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produce.go
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produce.go
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package main
import (
"bufio"
"encoding/base64"
"encoding/hex"
"encoding/json"
"flag"
"fmt"
"log"
"os"
"os/signal"
"os/user"
"strings"
"time"
"github.com/IBM/sarama"
)
type produceArgs struct {
topic string
partition int
brokers string
auth string
batch int
timeout time.Duration
verbose bool
pretty bool
version string
compression string
literal bool
decodeKey string
decodeValue string
partitioner string
bufferSize int
}
type message struct {
Key *string `json:"key"`
Value *string `json:"value"`
Partition *int32 `json:"partition"`
}
func (cmd *produceCmd) read(as []string) produceArgs {
var args produceArgs
flags := flag.NewFlagSet("produce", flag.ContinueOnError)
flags.StringVar(&args.topic, "topic", "", "Topic to produce to (required).")
flags.IntVar(&args.partition, "partition", 0, "Partition to produce to (defaults to 0).")
flags.StringVar(&args.brokers, "brokers", "", "Comma separated list of brokers. Port defaults to 9092 when omitted (defaults to localhost:9092).")
flags.StringVar(&args.auth, "auth", "", fmt.Sprintf("Path to auth configuration file, can also be set via %s env variable", ENV_AUTH))
flags.IntVar(&args.batch, "batch", 1, "Max size of a batch before sending it off")
flags.DurationVar(&args.timeout, "timeout", 50*time.Millisecond, "Duration to wait for batch to be filled before sending it off")
flags.BoolVar(&args.verbose, "verbose", false, "Verbose output")
flags.BoolVar(&args.pretty, "pretty", true, "Control output pretty printing.")
flags.BoolVar(&args.literal, "literal", false, "Interpret stdin line literally and pass it as value, key as null.")
flags.StringVar(&args.version, "version", "", "Kafka protocol version")
flags.StringVar(&args.compression, "compression", "", "Kafka message compression codec [gzip|snappy|lz4] (defaults to none)")
flags.StringVar(&args.partitioner, "partitioner", "", "Optional partitioner to use. Available: hashCode, hashCodeByValue")
flags.StringVar(&args.decodeKey, "decodekey", "string", "Decode message value as (string|hex|base64), defaults to string.")
flags.StringVar(&args.decodeValue, "decodevalue", "string", "Decode message value as (string|hex|base64), defaults to string.")
flags.IntVar(&args.bufferSize, "buffersize", 16777216, "Buffer size for scanning stdin, defaults to 16777216=16*1024*1024.")
flags.Usage = func() {
warnf("Usage of produce:")
flags.PrintDefaults()
warnf(produceDocString + "\n")
}
err := flags.Parse(as)
if err != nil && strings.Contains(err.Error(), "flag: help requested") {
os.Exit(0)
} else if err != nil {
os.Exit(2)
}
return args
}
func (cmd *produceCmd) failStartup(msg string) {
warnf(msg)
failf("use \"kt produce -help\" for more information")
}
func (cmd *produceCmd) parseArgs(as []string) {
args := cmd.read(as)
envTopic := os.Getenv(ENV_TOPIC)
if args.topic == "" {
if envTopic == "" {
cmd.failStartup("Topic name is required.")
} else {
args.topic = envTopic
}
}
cmd.topic = args.topic
readAuthFile(args.auth, os.Getenv(ENV_AUTH), &cmd.auth)
envBrokers := os.Getenv(ENV_BROKERS)
if args.brokers == "" {
if envBrokers != "" {
args.brokers = envBrokers
} else {
args.brokers = "localhost:9092"
}
}
cmd.brokers = strings.Split(args.brokers, ",")
for i, b := range cmd.brokers {
if !strings.Contains(b, ":") {
cmd.brokers[i] = b + ":9092"
}
}
if args.decodeValue != "string" && args.decodeValue != "hex" && args.decodeValue != "base64" {
cmd.failStartup(fmt.Sprintf(`unsupported decodevalue argument %#v, only string, hex and base64 are supported.`, args.decodeValue))
return
}
cmd.decodeValue = args.decodeValue
if args.decodeKey != "string" && args.decodeKey != "hex" && args.decodeKey != "base64" {
cmd.failStartup(fmt.Sprintf(`unsupported decodekey argument %#v, only string, hex and base64 are supported.`, args.decodeValue))
return
}
cmd.decodeKey = args.decodeKey
cmd.batch = args.batch
cmd.timeout = args.timeout
cmd.verbose = args.verbose
cmd.pretty = args.pretty
cmd.literal = args.literal
cmd.partition = int32(args.partition)
cmd.partitioner = args.partitioner
var err error
cmd.version, err = chooseKafkaVersion(args.version, os.Getenv(ENV_KAFKA_VERSION))
if err != nil {
failf("failed to read kafka version err=%v", err)
}
cmd.compression = kafkaCompression(args.compression)
cmd.bufferSize = args.bufferSize
}
func kafkaCompression(codecName string) sarama.CompressionCodec {
switch codecName {
case "gzip":
return sarama.CompressionGZIP
case "snappy":
return sarama.CompressionSnappy
case "lz4":
return sarama.CompressionLZ4
case "":
return sarama.CompressionNone
}
failf("unsupported compression codec %#v - supported: gzip, snappy, lz4", codecName)
panic("unreachable")
}
func (cmd *produceCmd) findLeaders() {
var (
usr *user.User
err error
res *sarama.MetadataResponse
req = sarama.MetadataRequest{Topics: []string{cmd.topic}}
cfg = sarama.NewConfig()
)
cfg.Producer.RequiredAcks = sarama.WaitForAll
cfg.Version = cmd.version
if usr, err = user.Current(); err != nil {
cmd.infof("Failed to read current user err=%v", err)
}
cfg.ClientID = "kt-produce-" + sanitizeUsername(usr.Username)
cmd.infof("sarama client configuration %#v\n", cfg)
if err = setupAuth(cmd.auth, cfg); err != nil {
failf("failed to setup auth err=%v", err)
}
loop:
for _, addr := range cmd.brokers {
broker := sarama.NewBroker(addr)
if err = broker.Open(cfg); err != nil {
cmd.infof("Failed to open broker connection to %v. err=%s\n", addr, err)
continue loop
}
if connected, err := broker.Connected(); !connected || err != nil {
cmd.infof("Failed to open broker connection to %v. err=%s\n", addr, err)
continue loop
}
if res, err = broker.GetMetadata(&req); err != nil {
cmd.infof("Failed to get metadata from %#v. err=%v\n", addr, err)
continue loop
}
brokers := map[int32]*sarama.Broker{}
for _, b := range res.Brokers {
brokers[b.ID()] = b
}
for _, tm := range res.Topics {
if tm.Name == cmd.topic {
if tm.Err != sarama.ErrNoError {
cmd.infof("Failed to get metadata from %#v. err=%v\n", addr, tm.Err)
continue loop
}
cmd.leaders = map[int32]*sarama.Broker{}
for _, pm := range tm.Partitions {
b, ok := brokers[pm.Leader]
if !ok {
failf("failed to find leader in broker response, giving up")
}
if err = b.Open(cfg); err != nil && err != sarama.ErrAlreadyConnected {
failf("failed to open broker connection err=%s", err)
}
if connected, err := broker.Connected(); !connected && err != nil {
failf("failed to wait for broker connection to open err=%s", err)
}
cmd.leaders[pm.ID] = b
}
return
}
}
}
failf("failed to find leader for given topic")
}
type produceCmd struct {
baseCmd
topic string
brokers []string
auth authConfig
batch int
timeout time.Duration
pretty bool
literal bool
partition int32
version sarama.KafkaVersion
compression sarama.CompressionCodec
partitioner string
decodeKey string
decodeValue string
bufferSize int
leaders map[int32]*sarama.Broker
}
func (cmd *produceCmd) run(as []string) {
cmd.parseArgs(as)
if cmd.verbose {
sarama.Logger = log.New(os.Stderr, "", log.LstdFlags)
}
defer cmd.close()
cmd.findLeaders()
stdin := make(chan string)
lines := make(chan string)
messages := make(chan message)
batchedMessages := make(chan []message)
out := make(chan printContext)
q := make(chan struct{})
go cmd.readStdinLines(cmd.bufferSize, stdin)
go print(out, cmd.pretty)
go cmd.listenForInterrupt(q)
go cmd.readInput(q, stdin, lines)
go cmd.deserializeLines(lines, messages, int32(len(cmd.leaders)))
go cmd.batchRecords(messages, batchedMessages)
cmd.produce(batchedMessages, out)
}
func (cmd *produceCmd) readStdinLines(max int, out chan string) {
scanner := bufio.NewScanner(os.Stdin)
scanner.Buffer(make([]byte, max), max)
for scanner.Scan() {
out <- scanner.Text()
}
if err := scanner.Err(); err != nil {
warnf("scanning input failed err=%v\n", err)
}
close(out)
}
func (cmd *produceCmd) listenForInterrupt(q chan struct{}) {
signals := make(chan os.Signal, 1)
signal.Notify(signals, os.Kill, os.Interrupt)
sig := <-signals
warnf("received signal %s - triggering shutdown\n", sig)
close(q)
}
func (cmd *produceCmd) close() {
for _, b := range cmd.leaders {
var (
connected bool
err error
)
if connected, err = b.Connected(); err != nil {
cmd.infof("Failed to check if broker is connected. err=%s\n", err)
continue
}
if !connected {
continue
}
if err = b.Close(); err != nil {
cmd.infof("Failed to close broker %v connection. err=%s\n", b, err)
}
}
}
func (cmd *produceCmd) deserializeLines(in chan string, out chan message, partitionCount int32) {
defer func() { close(out) }()
for {
select {
case l, ok := <-in:
if !ok {
return
}
var msg message
switch {
case cmd.literal:
msg.Value = &l
msg.Partition = &cmd.partition
default:
if err := json.Unmarshal([]byte(l), &msg); err != nil {
cmd.infof("Failed to unmarshal input [%v], falling back to defaults. err=%v\n", l, err)
var v *string = &l
if len(l) == 0 {
v = nil
}
msg = message{Key: nil, Value: v}
}
}
var part int32 = 0
if msg.Partition == nil {
if msg.Value != nil && cmd.partitioner == "hashCodeByValue" {
part = hashCodePartition(*msg.Value, partitionCount)
} else if msg.Key != nil && cmd.partitioner == "hashCode" {
part = hashCodePartition(*msg.Key, partitionCount)
}
msg.Partition = &part
}
out <- msg
}
}
}
func (cmd *produceCmd) batchRecords(in chan message, out chan []message) {
defer func() { close(out) }()
messages := []message{}
send := func() {
out <- messages
messages = []message{}
}
for {
select {
case m, ok := <-in:
if !ok {
send()
return
}
messages = append(messages, m)
if len(messages) > 0 && len(messages) >= cmd.batch {
send()
}
case <-time.After(cmd.timeout):
if len(messages) > 0 {
send()
}
}
}
}
type partitionProduceResult struct {
start int64
count int64
}
func (cmd *produceCmd) makeSaramaMessage(msg message) (*sarama.Message, error) {
var (
err error
sm = &sarama.Message{Codec: cmd.compression}
)
if msg.Key != nil {
switch cmd.decodeKey {
case "hex":
if sm.Key, err = hex.DecodeString(*msg.Key); err != nil {
return sm, fmt.Errorf("failed to decode key as hex string, err=%v", err)
}
case "base64":
if sm.Key, err = base64.StdEncoding.DecodeString(*msg.Key); err != nil {
return sm, fmt.Errorf("failed to decode key as base64 string, err=%v", err)
}
default: // string
sm.Key = []byte(*msg.Key)
}
}
if msg.Value != nil {
switch cmd.decodeValue {
case "hex":
if sm.Value, err = hex.DecodeString(*msg.Value); err != nil {
return sm, fmt.Errorf("failed to decode value as hex string, err=%v", err)
}
case "base64":
if sm.Value, err = base64.StdEncoding.DecodeString(*msg.Value); err != nil {
return sm, fmt.Errorf("failed to decode value as base64 string, err=%v", err)
}
default: // string
sm.Value = []byte(*msg.Value)
}
}
if cmd.version.IsAtLeast(sarama.V0_10_0_0) {
sm.Version = 1
sm.Timestamp = time.Now()
}
return sm, nil
}
func (cmd *produceCmd) produceBatch(leaders map[int32]*sarama.Broker, batch []message, out chan printContext) error {
requests := map[*sarama.Broker]*sarama.ProduceRequest{}
for _, msg := range batch {
broker, ok := leaders[*msg.Partition]
if !ok {
return fmt.Errorf("non-configured partition %v", *msg.Partition)
}
req, ok := requests[broker]
if !ok {
req = &sarama.ProduceRequest{RequiredAcks: sarama.WaitForAll, Timeout: 10000}
requests[broker] = req
}
sm, err := cmd.makeSaramaMessage(msg)
if err != nil {
return err
}
req.AddMessage(cmd.topic, *msg.Partition, sm)
}
for broker, req := range requests {
resp, err := broker.Produce(req)
if err != nil {
return fmt.Errorf("failed to send request to broker %#v. err=%s", broker, err)
}
offsets, err := cmd.readPartitionOffsetResults(resp)
if err != nil {
return fmt.Errorf("failed to read producer response err=%s", err)
}
for p, o := range offsets {
result := map[string]interface{}{"partition": p, "startOffset": o.start, "count": o.count}
ctx := printContext{output: result, done: make(chan struct{})}
out <- ctx
<-ctx.done
}
}
return nil
}
func (cmd *produceCmd) readPartitionOffsetResults(resp *sarama.ProduceResponse) (map[int32]partitionProduceResult, error) {
offsets := map[int32]partitionProduceResult{}
for _, blocks := range resp.Blocks {
for partition, block := range blocks {
if block.Err != sarama.ErrNoError {
warnf("Failed to send message. err=%s\n", block.Err.Error())
return offsets, block.Err
}
if r, ok := offsets[partition]; ok {
offsets[partition] = partitionProduceResult{start: block.Offset, count: r.count + 1}
} else {
offsets[partition] = partitionProduceResult{start: block.Offset, count: 1}
}
}
}
return offsets, nil
}
func (cmd *produceCmd) produce(in chan []message, out chan printContext) {
for {
select {
case b, ok := <-in:
if !ok {
return
}
if err := cmd.produceBatch(cmd.leaders, b, out); err != nil {
warnf(err.Error()) // TODO: failf
return
}
}
}
}
func (cmd *produceCmd) readInput(q chan struct{}, stdin chan string, out chan string) {
defer func() { close(out) }()
for {
select {
case l, ok := <-stdin:
if !ok {
return
}
out <- l
case <-q:
return
}
}
}
var produceDocString = fmt.Sprintf(`
The values for -topic and -brokers can also be set via environment variables %s and %s respectively.
The values supplied on the command line win over environment variable values.
Input is read from stdin and separated by newlines.
If you want to use the -partitioner keep in mind that the hashCode
implementation is not the default for Kafka's producer anymore.
To specify the key, value and partition individually pass it as a JSON object
like the following:
{"key": "id-23", "value": "message content", "partition": 0}
In case the input line cannot be interpeted as a JSON object the key and value
both default to the input line and partition to 0.
If you don't want to specify key for single message, in other words, it doesn't matter that a message goes
to a random paritition (with equal probability), you can set the flag '-partitioner' with 'hashCodeByValue'.
That will tell kt to take the value of a message to calculate a hashcode deciding which paritition it will go to.
This can be helpful when you just want there are many messages distributed in partitions of a topic, and don't
care about what the content is.
Examples:
Send a single message with a specific key:
$ echo '{"key": "id-23", "value": "ola", "partition": 0}' | kt produce -topic greetings
Sent message to partition 0 at offset 3.
$ kt consume -topic greetings -timeout 1s -offsets 0:3-
{"partition":0,"offset":3,"key":"id-23","message":"ola"}
Send a single message without specified key:
$ echo 'no key specified message' | kt produce -topic greetings -partitioner hashCodeByValue
Sent message to a partition decided by your case
Keep reading input from stdin until interrupted (via ^C).
$ kt produce -topic greetings
hello.
Sent message to partition 0 at offset 4.
bonjour.
Sent message to partition 0 at offset 5.
$ kt consume -topic greetings -timeout 1s -offsets 0:4-
{"partition":0,"offset":4,"key":"hello.","message":"hello."}
{"partition":0,"offset":5,"key":"bonjour.","message":"bonjour."}
`, ENV_TOPIC, ENV_BROKERS)