logmania/output/xmpp/main.go

233 lines
5.6 KiB
Go

package xmpp
import (
"strings"
xmpp_client "dev.sum7.eu/genofire/yaja/client"
xmpp "dev.sum7.eu/genofire/yaja/xmpp"
"dev.sum7.eu/genofire/yaja/xmpp/base"
"github.com/mitchellh/mapstructure"
log "github.com/sirupsen/logrus"
"dev.sum7.eu/genofire/logmania/bot"
"dev.sum7.eu/genofire/logmania/database"
"dev.sum7.eu/genofire/logmania/output"
)
const (
proto = "xmpp"
protoGroup = "xmpp-muc"
nickname = "logmania"
)
var logger = log.WithField("output", proto)
type Output struct {
output.Output
defaults []*database.Notify
client *xmpp_client.Client
channels map[string]bool
formatter log.Formatter
}
type OutputConfig struct {
JID string `mapstructure:"jid"`
Password string `mapstructure:"password"`
Defaults map[string]bool `mapstructure:"default"`
}
func Init(configInterface interface{}, db *database.DB, bot *bot.Bot) output.Output {
var config OutputConfig
if err := mapstructure.Decode(configInterface, &config); err != nil {
logger.Warnf("not able to decode data: %s", err)
return nil
}
channels := make(map[string]bool)
client, err := xmpp_client.NewClient(xmppbase.NewJID(config.JID), config.Password)
if err != nil {
logger.Error(err)
return nil
}
go func() {
for {
if err := client.Start(); err != nil {
log.Warn("close connection, try reconnect")
client.Connect(config.Password)
} else {
log.Warn("closed connection")
return
}
}
}()
go func() {
for {
element, more := client.Recv()
if !more {
log.Warn("could not receive new message, try later")
continue
}
switch element.(type) {
case *xmpp.PresenceClient:
pres := element.(*xmpp.PresenceClient)
sender := pres.From
logPres := logger.WithField("from", sender.Full())
switch pres.Type {
case xmpp.PresenceTypeSubscribe:
logPres.Debugf("recv presence subscribe")
pres.Type = xmpp.PresenceTypeSubscribed
pres.To = sender
pres.From = nil
client.Send(pres)
logPres.Debugf("accept new subscribe")
pres.Type = xmpp.PresenceTypeSubscribe
pres.ID = ""
client.Send(pres)
logPres.Info("request also subscribe")
case xmpp.PresenceTypeSubscribed:
logPres.Info("recv presence accepted subscribe")
case xmpp.PresenceTypeUnsubscribe:
logPres.Info("recv presence remove subscribe")
case xmpp.PresenceTypeUnsubscribed:
logPres.Info("recv presence removed subscribe")
case xmpp.PresenceTypeUnavailable:
logPres.Debug("recv presence unavailable")
case "":
logPres.Debug("recv empty presence, maybe from joining muc")
continue
default:
logPres.Warnf("recv presence unsupported: %s -> %s", pres.Type, xmpp.XMLChildrenString(pres))
}
case *xmpp.MessageClient:
msg := element.(*xmpp.MessageClient)
from := msg.From.Bare().String()
if msg.Type == xmpp.MessageTypeGroupchat {
from = protoGroup + ":" + from
} else {
from = proto + ":" + from
}
bot.Handle(func(answer string) {
to := msg.From
if msg.Type == xmpp.MessageTypeGroupchat && !to.IsBare() {
to = to.Bare()
}
err := client.Send(&xmpp.MessageClient{
Type: msg.Type,
To: to,
Body: answer,
})
if err != nil {
logger.Error("xmpp to ", msg.From.String(), " error:", err)
}
}, from, msg.Body)
}
}
}()
for toAddr, toAddresses := range db.NotifiesByAddress {
if toAddresses.Protocol == protoGroup {
toJID := xmppbase.NewJID(toAddresses.To)
toJID.Resource = nickname
err := client.Send(&xmpp.PresenceClient{
To: toJID,
})
if err != nil {
logger.Error("xmpp could not join ", toJID.String(), " error:", err)
} else {
channels[toAddr] = true
}
}
}
logger.WithField("jid", config.JID).Info("startup")
var defaults []*database.Notify
for to, muc := range config.Defaults {
def := &database.Notify{
Protocol: proto,
To: to,
}
if muc {
def.Protocol = protoGroup
}
defaults = append(defaults, def)
}
return &Output{
channels: channels,
defaults: defaults,
client: client,
formatter: &log.TextFormatter{
DisableTimestamp: true,
},
}
}
func (out *Output) Default() []*database.Notify {
return out.defaults
}
func (out *Output) Send(e *log.Entry, to *database.Notify) bool {
textByte, err := out.formatter.Format(e)
if err != nil {
logger.Error("during format notify", err)
return false
}
text := strings.TrimRight(to.RunReplace(string(textByte)), "\n")
if to.Protocol == protoGroup {
if _, ok := out.channels[to.To]; ok {
toJID := xmppbase.NewJID(to.To)
toJID.Resource = nickname
err := out.client.Send(&xmpp.PresenceClient{
To: toJID,
})
if err != nil {
logger.Error("xmpp could not join ", toJID.String(), " error:", err)
} else {
out.channels[to.To] = true
}
}
err := out.client.Send(&xmpp.MessageClient{
Type: xmpp.MessageTypeGroupchat,
To: xmppbase.NewJID(to.To),
Body: text,
})
if err != nil {
logger.Error("xmpp to ", to.To, " error:", err)
}
return true
}
if to.Protocol == proto {
err := out.client.Send(&xmpp.MessageClient{
Type: xmpp.MessageTypeChat,
To: xmppbase.NewJID(to.To),
Body: text,
})
if err != nil {
logger.Error("xmpp to ", to, " error:", err)
}
return true
}
return false
}
func (out *Output) Close() {
for jid := range out.channels {
toJID := xmppbase.NewJID(jid)
toJID.Resource = nickname
err := out.client.Send(&xmpp.PresenceClient{
To: toJID,
Type: xmpp.PresenceTypeUnavailable,
})
if err != nil {
logger.Error("xmpp could not leave ", toJID.String(), " error:", err)
}
}
out.client.Close()
}
func init() {
output.Add(proto, Init)
}