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mirror of https://github.com/42wim/matterbridge synced 2024-11-19 03:25:33 +00:00
matterbridge/vendor/github.com/Rhymen/go-whatsapp/handler.go

482 lines
12 KiB
Go

package whatsapp
import (
"fmt"
"os"
"strings"
"github.com/Rhymen/go-whatsapp/binary"
"github.com/Rhymen/go-whatsapp/binary/proto"
)
/*
The Handler interface is the minimal interface that needs to be implemented
to be accepted as a valid handler for our dispatching system.
The minimal handler is used to dispatch error messages. These errors occur on unexpected behavior by the websocket
connection or if we are unable to handle or interpret an incoming message. Error produced by user actions are not
dispatched through this handler. They are returned as an error on the specific function call.
*/
type Handler interface {
HandleError(err error)
}
type SyncHandler interface {
Handler
ShouldCallSynchronously() bool
}
/*
The TextMessageHandler interface needs to be implemented to receive text messages dispatched by the dispatcher.
*/
type TextMessageHandler interface {
Handler
HandleTextMessage(message TextMessage)
}
/*
The ImageMessageHandler interface needs to be implemented to receive image messages dispatched by the dispatcher.
*/
type ImageMessageHandler interface {
Handler
HandleImageMessage(message ImageMessage)
}
/*
The VideoMessageHandler interface needs to be implemented to receive video messages dispatched by the dispatcher.
*/
type VideoMessageHandler interface {
Handler
HandleVideoMessage(message VideoMessage)
}
/*
The AudioMessageHandler interface needs to be implemented to receive audio messages dispatched by the dispatcher.
*/
type AudioMessageHandler interface {
Handler
HandleAudioMessage(message AudioMessage)
}
/*
The DocumentMessageHandler interface needs to be implemented to receive document messages dispatched by the dispatcher.
*/
type DocumentMessageHandler interface {
Handler
HandleDocumentMessage(message DocumentMessage)
}
/*
The LiveLocationMessageHandler interface needs to be implemented to receive live location messages dispatched by the dispatcher.
*/
type LiveLocationMessageHandler interface {
Handler
HandleLiveLocationMessage(message LiveLocationMessage)
}
/*
The LocationMessageHandler interface needs to be implemented to receive location messages dispatched by the dispatcher.
*/
type LocationMessageHandler interface {
Handler
HandleLocationMessage(message LocationMessage)
}
/*
The StickerMessageHandler interface needs to be implemented to receive sticker messages dispatched by the dispatcher.
*/
type StickerMessageHandler interface {
Handler
HandleStickerMessage(message StickerMessage)
}
/*
The ContactMessageHandler interface needs to be implemented to receive contact messages dispatched by the dispatcher.
*/
type ContactMessageHandler interface {
Handler
HandleContactMessage(message ContactMessage)
}
/*
The ProductMessageHandler interface needs to be implemented to receive product messages dispatched by the dispatcher.
*/
type ProductMessageHandler interface {
Handler
HandleProductMessage(message ProductMessage)
}
/*
The OrderMessageHandler interface needs to be implemented to receive order messages dispatched by the dispatcher.
*/
type OrderMessageHandler interface {
Handler
HandleOrderMessage(message OrderMessage)
}
/*
The JsonMessageHandler interface needs to be implemented to receive json messages dispatched by the dispatcher.
These json messages contain status updates of every kind sent by WhatsAppWeb servers. WhatsAppWeb uses these messages
to built a Store, which is used to save these "secondary" information. These messages may contain
presence (available, last see) information, or just the battery status of your phone.
*/
type JsonMessageHandler interface {
Handler
HandleJsonMessage(message string)
}
/**
The RawMessageHandler interface needs to be implemented to receive raw messages dispatched by the dispatcher.
Raw messages are the raw protobuf structs instead of the easy-to-use structs in TextMessageHandler, ImageMessageHandler, etc..
*/
type RawMessageHandler interface {
Handler
HandleRawMessage(message *proto.WebMessageInfo)
}
/**
The ContactListHandler interface needs to be implemented to applky custom actions to contact lists dispatched by the dispatcher.
*/
type ContactListHandler interface {
Handler
HandleContactList(contacts []Contact)
}
/**
The ChatListHandler interface needs to be implemented to apply custom actions to chat lists dispatched by the dispatcher.
*/
type ChatListHandler interface {
Handler
HandleChatList(contacts []Chat)
}
/**
The BatteryMessageHandler interface needs to be implemented to receive percentage the device connected dispatched by the dispatcher.
*/
type BatteryMessageHandler interface {
Handler
HandleBatteryMessage(battery BatteryMessage)
}
/**
The NewContactHandler interface needs to be implemented to receive the contact's name for the first time.
*/
type NewContactHandler interface {
Handler
HandleNewContact(contact Contact)
}
/*
AddHandler adds an handler to the list of handler that receive dispatched messages.
The provided handler must at least implement the Handler interface. Additionally implemented
handlers(TextMessageHandler, ImageMessageHandler) are optional. At runtime it is checked if they are implemented
and they are called if so and needed.
*/
func (wac *Conn) AddHandler(handler Handler) {
wac.handler = append(wac.handler, handler)
}
// RemoveHandler removes a handler from the list of handlers that receive dispatched messages.
func (wac *Conn) RemoveHandler(handler Handler) bool {
i := -1
for k, v := range wac.handler {
if v == handler {
i = k
break
}
}
if i > -1 {
wac.handler = append(wac.handler[:i], wac.handler[i+1:]...)
return true
}
return false
}
// RemoveHandlers empties the list of handlers that receive dispatched messages.
func (wac *Conn) RemoveHandlers() {
wac.handler = make([]Handler, 0)
}
func (wac *Conn) shouldCallSynchronously(handler Handler) bool {
sh, ok := handler.(SyncHandler)
return ok && sh.ShouldCallSynchronously()
}
func (wac *Conn) handle(message interface{}) {
wac.handleWithCustomHandlers(message, wac.handler)
}
func (wac *Conn) handleWithCustomHandlers(message interface{}, handlers []Handler) {
switch m := message.(type) {
case error:
for _, h := range handlers {
if wac.shouldCallSynchronously(h) {
h.HandleError(m)
} else {
go h.HandleError(m)
}
}
case string:
for _, h := range handlers {
if x, ok := h.(JsonMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleJsonMessage(m)
} else {
go x.HandleJsonMessage(m)
}
}
}
case TextMessage:
for _, h := range handlers {
if x, ok := h.(TextMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleTextMessage(m)
} else {
go x.HandleTextMessage(m)
}
}
}
case ImageMessage:
for _, h := range handlers {
if x, ok := h.(ImageMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleImageMessage(m)
} else {
go x.HandleImageMessage(m)
}
}
}
case VideoMessage:
for _, h := range handlers {
if x, ok := h.(VideoMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleVideoMessage(m)
} else {
go x.HandleVideoMessage(m)
}
}
}
case AudioMessage:
for _, h := range handlers {
if x, ok := h.(AudioMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleAudioMessage(m)
} else {
go x.HandleAudioMessage(m)
}
}
}
case DocumentMessage:
for _, h := range handlers {
if x, ok := h.(DocumentMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleDocumentMessage(m)
} else {
go x.HandleDocumentMessage(m)
}
}
}
case LocationMessage:
for _, h := range handlers {
if x, ok := h.(LocationMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleLocationMessage(m)
} else {
go x.HandleLocationMessage(m)
}
}
}
case LiveLocationMessage:
for _, h := range handlers {
if x, ok := h.(LiveLocationMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleLiveLocationMessage(m)
} else {
go x.HandleLiveLocationMessage(m)
}
}
}
case StickerMessage:
for _, h := range handlers {
if x, ok := h.(StickerMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleStickerMessage(m)
} else {
go x.HandleStickerMessage(m)
}
}
}
case ContactMessage:
for _, h := range handlers {
if x, ok := h.(ContactMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleContactMessage(m)
} else {
go x.HandleContactMessage(m)
}
}
}
case BatteryMessage:
for _, h := range handlers {
if x, ok := h.(BatteryMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleBatteryMessage(m)
} else {
go x.HandleBatteryMessage(m)
}
}
}
case Contact:
for _, h := range handlers {
if x, ok := h.(NewContactHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleNewContact(m)
} else {
go x.HandleNewContact(m)
}
}
}
case ProductMessage:
for _, h := range handlers {
if x, ok := h.(ProductMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleProductMessage(m)
} else {
go x.HandleProductMessage(m)
}
}
}
case OrderMessage:
for _, h := range handlers {
if x, ok := h.(OrderMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleOrderMessage(m)
} else {
go x.HandleOrderMessage(m)
}
}
}
case *proto.WebMessageInfo:
for _, h := range handlers {
if x, ok := h.(RawMessageHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleRawMessage(m)
} else {
go x.HandleRawMessage(m)
}
}
}
}
}
func (wac *Conn) handleContacts(contacts interface{}) {
var contactList []Contact
c, ok := contacts.([]interface{})
if !ok {
return
}
for _, contact := range c {
contactNode, ok := contact.(binary.Node)
if !ok {
continue
}
jid := strings.Replace(contactNode.Attributes["jid"], "@c.us", "@s.whatsapp.net", 1)
contactList = append(contactList, Contact{
jid,
contactNode.Attributes["notify"],
contactNode.Attributes["name"],
contactNode.Attributes["short"],
})
}
for _, h := range wac.handler {
if x, ok := h.(ContactListHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleContactList(contactList)
} else {
go x.HandleContactList(contactList)
}
}
}
}
func (wac *Conn) handleChats(chats interface{}) {
var chatList []Chat
c, ok := chats.([]interface{})
if !ok {
return
}
for _, chat := range c {
chatNode, ok := chat.(binary.Node)
if !ok {
continue
}
jid := strings.Replace(chatNode.Attributes["jid"], "@c.us", "@s.whatsapp.net", 1)
chatList = append(chatList, Chat{
jid,
chatNode.Attributes["name"],
chatNode.Attributes["count"],
chatNode.Attributes["t"],
chatNode.Attributes["mute"],
chatNode.Attributes["spam"],
})
}
for _, h := range wac.handler {
if x, ok := h.(ChatListHandler); ok {
if wac.shouldCallSynchronously(h) {
x.HandleChatList(chatList)
} else {
go x.HandleChatList(chatList)
}
}
}
}
func (wac *Conn) dispatch(msg interface{}) {
if msg == nil {
return
}
switch message := msg.(type) {
case *binary.Node:
if message.Description == "action" {
if con, ok := message.Content.([]interface{}); ok {
for a := range con {
if v, ok := con[a].(*proto.WebMessageInfo); ok {
wac.handle(v)
wac.handle(ParseProtoMessage(v))
}
if v, ok := con[a].(binary.Node); ok {
wac.handle(ParseNodeMessage(v))
}
}
} else if con, ok := message.Content.([]binary.Node); ok {
for a := range con {
wac.handle(ParseNodeMessage(con[a]))
}
}
} else if message.Description == "response" && message.Attributes["type"] == "contacts" {
wac.updateContacts(message.Content)
wac.handleContacts(message.Content)
} else if message.Description == "response" && message.Attributes["type"] == "chat" {
wac.updateChats(message.Content)
wac.handleChats(message.Content)
}
case error:
wac.handle(message)
case string:
wac.handle(message)
default:
fmt.Fprintf(os.Stderr, "unknown type in dipatcher chan: %T", msg)
}
}