mirror of
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443 lines
19 KiB
Go
443 lines
19 KiB
Go
package sarama
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import (
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"crypto/tls"
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"regexp"
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"time"
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"github.com/rcrowley/go-metrics"
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)
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const defaultClientID = "sarama"
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var validID = regexp.MustCompile(`\A[A-Za-z0-9._-]+\z`)
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// Config is used to pass multiple configuration options to Sarama's constructors.
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type Config struct {
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// Net is the namespace for network-level properties used by the Broker, and
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// shared by the Client/Producer/Consumer.
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Net struct {
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// How many outstanding requests a connection is allowed to have before
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// sending on it blocks (default 5).
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MaxOpenRequests int
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// All three of the below configurations are similar to the
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// `socket.timeout.ms` setting in JVM kafka. All of them default
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// to 30 seconds.
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DialTimeout time.Duration // How long to wait for the initial connection.
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ReadTimeout time.Duration // How long to wait for a response.
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WriteTimeout time.Duration // How long to wait for a transmit.
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TLS struct {
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// Whether or not to use TLS when connecting to the broker
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// (defaults to false).
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Enable bool
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// The TLS configuration to use for secure connections if
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// enabled (defaults to nil).
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Config *tls.Config
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}
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// SASL based authentication with broker. While there are multiple SASL authentication methods
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// the current implementation is limited to plaintext (SASL/PLAIN) authentication
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SASL struct {
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// Whether or not to use SASL authentication when connecting to the broker
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// (defaults to false).
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Enable bool
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// Whether or not to send the Kafka SASL handshake first if enabled
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// (defaults to true). You should only set this to false if you're using
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// a non-Kafka SASL proxy.
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Handshake bool
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//username and password for SASL/PLAIN authentication
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User string
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Password string
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}
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// KeepAlive specifies the keep-alive period for an active network connection.
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// If zero, keep-alives are disabled. (default is 0: disabled).
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KeepAlive time.Duration
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}
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// Metadata is the namespace for metadata management properties used by the
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// Client, and shared by the Producer/Consumer.
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Metadata struct {
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Retry struct {
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// The total number of times to retry a metadata request when the
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// cluster is in the middle of a leader election (default 3).
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Max int
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// How long to wait for leader election to occur before retrying
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// (default 250ms). Similar to the JVM's `retry.backoff.ms`.
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Backoff time.Duration
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}
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// How frequently to refresh the cluster metadata in the background.
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// Defaults to 10 minutes. Set to 0 to disable. Similar to
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// `topic.metadata.refresh.interval.ms` in the JVM version.
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RefreshFrequency time.Duration
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// Whether to maintain a full set of metadata for all topics, or just
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// the minimal set that has been necessary so far. The full set is simpler
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// and usually more convenient, but can take up a substantial amount of
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// memory if you have many topics and partitions. Defaults to true.
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Full bool
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}
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// Producer is the namespace for configuration related to producing messages,
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// used by the Producer.
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Producer struct {
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// The maximum permitted size of a message (defaults to 1000000). Should be
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// set equal to or smaller than the broker's `message.max.bytes`.
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MaxMessageBytes int
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// The level of acknowledgement reliability needed from the broker (defaults
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// to WaitForLocal). Equivalent to the `request.required.acks` setting of the
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// JVM producer.
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RequiredAcks RequiredAcks
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// The maximum duration the broker will wait the receipt of the number of
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// RequiredAcks (defaults to 10 seconds). This is only relevant when
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// RequiredAcks is set to WaitForAll or a number > 1. Only supports
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// millisecond resolution, nanoseconds will be truncated. Equivalent to
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// the JVM producer's `request.timeout.ms` setting.
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Timeout time.Duration
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// The type of compression to use on messages (defaults to no compression).
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// Similar to `compression.codec` setting of the JVM producer.
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Compression CompressionCodec
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// Generates partitioners for choosing the partition to send messages to
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// (defaults to hashing the message key). Similar to the `partitioner.class`
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// setting for the JVM producer.
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Partitioner PartitionerConstructor
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// Return specifies what channels will be populated. If they are set to true,
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// you must read from the respective channels to prevent deadlock. If,
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// however, this config is used to create a `SyncProducer`, both must be set
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// to true and you shall not read from the channels since the producer does
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// this internally.
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Return struct {
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// If enabled, successfully delivered messages will be returned on the
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// Successes channel (default disabled).
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Successes bool
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// If enabled, messages that failed to deliver will be returned on the
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// Errors channel, including error (default enabled).
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Errors bool
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}
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// The following config options control how often messages are batched up and
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// sent to the broker. By default, messages are sent as fast as possible, and
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// all messages received while the current batch is in-flight are placed
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// into the subsequent batch.
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Flush struct {
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// The best-effort number of bytes needed to trigger a flush. Use the
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// global sarama.MaxRequestSize to set a hard upper limit.
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Bytes int
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// The best-effort number of messages needed to trigger a flush. Use
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// `MaxMessages` to set a hard upper limit.
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Messages int
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// The best-effort frequency of flushes. Equivalent to
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// `queue.buffering.max.ms` setting of JVM producer.
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Frequency time.Duration
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// The maximum number of messages the producer will send in a single
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// broker request. Defaults to 0 for unlimited. Similar to
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// `queue.buffering.max.messages` in the JVM producer.
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MaxMessages int
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}
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Retry struct {
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// The total number of times to retry sending a message (default 3).
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// Similar to the `message.send.max.retries` setting of the JVM producer.
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Max int
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// How long to wait for the cluster to settle between retries
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// (default 100ms). Similar to the `retry.backoff.ms` setting of the
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// JVM producer.
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Backoff time.Duration
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}
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}
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// Consumer is the namespace for configuration related to consuming messages,
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// used by the Consumer.
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//
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// Note that Sarama's Consumer type does not currently support automatic
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// consumer-group rebalancing and offset tracking. For Zookeeper-based
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// tracking (Kafka 0.8.2 and earlier), the https://github.com/wvanbergen/kafka
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// library builds on Sarama to add this support. For Kafka-based tracking
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// (Kafka 0.9 and later), the https://github.com/bsm/sarama-cluster library
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// builds on Sarama to add this support.
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Consumer struct {
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Retry struct {
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// How long to wait after a failing to read from a partition before
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// trying again (default 2s).
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Backoff time.Duration
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}
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// Fetch is the namespace for controlling how many bytes are retrieved by any
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// given request.
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Fetch struct {
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// The minimum number of message bytes to fetch in a request - the broker
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// will wait until at least this many are available. The default is 1,
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// as 0 causes the consumer to spin when no messages are available.
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// Equivalent to the JVM's `fetch.min.bytes`.
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Min int32
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// The default number of message bytes to fetch from the broker in each
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// request (default 32768). This should be larger than the majority of
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// your messages, or else the consumer will spend a lot of time
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// negotiating sizes and not actually consuming. Similar to the JVM's
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// `fetch.message.max.bytes`.
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Default int32
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// The maximum number of message bytes to fetch from the broker in a
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// single request. Messages larger than this will return
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// ErrMessageTooLarge and will not be consumable, so you must be sure
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// this is at least as large as your largest message. Defaults to 0
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// (no limit). Similar to the JVM's `fetch.message.max.bytes`. The
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// global `sarama.MaxResponseSize` still applies.
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Max int32
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}
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// The maximum amount of time the broker will wait for Consumer.Fetch.Min
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// bytes to become available before it returns fewer than that anyways. The
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// default is 250ms, since 0 causes the consumer to spin when no events are
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// available. 100-500ms is a reasonable range for most cases. Kafka only
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// supports precision up to milliseconds; nanoseconds will be truncated.
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// Equivalent to the JVM's `fetch.wait.max.ms`.
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MaxWaitTime time.Duration
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// The maximum amount of time the consumer expects a message takes to
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// process for the user. If writing to the Messages channel takes longer
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// than this, that partition will stop fetching more messages until it
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// can proceed again.
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// Note that, since the Messages channel is buffered, the actual grace time is
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// (MaxProcessingTime * ChanneBufferSize). Defaults to 100ms.
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// If a message is not written to the Messages channel between two ticks
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// of the expiryTicker then a timeout is detected.
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// Using a ticker instead of a timer to detect timeouts should typically
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// result in many fewer calls to Timer functions which may result in a
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// significant performance improvement if many messages are being sent
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// and timeouts are infrequent.
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// The disadvantage of using a ticker instead of a timer is that
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// timeouts will be less accurate. That is, the effective timeout could
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// be between `MaxProcessingTime` and `2 * MaxProcessingTime`. For
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// example, if `MaxProcessingTime` is 100ms then a delay of 180ms
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// between two messages being sent may not be recognized as a timeout.
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MaxProcessingTime time.Duration
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// Return specifies what channels will be populated. If they are set to true,
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// you must read from them to prevent deadlock.
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Return struct {
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// If enabled, any errors that occurred while consuming are returned on
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// the Errors channel (default disabled).
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Errors bool
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}
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// Offsets specifies configuration for how and when to commit consumed
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// offsets. This currently requires the manual use of an OffsetManager
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// but will eventually be automated.
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Offsets struct {
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// How frequently to commit updated offsets. Defaults to 1s.
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CommitInterval time.Duration
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// The initial offset to use if no offset was previously committed.
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// Should be OffsetNewest or OffsetOldest. Defaults to OffsetNewest.
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Initial int64
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// The retention duration for committed offsets. If zero, disabled
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// (in which case the `offsets.retention.minutes` option on the
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// broker will be used). Kafka only supports precision up to
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// milliseconds; nanoseconds will be truncated. Requires Kafka
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// broker version 0.9.0 or later.
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// (default is 0: disabled).
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Retention time.Duration
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}
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}
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// A user-provided string sent with every request to the brokers for logging,
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// debugging, and auditing purposes. Defaults to "sarama", but you should
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// probably set it to something specific to your application.
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ClientID string
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// The number of events to buffer in internal and external channels. This
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// permits the producer and consumer to continue processing some messages
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// in the background while user code is working, greatly improving throughput.
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// Defaults to 256.
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ChannelBufferSize int
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// The version of Kafka that Sarama will assume it is running against.
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// Defaults to the oldest supported stable version. Since Kafka provides
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// backwards-compatibility, setting it to a version older than you have
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// will not break anything, although it may prevent you from using the
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// latest features. Setting it to a version greater than you are actually
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// running may lead to random breakage.
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Version KafkaVersion
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// The registry to define metrics into.
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// Defaults to a local registry.
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// If you want to disable metrics gathering, set "metrics.UseNilMetrics" to "true"
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// prior to starting Sarama.
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// See Examples on how to use the metrics registry
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MetricRegistry metrics.Registry
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}
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// NewConfig returns a new configuration instance with sane defaults.
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func NewConfig() *Config {
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c := &Config{}
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c.Net.MaxOpenRequests = 5
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c.Net.DialTimeout = 30 * time.Second
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c.Net.ReadTimeout = 30 * time.Second
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c.Net.WriteTimeout = 30 * time.Second
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c.Net.SASL.Handshake = true
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c.Metadata.Retry.Max = 3
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c.Metadata.Retry.Backoff = 250 * time.Millisecond
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c.Metadata.RefreshFrequency = 10 * time.Minute
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c.Metadata.Full = true
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c.Producer.MaxMessageBytes = 1000000
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c.Producer.RequiredAcks = WaitForLocal
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c.Producer.Timeout = 10 * time.Second
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c.Producer.Partitioner = NewHashPartitioner
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c.Producer.Retry.Max = 3
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c.Producer.Retry.Backoff = 100 * time.Millisecond
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c.Producer.Return.Errors = true
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c.Consumer.Fetch.Min = 1
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c.Consumer.Fetch.Default = 32768
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c.Consumer.Retry.Backoff = 2 * time.Second
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c.Consumer.MaxWaitTime = 250 * time.Millisecond
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c.Consumer.MaxProcessingTime = 100 * time.Millisecond
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c.Consumer.Return.Errors = false
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c.Consumer.Offsets.CommitInterval = 1 * time.Second
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c.Consumer.Offsets.Initial = OffsetNewest
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c.ClientID = defaultClientID
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c.ChannelBufferSize = 256
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c.Version = minVersion
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c.MetricRegistry = metrics.NewRegistry()
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return c
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}
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// Validate checks a Config instance. It will return a
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// ConfigurationError if the specified values don't make sense.
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func (c *Config) Validate() error {
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// some configuration values should be warned on but not fail completely, do those first
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if c.Net.TLS.Enable == false && c.Net.TLS.Config != nil {
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Logger.Println("Net.TLS is disabled but a non-nil configuration was provided.")
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}
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if c.Net.SASL.Enable == false {
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if c.Net.SASL.User != "" {
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Logger.Println("Net.SASL is disabled but a non-empty username was provided.")
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}
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if c.Net.SASL.Password != "" {
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Logger.Println("Net.SASL is disabled but a non-empty password was provided.")
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}
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}
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if c.Producer.RequiredAcks > 1 {
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Logger.Println("Producer.RequiredAcks > 1 is deprecated and will raise an exception with kafka >= 0.8.2.0.")
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}
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if c.Producer.MaxMessageBytes >= int(MaxRequestSize) {
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Logger.Println("Producer.MaxMessageBytes must be smaller than MaxRequestSize; it will be ignored.")
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}
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if c.Producer.Flush.Bytes >= int(MaxRequestSize) {
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Logger.Println("Producer.Flush.Bytes must be smaller than MaxRequestSize; it will be ignored.")
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}
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if (c.Producer.Flush.Bytes > 0 || c.Producer.Flush.Messages > 0) && c.Producer.Flush.Frequency == 0 {
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Logger.Println("Producer.Flush: Bytes or Messages are set, but Frequency is not; messages may not get flushed.")
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}
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if c.Producer.Timeout%time.Millisecond != 0 {
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Logger.Println("Producer.Timeout only supports millisecond resolution; nanoseconds will be truncated.")
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}
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if c.Consumer.MaxWaitTime < 100*time.Millisecond {
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Logger.Println("Consumer.MaxWaitTime is very low, which can cause high CPU and network usage. See documentation for details.")
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}
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if c.Consumer.MaxWaitTime%time.Millisecond != 0 {
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Logger.Println("Consumer.MaxWaitTime only supports millisecond precision; nanoseconds will be truncated.")
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}
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if c.Consumer.Offsets.Retention%time.Millisecond != 0 {
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Logger.Println("Consumer.Offsets.Retention only supports millisecond precision; nanoseconds will be truncated.")
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}
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if c.ClientID == defaultClientID {
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Logger.Println("ClientID is the default of 'sarama', you should consider setting it to something application-specific.")
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}
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// validate Net values
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switch {
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case c.Net.MaxOpenRequests <= 0:
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return ConfigurationError("Net.MaxOpenRequests must be > 0")
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case c.Net.DialTimeout <= 0:
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return ConfigurationError("Net.DialTimeout must be > 0")
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case c.Net.ReadTimeout <= 0:
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return ConfigurationError("Net.ReadTimeout must be > 0")
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case c.Net.WriteTimeout <= 0:
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return ConfigurationError("Net.WriteTimeout must be > 0")
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case c.Net.KeepAlive < 0:
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return ConfigurationError("Net.KeepAlive must be >= 0")
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case c.Net.SASL.Enable == true && c.Net.SASL.User == "":
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return ConfigurationError("Net.SASL.User must not be empty when SASL is enabled")
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case c.Net.SASL.Enable == true && c.Net.SASL.Password == "":
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return ConfigurationError("Net.SASL.Password must not be empty when SASL is enabled")
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}
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// validate the Metadata values
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switch {
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case c.Metadata.Retry.Max < 0:
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return ConfigurationError("Metadata.Retry.Max must be >= 0")
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case c.Metadata.Retry.Backoff < 0:
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return ConfigurationError("Metadata.Retry.Backoff must be >= 0")
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case c.Metadata.RefreshFrequency < 0:
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return ConfigurationError("Metadata.RefreshFrequency must be >= 0")
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}
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// validate the Producer values
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switch {
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case c.Producer.MaxMessageBytes <= 0:
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return ConfigurationError("Producer.MaxMessageBytes must be > 0")
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case c.Producer.RequiredAcks < -1:
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return ConfigurationError("Producer.RequiredAcks must be >= -1")
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case c.Producer.Timeout <= 0:
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return ConfigurationError("Producer.Timeout must be > 0")
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case c.Producer.Partitioner == nil:
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return ConfigurationError("Producer.Partitioner must not be nil")
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case c.Producer.Flush.Bytes < 0:
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return ConfigurationError("Producer.Flush.Bytes must be >= 0")
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case c.Producer.Flush.Messages < 0:
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return ConfigurationError("Producer.Flush.Messages must be >= 0")
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case c.Producer.Flush.Frequency < 0:
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return ConfigurationError("Producer.Flush.Frequency must be >= 0")
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case c.Producer.Flush.MaxMessages < 0:
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return ConfigurationError("Producer.Flush.MaxMessages must be >= 0")
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case c.Producer.Flush.MaxMessages > 0 && c.Producer.Flush.MaxMessages < c.Producer.Flush.Messages:
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return ConfigurationError("Producer.Flush.MaxMessages must be >= Producer.Flush.Messages when set")
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case c.Producer.Retry.Max < 0:
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return ConfigurationError("Producer.Retry.Max must be >= 0")
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case c.Producer.Retry.Backoff < 0:
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return ConfigurationError("Producer.Retry.Backoff must be >= 0")
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}
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if c.Producer.Compression == CompressionLZ4 && !c.Version.IsAtLeast(V0_10_0_0) {
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return ConfigurationError("lz4 compression requires Version >= V0_10_0_0")
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}
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// validate the Consumer values
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switch {
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case c.Consumer.Fetch.Min <= 0:
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return ConfigurationError("Consumer.Fetch.Min must be > 0")
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case c.Consumer.Fetch.Default <= 0:
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return ConfigurationError("Consumer.Fetch.Default must be > 0")
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case c.Consumer.Fetch.Max < 0:
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return ConfigurationError("Consumer.Fetch.Max must be >= 0")
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case c.Consumer.MaxWaitTime < 1*time.Millisecond:
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return ConfigurationError("Consumer.MaxWaitTime must be >= 1ms")
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case c.Consumer.MaxProcessingTime <= 0:
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return ConfigurationError("Consumer.MaxProcessingTime must be > 0")
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case c.Consumer.Retry.Backoff < 0:
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return ConfigurationError("Consumer.Retry.Backoff must be >= 0")
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case c.Consumer.Offsets.CommitInterval <= 0:
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return ConfigurationError("Consumer.Offsets.CommitInterval must be > 0")
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case c.Consumer.Offsets.Initial != OffsetOldest && c.Consumer.Offsets.Initial != OffsetNewest:
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return ConfigurationError("Consumer.Offsets.Initial must be OffsetOldest or OffsetNewest")
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}
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// validate misc shared values
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switch {
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case c.ChannelBufferSize < 0:
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return ConfigurationError("ChannelBufferSize must be >= 0")
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case !validID.MatchString(c.ClientID):
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return ConfigurationError("ClientID is invalid")
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}
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return nil
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}
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