250 lines
7.2 KiB
Go
250 lines
7.2 KiB
Go
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// Copyright 2012-2015 Apcera Inc. All rights reserved.
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package nats
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import (
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"errors"
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"fmt"
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"reflect"
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"sync"
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"time"
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// Default Encoders
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. "github.com/nats-io/nats/encoders/builtin"
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)
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// Encoder interface is for all register encoders
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type Encoder interface {
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Encode(subject string, v interface{}) ([]byte, error)
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Decode(subject string, data []byte, vPtr interface{}) error
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}
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var encMap map[string]Encoder
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var encLock sync.Mutex
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// Indexe names into the Registered Encoders.
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const (
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JSON_ENCODER = "json"
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GOB_ENCODER = "gob"
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DEFAULT_ENCODER = "default"
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)
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func init() {
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encMap = make(map[string]Encoder)
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// Register json, gob and default encoder
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RegisterEncoder(JSON_ENCODER, &JsonEncoder{})
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RegisterEncoder(GOB_ENCODER, &GobEncoder{})
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RegisterEncoder(DEFAULT_ENCODER, &DefaultEncoder{})
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}
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// EncodedConn are the preferred way to interface with NATS. They wrap a bare connection to
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// a nats server and have an extendable encoder system that will encode and decode messages
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// from raw Go types.
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type EncodedConn struct {
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Conn *Conn
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Enc Encoder
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}
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// NewEncodedConn will wrap an existing Connection and utilize the appropriate registered
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// encoder.
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func NewEncodedConn(c *Conn, encType string) (*EncodedConn, error) {
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if c == nil {
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return nil, errors.New("nats: Nil Connection")
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}
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if c.IsClosed() {
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return nil, ErrConnectionClosed
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}
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ec := &EncodedConn{Conn: c, Enc: EncoderForType(encType)}
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if ec.Enc == nil {
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return nil, fmt.Errorf("No encoder registered for '%s'", encType)
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}
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return ec, nil
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}
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// RegisterEncoder will register the encType with the given Encoder. Useful for customization.
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func RegisterEncoder(encType string, enc Encoder) {
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encLock.Lock()
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defer encLock.Unlock()
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encMap[encType] = enc
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}
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// EncoderForType will return the registered Encoder for the encType.
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func EncoderForType(encType string) Encoder {
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encLock.Lock()
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defer encLock.Unlock()
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return encMap[encType]
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}
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// Publish publishes the data argument to the given subject. The data argument
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// will be encoded using the associated encoder.
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func (c *EncodedConn) Publish(subject string, v interface{}) error {
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b, err := c.Enc.Encode(subject, v)
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if err != nil {
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return err
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}
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return c.Conn.publish(subject, _EMPTY_, b)
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}
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// PublishRequest will perform a Publish() expecting a response on the
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// reply subject. Use Request() for automatically waiting for a response
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// inline.
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func (c *EncodedConn) PublishRequest(subject, reply string, v interface{}) error {
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b, err := c.Enc.Encode(subject, v)
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if err != nil {
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return err
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}
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return c.Conn.publish(subject, reply, b)
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}
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// Request will create an Inbox and perform a Request() call
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// with the Inbox reply for the data v. A response will be
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// decoded into the vPtrResponse.
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func (c *EncodedConn) Request(subject string, v interface{}, vPtr interface{}, timeout time.Duration) error {
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b, err := c.Enc.Encode(subject, v)
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if err != nil {
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return err
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}
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m, err := c.Conn.Request(subject, b, timeout)
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if err != nil {
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return err
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}
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if reflect.TypeOf(vPtr) == emptyMsgType {
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mPtr := vPtr.(*Msg)
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*mPtr = *m
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} else {
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err = c.Enc.Decode(m.Subject, m.Data, vPtr)
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}
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return err
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}
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// Handler is a specific callback used for Subscribe. It is generalized to
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// an interface{}, but we will discover its format and arguments at runtime
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// and perform the correct callback, including de-marshalling JSON strings
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// back into the appropriate struct based on the signature of the Handler.
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//
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// Handlers are expected to have one of four signatures.
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//
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// type person struct {
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// Name string `json:"name,omitempty"`
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// Age uint `json:"age,omitempty"`
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// }
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//
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// handler := func(m *Msg)
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// handler := func(p *person)
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// handler := func(subject string, o *obj)
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// handler := func(subject, reply string, o *obj)
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//
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// These forms allow a callback to request a raw Msg ptr, where the processing
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// of the message from the wire is untouched. Process a JSON representation
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// and demarshal it into the given struct, e.g. person.
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// There are also variants where the callback wants either the subject, or the
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// subject and the reply subject.
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type Handler interface{}
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// Dissect the cb Handler's signature
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func argInfo(cb Handler) (reflect.Type, int) {
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cbType := reflect.TypeOf(cb)
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if cbType.Kind() != reflect.Func {
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panic("nats: Handler needs to be a func")
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}
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numArgs := cbType.NumIn()
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if numArgs == 0 {
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return nil, numArgs
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}
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return cbType.In(numArgs - 1), numArgs
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}
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var emptyMsgType = reflect.TypeOf(&Msg{})
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// Subscribe will create a subscription on the given subject and process incoming
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// messages using the specified Handler. The Handler should be a func that matches
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// a signature from the description of Handler from above.
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func (c *EncodedConn) Subscribe(subject string, cb Handler) (*Subscription, error) {
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return c.subscribe(subject, _EMPTY_, cb)
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}
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// QueueSubscribe will create a queue subscription on the given subject and process
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// incoming messages using the specified Handler. The Handler should be a func that
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// matches a signature from the description of Handler from above.
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func (c *EncodedConn) QueueSubscribe(subject, queue string, cb Handler) (*Subscription, error) {
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return c.subscribe(subject, queue, cb)
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}
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// Internal implementation that all public functions will use.
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func (c *EncodedConn) subscribe(subject, queue string, cb Handler) (*Subscription, error) {
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if cb == nil {
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return nil, errors.New("nats: Handler required for EncodedConn Subscription")
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}
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argType, numArgs := argInfo(cb)
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if argType == nil {
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return nil, errors.New("nats: Handler requires at least one argument")
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}
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cbValue := reflect.ValueOf(cb)
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wantsRaw := (argType == emptyMsgType)
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natsCB := func(m *Msg) {
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var oV []reflect.Value
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if wantsRaw {
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oV = []reflect.Value{reflect.ValueOf(m)}
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} else {
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var oPtr reflect.Value
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if argType.Kind() != reflect.Ptr {
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oPtr = reflect.New(argType)
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} else {
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oPtr = reflect.New(argType.Elem())
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}
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if err := c.Enc.Decode(m.Subject, m.Data, oPtr.Interface()); err != nil {
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if c.Conn.Opts.AsyncErrorCB != nil {
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c.Conn.ach <- func() {
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c.Conn.Opts.AsyncErrorCB(c.Conn, m.Sub, errors.New("nats: Got an error trying to unmarshal: "+err.Error()))
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}
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}
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return
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}
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if argType.Kind() != reflect.Ptr {
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oPtr = reflect.Indirect(oPtr)
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}
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// Callback Arity
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switch numArgs {
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case 1:
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oV = []reflect.Value{oPtr}
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case 2:
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subV := reflect.ValueOf(m.Subject)
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oV = []reflect.Value{subV, oPtr}
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case 3:
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subV := reflect.ValueOf(m.Subject)
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replyV := reflect.ValueOf(m.Reply)
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oV = []reflect.Value{subV, replyV, oPtr}
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}
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}
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cbValue.Call(oV)
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}
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return c.Conn.subscribe(subject, queue, natsCB, nil)
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}
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// FlushTimeout allows a Flush operation to have an associated timeout.
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func (c *EncodedConn) FlushTimeout(timeout time.Duration) (err error) {
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return c.Conn.FlushTimeout(timeout)
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}
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// Flush will perform a round trip to the server and return when it
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// receives the internal reply.
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func (c *EncodedConn) Flush() error {
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return c.Conn.Flush()
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}
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// Close will close the connection to the server. This call will release
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// all blocking calls, such as Flush(), etc.
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func (c *EncodedConn) Close() {
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c.Conn.Close()
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}
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// LastError reports the last error encountered via the Connection.
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func (c *EncodedConn) LastError() error {
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return c.Conn.err
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}
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