//Package whatsapp provides a developer API to interact with the WhatsAppWeb-Servers. package whatsapp import ( "math/rand" "net/http" "net/url" "sync" "time" "github.com/gorilla/websocket" "github.com/pkg/errors" ) type metric byte const ( debugLog metric = iota + 1 queryResume queryReceipt queryMedia queryChat queryContacts queryMessages presence presenceSubscribe group read chat received pic status message queryActions block queryGroup queryPreview queryEmoji queryMessageInfo spam querySearch queryIdentity queryUrl profile contact queryVcard queryStatus queryStatusUpdate privacyStatus queryLiveLocations liveLocation queryVname queryLabels call queryCall queryQuickReplies ) type flag byte const ( ignore flag = 1 << (7 - iota) ackRequest available notAvailable expires skipOffline ) /* Conn is created by NewConn. Interacting with the initialized Conn is the main way of interacting with our package. It holds all necessary information to make the package work internally. */ type Conn struct { ws *websocketWrapper listener *listenerWrapper connected bool loggedIn bool wg *sync.WaitGroup session *Session sessionLock uint32 handler []Handler msgCount int msgTimeout time.Duration Info *Info Store *Store ServerLastSeen time.Time timeTag string // last 3 digits obtained after a successful login takeover longClientName string shortClientName string clientVersion string loginSessionLock sync.RWMutex Proxy func(*http.Request) (*url.URL, error) writerLock sync.RWMutex } type websocketWrapper struct { sync.Mutex conn *websocket.Conn close chan struct{} } type listenerWrapper struct { sync.RWMutex m map[string]chan string } /* Creates a new connection with a given timeout. The websocket connection to the WhatsAppWeb servers get´s established. The goroutine for handling incoming messages is started */ func NewConn(timeout time.Duration) (*Conn, error) { return NewConnWithOptions(&Options{ Timeout: timeout, }) } // NewConnWithProxy Create a new connect with a given timeout and a http proxy. func NewConnWithProxy(timeout time.Duration, proxy func(*http.Request) (*url.URL, error)) (*Conn, error) { return NewConnWithOptions(&Options{ Timeout: timeout, Proxy: proxy, }) } // NewConnWithOptions Create a new connect with a given options. type Options struct { Proxy func(*http.Request) (*url.URL, error) Timeout time.Duration Handler []Handler ShortClientName string LongClientName string ClientVersion string Store *Store } func NewConnWithOptions(opt *Options) (*Conn, error) { if opt == nil { return nil, ErrOptionsNotProvided } wac := &Conn{ handler: make([]Handler, 0), msgCount: 0, msgTimeout: opt.Timeout, Store: newStore(), longClientName: "github.com/Rhymen/go-whatsapp", shortClientName: "go-whatsapp", clientVersion: "0.1.0", } if opt.Handler != nil { wac.handler = opt.Handler } if opt.Store != nil { wac.Store = opt.Store } if opt.Proxy != nil { wac.Proxy = opt.Proxy } if len(opt.ShortClientName) != 0 { wac.shortClientName = opt.ShortClientName } if len(opt.LongClientName) != 0 { wac.longClientName = opt.LongClientName } if len(opt.ClientVersion) != 0 { wac.clientVersion = opt.ClientVersion } return wac, wac.connect() } // connect should be guarded with wsWriteMutex func (wac *Conn) connect() (err error) { if wac.connected { return ErrAlreadyConnected } wac.connected = true defer func() { // set connected to false on error if err != nil { wac.connected = false } }() dialer := &websocket.Dialer{ ReadBufferSize: 0, WriteBufferSize: 0, HandshakeTimeout: wac.msgTimeout, Proxy: wac.Proxy, } headers := http.Header{"Origin": []string{"https://web.whatsapp.com"}} wsConn, _, err := dialer.Dial("wss://web.whatsapp.com/ws", headers) if err != nil { return errors.Wrap(err, "couldn't dial whatsapp web websocket") } wsConn.SetCloseHandler(func(code int, text string) error { // from default CloseHandler message := websocket.FormatCloseMessage(code, "") err := wsConn.WriteControl(websocket.CloseMessage, message, time.Now().Add(time.Second)) // our close handling _, _ = wac.Disconnect() wac.handle(&ErrConnectionClosed{Code: code, Text: text}) return err }) wac.ws = &websocketWrapper{ conn: wsConn, close: make(chan struct{}), } wac.listener = &listenerWrapper{ m: make(map[string]chan string), } wac.wg = &sync.WaitGroup{} wac.wg.Add(2) go wac.readPump() go wac.keepAlive(20000, 60000) wac.loggedIn = false return nil } func (wac *Conn) Disconnect() (Session, error) { if !wac.connected { return Session{}, ErrNotConnected } wac.connected = false wac.loggedIn = false close(wac.ws.close) //signal close wac.wg.Wait() //wait for close err := wac.ws.conn.Close() wac.ws = nil if wac.session == nil { return Session{}, err } return *wac.session, err } func (wac *Conn) AdminTest() (bool, error) { if !wac.connected { return false, ErrNotConnected } if !wac.loggedIn { return false, ErrInvalidSession } result, err := wac.sendAdminTest() return result, err } func (wac *Conn) keepAlive(minIntervalMs int, maxIntervalMs int) { defer wac.wg.Done() for { err := wac.sendKeepAlive() if err != nil { wac.handle(errors.Wrap(err, "keepAlive failed")) //TODO: Consequences? } interval := rand.Intn(maxIntervalMs-minIntervalMs) + minIntervalMs select { case <-time.After(time.Duration(interval) * time.Millisecond): case <-wac.ws.close: return } } } // IsConnected returns whether the server connection is established or not func (wac *Conn) IsConnected() bool { return wac.connected } // GetConnected returns whether the server connection is established or not // // Deprecated: function name is not go idiomatic, use IsConnected instead func (wac *Conn) GetConnected() bool { return wac.connected } //IsLoggedIn returns whether the you are logged in or not func (wac *Conn) IsLoggedIn() bool { return wac.loggedIn } // GetLoggedIn returns whether the you are logged in or not // // Deprecated: function name is not go idiomatic, use IsLoggedIn instead. func (wac *Conn) GetLoggedIn() bool { return wac.loggedIn }