This method is provided to satisfy the net.Conn interface but is much less
// efficient than using the more general purpose ReadBatch method.
func (c *Conn) Read(b []byte) (int, error) {
batch := c.ReadBatch(1, len(b))
n, err := batch.Read(b)
return n, coalesceErrors(silentEOF(err), batch.Close())
}
// ReadMessage reads the message at the current offset from the connection,
// advancing the offset on success so the next call to a read method will
// produce the next message.
//
// Because this method allocate memory buffers for the message key and value
// it is less memory-efficient than Read, but has the advantage of never
// failing with io.ErrShortBuffer.
//
// While it is safe to call Read concurrently from multiple goroutines it may
// be hard for the program to predict the results as the connection offset will
// be read and written by multiple goroutines, they could read duplicates, or
// messages may be seen by only some of the goroutines.
//
// This method is provided for convenience purposes but is much less efficient
// than using the more general purpose ReadBatch method.
func (c *Conn) ReadMessage(maxBytes int) (Message, error) {
batch := c.ReadBatch(1, maxBytes)
msg, err := batch.ReadMessage()
return msg, coalesceErrors(silentEOF(err), batch.Close())
}
// ReadBatch reads a batch of messages from the kafka server. The method always
// returns a non-nil Batch value. If an error occurred, either sending the fetch
// request or reading the response, the error will be made available by the
// returned value of the batch's Close method.
//
// While it is safe to call ReadBatch concurrently from multiple goroutines it
// may be hard for the program to predict the results as the connection offset
// will be read and written by multiple goroutines, they could read duplicates,
// or messages may be seen by only some of the goroutines.
//
// A program doesn't specify the number of messages in wants from a batch, but
// gives the minimum and maximum number of bytes that it wants to receive from
// the kafka server.
func (c *Conn) ReadBatch(minBytes, maxBytes int) *Batch {
return c.ReadBatchWith(ReadBatchConfig{
MinBytes: minBytes,
MaxBytes: maxBytes,
})
}
// ReadBatchWith in every way is similar to ReadBatch. ReadBatch is configured
// with the default values in ReadBatchConfig except for minBytes and maxBytes.
func (c *Conn) ReadBatchWith(cfg ReadBatchConfig) *Batch {
var adjustedDeadline time.Time
var maxFetch = int(c.fetchMaxBytes)
if cfg.MinBytes < 0 || cfg.MinBytes > maxFetch {
return &Batch{err: fmt.Errorf("kafka.(*Conn).ReadBatch: minBytes of %d out of [1,%d] bounds", cfg.MinBytes, maxFetch)}
}
if cfg.MaxBytes < 0 || cfg.MaxBytes > maxFetch {
return &Batch{err: fmt.Errorf("kafka.(*Conn).ReadBatch: maxBytes of %d out of [1,%d] bounds", cfg.MaxBytes, maxFetch)}
}
if cfg.MinBytes > cfg.MaxBytes {
return &Batch{err: fmt.Errorf("kafka.(*Conn).ReadBatch: minBytes (%d) > maxBytes (%d)", cfg.MinBytes, cfg.MaxBytes)}
}
offset, whence := c.Offset()
offset, err := c.Seek(offset, whence|SeekDontCheck)
if err != nil {
return &Batch{err: dontExpectEOF(err)}
}
fetchVersion, err := c.negotiateVersion(fetch, v2, v5, v10)
if err != nil {
return &Batch{err: dontExpectEOF(err)}
}
id, err := c.doRequest(&c.rdeadline, func(deadline time.Time, id int32) error {
now := time.Now()
var timeout time.Duration
if cfg.MaxWait > 0 {
// explicitly-configured case: no changes are made to the deadline,
// and the timeout is sent exactly as specified.
timeout = cfg.MaxWait
} else {
// default case: use the original logic to adjust the conn's
// deadline.T
deadline = adjustDeadlineForRTT(deadline, now, defaultRTT)
timeout = deadlineToTimeout(deadline, now)
}
// save this variable outside of the closure for later use in detecting
// truncated messages.
adjustedDeadline = deadline
switch fetchVersion {
case v10:
return c.wb.writeFetchRequestV10(
id,
c.clientID,
c.topic,
c.partition,
offset,
cfg.MinBytes,
cfg.MaxBytes+int(c.fetchMinSize),
timeout,
int8(cfg.IsolationLevel),
)
case v5:
return c.wb.writeFetchRequestV5(
id,
c.clientID,
c.topic,
c.partition,
offset,
cfg.MinBytes,
cfg.MaxBytes+int(c.fetchMinSize),
timeout,
int8(cfg.IsolationLevel),
)
default:
return c.wb.writeFetchRequestV2(
id,
c.clientID,
c.topic,
c.partition,
offset,
cfg.MinBytes,
cfg.MaxBytes+int(c.fetchMinSize),
timeout,
)
}
})
if err != nil {
return &Batch{err: dontExpectEOF(err)}
}
_, size, lock, err := c.waitResponse(&c.rdeadline, id)
if err != nil {
return &Batch{err: dontExpectEOF(err)}
}
var throttle int32
var highWaterMark int64
var remain int
switch fetchVersion {
case v10:
throttle, highWaterMark, remain, err = readFetchResponseHeaderV10(&c.rbuf, size)
case v5:
throttle, highWaterMark, remain, err = readFetchResponseHeaderV5(&c.rbuf, size)
default:
throttle, highWaterMark, remain, err = readFetchResponseHeaderV2(&c.rbuf, size)
}
if errors.Is(err, errShortRead) {
err = checkTimeoutErr(adjustedDeadline)
}
var msgs *messageSetReader
if err == nil {
if highWaterMark == offset {
msgs = &messageSetReader{empty: true}
} else {
msgs, err = newMessageSetReader(&c.rbuf, remain)
}
}
if errors.Is(err, errShortRead) {
err = checkTimeoutErr(adjustedDeadline)
}
return &Batch{
conn: c,
msgs: msgs,
deadline: adjustedDeadline,
throttle: makeDuration(throttle),
lock: lock,
topic: c.topic, // topic is copied to Batch to prevent race with Batch.close
partition: int(c.partition), // partition is copied to Batch to prevent race with Batch.close
offset: offset,
highWaterMark: highWaterMark,
// there shouldn't be a short read on initially setting up the batch.
// as such, any io.EOF is re-mapped to an io.ErrUnexpectedEOF so that we
// don't accidentally signal that we successfully reached the end of the
// batch.
err: dontExpectEOF(err),
}
}
// ReadOffset returns the offset of the first message with a timestamp equal or
// greater to t.
func (c *Conn) ReadOffset(t time.Time) (int64, error) {
return c.readOffset(timestamp(t))
}
// ReadFirstOffset returns the first offset available on the connection.
func (c *Conn) ReadFirstOffset() (int64, error) {
return c.readOffset(FirstOffset)
}
// ReadLastOffset returns the last offset available on the connection.
func (c *Conn) ReadLastOffset() (int64, error) {
return c.readOffset(LastOffset)
}
// ReadOffsets returns the absolute first and last offsets of the topic used by
// the connection.
func (c *Conn) ReadOffsets() (first, last int64, err error) {
// We have to submit two different requests to fetch the first and last
// offsets because kafka refuses requests that ask for multiple offsets
// on the same topic and partition.
if first, err = c.ReadFirstOffset(); err != nil {
return
}
if last, err = c.ReadLastOffset(); err != nil {
first = 0 // don't leak the value on error
return
}
return
}
func (c *Conn) readOffset(t int64) (offset int64, err error) {
err = c.readOperation(
func(deadline time.Time, id int32) error {
return c.wb.writeListOffsetRequestV1(id, c.clientID, c.topic, c.partition, t)
},
func(deadline time.Time, size int) error {
return expectZeroSize(readArrayWith(&c.rbuf, size, func(r *bufio.Reader, size int) (int, error) {
// We skip the topic name because we've made a request for
// a single topic.
size, err := discardString(r, size)
if err != nil {
return size, err
}
// Reading the array of partitions, there will be only one
// partition which gives the offset we're looking for.
return readArrayWith(r, size, func(r *bufio.Reader, size int) (int, error) {
var p partitionOffsetV1
size, err := p.readFrom(r, size)
if err != nil {
return size, err
}
if p.ErrorCode != 0 {
return size, Error(p.ErrorCode)
}
offset = p.Offset
return size, nil
})
}))
},
)
return
}
// ReadPartitions returns the list of available partitions for the given list of
// topics.
//
// If the method is called with no topic, it uses the topic configured on the
// connection. If there are none, the method fetches all partitions of the kafka
// cluster.
func (c *Conn) ReadPartitions(topics ...string) (partitions []Partition, err error) {
if len(topics) == 0 {
if len(c.topic) != 0 {
defaultTopics := [...]string{c.topic}
topics = defaultTopics[:]
} else {
// topics needs to be explicitly nil-ed out or the broker will
// interpret it as a request for 0 partitions instead of all.
topics = nil
}
}
metadataVersion, err := c.negotiateVersion(metadata, v1, v6)
if err != nil {
return nil, err
}
err = c.readOperation(
func(deadline time.Time, id int32) error {
switch metadataVersion {
case v6:
return c.writeRequest(metadata, v6, id, topicMetadataRequestV6{Topics: topics, AllowAutoTopicCreation: true})
default:
return c.writeRequest(metadata, v1, id, topicMetadataRequestV1(topics))
}
},
func(deadline time.Time, size int) error {
partitions, err = c.readPartitionsResponse(metadataVersion, size)
return err
},
)
return
}
func (c *Conn) readPartitionsResponse(metadataVersion apiVersion, size int) ([]Partition, error) {
switch metadataVersion {
case v6:
var res metadataResponseV6
if err := c.readResponse(size, &res); err != nil {
return nil, err