blob: 9640458d10554f29cee445e433cbd11cf66da472 [file] [log] [blame]
/*
* Copyright 2018-present Open Networking Foundation
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package core
import (
"github.com/opencord/voltha-protos/go/tech_profile"
"net"
"github.com/google/gopacket"
"github.com/google/gopacket/layers"
omci "github.com/opencord/omci-sim"
"github.com/opencord/voltha-bbsim/common/logger"
"github.com/opencord/voltha-bbsim/device"
flowHandler "github.com/opencord/voltha-bbsim/flow"
openolt "github.com/opencord/voltha-protos/go/openolt"
log "github.com/sirupsen/logrus"
"golang.org/x/net/context"
"google.golang.org/grpc"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
)
// DisableOlt method sends OLT down indication
func (s *Server) DisableOlt(c context.Context, empty *openolt.Empty) (*openolt.Empty, error) {
logger.Debug("OLT receives DisableOLT()")
err := flowHandler.PortDown(0)
if err != nil {
logger.Error("Failed in port down %v", err)
}
if s.EnableServer != nil {
if err := sendOltIndDown(*s.EnableServer); err != nil {
return new(openolt.Empty), err
}
logger.Debug("Successfuly sent OLT DOWN indication")
}
return new(openolt.Empty), nil
}
// ReenableOlt method sends OLT up indication for re-enabling OLT
func (s *Server) ReenableOlt(c context.Context, empty *openolt.Empty) (*openolt.Empty, error) {
logger.Debug("OLT receives Reenable()")
err := flowHandler.PortUp(0)
if err != nil {
logger.Error("Failed in port up %v", err)
}
if s.EnableServer != nil {
if err := sendOltIndUp(*s.EnableServer, s.Olt); err != nil {
logger.Error("Failed to send OLT UP indication for reenable OLT: %v", err)
return new(openolt.Empty), err
}
logger.Debug("Successfuly sent OLT UP indication")
}
return new(openolt.Empty), nil
}
// CollectStatistics method invoked by VOLTHA to get OLT statistics
func (s *Server) CollectStatistics(c context.Context, empty *openolt.Empty) (*openolt.Empty, error) {
logger.Debug("OLT receives CollectStatistics()")
return new(openolt.Empty), nil
}
// GetDeviceInfo returns OLT info
func (s *Server) GetDeviceInfo(c context.Context, empty *openolt.Empty) (*openolt.DeviceInfo, error) {
logger.Debug("OLT receives GetDeviceInfo()")
devinfo := new(openolt.DeviceInfo)
devinfo.Vendor = "EdgeCore"
devinfo.Model = "asfvolt16"
devinfo.HardwareVersion = ""
devinfo.FirmwareVersion = ""
devinfo.Technology = "xgspon"
devinfo.PonPorts = 16
devinfo.OnuIdStart = 1
devinfo.OnuIdEnd = 255
devinfo.AllocIdStart = 1024
devinfo.AllocIdEnd = 16383
devinfo.GemportIdStart = 1024
devinfo.GemportIdEnd = 65535
devinfo.FlowIdStart = 1
devinfo.FlowIdEnd = 16383
devinfo.DeviceSerialNumber = s.Olt.SerialNumber
return devinfo, nil
}
// ActivateOnu method handles ONU activation request from VOLTHA
func (s *Server) ActivateOnu(c context.Context, onu *openolt.Onu) (*openolt.Empty, error) {
logger.Debug("OLT receives ActivateONU()")
matched, exist := s.getOnuFromSNmap(onu.SerialNumber)
if !exist {
logger.Fatal("ONU not found with serial nnumber %v", onu.SerialNumber)
return new(openolt.Empty), status.Errorf(codes.NotFound, "ONU not found with serial number %v", onu.SerialNumber)
}
onuid := onu.OnuId
matched.OnuID = onuid
s.updateDevIntState(matched, device.ONU_ACTIVE)
logger.Debug("ONU IntfID: %d OnuID: %d activated succesufully.", onu.IntfId, onu.OnuId)
if err := sendOnuInd(*s.EnableServer, matched, "up", "up"); err != nil {
logger.Error("Failed to send ONU Indication intfID %d, onuID %d", matched.IntfID, matched.OnuID)
return new(openolt.Empty), err
}
return new(openolt.Empty), nil
}
// CreateTrafficSchedulers method should handle TrafficScheduler creation
func (s *Server) CreateTrafficSchedulers(context.Context, *tech_profile.TrafficSchedulers) (*openolt.Empty, error) {
logger.Debug("OLT receives CreateTrafficSchedulers()")
return new(openolt.Empty), nil
}
// RemoveTrafficSchedulers method should handle TrafficScheduler removal
func (s *Server) RemoveTrafficSchedulers(context.Context, *tech_profile.TrafficSchedulers) (*openolt.Empty, error) {
logger.Debug("OLT receives RemoveTrafficSchedulers()")
return new(openolt.Empty), nil
}
// CreateTrafficQueues method should handle TrafficQueues creation
func (s *Server) CreateTrafficQueues(context.Context, *tech_profile.TrafficQueues) (*openolt.Empty, error) {
logger.Debug("OLT receives CreateTrafficQueues()")
return new(openolt.Empty), nil
}
// RemoveTrafficQueues method should handle TrafficQueues removal
func (s *Server) RemoveTrafficQueues(context.Context, *tech_profile.TrafficQueues) (*openolt.Empty, error) {
logger.Debug("OLT receives RemoveTrafficQueues()")
return new(openolt.Empty), nil
}
// DeactivateOnu method should handle ONU deactivation
func (s *Server) DeactivateOnu(c context.Context, onu *openolt.Onu) (*openolt.Empty, error) {
logger.Debug("OLT receives DeactivateONU()")
return new(openolt.Empty), nil
}
// DeleteOnu handles ONU deletion request from VOLTHA
func (s *Server) DeleteOnu(c context.Context, onu *openolt.Onu) (*openolt.Empty, error) {
logger.Debug("OLT receives DeleteONU() intfID: %d, onuID: %d", onu.IntfId, onu.OnuId)
Onu, err := s.GetOnuByID(onu.OnuId, onu.IntfId)
if err != nil {
return new(openolt.Empty), err
}
// Mark ONU internal state as ONU_FREE and reset onuID
Onu.InternalState = device.ONU_FREE
Onu.OnuID = 0
// Get snMap key for the ONU serial number
snkey := stringifySerialNumber(Onu.SerialNumber)
// Delete Serial number entry from SNmap
logger.Info("Deleting serial number %s from SNmap", snkey)
s.SNmap.Delete(snkey)
return new(openolt.Empty), nil
}
func (s *Server) GetOnuInfo(c context.Context, onu *openolt.Onu) (*openolt.OnuIndication, error) {
logger.Debug("Olt receives GetOnuInfo() intfID: %d, onuID: %d", onu.IntfId, onu.OnuId)
Onu, err := s.GetOnuByID(onu.OnuId, onu.IntfId)
if err != nil {
logger.Error("ONU not found intfID %d, onuID %d", onu.IntfId, onu.OnuId)
return new(openolt.OnuIndication), err
}
onuIndication := new(openolt.OnuIndication)
onuIndication.IntfId = Onu.IntfID
onuIndication.OnuId = Onu.OnuID
onuIndication.OperState = Onu.OperState
return onuIndication, nil
}
// OmciMsgOut receives OMCI messages from voltha
func (s *Server) OmciMsgOut(c context.Context, msg *openolt.OmciMsg) (*openolt.Empty, error) {
logger.Debug("OLT %d receives OmciMsgOut to IF %v (ONU-ID: %v) pkt:%x.", s.Olt.ID, msg.IntfId, msg.OnuId, msg.Pkt)
// Get ONU state
onu, err := s.GetOnuByID(msg.OnuId, msg.IntfId)
if err != nil {
logger.Error("ONU not found intfID %d, onuID %d", msg.IntfId, msg.OnuId)
return new(openolt.Empty), err
}
state := onu.GetIntState()
logger.Debug("ONU-ID: %v, ONU state: %d", msg.OnuId, state)
// If ONU is ONU_INACTIVE, ONU_FREE or ONU_OMCI_CHANNEL_LOS_RAISED drop
if state != device.ONU_ACTIVE && state != device.ONU_OMCIACTIVE {
logger.Info("ONU (IF %v ONU-ID: %v) is not ACTIVE, so not processing OmciMsg", msg.IntfId, msg.OnuId)
return new(openolt.Empty), nil
}
s.omciOut <- *msg
return new(openolt.Empty), nil
}
func (s *Server) OnuPacketOut(c context.Context, packet *openolt.OnuPacket) (*openolt.Empty, error) {
onu, err := s.GetOnuByID(packet.OnuId, packet.IntfId)
if err != nil {
logger.Error("Failed in OnuPacketOut, %v", err)
return new(openolt.Empty), err
}
device.LoggerWithOnu(onu).Debugf("OLT %d receives OnuPacketOut () to IF-ID:%d ONU-ID %d.", s.Olt.ID, packet.IntfId, packet.OnuId)
onuid := packet.OnuId
intfid := packet.IntfId
rawpkt := gopacket.NewPacket(packet.Pkt, layers.LayerTypeEthernet, gopacket.Default)
if err := s.onuPacketOut(intfid, onuid, rawpkt); err != nil {
device.LoggerWithOnu(onu).WithField("error", err).Errorf("OnuPacketOut Error ")
return new(openolt.Empty), err
}
return new(openolt.Empty), nil
}
func (s *Server) UplinkPacketOut(c context.Context, packet *openolt.UplinkPacket) (*openolt.Empty, error) {
logger.Debug("OLT %d receives UplinkPacketOut().", s.Olt.ID)
rawpkt := gopacket.NewPacket(packet.Pkt, layers.LayerTypeEthernet, gopacket.Default)
if err := s.uplinkPacketOut(rawpkt); err != nil {
return new(openolt.Empty), err
}
return new(openolt.Empty), nil
}
// FlowAdd method should handle flows addition to datapath for OLT and ONU
func (s *Server) FlowAdd(c context.Context, flow *openolt.Flow) (*openolt.Empty, error) {
logger.Debug("OLT %d receives FlowAdd() %v", s.Olt.ID, flow)
// Check if flow already present
flowKey := FlowKey{
FlowID: flow.FlowId,
FlowDirection: flow.FlowType,
}
if _, exist := s.FlowMap[flowKey]; exist {
logger.Error("Flow already exists %v", flow)
return new(openolt.Empty), status.Errorf(codes.AlreadyExists, "Flow already exists")
}
// Send flow to flowHandler
err := flowHandler.AddFlow(flow)
if err != nil {
logger.Error("Error in pushing flow to datapath")
return new(openolt.Empty), err
}
// Update flowMap
s.FlowMap[flowKey] = flow
onu, err := s.GetOnuByID(uint32(flow.OnuId), uint32(flow.AccessIntfId))
if err == nil {
onu.GemportID = uint16(flow.GemportId)
device.LoggerWithOnu(onu).WithFields(log.Fields{
"olt": s.Olt.ID,
"c_tag": flow.Action.IVid,
}).Debug("OLT receives FlowAdd().")
// EAPOL flow
if flow.Classifier.EthType == uint32(layers.EthernetTypeEAPOL) {
logger.WithFields(log.Fields{
"Classifier.OVid": flow.Classifier.OVid,
"Classifier.IVid": flow.Classifier.IVid,
"Classifier.EthType": flow.Classifier.EthType,
"Classifier.SrcPort": flow.Classifier.SrcPort,
"Classifier.DstPort": flow.Classifier.DstPort,
"Action.OVid": flow.Action.OVid,
"Action.IVid": flow.Action.IVid,
"IntfID": flow.AccessIntfId,
"OltID": s.Olt.ID,
"OnuID": flow.OnuId,
"FlowId": flow.FlowId,
"UniID": flow.UniId,
"PortNo": flow.PortNo,
"FlowType": flow.FlowType,
}).Debug("OLT receives EAPOL flow")
if flow.Classifier.OVid == 4091 {
omcistate := omci.GetOnuOmciState(onu.IntfID, onu.OnuID)
if omcistate != omci.DONE {
logger.Warn("FlowAdd() OMCI state %d is not \"DONE\"", omci.GetOnuOmciState(onu.OnuID, onu.IntfID))
}
_ = s.updateOnuIntState(onu.IntfID, onu.OnuID, device.ONU_OMCIACTIVE)
}
}
// DHCP flow
if flow.Classifier.EthType == uint32(layers.EthernetTypeIPv4) {
logger.Debug("Received flow's srcPort:%d dstPort:%d", flow.Classifier.SrcPort, flow.Classifier.DstPort)
if flow.Classifier.SrcPort == uint32(68) && flow.Classifier.DstPort == uint32(67) {
logger.Debug("OLT %d receives DHCP flow IntfID:%d OnuID:%d EType:%x GemPortID:%d VLanIDs: %d/%d",
s.Olt.ID, flow.AccessIntfId, flow.OnuId, flow.Classifier.EthType, flow.GemportId, flow.Classifier.OVid, flow.Classifier.IVid)
omcistate := omci.GetOnuOmciState(onu.IntfID, onu.OnuID)
if omcistate != omci.DONE {
logger.Warn("FlowAdd() OMCI state %d is not \"DONE\"", omci.GetOnuOmciState(onu.OnuID, onu.IntfID))
}
_ = s.updateOnuIntState(onu.IntfID, onu.OnuID, device.ONU_AUTHENTICATED)
}
}
// Update flow ID in ONU object
onu.FlowIDs = append(onu.FlowIDs, flow.FlowId)
}
return new(openolt.Empty), nil
}
// FlowRemove handles flow deletion from datapath
func (s *Server) FlowRemove(c context.Context, flow *openolt.Flow) (*openolt.Empty, error) {
logger.Debug("OLT %d receives FlowRemove(): %v", s.Olt.ID, flow)
// Check if flow exists
flowKey := FlowKey{
FlowID: flow.FlowId,
FlowDirection: flow.FlowType,
}
if _, exist := s.FlowMap[flowKey]; !exist {
logger.Error("Flow %v not found", flow)
return new(openolt.Empty), status.Errorf(codes.NotFound, "Flow not found")
}
flow = s.FlowMap[flowKey]
// Send delete flow to flowHandler
err := flowHandler.DeleteFlow(flow)
if err != nil {
return new(openolt.Empty), err
}
onu, err := s.GetOnuByID(uint32(flow.OnuId), uint32(flow.AccessIntfId))
if err != nil {
logger.Warn("Failed flow remove %v", err)
} else {
// Delete flowID from onu
onu.DeleteFlowID(flow.FlowId)
device.LoggerWithOnu(onu).WithFields(log.Fields{
"olt": s.Olt.ID,
"c_tag": flow.Action.IVid,
}).Debug("OLT receives FlowRemove().")
logger.Debug("Flows %v in ONU %d", onu.FlowIDs, onu.OnuID)
}
// Delete flow from flowMap
delete(s.FlowMap, flowKey)
return new(openolt.Empty), nil
}
func (s *Server) HeartbeatCheck(c context.Context, empty *openolt.Empty) (*openolt.Heartbeat, error) {
logger.Debug("OLT %d receives HeartbeatCheck().", s.Olt.ID)
signature := new(openolt.Heartbeat)
signature.HeartbeatSignature = s.Olt.HeartbeatSignature
return signature, nil
}
func (s *Server) EnablePonIf(c context.Context, intf *openolt.Interface) (*openolt.Empty, error) {
logger.Debug("OLT %d receives EnablePonIf().", s.Olt.ID)
return new(openolt.Empty), nil
}
func (s *Server) GetPonIf(c context.Context, intf *openolt.Interface) (*openolt.IntfIndication, error) {
logger.Debug("OLT %d receives GetPonIf().", s.Olt.ID)
stat := new(openolt.IntfIndication)
if intf.IntfId > (s.Olt.NumPonIntf - 1) {
logger.Error("PON ID %d out of bounds. %d ports total", intf.IntfId, s.Olt.NumPonIntf)
return stat, status.Errorf(codes.OutOfRange, "PON ID %d out of bounds. %d ports total (indexing starts at 0)", intf.IntfId, s.Olt.NumPonIntf)
}
stat.IntfId = intf.IntfId
stat.OperState = s.Olt.PonIntfs[intf.IntfId].OperState
return stat, nil
}
func (s *Server) DisablePonIf(c context.Context, intf *openolt.Interface) (*openolt.Empty, error) {
logger.Debug("OLT %d receives DisablePonIf().", s.Olt.ID)
return new(openolt.Empty), nil
}
// Reboot method handles reboot of OLT
func (s *Server) Reboot(c context.Context, empty *openolt.Empty) (*openolt.Empty, error) {
logger.Debug("OLT %d receives Reboot ().", s.Olt.ID)
// Initialize OLT & Env
logger.Debug("Initialized by Reboot")
s.handleOLTReboot()
return new(openolt.Empty), nil
}
// EnableIndication starts sending indications for OLT and ONU
func (s *Server) EnableIndication(empty *openolt.Empty, stream openolt.Openolt_EnableIndicationServer) error {
logger.Debug("OLT receives EnableInd.")
defer func() {
logger.Debug("grpc EnableIndication Done")
}()
if err := s.Enable(&stream); err != nil {
logger.Error("Failed to Enable Core: %v", err)
return err
}
return nil
}
// NewGrpcServer starts openolt gRPC server
func NewGrpcServer(addrport string) (l net.Listener, g *grpc.Server, e error) {
logger.Debug("OpenOLT gRPC server listening %s ...", addrport)
g = grpc.NewServer()
l, e = net.Listen("tcp", addrport)
return
}