telegabber/xmpp/handlers.go

1001 lines
24 KiB
Go

package xmpp
import (
"bytes"
"encoding/base64"
"encoding/xml"
"fmt"
"github.com/pkg/errors"
"io"
"strconv"
"strings"
"dev.narayana.im/narayana/telegabber/persistence"
"dev.narayana.im/narayana/telegabber/telegram"
"dev.narayana.im/narayana/telegabber/xmpp/extensions"
"dev.narayana.im/narayana/telegabber/xmpp/gateway"
log "github.com/sirupsen/logrus"
"github.com/soheilhy/args"
"gosrc.io/xmpp"
"gosrc.io/xmpp/stanza"
)
const (
TypeVCardTemp byte = iota
TypeVCard4
)
const NodeVCard4 string = "urn:xmpp:vcard4"
type discoType int
const (
discoTypeInfo discoType = iota
discoTypeItems
)
func logPacketType(p stanza.Packet) {
log.Warnf("Ignoring packet: %T\n", p)
}
// HandleIq processes an incoming XMPP iq
func HandleIq(s xmpp.Sender, p stanza.Packet) {
iq, ok := p.(*stanza.IQ)
if !ok {
logPacketType(p)
return
}
log.Debugf("%#v", iq)
if iq.Type == "get" {
_, ok := iq.Payload.(*extensions.IqVcardTemp)
if ok {
go handleGetVcardIq(s, iq, TypeVCardTemp)
return
}
pubsub, ok := iq.Payload.(*stanza.PubSubGeneric)
if ok {
if pubsub.Items != nil && pubsub.Items.Node == NodeVCard4 {
go handleGetVcardIq(s, iq, TypeVCard4)
return
}
}
_, ok = iq.Payload.(*stanza.DiscoInfo)
if ok {
go handleGetDisco(discoTypeInfo, s, iq)
return
}
_, ok = iq.Payload.(*stanza.DiscoItems)
if ok {
go handleGetDisco(discoTypeItems, s, iq)
return
}
_, ok = iq.Payload.(*extensions.QueryRegister)
if ok {
go handleGetQueryRegister(s, iq)
return
}
} else if iq.Type == "set" {
query, ok := iq.Payload.(*extensions.QueryRegister)
if ok {
go handleSetQueryRegister(s, iq, query)
return
}
}
}
// HandleMessage processes an incoming XMPP message
func HandleMessage(s xmpp.Sender, p stanza.Packet) {
msg, ok := p.(stanza.Message)
if !ok {
logPacketType(p)
return
}
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
if msg.Type != "error" && msg.Body != "" {
log.WithFields(log.Fields{
"from": msg.From,
"to": msg.To,
}).Warn("Message")
log.Debugf("%#v", msg)
bare, resource, ok := gateway.SplitJID(msg.From)
if !ok {
return
}
gatewayJid := gateway.Jid.Bare()
session, ok := sessions[bare]
if !ok {
if msg.To == gatewayJid {
gateway.SubscribeToTransport(component, msg.From)
} else {
log.Error("Message from stranger")
}
return
}
toID, ok := toToID(msg.To)
if ok {
toJid, err := stanza.NewJid(msg.To)
if err != nil {
log.Error("Invalid to JID!")
return
}
isGroupchat := msg.Type == "groupchat"
if session.Session.MUC && toJid.Resource != "" {
chat, _, err := session.GetContactByID(toID, nil)
if err == nil && session.IsGroup(chat) {
if isGroupchat {
gateway.SendErrorMessageWithBody(msg.From, msg.To, msg.Body, "", msg.Id, 400, true, component)
} else {
gateway.SendErrorMessage(msg.From, msg.To, "PMing room members is not supported, use the real JID", 406, true, component)
}
return
}
}
var reply extensions.Reply
var fallback extensions.Fallback
var replace extensions.Replace
msg.Get(&reply)
msg.Get(&fallback)
msg.Get(&replace)
log.Debugf("reply: %#v", reply)
log.Debugf("fallback: %#v", fallback)
log.Debugf("replace: %#v", replace)
var replyId int64
text := msg.Body
if len(reply.Id) > 0 {
chatId, msgId, err := gateway.IdsDB.GetByXmppId(session.Session.Login, bare, reply.Id)
if err == nil {
if chatId != toID {
log.Warnf("Chat mismatch: %v ≠ %v", chatId, toID)
} else {
replyId = msgId
log.Debugf("replace tg: %#v %#v", chatId, msgId)
}
} else {
id := reply.Id
if id[0] == 'e' {
id = id[1:]
}
replyId, err = strconv.ParseInt(id, 10, 64)
if err != nil {
log.Warn(errors.Wrap(err, "Failed to parse message ID!"))
}
}
if replyId != 0 && fallback.For == "urn:xmpp:reply:0" && len(fallback.Body) > 0 {
body := fallback.Body[0]
var start, end int64
start, err = strconv.ParseInt(body.Start, 10, 64)
if err != nil {
log.WithFields(log.Fields{
"start": body.Start,
}).Warn(errors.Wrap(err, "Failed to parse fallback start!"))
}
end, err = strconv.ParseInt(body.End, 10, 64)
if err != nil {
log.WithFields(log.Fields{
"end": body.End,
}).Warn(errors.Wrap(err, "Failed to parse fallback end!"))
}
fullRunes := []rune(text)
cutRunes := make([]rune, 0, len(text)-int(end-start))
cutRunes = append(cutRunes, fullRunes[:start]...)
cutRunes = append(cutRunes, fullRunes[end:]...)
text = string(cutRunes)
}
}
var replaceId int64
if replace.Id != "" {
chatId, msgId, err := gateway.IdsDB.GetByXmppId(session.Session.Login, bare, replace.Id)
if err == nil {
if chatId != toID {
gateway.SendTextMessage(msg.From, strconv.FormatInt(toID, 10), "<ERROR: Chat mismatch>", component)
return
}
replaceId = msgId
log.Debugf("replace tg: %#v %#v", chatId, msgId)
} else {
gateway.SendTextMessage(msg.From, strconv.FormatInt(toID, 10), "<ERROR: Could not find matching message to edit>", component)
return
}
}
session.SendMessageLock.Lock()
defer session.SendMessageLock.Unlock()
tgMessage := session.ProcessOutgoingMessage(toID, text, msg.From, replyId, replaceId, isGroupchat)
if tgMessage != nil {
if replaceId != 0 {
// not needed (is it persistent among clients though?)
/* err = gateway.IdsDB.ReplaceIdPair(session.Session.Login, bare, replace.Id, msg.Id, tgMessageId)
if err != nil {
log.Errorf("Failed to replace id %v with %v %v", replace.Id, msg.Id, tgMessageId)
} */
session.AddToOutbox(replace.Id, resource)
} else {
err = gateway.IdsDB.Set(session.Session.Login, bare, toID, tgMessage.Id, msg.Id)
if err != nil {
log.Errorf("Failed to save ids %v/%v %v", toID, tgMessage.Id, msg.Id)
}
}
// pong groupchat messages back
if isGroupchat && toJid.Resource == "" {
session.SendMessageToGateway(
toID,
tgMessage,
msg.Id,
false,
msg.To + "/" + session.GetMUCNickname(session.GetSenderId(tgMessage)),
[]string{msg.From},
)
}
} else {
/*
// if a message failed to edit on Telegram side, match new XMPP ID with old Telegram ID anyway
if replaceId != 0 {
err = gateway.IdsDB.ReplaceXmppId(session.Session.Login, bare, replace.Id, msg.Id)
if err != nil {
log.Errorf("Failed to replace id %v with %v", replace.Id, msg.Id)
}
} */
}
return
} else {
toJid, err := stanza.NewJid(msg.To)
if err == nil && toJid.Bare() == gatewayJid && (strings.HasPrefix(msg.Body, "/") || strings.HasPrefix(msg.Body, "!")) {
response := session.ProcessTransportCommand(msg.Body, resource)
if response != "" {
gateway.SendServiceMessage(msg.From, response, component)
}
return
}
}
log.Warn("Unknown purpose of the message, skipping")
}
if msg.Body == "" {
var privilege1 extensions.ComponentPrivilege1
if ok := msg.Get(&privilege1); ok {
log.Debugf("privilege1: %#v", privilege1)
}
for _, perm := range privilege1.Perms {
if perm.Access == "message" && perm.Type == "outgoing" {
gateway.MessageOutgoingPermissionVersion = 1
}
}
var privilege2 extensions.ComponentPrivilege2
if ok := msg.Get(&privilege2); ok {
log.Debugf("privilege2: %#v", privilege2)
}
for _, perm := range privilege2.Perms {
if perm.Access == "message" && perm.Type == "outgoing" {
gateway.MessageOutgoingPermissionVersion = 2
}
}
}
if msg.Type == "error" {
log.Errorf("MESSAGE ERROR: %#v", p)
if msg.XMLName.Space == "jabber:component:accept" && msg.Error.Code == 401 {
suffix := "@" + msg.From
for bare := range sessions {
if strings.HasSuffix(bare, suffix) {
gateway.SendServiceMessage(bare, "Your server \""+msg.From+"\" does not allow to send carbons", component)
}
}
}
}
}
// HandlePresence processes an incoming XMPP presence
func HandlePresence(s xmpp.Sender, p stanza.Packet) {
prs, ok := p.(stanza.Presence)
if !ok {
logPacketType(p)
return
}
if prs.Type == "subscribe" {
handleSubscription(s, prs)
}
if prs.To == gateway.Jid.Bare() {
handlePresence(s, prs)
return
}
var mucExt stanza.MucPresence
prs.Get(&mucExt)
if mucExt.XMLName.Space != "" {
handleMUCPresence(s, prs, mucExt)
}
}
func handleSubscription(s xmpp.Sender, p stanza.Presence) {
log.WithFields(log.Fields{
"from": p.From,
"to": p.To,
}).Warn("Subscription request")
log.Debugf("%#v", p)
reply := stanza.Presence{Attrs: stanza.Attrs{
From: p.To,
To: p.From,
Id: p.Id,
Type: "subscribed",
}}
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
_ = gateway.ResumableSend(component, reply)
toID, ok := toToID(p.To)
if !ok {
return
}
bare, _, ok := gateway.SplitJID(p.From)
if !ok {
return
}
session, ok := getTelegramInstance(bare, &persistence.Session{}, component)
if !ok {
return
}
go session.ProcessStatusUpdate(toID, "", "", gateway.SPImmed(false))
}
func handlePresence(s xmpp.Sender, p stanza.Presence) {
presenceType := p.Type
if presenceType == "" {
presenceType = "online"
}
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
log.WithFields(log.Fields{
"type": presenceType,
"from": p.From,
"to": p.To,
}).Warn("Presence")
log.Debugf("%#v", p)
// create session
bare, resource, ok := gateway.SplitJID(p.From)
if !ok {
return
}
session, ok := getTelegramInstance(bare, &persistence.Session{}, component)
if !ok {
return
}
switch p.Type {
// destroy session
case "unsubscribed", "unsubscribe":
if session.Disconnect(resource, false) {
sessionLock.Lock()
delete(sessions, bare)
sessionLock.Unlock()
}
// go offline
case "unavailable", "error":
session.Disconnect(resource, false)
// go online
case "probe", "", "online", "subscribe":
// due to the weird implementation of go-tdlib wrapper, it won't
// return the client instance until successful authorization
go func() {
err := session.Connect(resource)
if err != nil {
log.Error(errors.Wrap(err, "TDlib connection failure"))
} else {
for status := range session.StatusesRange() {
show, description, typ := status.Destruct()
newArgs := []args.V{
gateway.SPImmed(false),
}
if typ != "" {
newArgs = append(newArgs, gateway.SPType(typ))
}
go session.ProcessStatusUpdate(
status.ID,
description,
show,
newArgs...,
)
}
session.UpdateChatNicknames()
}
}()
}
}
func handleMUCPresence(s xmpp.Sender, p stanza.Presence, mucExt stanza.MucPresence) {
log.WithFields(log.Fields{
"type": p.Type,
"from": p.From,
"to": p.To,
}).Warn("MUC presence")
log.Debugf("%#v", p)
if p.Type == "" {
toBare, nickname, ok := gateway.SplitJID(p.To)
if ok {
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
// separate declaration is crucial for passing as pointer to defer
var reply *stanza.Presence
reply = &stanza.Presence{Attrs: stanza.Attrs{
From: toBare,
To: p.From,
Id: p.Id,
}}
defer gateway.ResumableSend(component, reply)
if nickname == "" {
presenceReplySetError(reply, 400)
return
}
chatId, ok := toToID(toBare)
if !ok {
presenceReplySetError(reply, 404)
return
}
fromBare, fromResource, ok := gateway.SplitJID(p.From)
if !ok {
presenceReplySetError(reply, 400)
return
}
session, ok := sessions[fromBare]
if !ok || !session.Session.MUC {
presenceReplySetError(reply, 407)
return
}
chat, _, err := session.GetContactByID(chatId, nil)
if err != nil || !session.IsGroup(chat) {
presenceReplySetError(reply, 404)
return
}
limit, ok := mucExt.History.MaxStanzas.Get()
if !ok {
limit = 20
}
session.JoinMUC(chatId, fromResource, int32(limit))
}
}
}
func handleGetVcardIq(s xmpp.Sender, iq *stanza.IQ, typ byte) {
log.WithFields(log.Fields{
"from": iq.From,
"to": iq.To,
}).Warn("VCard request")
fromJid, err := stanza.NewJid(iq.From)
if err != nil {
log.Error("Invalid from JID!")
return
}
session, ok := sessions[fromJid.Bare()]
if !ok {
log.Error("IQ from stranger")
return
}
toParts := strings.Split(iq.To, "@")
toID, err := strconv.ParseInt(toParts[0], 10, 64)
if err != nil {
log.Error("Invalid IQ to")
return
}
info, err := session.GetVcardInfo(toID)
if err != nil {
log.Error(err)
return
}
answer := stanza.IQ{
Attrs: stanza.Attrs{
From: iq.To,
To: iq.From,
Id: iq.Id,
Type: "result",
},
Payload: makeVCardPayload(typ, iq.To, info, session),
}
log.Debugf("%#v", answer)
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
_ = gateway.ResumableSend(component, &answer)
}
func handleGetDisco(dt discoType, s xmpp.Sender, iq *stanza.IQ) {
answer, err := stanza.NewIQ(stanza.Attrs{
Type: stanza.IQTypeResult,
From: iq.To,
To: iq.From,
Id: iq.Id,
Lang: "en",
})
if err != nil {
log.Errorf("Failed to create answer IQ: %v", err)
return
}
if dt == discoTypeInfo {
disco := answer.DiscoInfo()
toID, toOk := toToID(iq.To)
if !toOk {
disco.AddIdentity("Telegram Gateway", "gateway", "telegram")
disco.AddFeatures("jabber:iq:register")
}
var isMuc bool
bare, _, fromOk := gateway.SplitJID(iq.From)
if fromOk {
session, sessionOk := sessions[bare]
if sessionOk && session.Session.MUC {
if toOk {
chat, _, err := session.GetContactByID(toID, nil)
if err == nil && session.IsGroup(chat) {
isMuc = true
disco.AddIdentity(chat.Title, "conference", "text")
disco.AddFeatures(
"http://jabber.org/protocol/muc",
"muc_persistent",
"muc_hidden",
"muc_membersonly",
"muc_unmoderated",
"muc_nonanonymous",
"muc_unsecured",
"http://jabber.org/protocol/muc#stable_id",
)
fields := []*stanza.Field{
&stanza.Field{
Var: "FORM_TYPE",
Type: "hidden",
ValuesList: []string{"http://jabber.org/protocol/muc#roominfo"},
},
&stanza.Field{
Var: "muc#roominfo_description",
Label: "Description",
ValuesList: []string{session.GetChatDescription(chat)},
},
&stanza.Field{
Var: "muc#roominfo_occupants",
Label: "Number of occupants",
ValuesList: []string{strconv.FormatInt(int64(session.GetChatMemberCount(chat)), 10)},
},
}
disco.Form = stanza.NewForm(fields, "result")
}
} else {
disco.AddFeatures(
stanza.NSDiscoItems,
"http://jabber.org/protocol/muc#stable_id",
)
disco.AddIdentity("Telegram group chats", "conference", "text")
}
}
}
if toOk && !isMuc {
disco.AddIdentity("", "account", "registered")
}
answer.Payload = disco
} else if dt == discoTypeItems {
disco := answer.DiscoItems()
_, ok := toToID(iq.To)
if !ok {
bare, _, ok := gateway.SplitJID(iq.From)
if ok {
// raw access, no need to create a new instance if not connected
session, ok := sessions[bare]
if ok && session.Session.MUC {
bareJid := gateway.Jid.Bare()
disco.AddItem(bareJid, "", "Telegram group chats")
for _, chat := range session.GetGroupChats() {
jid := strconv.FormatInt(chat.Id, 10) + "@" + bareJid
disco.AddItem(jid, "", chat.Title)
}
}
}
}
answer.Payload = disco
}
log.Debugf("%#v", answer)
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
_ = gateway.ResumableSend(component, answer)
}
func handleGetQueryRegister(s xmpp.Sender, iq *stanza.IQ) {
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
answer, err := stanza.NewIQ(stanza.Attrs{
Type: stanza.IQTypeResult,
From: iq.To,
To: iq.From,
Id: iq.Id,
Lang: "en",
})
if err != nil {
log.Errorf("Failed to create answer IQ: %v", err)
return
}
var login string
bare, _, ok := gateway.SplitJID(iq.From)
if ok {
session, ok := sessions[bare]
if ok {
login = session.Session.Login
}
}
var query stanza.IQPayload
if login == "" {
query = extensions.QueryRegister{
Instructions: fmt.Sprintf("Authorization in Telegram is a multi-step process, so please accept %v to your contacts and follow further instructions (provide the authentication code there, etc.).\nFor now, please provide your login.", iq.To),
}
} else {
query = extensions.QueryRegister{
Instructions: "Already logged in",
Username: login,
Registered: &extensions.QueryRegisterRegistered{},
}
}
answer.Payload = query
log.Debugf("%#v", query)
_ = gateway.ResumableSend(component, answer)
if login == "" {
gateway.SubscribeToTransport(component, iq.From)
}
}
func handleSetQueryRegister(s xmpp.Sender, iq *stanza.IQ, query *extensions.QueryRegister) {
component, ok := s.(*xmpp.Component)
if !ok {
log.Error("Not a component")
return
}
answer, err := stanza.NewIQ(stanza.Attrs{
Type: stanza.IQTypeResult,
From: iq.To,
To: iq.From,
Id: iq.Id,
Lang: "en",
})
if err != nil {
log.Errorf("Failed to create answer IQ: %v", err)
return
}
defer gateway.ResumableSend(component, answer)
if query.Remove != nil {
iqAnswerSetError(answer, query, 405)
return
}
var login string
var session *telegram.Client
bare, resource, ok := gateway.SplitJID(iq.From)
if ok {
session, ok = sessions[bare]
if ok {
login = session.Session.Login
}
}
if login == "" {
if !ok {
session, ok = getTelegramInstance(bare, &persistence.Session{}, component)
if !ok {
iqAnswerSetError(answer, query, 500)
return
}
}
err := session.TryLogin(resource, query.Username)
if err != nil {
if err.Error() == telegram.TelegramAuthDone {
iqAnswerSetError(answer, query, 406)
} else {
iqAnswerSetError(answer, query, 500)
}
return
}
err = session.SetPhoneNumber(query.Username)
if err != nil {
iqAnswerSetError(answer, query, 500)
return
}
// everything okay, the response should be empty with no payload/error at this point
gateway.SubscribeToTransport(component, iq.From)
} else {
iqAnswerSetError(answer, query, 406)
}
}
func iqAnswerSetError(answer *stanza.IQ, payload *extensions.QueryRegister, code int) {
answer.Type = stanza.IQTypeError
answer.Payload = *payload
switch code {
case 400:
answer.Error = &stanza.Err{
Code: code,
Type: stanza.ErrorTypeModify,
Reason: "bad-request",
}
case 405:
answer.Error = &stanza.Err{
Code: code,
Type: stanza.ErrorTypeCancel,
Reason: "not-allowed",
Text: "Logging out is dangerous. If you are sure you would be able to receive the authentication code again, issue the /logout command to the transport",
}
case 406:
answer.Error = &stanza.Err{
Code: code,
Type: stanza.ErrorTypeModify,
Reason: "not-acceptable",
Text: "Phone number already provided, chat with the transport for further instruction",
}
case 500:
answer.Error = &stanza.Err{
Code: code,
Type: stanza.ErrorTypeWait,
Reason: "internal-server-error",
}
default:
log.Error("Unknown error code, falling back with empty reason")
answer.Error = &stanza.Err{
Code: code,
Type: stanza.ErrorTypeCancel,
Reason: "undefined-condition",
}
}
}
func presenceReplySetError(reply *stanza.Presence, code int) {
reply.Type = stanza.PresenceTypeError
reply.Error = stanza.Err{
Code: code,
}
switch code {
case 400:
reply.Error.Type = stanza.ErrorTypeModify
reply.Error.Reason = "jid-malformed"
case 407:
reply.Error.Type = stanza.ErrorTypeAuth
reply.Error.Reason = "registration-required"
case 404:
reply.Error.Type = stanza.ErrorTypeCancel
reply.Error.Reason = "item-not-found"
default:
log.Error("Unknown error code, falling back with empty reason")
reply.Error.Type = stanza.ErrorTypeCancel
reply.Error.Reason = "undefined-condition"
}
}
func toToID(to string) (int64, bool) {
toParts := strings.Split(to, "@")
if len(toParts) < 2 {
return 0, false
}
toID, err := strconv.ParseInt(toParts[0], 10, 64)
if err != nil {
log.WithFields(log.Fields{
"to": to,
}).Error(errors.Wrap(err, "Invalid to JID!"))
return 0, false
}
return toID, true
}
func makeVCardPayload(typ byte, id string, info telegram.VCardInfo, session *telegram.Client) stanza.IQPayload {
var base64Photo string
if info.Photo != nil {
file, path, err := session.ForceOpenFile(info.Photo, 32)
if err == nil {
defer file.Close()
buf := new(bytes.Buffer)
binval := base64.NewEncoder(base64.StdEncoding, buf)
_, err = io.Copy(binval, file)
binval.Close()
if err == nil {
base64Photo = buf.String()
} else {
log.Errorf("Error calculating base64: %v", path)
}
} else if path != "" {
log.Errorf("Photo does not exist: %v", path)
} else {
log.Errorf("PHOTO: %#v", err.Error())
}
}
if typ == TypeVCardTemp {
vcard := &extensions.IqVcardTemp{}
vcard.Fn.Text = info.Fn
if base64Photo != "" {
vcard.Photo.Type.Text = "image/jpeg"
vcard.Photo.Binval.Text = base64Photo
}
vcard.Nickname.Text = strings.Join(info.Nicknames, ",")
vcard.N.Given.Text = info.Given
vcard.N.Family.Text = info.Family
vcard.Tel.Number.Text = info.Tel
vcard.Desc.Text = info.Info
return vcard
} else if typ == TypeVCard4 {
nodes := []stanza.Node{}
if info.Fn != "" {
nodes = append(nodes, stanza.Node{
XMLName: xml.Name{Local: "fn"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "text"},
Content: info.Fn,
},
},
})
}
if base64Photo != "" {
nodes = append(nodes, stanza.Node{
XMLName: xml.Name{Local: "photo"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "uri"},
Content: "data:image/jpeg;base64," + base64Photo,
},
},
})
}
for _, nickname := range info.Nicknames {
nodes = append(nodes, stanza.Node{
XMLName: xml.Name{Local: "nickname"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "text"},
Content: nickname,
},
},
}, stanza.Node{
XMLName: xml.Name{Local: "impp"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "uri"},
Content: "https://t.me/" + nickname,
},
},
})
}
if info.Family != "" || info.Given != "" {
nodes = append(nodes, stanza.Node{
XMLName: xml.Name{Local: "n"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "surname"},
Content: info.Family,
},
stanza.Node{
XMLName: xml.Name{Local: "given"},
Content: info.Given,
},
},
})
}
if info.Tel != "" {
nodes = append(nodes, stanza.Node{
XMLName: xml.Name{Local: "tel"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "uri"},
Content: "tel:" + info.Tel,
},
},
})
}
if info.Info != "" {
nodes = append(nodes, stanza.Node{
XMLName: xml.Name{Local: "note"},
Nodes: []stanza.Node{
stanza.Node{
XMLName: xml.Name{Local: "text"},
Content: info.Info,
},
},
})
}
pubsub := &stanza.PubSubGeneric{
Items: &stanza.Items{
Node: NodeVCard4,
List: []stanza.Item{
stanza.Item{
Id: id,
Any: &stanza.Node{
XMLName: xml.Name{Local: "vcard"},
Attrs: []xml.Attr{
xml.Attr{
Name: xml.Name{Local: "xmlns"},
Value: "urn:ietf:params:xml:ns:vcard-4.0",
},
},
Nodes: nodes,
},
},
},
},
}
return pubsub
}
return nil
}