Updated to-do list.
// This package implements a simple XMPP client according to RFCs 3920
// and 3921, plus the various XEPs at http://xmpp.org/protocols/. The
// implementation is structured as a stack of layers, with TCP at the
// bottom and the application at the top. The application receives and
// sends structures representing XMPP stanzas. Additional stanza
// parsers can be inserted into the stack of layers as extensions.
package xmpp
import (
"bytes"
"crypto/tls"
"encoding/xml"
"errors"
"fmt"
"io"
"net"
"reflect"
)
const (
// Version of RFC 3920 that we implement.
XMPPVersion = "1.0"
// Various XML namespaces.
NsClient = "jabber:client"
NsStreams = "urn:ietf:params:xml:ns:xmpp-streams"
NsStream = "http://etherx.jabber.org/streams"
NsTLS = "urn:ietf:params:xml:ns:xmpp-tls"
NsSASL = "urn:ietf:params:xml:ns:xmpp-sasl"
NsBind = "urn:ietf:params:xml:ns:xmpp-bind"
NsSession = "urn:ietf:params:xml:ns:xmpp-session"
NsRoster = "jabber:iq:roster"
// DNS SRV names
serverSrv = "xmpp-server"
clientSrv = "xmpp-client"
)
// Flow control for preventing sending stanzas until negotiation has
// completed.
type sendCmd int
const (
sendAllowConst = iota
sendDenyConst
sendAbortConst
)
var (
sendAllow sendCmd = sendAllowConst
sendDeny sendCmd = sendDenyConst
sendAbort sendCmd = sendAbortConst
)
// A filter can modify the XMPP traffic to or from the remote
// server. It's part of an Extension. The filter function will be
// called in a new goroutine, so it doesn't need to return. The filter
// should close its output when its input is closed.
type Filter func(in <-chan Stanza, out chan<- Stanza)
// Extensions can add stanza filters and/or new XML element types.
type Extension struct {
// Maps from an XML namespace to a function which constructs a
// structure to hold the contents of stanzas in that
// namespace.
StanzaHandlers map[xml.Name]reflect.Type
// If non-nil, will be called once to start the filter
// running. RecvFilter intercepts incoming messages on their
// way from the remote server to the application; SendFilter
// intercepts messages going the other direction.
RecvFilter Filter
SendFilter Filter
}
// The client in a client-server XMPP connection.
type Client struct {
// This client's JID. This will be updated asynchronously by
// the time StartSession() returns.
Jid JID
password string
saslExpected string
authDone bool
handlers chan *callback
inputControl chan sendCmd
// Incoming XMPP stanzas from the remote will be published on
// this channel. Information which is used by this library to
// set up the XMPP stream will not appear here.
Recv <-chan Stanza
// Outgoing XMPP stanzas to the server should be sent to this
// channel.
Send chan<- Stanza
sendXml chan<- interface{}
// The client's roster is also known as the buddy list. It's
// the set of contacts which are known to this JID, or which
// this JID is known to.
Roster Roster
// Features advertised by the remote. This will be updated
// asynchronously as new features are received throughout the
// connection process. It should not be updated once
// StartSession() returns.
Features *Features
sendFilterAdd, recvFilterAdd chan Filter
// Allows the user to override the TLS configuration.
tlsConfig tls.Config
layer1 *layer1
}
// Connect to the appropriate server and authenticate as the given JID
// with the given password. This function will return as soon as a TCP
// connection has been established, but before XMPP stream negotiation
// has completed. The negotiation will occur asynchronously, and any
// send operation to Client.Send will block until negotiation
// (resource binding) is complete. The caller must immediately start
// reading from Client.Recv.
func NewClient(jid *JID, password string, tlsconf tls.Config, exts []Extension) (*Client, error) {
// Include the mandatory extensions.
roster := newRosterExt()
exts = append(exts, roster.Extension)
exts = append(exts, bindExt)
// Resolve the domain in the JID.
_, srvs, err := net.LookupSRV(clientSrv, "tcp", jid.Domain)
if err != nil {
return nil, fmt.Errorf("LookupSrv %s: %v", jid.Domain, err)
}
if len(srvs) == 0 {
return nil, fmt.Errorf("LookupSrv %s: no results", jid.Domain)
}
var tcp *net.TCPConn
for _, srv := range srvs {
addrStr := fmt.Sprintf("%s:%d", srv.Target, srv.Port)
var addr *net.TCPAddr
addr, err = net.ResolveTCPAddr("tcp", addrStr)
if err != nil {
err = fmt.Errorf("ResolveTCPAddr(%s): %s",
addrStr, err.Error())
continue
}
tcp, err = net.DialTCP("tcp", nil, addr)
if tcp != nil {
break
}
}
if tcp == nil {
return nil, err
}
cl := new(Client)
cl.Roster = *roster
cl.password = password
cl.Jid = *jid
cl.handlers = make(chan *callback, 100)
cl.inputControl = make(chan sendCmd)
cl.tlsConfig = tlsconf
cl.sendFilterAdd = make(chan Filter)
cl.recvFilterAdd = make(chan Filter)
extStanza := make(map[xml.Name]reflect.Type)
for _, ext := range exts {
for k, v := range ext.StanzaHandlers {
if _, ok := extStanza[k]; ok {
return nil, fmt.Errorf("duplicate handler %s",
k)
}
extStanza[k] = v
}
}
// Start the transport handler, initially unencrypted.
recvReader, recvWriter := io.Pipe()
sendReader, sendWriter := io.Pipe()
cl.layer1 = startLayer1(tcp, recvWriter, sendReader)
// Start the reader and writer that convert to and from XML.
recvXmlCh := make(chan interface{})
go recvXml(recvReader, recvXmlCh, extStanza)
sendXmlCh := make(chan interface{})
cl.sendXml = sendXmlCh
go sendXml(sendWriter, sendXmlCh)
// Start the reader and writer that convert between XML and
// XMPP stanzas.
recvRawXmpp := make(chan Stanza)
go cl.recvStream(recvXmlCh, recvRawXmpp)
sendRawXmpp := make(chan Stanza)
go sendStream(sendXmlCh, sendRawXmpp, cl.inputControl)
// Start the manager for the filters that can modify what the
// app sees.
recvFiltXmpp := make(chan Stanza)
cl.Recv = recvFiltXmpp
go filterMgr(cl.recvFilterAdd, recvRawXmpp, recvFiltXmpp)
sendFiltXmpp := make(chan Stanza)
cl.Send = sendFiltXmpp
go filterMgr(cl.sendFilterAdd, sendFiltXmpp, sendRawXmpp)
// Set up the initial filters.
for _, ext := range exts {
cl.AddRecvFilter(ext.RecvFilter)
cl.AddSendFilter(ext.SendFilter)
}
// Initial handshake.
hsOut := &stream{To: jid.Domain, Version: XMPPVersion}
cl.sendXml <- hsOut
return cl, nil
}
func tee(r io.Reader, w io.Writer, prefix string) {
defer func(w io.Writer) {
if c, ok := w.(io.Closer); ok {
c.Close()
}
}(w)
buf := bytes.NewBuffer([]uint8(prefix))
for {
var c [1]byte
n, _ := r.Read(c[:])
if n == 0 {
break
}
n, _ = w.Write(c[:n])
if n == 0 {
break
}
buf.Write(c[:n])
if c[0] == '\n' || c[0] == '>' {
Debug.Log(buf)
buf = bytes.NewBuffer([]uint8(prefix))
}
}
leftover := buf.String()
if leftover != "" {
Debug.Log(buf)
}
}
// bindDone is called when we've finished resource binding (and all
// the negotiations that precede it). Now we can start accepting
// traffic from the app.
func (cl *Client) bindDone() {
cl.inputControl <- sendAllow
}
// Start an XMPP session. A typical XMPP client should call this
// immediately after creating the Client in order to start the session
// and broadcast an initial presence. The presence can be as simple as
// a newly-initialized Presence struct. See RFC 3921, Section
// 3. After calling this, a normal client should call Roster.Update().
func (cl *Client) StartSession(pr *Presence) error {
id := NextId()
iq := &Iq{Header: Header{To: cl.Jid.Domain, Id: id, Type: "set",
Nested: []interface{}{Generic{XMLName: xml.Name{Space: NsSession, Local: "session"}}}}}
ch := make(chan error)
f := func(st Stanza) bool {
iq, ok := st.(*Iq)
if !ok {
Warn.Log("iq reply not iq; can't start session")
ch <- errors.New("bad session start reply")
return false
}
if iq.Type == "error" {
Warn.Logf("Can't start session: %v", iq)
ch <- iq.Error
return false
}
ch <- nil
return false
}
cl.SetCallback(id, f)
cl.Send <- iq
// Now wait until the callback is called.
if err := <-ch; err != nil {
return err
}
if pr != nil {
cl.Send <- pr
}
return nil
}