Example #1
0
// errorCEA sends an error answer indicating that the CER failed due to
// an unsupported (acct/auth) application, and includes the AVP that
// caused the failure in the message.
func errorCEA(sm *StateMachine, c diam.Conn, m *diam.Message, cer *smparser.CER, failedAVP *diam.AVP) error {
	hostIP, _, err := net.SplitHostPort(c.LocalAddr().String())
	if err != nil {
		return fmt.Errorf("failed to parse own ip %q: %s", c.LocalAddr(), err)
	}
	var a *diam.Message
	if failedAVP == cer.InbandSecurityID {
		a = m.Answer(diam.NoCommonSecurity)
	} else {
		a = m.Answer(diam.NoCommonApplication)
	}
	a.Header.CommandFlags |= diam.ErrorFlag
	a.NewAVP(avp.OriginHost, avp.Mbit, 0, sm.cfg.OriginHost)
	a.NewAVP(avp.OriginRealm, avp.Mbit, 0, sm.cfg.OriginRealm)
	a.NewAVP(avp.HostIPAddress, avp.Mbit, 0, datatype.Address(net.ParseIP(hostIP)))
	a.NewAVP(avp.VendorID, avp.Mbit, 0, sm.cfg.VendorID)
	a.NewAVP(avp.ProductName, 0, 0, sm.cfg.ProductName)
	if cer.OriginStateID != nil {
		a.AddAVP(cer.OriginStateID)
	}
	a.NewAVP(avp.FailedAVP, avp.Mbit, 0, &diam.GroupedAVP{
		AVP: []*diam.AVP{failedAVP},
	})
	if sm.cfg.FirmwareRevision != 0 {
		a.NewAVP(avp.FirmwareRevision, avp.Mbit, 0, sm.cfg.FirmwareRevision)
	}
	_, err = a.WriteTo(c)
	return err
}
Example #2
0
func sendACR(c diam.Conn, cfg *sm.Settings, n int) {
	// Get this client's metadata from the connection object,
	// which is set by the state machine after the handshake.
	// It contains the peer's Origin-Host and Realm from the
	// CER/CEA handshake. We use it to populate the AVPs below.
	meta, ok := smpeer.FromContext(c.Context())
	if !ok {
		log.Fatal("Client connection does not contain metadata")
	}
	var err error
	var m *diam.Message
	for i := 0; i < n; i++ {
		m = diam.NewRequest(diam.Accounting, 0, c.Dictionary())
		m.NewAVP(avp.SessionID, avp.Mbit, 0,
			datatype.UTF8String(strconv.Itoa(i)))
		m.NewAVP(avp.OriginHost, avp.Mbit, 0, cfg.OriginHost)
		m.NewAVP(avp.OriginRealm, avp.Mbit, 0, cfg.OriginRealm)
		m.NewAVP(avp.DestinationRealm, avp.Mbit, 0, meta.OriginRealm)
		m.NewAVP(avp.AccountingRecordType, avp.Mbit, 0, eventRecord)
		m.NewAVP(avp.AccountingRecordNumber, avp.Mbit, 0,
			datatype.Unsigned32(i))
		m.NewAVP(avp.DestinationHost, avp.Mbit, 0, meta.OriginHost)
		if _, err = m.WriteTo(c); err != nil {
			log.Fatal(err)
		}
	}
}
Example #3
0
// successCEA sends a success answer indicating that the CER was successfuly
// parsed and accepted by the server.
func successCEA(sm *StateMachine, c diam.Conn, m *diam.Message, cer *smparser.CER) error {
	hostIP, _, err := net.SplitHostPort(c.LocalAddr().String())
	if err != nil {
		return fmt.Errorf("failed to parse own ip %q: %s", c.LocalAddr(), err)
	}
	a := m.Answer(diam.Success)
	a.NewAVP(avp.OriginHost, avp.Mbit, 0, sm.cfg.OriginHost)
	a.NewAVP(avp.OriginRealm, avp.Mbit, 0, sm.cfg.OriginRealm)
	a.NewAVP(avp.HostIPAddress, avp.Mbit, 0, datatype.Address(net.ParseIP(hostIP)))
	a.NewAVP(avp.VendorID, avp.Mbit, 0, sm.cfg.VendorID)
	a.NewAVP(avp.ProductName, 0, 0, sm.cfg.ProductName)
	if cer.OriginStateID != nil {
		a.AddAVP(cer.OriginStateID)
	}
	if cer.AcctApplicationID != nil {
		for _, acct := range cer.AcctApplicationID {
			a.AddAVP(acct)
		}
	}
	if cer.AuthApplicationID != nil {
		for _, auth := range cer.AuthApplicationID {
			a.AddAVP(auth)
		}
	}
	if cer.VendorSpecificApplicationID != nil {
		for _, vs := range cer.VendorSpecificApplicationID {
			a.AddAVP(vs)
		}
	}
	if sm.cfg.FirmwareRevision != 0 {
		a.NewAVP(avp.FirmwareRevision, avp.Mbit, 0, sm.cfg.FirmwareRevision)
	}
	_, err = a.WriteTo(c)
	return err
}
Example #4
0
func (cli *Client) handshake(c diam.Conn) (diam.Conn, error) {
	ip, _, err := net.SplitHostPort(c.LocalAddr().String())
	if err != nil {
		return nil, err
	}
	m := cli.makeCER(net.ParseIP(ip))
	// Ignore CER, but not DWR.
	cli.Handler.mux.HandleFunc("CER", func(c diam.Conn, m *diam.Message) {})
	// Handle CEA and DWA.
	errc := make(chan error)
	dwac := make(chan struct{})
	cli.Handler.mux.Handle("CEA", handleCEA(cli.Handler, errc))
	cli.Handler.mux.Handle("DWA", handshakeOK(handleDWA(cli.Handler, dwac)))
	for i := 0; i < (int(cli.MaxRetransmits) + 1); i++ {
		_, err := m.WriteTo(c)
		if err != nil {
			return nil, err
		}
		select {
		case err := <-errc: // Wait for CEA.
			if err != nil {
				close(errc)
				return nil, err
			}
			if cli.EnableWatchdog {
				go cli.watchdog(c, dwac)
			}
			return c, nil
		case <-time.After(cli.RetransmitInterval):
		}
	}
	c.Close()
	return nil, ErrHandshakeTimeout
}
Example #5
0
func (cli *Client) dwr(c diam.Conn, osid uint32, dwac chan struct{}) {
	m := cli.makeDWR(osid)
	for i := 0; i < (int(cli.MaxRetransmits) + 1); i++ {
		_, err := m.WriteTo(c)
		if err != nil {
			return
		}
		select {
		case <-dwac:
			return
		case <-time.After(cli.RetransmitInterval):
		}
	}
	// Watchdog failed, disconnect.
	c.Close()
}
Example #6
0
func sendHMR(c diam.Conn, cfg *sm.Settings) error {
	// Get this client's metadata from the connection object,
	// which is set by the state machine after the handshake.
	// It contains the peer's Origin-Host and Realm from the
	// CER/CEA handshake. We use it to populate the AVPs below.
	meta, ok := smpeer.FromContext(c.Context())
	if !ok {
		return errors.New("peer metadata unavailable")
	}
	sid := "session;" + strconv.Itoa(int(rand.Uint32()))
	m := diam.NewRequest(helloMessage, helloApplication, nil)
	m.NewAVP(avp.SessionID, avp.Mbit, 0, datatype.UTF8String(sid))
	m.NewAVP(avp.OriginHost, avp.Mbit, 0, cfg.OriginHost)
	m.NewAVP(avp.OriginRealm, avp.Mbit, 0, cfg.OriginRealm)
	m.NewAVP(avp.DestinationRealm, avp.Mbit, 0, meta.OriginRealm)
	m.NewAVP(avp.DestinationHost, avp.Mbit, 0, meta.OriginHost)
	m.NewAVP(avp.UserName, avp.Mbit, 0, datatype.UTF8String("foobar"))
	log.Printf("Sending HMR to %s\n%s", c.RemoteAddr(), m)
	_, err := m.WriteTo(c)
	return err
}
Example #7
0
// GetBridge returns the Bridge object for a given client, if it exists.
// Otherwise GetBridge connects to the upstream server and set up the
// bridge with the client, returning the newly created Bridge object.
func GetBridge(c diam.Conn) *Bridge {
	liveMu.RLock()
	if b, ok := liveBridge[c.RemoteAddr().String()]; ok {
		liveMu.RUnlock()
		return b
	}
	liveMu.RUnlock()
	liveMu.Lock()
	defer liveMu.Unlock()
	b := &Bridge{
		Client: make(chan *diam.Message),
		Server: make(chan *diam.Message),
	}
	liveBridge[c.RemoteAddr().String()] = b
	// Prepare for the upstream connection.
	mux := diam.NewServeMux()
	mux.HandleFunc("ALL", func(c diam.Conn, m *diam.Message) {
		// Forward incoming messages to the client.
		b.Client <- m
	})
	// Connect to upstream server.
	s, err := diam.Dial(upstreamAddr, mux, nil)
	if err != nil {
		return nil
	}
	log.Printf("Creating bridge from %s to %s",
		c.RemoteAddr().String(), s.RemoteAddr().String())
	go Pump(c, s, b.Client, b.Server)
	go Pump(s, c, b.Server, b.Client)
	return b
}
Example #8
0
func (self *DiameterAgent) handleALL(c diam.Conn, m *diam.Message) {
	utils.Logger.Warning(fmt.Sprintf("<DiameterAgent> Received unexpected message from %s:\n%s", c.RemoteAddr(), m))
}
Example #9
0
func (self *DiameterAgent) handleCCR(c diam.Conn, m *diam.Message) {
	ccr, err := NewCCRFromDiameterMessage(m, self.cgrCfg.DiameterAgentCfg().DebitInterval)
	if err != nil {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> Unmarshaling message: %s, error: %s", m, err))
		return
	}
	var cca *CCA // For now we simply overload in loop, maybe we will find some other use of this
	for _, reqProcessor := range self.cgrCfg.DiameterAgentCfg().RequestProcessors {
		cca = self.processCCR(ccr, reqProcessor)
		if cca != nil && !reqProcessor.ContinueOnSuccess {
			break
		}
	}
	if cca == nil {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> No request processor enabled for CCR: %s, ignoring request", ccr.diamMessage))
		return
	}
	if _, err := cca.AsDiameterMessage().WriteTo(c); err != nil {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> Failed to write message to %s: %s\n%s\n", c.RemoteAddr(), err, cca.AsDiameterMessage()))
		return
	}
}
Example #10
0
func (self *DiameterAgent) handlerCCR(c diam.Conn, m *diam.Message) {
	ccr, err := NewCCRFromDiameterMessage(m, self.cgrCfg.DiameterAgentCfg().DebitInterval)
	if err != nil {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> Unmarshaling message: %s, error: %s", m, err))
		return
	}
	cca := NewBareCCAFromCCR(ccr, self.cgrCfg.DiameterAgentCfg().OriginHost, self.cgrCfg.DiameterAgentCfg().OriginRealm)
	var processed, lclProcessed bool
	processorVars := make(map[string]string) // Shared between processors
	for _, reqProcessor := range self.cgrCfg.DiameterAgentCfg().RequestProcessors {
		lclProcessed, err = self.processCCR(ccr, reqProcessor, processorVars, cca)
		if lclProcessed { // Process local so we don't overwrite globally
			processed = lclProcessed
		}
		if err != nil || (lclProcessed && !reqProcessor.ContinueOnSuccess) {
			break
		}
	}
	if err != nil && err != ErrDiameterRatingFailed {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> CCA SetProcessorAVPs for message: %+v, error: %s", ccr.diamMessage, err))
		return
	} else if !processed {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> No request processor enabled for CCR: %s, ignoring request", ccr.diamMessage))
		return
	}
	self.connMux.Lock()
	defer self.connMux.Unlock()
	if _, err := cca.AsDiameterMessage().WriteTo(c); err != nil {
		utils.Logger.Err(fmt.Sprintf("<DiameterAgent> Failed to write message to %s: %s\n%s\n", c.RemoteAddr(), err, cca.AsDiameterMessage()))
		return
	}
}
Example #11
0
// ServeDIAM implements the diam.Handler interface.
func (f handshakeOK) ServeDIAM(c diam.Conn, m *diam.Message) {
	if _, ok := smpeer.FromContext(c.Context()); ok {
		f(c, m)
	}
}
Example #12
0
// Pump messages from one side to the other.
func Pump(src, dst diam.Conn, srcChan, dstChan chan *diam.Message) {
	for {
		select {
		case m := <-srcChan:
			if m == nil {
				src.Close()
				return
			}
			log.Printf(
				"Message from %s to %s\n%s",
				src.RemoteAddr().String(),
				dst.RemoteAddr().String(),
				m,
			)
			if _, err := m.WriteTo(src); err != nil {
				src.Close() // triggers the case below
			}
		case <-src.(diam.CloseNotifier).CloseNotify():
			liveMu.Lock()
			defer liveMu.Unlock()
			if _, ok := liveBridge[src.RemoteAddr().String()]; ok {
				delete(liveBridge, src.RemoteAddr().String())
				log.Printf(
					"Destroying bridge from %s to %s",
					src.RemoteAddr().String(),
					dst.RemoteAddr().String(),
				)
			} else {
				delete(liveBridge, dst.RemoteAddr().String())
				log.Printf(
					"Destroying bridge from %s to %s",
					dst.RemoteAddr().String(),
					src.RemoteAddr().String(),
				)
			}
			src.Close()
			dstChan <- nil
			return
		}
	}
}
Example #13
0
func handleALL(c diam.Conn, m *diam.Message) {
	log.Printf("Received unexpected message from %s:\n%s", c.RemoteAddr(), m)
}