| /* |
| * Copyright 2022-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 application |
| |
| import ( |
| "context" |
| "encoding/hex" |
| "encoding/json" |
| "errors" |
| "fmt" |
| "net" |
| "strconv" |
| "strings" |
| "sync" |
| "time" |
| |
| "github.com/google/gopacket" |
| "github.com/google/gopacket/layers" |
| |
| "voltha-go-controller/database" |
| "voltha-go-controller/internal/pkg/controller" |
| cntlr "voltha-go-controller/internal/pkg/controller" |
| errorCodes "voltha-go-controller/internal/pkg/errorcodes" |
| "voltha-go-controller/internal/pkg/intf" |
| "voltha-go-controller/internal/pkg/of" |
| "voltha-go-controller/internal/pkg/tasks" |
| "voltha-go-controller/internal/pkg/util" |
| "voltha-go-controller/log" |
| ) |
| |
| var logger log.CLogger |
| var ctx = context.TODO() |
| |
| func init() { |
| // Setup this package so that it's log level can be modified at run time |
| var err error |
| logger, err = log.AddPackageWithDefaultParam() |
| if err != nil { |
| panic(err) |
| } |
| } |
| |
| const ( |
| // TODO - Need to identify a right place for this |
| |
| // PriorityNone constant. |
| PriorityNone uint8 = 8 |
| // AnyVlan constant. |
| AnyVlan uint16 = 0xFFFF |
| ) |
| |
| // List of Mac Learning Type |
| const ( |
| MacLearningNone MacLearningType = iota |
| Learn |
| ReLearn |
| ) |
| |
| // MacLearningType represents Mac Learning Type |
| type MacLearningType int |
| |
| var ( |
| tickCount uint16 |
| vgcRebooted bool |
| isUpgradeComplete bool |
| ) |
| |
| var db database.DBIntf |
| |
| // PacketHandlers : packet handler for different protocols |
| var PacketHandlers map[string]CallBack |
| |
| // CallBack : registered call back function for different protocol packets |
| type CallBack func(cntx context.Context, device string, port string, pkt gopacket.Packet) |
| |
| const ( |
| // ARP packet |
| ARP string = "ARP" |
| // DHCPv4 packet |
| DHCPv4 string = "DHCPv4" |
| // DHCPv6 packet |
| DHCPv6 string = "DHCPv6" |
| // IGMP packet |
| IGMP string = "IGMP" |
| // PPPOE packet |
| PPPOE string = "PPPOE" |
| // US packet side |
| US string = "US" |
| // DS packet side |
| DS string = "DS" |
| // NNI port name |
| NNI string = "nni" |
| ) |
| |
| // RegisterPacketHandler : API to register callback function for every protocol |
| func RegisterPacketHandler(protocol string, callback CallBack) { |
| if PacketHandlers == nil { |
| PacketHandlers = make(map[string]CallBack) |
| } |
| PacketHandlers[protocol] = callback |
| } |
| |
| // --------------------------------------------------------------------- |
| // VOLT Ports |
| // --------------------------------------------------------------------- |
| // VOLT Ports are ports associated with VOLT devices. Each port is classified into |
| // Access/NNI. Each port is identified by Name (Identity known to the NB) and |
| // Id (Identity used on the SB). Both identities are presented when a port is |
| // discovered in the SB. |
| |
| // VoltPortType type for Port Type |
| type VoltPortType uint8 |
| |
| const ( |
| // VoltPortTypeAccess constant. |
| VoltPortTypeAccess VoltPortType = 0 |
| // VoltPortTypeNni constant. |
| VoltPortTypeNni VoltPortType = 1 |
| ) |
| |
| // PortState type for Port State. |
| type PortState uint8 |
| |
| const ( |
| // PortStateDown constant. |
| PortStateDown PortState = 0 |
| // PortStateUp constant. |
| PortStateUp PortState = 1 |
| ) |
| |
| // VoltPort structure that is used to store the ports. The name is the |
| // the main identity used by the application. The SB and NB both present name |
| // as the identity. The SB is abstracted by VPAgent and the VPAgent transacts |
| // using name as identity |
| type VoltPort struct { |
| ID uint32 |
| Name string |
| Device string |
| PonPort uint32 |
| Type VoltPortType |
| State PortState |
| ActiveChannels uint32 |
| ChannelPerSubAlarmRaised bool |
| } |
| |
| // NewVoltPort : Constructor for the port. |
| func NewVoltPort(device string, name string, id uint32) *VoltPort { |
| var vp VoltPort |
| vp.Device = device |
| vp.Name = name |
| vp.ID = id |
| if util.IsNniPort(id) { |
| vp.Type = VoltPortTypeNni |
| } else { |
| vp.PonPort = GetPonPortIDFromUNIPort(id) |
| } |
| vp.State = PortStateDown |
| vp.ChannelPerSubAlarmRaised = false |
| return &vp |
| } |
| |
| // SetPortID : The ID is used when constructing flows as the flows require ID. |
| func (vp *VoltPort) SetPortID(id uint32) { |
| vp.ID = id |
| if util.IsNniPort(id) { |
| vp.Type = VoltPortTypeNni |
| } |
| } |
| |
| // --------------------------------------------------------------------- |
| // VOLT Device |
| // --------------------------------------------------------------------- |
| // |
| // VoltDevice is an OLT which contains ports of type access and NNI. Each OLT |
| // can only have one NNI port in the current release. The NNI port always uses |
| // identity 65536 and all the access ports use identities less than 65535. The |
| // identification of NNI is done by comparing the port identity with 65535 |
| |
| // VoltDevice fields : |
| // Name: This is the name presented by the device/VOLTHA. This doesn't |
| // have any relation to the physical device |
| // SerialNum: This is the serial number of the device and can be used to |
| // correlate the devices |
| // NniPort: The identity of the NNI port |
| // Ports: List of all ports added to the device |
| type VoltDevice struct { |
| Name string |
| SerialNum string |
| State controller.DeviceState |
| SouthBoundID string |
| NniPort string |
| Ports sync.Map |
| VlanPortStatus sync.Map |
| VpvsBySvlan *util.ConcurrentMap // map[svlan]map[vnet_port]*VoltPortVnet |
| IgmpDsFlowAppliedForMvlan map[uint16]bool |
| ConfiguredVlanForDeviceFlows *util.ConcurrentMap //map[string]map[string]bool |
| icmpv6GroupAdded bool |
| ActiveChannelsPerPon sync.Map // [PonPortID]*PonPortCfg |
| ActiveChannelCountLock sync.Mutex // This lock is used to update ActiveIGMPChannels |
| PonPortList sync.Map // [PonPortID]map[string]string |
| FlowAddEventMap *util.ConcurrentMap //map[string]*FlowEvent |
| FlowDelEventMap *util.ConcurrentMap //map[string]*FlowEvent |
| MigratingServices *util.ConcurrentMap //<vnetID,<RequestID, MigrateServicesRequest>> |
| GlobalDhcpFlowAdded bool |
| NniDhcpTrapVid of.VlanType |
| } |
| |
| // NewVoltDevice : Constructor for the device |
| func NewVoltDevice(name string, slno, southBoundID string) *VoltDevice { |
| var d VoltDevice |
| d.Name = name |
| d.SouthBoundID = southBoundID |
| d.State = controller.DeviceStateDOWN |
| d.NniPort = "" |
| d.SouthBoundID = southBoundID |
| d.SerialNum = slno |
| d.icmpv6GroupAdded = false |
| d.IgmpDsFlowAppliedForMvlan = make(map[uint16]bool) |
| d.ConfiguredVlanForDeviceFlows = util.NewConcurrentMap() |
| d.MigratingServices = util.NewConcurrentMap() |
| d.VpvsBySvlan = util.NewConcurrentMap() |
| d.FlowAddEventMap = util.NewConcurrentMap() |
| d.FlowDelEventMap = util.NewConcurrentMap() |
| d.GlobalDhcpFlowAdded = false |
| if config, ok := GetApplication().DevicesConfig.Load(slno); ok { |
| //Update nni dhcp vid |
| deviceConfig := config.(DeviceConfig) |
| d.NniDhcpTrapVid = of.VlanType(deviceConfig.NniDhcpTrapVid) |
| } |
| return &d |
| } |
| |
| //GetAssociatedVpvsForDevice - return the associated VPVs for given device & svlan |
| func (va *VoltApplication) GetAssociatedVpvsForDevice(device string, svlan of.VlanType) *util.ConcurrentMap { |
| if d := va.GetDevice(device); d != nil { |
| return d.GetAssociatedVpvs(svlan) |
| } |
| return nil |
| } |
| |
| //AssociateVpvsToDevice - updates the associated VPVs for given device & svlan |
| func (va *VoltApplication) AssociateVpvsToDevice(device string, vpv *VoltPortVnet) { |
| if d := va.GetDevice(device); d != nil { |
| |
| vpvMap := d.GetAssociatedVpvs(vpv.SVlan) |
| vpvMap.Set(vpv, true) |
| d.VpvsBySvlan.Set(vpv.SVlan, vpvMap) |
| logger.Infow(ctx, "VPVMap: SET", log.Fields{"Map": vpvMap.Length()}) |
| return |
| } |
| logger.Errorw(ctx, "Set VPVMap failed: Device Not Found", log.Fields{"Svlan": vpv.SVlan, "Device": device}) |
| } |
| |
| //DisassociateVpvsFromDevice - disassociated VPVs from given device & svlan |
| func (va *VoltApplication) DisassociateVpvsFromDevice(device string, vpv *VoltPortVnet) { |
| if d := va.GetDevice(device); d != nil { |
| vpvMap := d.GetAssociatedVpvs(vpv.SVlan) |
| vpvMap.Remove(vpv) |
| d.VpvsBySvlan.Set(vpv.SVlan, vpvMap) |
| logger.Infow(ctx, "VPVMap: Remove", log.Fields{"Map": vpvMap.Length()}) |
| return |
| } |
| logger.Errorw(ctx, "Remove VPVMap failed: Device Not Found", log.Fields{"Svlan": vpv.SVlan, "Device": device}) |
| } |
| |
| //GetAssociatedVpvs - returns the associated VPVs for the given Svlan |
| func (d *VoltDevice) GetAssociatedVpvs(svlan of.VlanType) *util.ConcurrentMap { |
| |
| var vpvMap *util.ConcurrentMap |
| var mapIntf interface{} |
| var ok bool |
| |
| if mapIntf, ok = d.VpvsBySvlan.Get(svlan); ok { |
| vpvMap = mapIntf.(*util.ConcurrentMap) |
| } else { |
| vpvMap = util.NewConcurrentMap() |
| } |
| logger.Infow(ctx, "VPVMap: GET", log.Fields{"Map": vpvMap.Length()}) |
| return vpvMap |
| } |
| |
| // AddPort add port to the device. |
| func (d *VoltDevice) AddPort(port string, id uint32) *VoltPort { |
| addPonPortFromUniPort := func(vPort *VoltPort) { |
| if vPort.Type == VoltPortTypeAccess { |
| ponPortID := GetPonPortIDFromUNIPort(vPort.ID) |
| |
| if ponPortUniList, ok := d.PonPortList.Load(ponPortID); !ok { |
| uniList := make(map[string]uint32) |
| uniList[port] = vPort.ID |
| d.PonPortList.Store(ponPortID, uniList) |
| } else { |
| ponPortUniList.(map[string]uint32)[port] = vPort.ID |
| d.PonPortList.Store(ponPortID, ponPortUniList) |
| } |
| } |
| } |
| va := GetApplication() |
| if pIntf, ok := d.Ports.Load(port); ok { |
| voltPort := pIntf.(*VoltPort) |
| addPonPortFromUniPort(voltPort) |
| va.AggActiveChannelsCountPerSub(d.Name, port, voltPort) |
| d.Ports.Store(port, voltPort) |
| return voltPort |
| } |
| p := NewVoltPort(d.Name, port, id) |
| va.AggActiveChannelsCountPerSub(d.Name, port, p) |
| d.Ports.Store(port, p) |
| if util.IsNniPort(id) { |
| d.NniPort = port |
| } |
| addPonPortFromUniPort(p) |
| return p |
| } |
| |
| // GetPort to get port information from the device. |
| func (d *VoltDevice) GetPort(port string) *VoltPort { |
| if pIntf, ok := d.Ports.Load(port); ok { |
| return pIntf.(*VoltPort) |
| } |
| return nil |
| } |
| |
| // GetPortByPortID to get port information from the device. |
| func (d *VoltDevice) GetPortNameFromPortID(portID uint32) string { |
| portName := "" |
| d.Ports.Range(func(key, value interface{}) bool { |
| vp := value.(*VoltPort) |
| if vp.ID == portID { |
| portName = vp.Name |
| } |
| return true |
| }) |
| return portName |
| } |
| |
| // DelPort to delete port from the device |
| func (d *VoltDevice) DelPort(port string) { |
| if _, ok := d.Ports.Load(port); ok { |
| d.Ports.Delete(port) |
| } else { |
| logger.Warnw(ctx, "Port doesn't exist", log.Fields{"Device": d.Name, "Port": port}) |
| } |
| } |
| |
| // pushFlowsForUnis to send port-up-indication for uni ports. |
| func (d *VoltDevice) pushFlowsForUnis(cntx context.Context) { |
| |
| logger.Info(ctx, "NNI Discovered, Sending Port UP Ind for UNIs") |
| d.Ports.Range(func(key, value interface{}) bool { |
| port := key.(string) |
| vp := value.(*VoltPort) |
| |
| logger.Infow(ctx, "NNI Discovered. Sending Port UP Ind for UNI", log.Fields{"Port": port}) |
| //Ignore if UNI port is not UP |
| if vp.State != PortStateUp { |
| return true |
| } |
| |
| //Obtain all VPVs associated with the port |
| vnets, ok := GetApplication().VnetsByPort.Load(port) |
| if !ok { |
| return true |
| } |
| |
| for _, vpv := range vnets.([]*VoltPortVnet) { |
| vpv.VpvLock.Lock() |
| vpv.PortUpInd(cntx, d, port) |
| vpv.VpvLock.Unlock() |
| |
| } |
| return true |
| }) |
| } |
| |
| // ---------------------------------------------------------- |
| // VOLT Application - hosts all other objects |
| // ---------------------------------------------------------- |
| // |
| // The VOLT application is a singleton implementation where |
| // there is just one instance in the system and is the gateway |
| // to all other components within the controller |
| // The declaration of the singleton object |
| var vapplication *VoltApplication |
| |
| // VoltApplication fields : |
| // ServiceByName - Stores the services by the name as key |
| // A record of NB configuration. |
| // VnetsByPort - Stores the VNETs by the ports configured |
| // from NB. A record of NB configuration. |
| // VnetsByTag - Stores the VNETs by the VLANS configured |
| // from NB. A record of NB configuration. |
| // VnetsByName - Stores the VNETs by the name configured |
| // from NB. A record of NB configuration. |
| // DevicesDisc - Stores the devices discovered from SB. |
| // Should be updated only by events from SB |
| // PortsDisc - Stores the ports discovered from SB. |
| // Should be updated only by events from SB |
| type VoltApplication struct { |
| ServiceByName sync.Map // [serName]*VoltService |
| VnetsByPort sync.Map // [portName][]*VoltPortVnet |
| VnetsByTag sync.Map // [svlan-cvlan-uvlan]*VoltVnet |
| VnetsByName sync.Map // [vnetName]*VoltVnet |
| VnetsBySvlan *util.ConcurrentMap |
| DevicesDisc sync.Map |
| PortsDisc sync.Map |
| IgmpGroups sync.Map // [grpKey]*IgmpGroup |
| IgmpGroupIds []*IgmpGroup |
| MvlanProfilesByTag sync.Map |
| MvlanProfilesByName sync.Map |
| Icmpv6Receivers sync.Map |
| MeterMgr |
| IgmpTasks tasks.Tasks |
| IndicationsTasks tasks.Tasks |
| MulticastAlarmTasks tasks.Tasks |
| portLock sync.Mutex |
| DataMigrationInfo DataMigration |
| DeviceCounters sync.Map //[logicalDeviceId]*DeviceCounters |
| ServiceCounters sync.Map //[serviceName]*ServiceCounters |
| NbDevice sync.Map // [OLTSouthBoundID]*NbDevice |
| IgmpKPIsTasks tasks.Tasks |
| pppoeTasks tasks.Tasks |
| IgmpProfilesByName sync.Map |
| OltIgmpInfoBySerial sync.Map |
| McastConfigMap sync.Map //[OltSerialNo_MvlanProfileID]*McastConfig |
| // MacAddress-Port MAP to avoid swap of mac accross ports. |
| macPortLock sync.RWMutex |
| macPortMap map[string]string |
| |
| IgmpPendingPool map[string]map[*IgmpGroup]bool //[grpkey, map[groupObj]bool] //mvlan_grpName/IP |
| PendingPoolLock sync.RWMutex |
| VnetsToDelete map[string]bool |
| ServicesToDelete map[string]bool |
| VoltPortVnetsToDelete map[*VoltPortVnet]bool |
| PortAlarmProfileCache map[string]map[string]int // [portAlarmID][ThresholdLevelString]ThresholdLevel |
| vendorID string |
| OltFlowServiceConfig OltFlowService |
| DevicesConfig sync.Map //[serialNumber]*DeviceConfig |
| } |
| |
| type DeviceConfig struct { |
| SerialNumber string `json:"id"` |
| HardwareIdentifier string `json:"hardwareIdentifier"` |
| IPAddress string `json:"ipAddress"` |
| UplinkPort int `json:"uplinkPort"` |
| NasID string `json:"nasId"` |
| NniDhcpTrapVid int `json:"nniDhcpTrapVid"` |
| } |
| |
| // PonPortCfg contains NB port config and activeIGMPChannels count |
| type PonPortCfg struct { |
| PortID uint32 |
| MaxActiveChannels uint32 |
| ActiveIGMPChannels uint32 |
| EnableMulticastKPI bool |
| PortAlarmProfileID string |
| } |
| |
| // NbDevice OLT Device info |
| type NbDevice struct { |
| SouthBoundID string |
| PonPorts sync.Map // [PortID]*PonPortCfg |
| } |
| |
| // RestoreNbDeviceFromDb restores the NB Device in case of VGC pod restart. |
| func (va *VoltApplication) RestoreNbDeviceFromDb(cntx context.Context, deviceID string) *NbDevice { |
| |
| nbDevice := NewNbDevice() |
| nbDevice.SouthBoundID = deviceID |
| |
| nbPorts, _ := db.GetAllNbPorts(cntx, deviceID) |
| |
| for key, p := range nbPorts { |
| b, ok := p.Value.([]byte) |
| if !ok { |
| logger.Warn(ctx, "The value type is not []byte") |
| continue |
| } |
| var port PonPortCfg |
| err := json.Unmarshal(b, &port) |
| if err != nil { |
| logger.Warn(ctx, "Unmarshal of PonPortCfg failed") |
| continue |
| } |
| logger.Debugw(ctx, "Port recovered", log.Fields{"port": port}) |
| ponPortID, _ := strconv.Atoi(key) |
| nbDevice.PonPorts.Store(uint32(ponPortID), &port) |
| } |
| va.NbDevice.Store(deviceID, nbDevice) |
| return nbDevice |
| } |
| |
| // NewNbDevice Constructor for NbDevice |
| func NewNbDevice() *NbDevice { |
| var nbDevice NbDevice |
| return &nbDevice |
| } |
| |
| // WriteToDb writes nb device port config to kv store |
| func (nbd *NbDevice) WriteToDb(cntx context.Context, portID uint32, ponPort *PonPortCfg) { |
| b, err := json.Marshal(ponPort) |
| if err != nil { |
| logger.Errorw(ctx, "PonPortConfig-marshal-failed", log.Fields{"err": err}) |
| return |
| } |
| db.PutNbDevicePort(cntx, nbd.SouthBoundID, portID, string(b)) |
| } |
| |
| // AddPortToNbDevice Adds pon port to NB Device and DB |
| func (nbd *NbDevice) AddPortToNbDevice(cntx context.Context, portID, allowedChannels uint32, |
| enableMulticastKPI bool, portAlarmProfileID string) *PonPortCfg { |
| |
| ponPort := &PonPortCfg{ |
| PortID: portID, |
| MaxActiveChannels: allowedChannels, |
| EnableMulticastKPI: enableMulticastKPI, |
| PortAlarmProfileID: portAlarmProfileID, |
| } |
| nbd.PonPorts.Store(portID, ponPort) |
| nbd.WriteToDb(cntx, portID, ponPort) |
| return ponPort |
| } |
| |
| // RestoreDeviceConfigFromDb to restore vnet from port |
| func (va *VoltApplication) RestoreDeviceConfigFromDb(cntx context.Context) { |
| // VNETS must be learnt first |
| dConfig, _ := db.GetDeviceConfig(cntx) |
| for _, device := range dConfig { |
| b, ok := device.Value.([]byte) |
| if !ok { |
| logger.Warn(ctx, "The value type is not []byte") |
| continue |
| } |
| devConfig := DeviceConfig{} |
| err := json.Unmarshal(b, &devConfig) |
| if err != nil { |
| logger.Warn(ctx, "Unmarshal of device configuration failed") |
| continue |
| } |
| logger.Debugw(ctx, "Retrieved device config", log.Fields{"Device Config": devConfig}) |
| if err := va.AddDeviceConfig(cntx, devConfig.SerialNumber, devConfig.HardwareIdentifier, devConfig.NasID, devConfig.IPAddress, devConfig.UplinkPort, devConfig.NniDhcpTrapVid); err != nil { |
| logger.Warnw(ctx, "Add device config failed", log.Fields{"DeviceConfig": devConfig, "Error": err}) |
| } |
| |
| } |
| } |
| |
| // WriteDeviceConfigToDb writes sb device config to kv store |
| func (dc *DeviceConfig) WriteDeviceConfigToDb(cntx context.Context, serialNum string, deviceConfig *DeviceConfig) error { |
| b, err := json.Marshal(deviceConfig) |
| if err != nil { |
| logger.Errorw(ctx, "deviceConfig-marshal-failed", log.Fields{"err": err}) |
| return err |
| } |
| dberr := db.PutDeviceConfig(cntx, serialNum, string(b)) |
| if dberr != nil { |
| logger.Errorw(ctx, "update device config failed", log.Fields{"err": err}) |
| return dberr |
| } |
| return nil |
| } |
| |
| func (va *VoltApplication) AddDeviceConfig(cntx context.Context, serialNum, hardwareIdentifier, nasID, ipAddress string, uplinkPort, nniDhcpTrapId int) error { |
| var dc *DeviceConfig |
| |
| deviceConfig := &DeviceConfig{ |
| SerialNumber: serialNum, |
| HardwareIdentifier: hardwareIdentifier, |
| NasID: nasID, |
| UplinkPort: uplinkPort, |
| IPAddress: ipAddress, |
| NniDhcpTrapVid: nniDhcpTrapId, |
| } |
| va.DevicesConfig.Store(serialNum, deviceConfig) |
| err := dc.WriteDeviceConfigToDb(cntx, serialNum, deviceConfig) |
| if err != nil { |
| logger.Errorw(ctx, "DB update for device config failed", log.Fields{"err": err}) |
| return err |
| } |
| |
| // If device is already discovered update the VoltDevice structure |
| device, id := va.GetDeviceBySerialNo(serialNum) |
| if device != nil { |
| device.NniDhcpTrapVid = of.VlanType(nniDhcpTrapId) |
| va.DevicesDisc.Store(id, device) |
| } |
| |
| return nil |
| } |
| |
| // GetDeviceConfig to get a device config. |
| func (va *VoltApplication) GetDeviceConfig(serNum string) *DeviceConfig { |
| if d, ok := va.DevicesConfig.Load(serNum); ok { |
| return d.(*DeviceConfig) |
| } |
| return nil |
| } |
| |
| // UpdatePortToNbDevice Adds pon port to NB Device and DB |
| func (nbd *NbDevice) UpdatePortToNbDevice(cntx context.Context, portID, allowedChannels uint32, enableMulticastKPI bool, portAlarmProfileID string) *PonPortCfg { |
| |
| p, exists := nbd.PonPorts.Load(portID) |
| if !exists { |
| logger.Errorw(ctx, "PON port not exists in nb-device", log.Fields{"portID": portID}) |
| return nil |
| } |
| port := p.(*PonPortCfg) |
| if allowedChannels != 0 { |
| port.MaxActiveChannels = allowedChannels |
| port.EnableMulticastKPI = enableMulticastKPI |
| port.PortAlarmProfileID = portAlarmProfileID |
| } |
| |
| nbd.PonPorts.Store(portID, port) |
| nbd.WriteToDb(cntx, portID, port) |
| return port |
| } |
| |
| // DeletePortFromNbDevice Deletes pon port from NB Device and DB |
| func (nbd *NbDevice) DeletePortFromNbDevice(cntx context.Context, portID uint32) { |
| |
| if _, ok := nbd.PonPorts.Load(portID); ok { |
| nbd.PonPorts.Delete(portID) |
| } |
| db.DelNbDevicePort(cntx, nbd.SouthBoundID, portID) |
| } |
| |
| // GetApplication : Interface to access the singleton object |
| func GetApplication() *VoltApplication { |
| if vapplication == nil { |
| vapplication = newVoltApplication() |
| } |
| return vapplication |
| } |
| |
| // newVoltApplication : Constructor for the singleton object. Hence this is not |
| // an exported function |
| func newVoltApplication() *VoltApplication { |
| var va VoltApplication |
| va.IgmpTasks.Initialize(context.TODO()) |
| va.MulticastAlarmTasks.Initialize(context.TODO()) |
| va.IgmpKPIsTasks.Initialize(context.TODO()) |
| va.pppoeTasks.Initialize(context.TODO()) |
| va.storeIgmpProfileMap(DefaultIgmpProfID, newDefaultIgmpProfile()) |
| va.MeterMgr.Init() |
| va.AddIgmpGroups(5000) |
| va.macPortMap = make(map[string]string) |
| va.IgmpPendingPool = make(map[string]map[*IgmpGroup]bool) |
| va.VnetsBySvlan = util.NewConcurrentMap() |
| va.VnetsToDelete = make(map[string]bool) |
| va.ServicesToDelete = make(map[string]bool) |
| va.VoltPortVnetsToDelete = make(map[*VoltPortVnet]bool) |
| go va.Start(context.Background(), TimerCfg{tick: 100 * time.Millisecond}, tickTimer) |
| go va.Start(context.Background(), TimerCfg{tick: time.Duration(GroupExpiryTime) * time.Minute}, pendingPoolTimer) |
| InitEventFuncMapper() |
| db = database.GetDatabase() |
| return &va |
| } |
| |
| //GetFlowEventRegister - returs the register based on flow mod type |
| func (d *VoltDevice) GetFlowEventRegister(flowModType of.Command) (*util.ConcurrentMap, error) { |
| |
| switch flowModType { |
| case of.CommandDel: |
| return d.FlowDelEventMap, nil |
| case of.CommandAdd: |
| return d.FlowAddEventMap, nil |
| default: |
| logger.Error(ctx, "Unknown Flow Mod received") |
| } |
| return util.NewConcurrentMap(), errors.New("Unknown Flow Mod") |
| } |
| |
| // RegisterFlowAddEvent to register a flow event. |
| func (d *VoltDevice) RegisterFlowAddEvent(cookie string, event *FlowEvent) { |
| logger.Debugw(ctx, "Registered Flow Add Event", log.Fields{"Cookie": cookie, "Event": event}) |
| d.FlowAddEventMap.MapLock.Lock() |
| defer d.FlowAddEventMap.MapLock.Unlock() |
| d.FlowAddEventMap.Set(cookie, event) |
| } |
| |
| // RegisterFlowDelEvent to register a flow event. |
| func (d *VoltDevice) RegisterFlowDelEvent(cookie string, event *FlowEvent) { |
| logger.Debugw(ctx, "Registered Flow Del Event", log.Fields{"Cookie": cookie, "Event": event}) |
| d.FlowDelEventMap.MapLock.Lock() |
| defer d.FlowDelEventMap.MapLock.Unlock() |
| d.FlowDelEventMap.Set(cookie, event) |
| } |
| |
| // UnRegisterFlowEvent to unregister a flow event. |
| func (d *VoltDevice) UnRegisterFlowEvent(cookie string, flowModType of.Command) { |
| logger.Debugw(ctx, "UnRegistered Flow Add Event", log.Fields{"Cookie": cookie, "Type": flowModType}) |
| flowEventMap, err := d.GetFlowEventRegister(flowModType) |
| if err != nil { |
| logger.Debugw(ctx, "Flow event map does not exists", log.Fields{"flowMod": flowModType, "Error": err}) |
| return |
| } |
| flowEventMap.MapLock.Lock() |
| defer flowEventMap.MapLock.Unlock() |
| flowEventMap.Remove(cookie) |
| } |
| |
| // AddIgmpGroups to add Igmp groups. |
| func (va *VoltApplication) AddIgmpGroups(numOfGroups uint32) { |
| //TODO: Temp change to resolve group id issue in pOLT |
| //for i := 1; uint32(i) <= numOfGroups; i++ { |
| for i := 2; uint32(i) <= (numOfGroups + 1); i++ { |
| ig := IgmpGroup{} |
| ig.GroupID = uint32(i) |
| va.IgmpGroupIds = append(va.IgmpGroupIds, &ig) |
| } |
| } |
| |
| // GetAvailIgmpGroupID to get id of available igmp group. |
| func (va *VoltApplication) GetAvailIgmpGroupID() *IgmpGroup { |
| var ig *IgmpGroup |
| if len(va.IgmpGroupIds) > 0 { |
| ig, va.IgmpGroupIds = va.IgmpGroupIds[0], va.IgmpGroupIds[1:] |
| return ig |
| } |
| return nil |
| } |
| |
| // GetIgmpGroupID to get id of igmp group. |
| func (va *VoltApplication) GetIgmpGroupID(gid uint32) (*IgmpGroup, error) { |
| for id, ig := range va.IgmpGroupIds { |
| if ig.GroupID == gid { |
| va.IgmpGroupIds = append(va.IgmpGroupIds[0:id], va.IgmpGroupIds[id+1:]...) |
| return ig, nil |
| } |
| } |
| return nil, errors.New("Group Id Missing") |
| } |
| |
| // PutIgmpGroupID to add id of igmp group. |
| func (va *VoltApplication) PutIgmpGroupID(ig *IgmpGroup) { |
| va.IgmpGroupIds = append([]*IgmpGroup{ig}, va.IgmpGroupIds[0:]...) |
| } |
| |
| //RestoreUpgradeStatus - gets upgrade/migration status from DB and updates local flags |
| func (va *VoltApplication) RestoreUpgradeStatus(cntx context.Context) { |
| Migrate := new(DataMigration) |
| if err := GetMigrationInfo(cntx, Migrate); err == nil { |
| if Migrate.Status == MigrationInProgress { |
| isUpgradeComplete = false |
| return |
| } |
| } |
| isUpgradeComplete = true |
| |
| logger.Infow(ctx, "Upgrade Status Restored", log.Fields{"Upgrade Completed": isUpgradeComplete}) |
| } |
| |
| // ReadAllFromDb : If we are restarted, learn from the database the current execution |
| // stage |
| func (va *VoltApplication) ReadAllFromDb(cntx context.Context) { |
| logger.Info(ctx, "Reading the meters from DB") |
| va.RestoreMetersFromDb(cntx) |
| logger.Info(ctx, "Reading the VNETs from DB") |
| va.RestoreVnetsFromDb(cntx) |
| logger.Info(ctx, "Reading the VPVs from DB") |
| va.RestoreVpvsFromDb(cntx) |
| logger.Info(ctx, "Reading the Services from DB") |
| va.RestoreSvcsFromDb(cntx) |
| logger.Info(ctx, "Reading the MVLANs from DB") |
| va.RestoreMvlansFromDb(cntx) |
| logger.Info(ctx, "Reading the IGMP profiles from DB") |
| va.RestoreIGMPProfilesFromDb(cntx) |
| logger.Info(ctx, "Reading the Mcast configs from DB") |
| va.RestoreMcastConfigsFromDb(cntx) |
| logger.Info(ctx, "Reading the IGMP groups for DB") |
| va.RestoreIgmpGroupsFromDb(cntx) |
| logger.Info(ctx, "Reading Upgrade status from DB") |
| va.RestoreUpgradeStatus(cntx) |
| logger.Info(ctx, "Reading OltFlowService from DB") |
| va.RestoreOltFlowService(cntx) |
| logger.Info(ctx, "Reading device config from DB") |
| va.RestoreDeviceConfigFromDb(cntx) |
| logger.Info(ctx, "Reconciled from DB") |
| } |
| |
| // InitStaticConfig to initialise static config. |
| func (va *VoltApplication) InitStaticConfig() { |
| va.InitIgmpSrcMac() |
| } |
| |
| // SetVendorID to set vendor id |
| func (va *VoltApplication) SetVendorID(vendorID string) { |
| va.vendorID = vendorID |
| } |
| |
| // GetVendorID to get vendor id |
| func (va *VoltApplication) GetVendorID() string { |
| return va.vendorID |
| } |
| |
| // SetRebootFlag to set reboot flag |
| func (va *VoltApplication) SetRebootFlag(flag bool) { |
| vgcRebooted = flag |
| } |
| |
| // GetUpgradeFlag to get reboot status |
| func (va *VoltApplication) GetUpgradeFlag() bool { |
| return isUpgradeComplete |
| } |
| |
| // SetUpgradeFlag to set reboot status |
| func (va *VoltApplication) SetUpgradeFlag(flag bool) { |
| isUpgradeComplete = flag |
| } |
| |
| // ------------------------------------------------------------ |
| // Device related functions |
| |
| // AddDevice : Add a device and typically the device stores the NNI port on the device |
| // The NNI port is used when the packets are emitted towards the network. |
| // The outport is selected as the NNI port of the device. Today, we support |
| // a single NNI port per OLT. This is true whether the network uses any |
| // protection mechanism (LAG, ERPS, etc.). The aggregate of the such protection |
| // is represented by a single NNI port |
| func (va *VoltApplication) AddDevice(cntx context.Context, device string, slno, southBoundID string) { |
| logger.Warnw(ctx, "Received Device Ind: Add", log.Fields{"Device": device, "SrNo": slno}) |
| if _, ok := va.DevicesDisc.Load(device); ok { |
| logger.Warnw(ctx, "Device Exists", log.Fields{"Device": device}) |
| } |
| d := NewVoltDevice(device, slno, southBoundID) |
| |
| addPort := func(key, value interface{}) bool { |
| portID := key.(uint32) |
| port := value.(*PonPortCfg) |
| va.AggActiveChannelsCountForPonPort(device, portID, port) |
| d.ActiveChannelsPerPon.Store(portID, port) |
| return true |
| } |
| if nbDevice, exists := va.NbDevice.Load(southBoundID); exists { |
| // Pon Ports added before OLT activate. |
| nbDevice.(*NbDevice).PonPorts.Range(addPort) |
| } else { |
| // Check if NbPort exists in DB. VGC restart case. |
| nbd := va.RestoreNbDeviceFromDb(cntx, southBoundID) |
| nbd.PonPorts.Range(addPort) |
| } |
| va.DevicesDisc.Store(device, d) |
| } |
| |
| // GetDevice to get a device. |
| func (va *VoltApplication) GetDevice(device string) *VoltDevice { |
| if d, ok := va.DevicesDisc.Load(device); ok { |
| return d.(*VoltDevice) |
| } |
| return nil |
| } |
| |
| // DelDevice to delete a device. |
| func (va *VoltApplication) DelDevice(cntx context.Context, device string) { |
| logger.Warnw(ctx, "Received Device Ind: Delete", log.Fields{"Device": device}) |
| if vdIntf, ok := va.DevicesDisc.Load(device); ok { |
| vd := vdIntf.(*VoltDevice) |
| va.DevicesDisc.Delete(device) |
| _ = db.DelAllRoutesForDevice(cntx, device) |
| va.HandleFlowClearFlag(cntx, device, vd.SerialNum, vd.SouthBoundID) |
| _ = db.DelAllGroup(cntx, device) |
| _ = db.DelAllMeter(cntx, device) |
| _ = db.DelAllPorts(cntx, device) |
| logger.Debugw(ctx, "Device deleted", log.Fields{"Device": device}) |
| } else { |
| logger.Warnw(ctx, "Device Doesn't Exist", log.Fields{"Device": device}) |
| } |
| } |
| |
| // GetDeviceBySerialNo to get a device by serial number. |
| // TODO - Transform this into a MAP instead |
| func (va *VoltApplication) GetDeviceBySerialNo(slno string) (*VoltDevice, string) { |
| var device *VoltDevice |
| var deviceID string |
| getserial := func(key interface{}, value interface{}) bool { |
| device = value.(*VoltDevice) |
| deviceID = key.(string) |
| return device.SerialNum != slno |
| } |
| va.DevicesDisc.Range(getserial) |
| return device, deviceID |
| } |
| |
| // PortAddInd : This is a PORT add indication coming from the VPAgent, which is essentially |
| // a request coming from VOLTHA. The device and identity of the port is provided |
| // in this request. Add them to the application for further use |
| func (va *VoltApplication) PortAddInd(cntx context.Context, device string, id uint32, portName string) { |
| logger.Infow(ctx, "Received Port Ind: Add", log.Fields{"Device": device, "Port": portName}) |
| va.portLock.Lock() |
| if d := va.GetDevice(device); d != nil { |
| p := d.AddPort(portName, id) |
| va.PortsDisc.Store(portName, p) |
| va.portLock.Unlock() |
| nni, _ := va.GetNniPort(device) |
| if nni == portName { |
| d.pushFlowsForUnis(cntx) |
| } |
| } else { |
| va.portLock.Unlock() |
| logger.Warnw(ctx, "Device Not Found - Dropping Port Ind: Add", log.Fields{"Device": device, "Port": portName}) |
| } |
| } |
| |
| // PortDelInd : Only the NNI ports are recorded in the device for now. When port delete |
| // arrives, only the NNI ports need adjustments. |
| func (va *VoltApplication) PortDelInd(cntx context.Context, device string, port string) { |
| logger.Infow(ctx, "Received Port Ind: Delete", log.Fields{"Device": device, "Port": port}) |
| if d := va.GetDevice(device); d != nil { |
| p := d.GetPort(port) |
| if p != nil && p.State == PortStateUp { |
| logger.Infow(ctx, "Port state is UP. Trigerring Port Down Ind before deleting", log.Fields{"Port": p}) |
| va.PortDownInd(cntx, device, port) |
| } |
| // if RemoveFlowsOnDisable is flase, then flows will be existing till port delete. Remove the flows now |
| if !va.OltFlowServiceConfig.RemoveFlowsOnDisable { |
| vpvs, ok := va.VnetsByPort.Load(port) |
| if !ok || nil == vpvs || len(vpvs.([]*VoltPortVnet)) == 0 { |
| logger.Infow(ctx, "No VNETs on port", log.Fields{"Device": device, "Port": port}) |
| } else { |
| for _, vpv := range vpvs.([]*VoltPortVnet) { |
| vpv.VpvLock.Lock() |
| vpv.PortDownInd(cntx, device, port, true) |
| vpv.VpvLock.Unlock() |
| } |
| } |
| } |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| d.DelPort(port) |
| if _, ok := va.PortsDisc.Load(port); ok { |
| va.PortsDisc.Delete(port) |
| } |
| } else { |
| logger.Warnw(ctx, "Device Not Found - Dropping Port Ind: Delete", log.Fields{"Device": device, "Port": port}) |
| } |
| } |
| |
| //PortUpdateInd Updates port Id incase of ONU movement |
| func (va *VoltApplication) PortUpdateInd(device string, portName string, id uint32) { |
| logger.Infow(ctx, "Received Port Ind: Update", log.Fields{"Device": device, "Port": portName}) |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| if d := va.GetDevice(device); d != nil { |
| vp := d.GetPort(portName) |
| vp.ID = id |
| } else { |
| logger.Warnw(ctx, "Device Not Found", log.Fields{"Device": device, "Port": portName}) |
| } |
| } |
| |
| // AddNbPonPort Add pon port to nbDevice |
| func (va *VoltApplication) AddNbPonPort(cntx context.Context, oltSbID string, portID, maxAllowedChannels uint32, |
| enableMulticastKPI bool, portAlarmProfileID string) error { |
| |
| var nbd *NbDevice |
| nbDevice, ok := va.NbDevice.Load(oltSbID) |
| |
| if !ok { |
| nbd = NewNbDevice() |
| nbd.SouthBoundID = oltSbID |
| } else { |
| nbd = nbDevice.(*NbDevice) |
| } |
| port := nbd.AddPortToNbDevice(cntx, portID, maxAllowedChannels, enableMulticastKPI, portAlarmProfileID) |
| |
| // Add this port to voltDevice |
| addPort := func(key, value interface{}) bool { |
| voltDevice := value.(*VoltDevice) |
| if oltSbID == voltDevice.SouthBoundID { |
| if _, exists := voltDevice.ActiveChannelsPerPon.Load(portID); !exists { |
| voltDevice.ActiveChannelsPerPon.Store(portID, port) |
| } |
| return false |
| } |
| return true |
| } |
| va.DevicesDisc.Range(addPort) |
| va.NbDevice.Store(oltSbID, nbd) |
| |
| return nil |
| } |
| |
| // UpdateNbPonPort update pon port to nbDevice |
| func (va *VoltApplication) UpdateNbPonPort(cntx context.Context, oltSbID string, portID, maxAllowedChannels uint32, enableMulticastKPI bool, portAlarmProfileID string) error { |
| |
| var nbd *NbDevice |
| nbDevice, ok := va.NbDevice.Load(oltSbID) |
| |
| if !ok { |
| logger.Errorw(ctx, "Device-doesn't-exists", log.Fields{"deviceID": oltSbID}) |
| return fmt.Errorf("Device-doesn't-exists-%v", oltSbID) |
| } |
| nbd = nbDevice.(*NbDevice) |
| |
| port := nbd.UpdatePortToNbDevice(cntx, portID, maxAllowedChannels, enableMulticastKPI, portAlarmProfileID) |
| if port == nil { |
| return fmt.Errorf("Port-doesn't-exists-%v", portID) |
| } |
| va.NbDevice.Store(oltSbID, nbd) |
| |
| // Add this port to voltDevice |
| updPort := func(key, value interface{}) bool { |
| voltDevice := value.(*VoltDevice) |
| if oltSbID == voltDevice.SouthBoundID { |
| voltDevice.ActiveChannelCountLock.Lock() |
| if p, exists := voltDevice.ActiveChannelsPerPon.Load(portID); exists { |
| oldPort := p.(*PonPortCfg) |
| if port.MaxActiveChannels != 0 { |
| oldPort.MaxActiveChannels = port.MaxActiveChannels |
| oldPort.EnableMulticastKPI = port.EnableMulticastKPI |
| voltDevice.ActiveChannelsPerPon.Store(portID, oldPort) |
| } |
| } |
| voltDevice.ActiveChannelCountLock.Unlock() |
| return false |
| } |
| return true |
| } |
| va.DevicesDisc.Range(updPort) |
| |
| return nil |
| } |
| |
| // DeleteNbPonPort Delete pon port to nbDevice |
| func (va *VoltApplication) DeleteNbPonPort(cntx context.Context, oltSbID string, portID uint32) error { |
| nbDevice, ok := va.NbDevice.Load(oltSbID) |
| if ok { |
| nbDevice.(*NbDevice).DeletePortFromNbDevice(cntx, portID) |
| va.NbDevice.Store(oltSbID, nbDevice.(*NbDevice)) |
| } else { |
| logger.Warnw(ctx, "Delete pon received for unknown device", log.Fields{"oltSbID": oltSbID}) |
| return nil |
| } |
| // Delete this port from voltDevice |
| delPort := func(key, value interface{}) bool { |
| voltDevice := value.(*VoltDevice) |
| if oltSbID == voltDevice.SouthBoundID { |
| if _, exists := voltDevice.ActiveChannelsPerPon.Load(portID); exists { |
| voltDevice.ActiveChannelsPerPon.Delete(portID) |
| } |
| return false |
| } |
| return true |
| } |
| va.DevicesDisc.Range(delPort) |
| return nil |
| } |
| |
| // GetNniPort : Get the NNI port for a device. Called from different other applications |
| // as a port to match or destination for a packet out. The VOLT application |
| // is written with the assumption that there is a single NNI port. The OLT |
| // device is responsible for translating the combination of VLAN and the |
| // NNI port ID to identify possibly a single physical port or a logical |
| // port which is a result of protection methods applied. |
| func (va *VoltApplication) GetNniPort(device string) (string, error) { |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| d, ok := va.DevicesDisc.Load(device) |
| if !ok { |
| return "", errors.New("Device Doesn't Exist") |
| } |
| return d.(*VoltDevice).NniPort, nil |
| } |
| |
| // NniDownInd process for Nni down indication. |
| func (va *VoltApplication) NniDownInd(cntx context.Context, deviceID string, devSrNo string) { |
| |
| logger.Debugw(ctx, "NNI Down Ind", log.Fields{"device": devSrNo}) |
| |
| handleIgmpDsFlows := func(key interface{}, value interface{}) bool { |
| mvProfile := value.(*MvlanProfile) |
| mvProfile.removeIgmpMcastFlows(cntx, devSrNo) |
| return true |
| } |
| va.MvlanProfilesByName.Range(handleIgmpDsFlows) |
| |
| //Clear Static Group |
| va.ReceiverDownInd(cntx, deviceID, StaticPort) |
| } |
| |
| // DeviceUpInd changes device state to up. |
| func (va *VoltApplication) DeviceUpInd(device string) { |
| logger.Warnw(ctx, "Received Device Ind: UP", log.Fields{"Device": device}) |
| if d := va.GetDevice(device); d != nil { |
| d.State = controller.DeviceStateUP |
| } else { |
| logger.Errorw(ctx, "Ignoring Device indication: UP. Device Missing", log.Fields{"Device": device}) |
| } |
| } |
| |
| // DeviceDownInd changes device state to down. |
| func (va *VoltApplication) DeviceDownInd(device string) { |
| logger.Warnw(ctx, "Received Device Ind: DOWN", log.Fields{"Device": device}) |
| if d := va.GetDevice(device); d != nil { |
| d.State = controller.DeviceStateDOWN |
| } else { |
| logger.Errorw(ctx, "Ignoring Device indication: DOWN. Device Missing", log.Fields{"Device": device}) |
| } |
| } |
| |
| // DeviceRebootInd process for handling flow clear flag for device reboot |
| func (va *VoltApplication) DeviceRebootInd(cntx context.Context, device string, serialNum string, southBoundID string) { |
| logger.Warnw(ctx, "Received Device Ind: Reboot", log.Fields{"Device": device, "SerialNumber": serialNum}) |
| |
| if d := va.GetDevice(device); d != nil { |
| if d.State == controller.DeviceStateREBOOTED { |
| logger.Warnw(ctx, "Ignoring Device Ind: Reboot, Device already in Reboot state", log.Fields{"Device": device, "SerialNumber": serialNum, "State": d.State}) |
| return |
| } |
| d.State = controller.DeviceStateREBOOTED |
| } |
| va.HandleFlowClearFlag(cntx, device, serialNum, southBoundID) |
| |
| } |
| |
| // DeviceDisableInd handles device deactivation process |
| func (va *VoltApplication) DeviceDisableInd(cntx context.Context, device string) { |
| logger.Warnw(ctx, "Received Device Ind: Disable", log.Fields{"Device": device}) |
| |
| d := va.GetDevice(device) |
| if d == nil { |
| logger.Errorw(ctx, "Ignoring Device indication: DISABLED. Device Missing", log.Fields{"Device": device}) |
| return |
| } |
| |
| d.State = controller.DeviceStateDISABLED |
| va.HandleFlowClearFlag(cntx, device, d.SerialNum, d.SouthBoundID) |
| } |
| |
| // ProcessIgmpDSFlowForMvlan for processing Igmp DS flow for device |
| func (va *VoltApplication) ProcessIgmpDSFlowForMvlan(cntx context.Context, d *VoltDevice, mvp *MvlanProfile, addFlow bool) { |
| |
| logger.Debugw(ctx, "Process IGMP DS Flows for MVlan", log.Fields{"device": d.Name, "Mvlan": mvp.Mvlan, "addFlow": addFlow}) |
| portState := false |
| p := d.GetPort(d.NniPort) |
| if p != nil && p.State == PortStateUp { |
| portState = true |
| } |
| |
| if addFlow { |
| if portState { |
| mvp.pushIgmpMcastFlows(cntx, d.SerialNum) |
| } |
| } else { |
| mvp.removeIgmpMcastFlows(cntx, d.SerialNum) |
| } |
| } |
| |
| // ProcessIgmpDSFlowForDevice for processing Igmp DS flow for device |
| func (va *VoltApplication) ProcessIgmpDSFlowForDevice(cntx context.Context, d *VoltDevice, addFlow bool) { |
| logger.Debugw(ctx, "Process IGMP DS Flows for device", log.Fields{"device": d.Name, "addFlow": addFlow}) |
| |
| handleIgmpDsFlows := func(key interface{}, value interface{}) bool { |
| mvProfile := value.(*MvlanProfile) |
| va.ProcessIgmpDSFlowForMvlan(cntx, d, mvProfile, addFlow) |
| return true |
| } |
| va.MvlanProfilesByName.Range(handleIgmpDsFlows) |
| } |
| |
| // GetDeviceFromPort : This is suitable only for access ports as their naming convention |
| // makes them unique across all the OLTs. This must be called with |
| // port name that is an access port. Currently called from VNETs, attached |
| // only to access ports, and the services which are also attached only |
| // to access ports |
| func (va *VoltApplication) GetDeviceFromPort(port string) (*VoltDevice, error) { |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| var err error |
| err = nil |
| p, ok := va.PortsDisc.Load(port) |
| if !ok { |
| return nil, errorCodes.ErrPortNotFound |
| } |
| d := va.GetDevice(p.(*VoltPort).Device) |
| if d == nil { |
| err = errorCodes.ErrDeviceNotFound |
| } |
| return d, err |
| } |
| |
| // GetPortID : This too applies only to access ports. The ports can be indexed |
| // purely by their names without the device forming part of the key |
| func (va *VoltApplication) GetPortID(port string) (uint32, error) { |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| p, ok := va.PortsDisc.Load(port) |
| if !ok { |
| return 0, errorCodes.ErrPortNotFound |
| } |
| return p.(*VoltPort).ID, nil |
| } |
| |
| // GetPortName : This too applies only to access ports. The ports can be indexed |
| // purely by their names without the device forming part of the key |
| func (va *VoltApplication) GetPortName(port uint32) (string, error) { |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| var portName string |
| va.PortsDisc.Range(func(key interface{}, value interface{}) bool { |
| portInfo := value.(*VoltPort) |
| if portInfo.ID == port { |
| portName = portInfo.Name |
| return false |
| } |
| return true |
| }) |
| return portName, nil |
| } |
| |
| // GetPonFromUniPort to get Pon info from UniPort |
| func (va *VoltApplication) GetPonFromUniPort(port string) (string, error) { |
| uniPortID, err := va.GetPortID(port) |
| if err == nil { |
| ponPortID := (uniPortID & 0x0FF00000) >> 20 //pon(8) + onu(8) + uni(12) |
| return strconv.FormatUint(uint64(ponPortID), 10), nil |
| } |
| return "", err |
| } |
| |
| // GetPortState : This too applies only to access ports. The ports can be indexed |
| // purely by their names without the device forming part of the key |
| func (va *VoltApplication) GetPortState(port string) (PortState, error) { |
| va.portLock.Lock() |
| defer va.portLock.Unlock() |
| p, ok := va.PortsDisc.Load(port) |
| if !ok { |
| return 0, errors.New("Port not configured") |
| } |
| return p.(*VoltPort).State, nil |
| } |
| |
| // GetIcmpv6Receivers to get Icmp v6 receivers |
| func (va *VoltApplication) GetIcmpv6Receivers(device string) []uint32 { |
| var receiverList []uint32 |
| receivers, _ := va.Icmpv6Receivers.Load(device) |
| if receivers != nil { |
| receiverList = receivers.([]uint32) |
| } |
| return receiverList |
| } |
| |
| // AddIcmpv6Receivers to add Icmp v6 receivers |
| func (va *VoltApplication) AddIcmpv6Receivers(device string, portID uint32) []uint32 { |
| var receiverList []uint32 |
| receivers, _ := va.Icmpv6Receivers.Load(device) |
| if receivers != nil { |
| receiverList = receivers.([]uint32) |
| } |
| receiverList = append(receiverList, portID) |
| va.Icmpv6Receivers.Store(device, receiverList) |
| logger.Debugw(ctx, "Receivers after addition", log.Fields{"Receivers": receiverList}) |
| return receiverList |
| } |
| |
| // DelIcmpv6Receivers to delete Icmp v6 receievers |
| func (va *VoltApplication) DelIcmpv6Receivers(device string, portID uint32) []uint32 { |
| var receiverList []uint32 |
| receivers, _ := va.Icmpv6Receivers.Load(device) |
| if receivers != nil { |
| receiverList = receivers.([]uint32) |
| } |
| for i, port := range receiverList { |
| if port == portID { |
| receiverList = append(receiverList[0:i], receiverList[i+1:]...) |
| va.Icmpv6Receivers.Store(device, receiverList) |
| break |
| } |
| } |
| logger.Debugw(ctx, "Receivers After deletion", log.Fields{"Receivers": receiverList}) |
| return receiverList |
| } |
| |
| // ProcessDevFlowForDevice - Process DS ICMPv6 & ARP flow for provided device and vnet profile |
| // device - Device Obj |
| // vnet - vnet profile name |
| // enabled - vlan enabled/disabled - based on the status, the flow shall be added/removed |
| func (va *VoltApplication) ProcessDevFlowForDevice(cntx context.Context, device *VoltDevice, vnet *VoltVnet, enabled bool) { |
| _, applied := device.ConfiguredVlanForDeviceFlows.Get(VnetKey(vnet.SVlan, vnet.CVlan, 0)) |
| if enabled { |
| va.PushDevFlowForVlan(cntx, vnet) |
| } else if !enabled && applied { |
| //va.DeleteDevFlowForVlan(vnet) |
| va.DeleteDevFlowForVlanFromDevice(cntx, vnet, device.SerialNum) |
| } |
| } |
| |
| //NniVlanIndToIgmp - Trigger receiver up indication to all ports with igmp enabled |
| //and has the provided mvlan |
| func (va *VoltApplication) NniVlanIndToIgmp(device *VoltDevice, mvp *MvlanProfile) { |
| |
| logger.Infow(ctx, "Sending Igmp Receiver UP indication for all Services", log.Fields{"Vlan": mvp.Mvlan}) |
| |
| //Trigger nni indication for receiver only for first time |
| if device.IgmpDsFlowAppliedForMvlan[uint16(mvp.Mvlan)] { |
| return |
| } |
| device.Ports.Range(func(key, value interface{}) bool { |
| port := key.(string) |
| |
| if state, _ := va.GetPortState(port); state == PortStateUp { |
| vpvs, _ := va.VnetsByPort.Load(port) |
| if vpvs == nil { |
| return true |
| } |
| for _, vpv := range vpvs.([]*VoltPortVnet) { |
| //Send indication only for subscribers with the received mvlan profile |
| if vpv.IgmpEnabled && vpv.MvlanProfileName == mvp.Name { |
| vpv.services.Range(ReceiverUpInd) |
| } |
| } |
| } |
| return true |
| }) |
| } |
| |
| // PortUpInd : |
| // ----------------------------------------------------------------------- |
| // Port status change handling |
| // ---------------------------------------------------------------------- |
| // Port UP indication is passed to all services associated with the port |
| // so that the services can configure flows applicable when the port goes |
| // up from down state |
| func (va *VoltApplication) PortUpInd(cntx context.Context, device string, port string) { |
| d := va.GetDevice(device) |
| |
| if d == nil { |
| logger.Warnw(ctx, "Device Not Found - Dropping Port Ind: UP", log.Fields{"Device": device, "Port": port}) |
| return |
| } |
| |
| //Fixme: If Port Update Comes in large numbers, this will result in slow update per device |
| va.portLock.Lock() |
| // Do not defer the port mutex unlock here |
| // Some of the following func calls needs the port lock, so defering the lock here |
| // may lead to dead-lock |
| p := d.GetPort(port) |
| |
| if p == nil { |
| logger.Infow(ctx, "Ignoring Port Ind: UP, Port doesnt exist", log.Fields{"Device": device, "PortName": port, "PortId": p}) |
| va.portLock.Unlock() |
| return |
| } |
| p.State = PortStateUp |
| va.portLock.Unlock() |
| |
| logger.Infow(ctx, "Received SouthBound Port Ind: UP", log.Fields{"Device": device, "PortName": port, "PortId": p.ID}) |
| if p.Type == VoltPortTypeNni { |
| |
| logger.Warnw(ctx, "Received NNI Port Ind: UP", log.Fields{"Device": device, "PortName": port, "PortId": p.ID}) |
| //va.PushDevFlowForDevice(d) |
| //Build Igmp TrapFlowRule |
| //va.ProcessIgmpDSFlowForDevice(d, true) |
| } |
| vpvs, ok := va.VnetsByPort.Load(port) |
| if !ok || nil == vpvs || len(vpvs.([]*VoltPortVnet)) == 0 { |
| logger.Infow(ctx, "No VNETs on port", log.Fields{"Device": device, "Port": port}) |
| //msgbus.ProcessPortInd(msgbus.PortUp, d.SerialNum, p.Name, false, getServiceList(port)) |
| return |
| } |
| |
| //If NNI port is not UP, do not push Flows |
| if d.NniPort == "" { |
| logger.Warnw(ctx, "NNI port not UP. Not sending Port UP Ind for VPVs", log.Fields{"NNI": d.NniPort}) |
| return |
| } |
| |
| vpvList := vpvs.([]*VoltPortVnet) |
| if vpvList[0].PonPort != 0xFF && vpvList[0].PonPort != p.PonPort { |
| logger.Errorw(ctx, "UNI port discovered on wrong PON Port. Dropping Port Indication", log.Fields{"Device": device, "Port": port, "DetectedPon": p.PonPort, "ExpectedPon": vpvList[0].PonPort}) |
| |
| //Remove the flow (if any) which are already installed - Valid for PON switching when VGC pod is DOWN |
| for _, vpv := range vpvs.([]*VoltPortVnet) { |
| vpv.VpvLock.Lock() |
| logger.Warnw(ctx, "Removing existing VPVs/Services flows for for Subscriber: UNI Detected on wrong PON", log.Fields{"Port": vpv.Port, "Vnet": vpv.VnetName}) |
| vpv.PortDownInd(cntx, device, port, false) |
| if vpv.IgmpEnabled { |
| va.ReceiverDownInd(cntx, device, port) |
| } |
| vpv.VpvLock.Unlock() |
| } |
| return |
| } |
| |
| for _, vpv := range vpvs.([]*VoltPortVnet) { |
| vpv.VpvLock.Lock() |
| //If no service is activated drop the portUpInd |
| if vpv.IsServiceActivated(cntx) { |
| //Do not trigger indication for the vpv which is already removed from vpv list as |
| // part of service delete (during the lock wait duration) |
| // In that case, the services associated wil be zero |
| if vpv.servicesCount.Load() != 0 { |
| vpv.PortUpInd(cntx, d, port) |
| } |
| } else { |
| // Service not activated, still attach device to service |
| vpv.setDevice(d.Name) |
| } |
| vpv.VpvLock.Unlock() |
| } |
| // At the end of processing inform the other entities that |
| // are interested in the events |
| } |
| |
| /* |
| func getServiceList(port string) map[string]bool { |
| serviceList := make(map[string]bool) |
| |
| getServiceNames := func(key interface{}, value interface{}) bool { |
| serviceList[key.(string)] = value.(*VoltService).DsHSIAFlowsApplied |
| return true |
| } |
| |
| if vpvs, _ := GetApplication().VnetsByPort.Load(port); vpvs != nil { |
| vpvList := vpvs.([]*VoltPortVnet) |
| for _, vpv := range vpvList { |
| vpv.services.Range(getServiceNames) |
| } |
| } |
| return serviceList |
| |
| }*/ |
| |
| //ReceiverUpInd - Send receiver up indication for service with Igmp enabled |
| func ReceiverUpInd(key, value interface{}) bool { |
| svc := value.(*VoltService) |
| var vlan of.VlanType |
| |
| if !svc.IPAssigned() { |
| logger.Infow(ctx, "IP Not assigned, skipping general query", log.Fields{"Service": svc}) |
| return false |
| } |
| |
| //Send port up indication to igmp only for service with igmp enabled |
| if svc.IgmpEnabled { |
| if svc.VlanControl == ONUCVlan || svc.VlanControl == ONUCVlanOLTSVlan { |
| vlan = svc.CVlan |
| } else { |
| vlan = svc.UniVlan |
| } |
| if device, _ := GetApplication().GetDeviceFromPort(svc.Port); device != nil { |
| GetApplication().ReceiverUpInd(device.Name, svc.Port, svc.MvlanProfileName, vlan, svc.Pbits) |
| } |
| return false |
| } |
| return true |
| } |
| |
| // PortDownInd : Port down indication is passed on to the services so that the services |
| // can make changes at this transition. |
| func (va *VoltApplication) PortDownInd(cntx context.Context, device string, port string) { |
| logger.Infow(ctx, "Received SouthBound Port Ind: DOWN", log.Fields{"Device": device, "Port": port}) |
| d := va.GetDevice(device) |
| |
| if d == nil { |
| logger.Warnw(ctx, "Device Not Found - Dropping Port Ind: DOWN", log.Fields{"Device": device, "Port": port}) |
| return |
| } |
| //Fixme: If Port Update Comes in large numbers, this will result in slow update per device |
| va.portLock.Lock() |
| // Do not defer the port mutex unlock here |
| // Some of the following func calls needs the port lock, so defering the lock here |
| // may lead to dead-lock |
| p := d.GetPort(port) |
| if p == nil { |
| logger.Infow(ctx, "Ignoring Port Ind: Down, Port doesnt exist", log.Fields{"Device": device, "PortName": port, "PortId": p}) |
| va.portLock.Unlock() |
| return |
| } |
| p.State = PortStateDown |
| va.portLock.Unlock() |
| |
| if d.State == controller.DeviceStateREBOOTED { |
| logger.Infow(ctx, "Ignoring Port Ind: Down, Device has been Rebooted", log.Fields{"Device": device, "PortName": port, "PortId": p}) |
| return |
| } |
| |
| if p.Type == VoltPortTypeNni { |
| logger.Warnw(ctx, "Received NNI Port Ind: DOWN", log.Fields{"Device": device, "Port": port}) |
| va.DeleteDevFlowForDevice(cntx, d) |
| va.NniDownInd(cntx, device, d.SerialNum) |
| va.RemovePendingGroups(cntx, device, true) |
| } |
| vpvs, ok := va.VnetsByPort.Load(port) |
| if !ok || nil == vpvs || len(vpvs.([]*VoltPortVnet)) == 0 { |
| logger.Infow(ctx, "No VNETs on port", log.Fields{"Device": device, "Port": port}) |
| //msgbus.ProcessPortInd(msgbus.PortDown, d.SerialNum, p.Name, false, getServiceList(port)) |
| return |
| } |
| |
| for _, vpv := range vpvs.([]*VoltPortVnet) { |
| vpv.VpvLock.Lock() |
| vpv.PortDownInd(cntx, device, port, false) |
| if vpv.IgmpEnabled { |
| va.ReceiverDownInd(cntx, device, port) |
| } |
| vpv.VpvLock.Unlock() |
| } |
| } |
| |
| // PacketInInd : |
| // ----------------------------------------------------------------------- |
| // PacketIn Processing |
| // Packet In Indication processing. It arrives with the identities of |
| // the device and port on which the packet is received. At first, the |
| // packet is decoded and the right processor is called. Currently, we |
| // plan to support only DHCP and IGMP. In future, we can add more |
| // capabilities as needed |
| func (va *VoltApplication) PacketInInd(cntx context.Context, device string, port string, pkt []byte) { |
| // Decode the incoming packet |
| packetSide := US |
| if strings.Contains(port, NNI) { |
| packetSide = DS |
| } |
| |
| logger.Debugw(ctx, "Received a Packet-In Indication", log.Fields{"Device": device, "Port": port}) |
| |
| gopkt := gopacket.NewPacket(pkt, layers.LayerTypeEthernet, gopacket.Default) |
| |
| var dot1qFound = false |
| for _, l := range gopkt.Layers() { |
| if l.LayerType() == layers.LayerTypeDot1Q { |
| dot1qFound = true |
| break |
| } |
| } |
| |
| if !dot1qFound { |
| logger.Debugw(ctx, "Ignoring Received Packet-In Indication without Dot1Q Header", |
| log.Fields{"Device": device, "Port": port}) |
| return |
| } |
| |
| logger.Debugw(ctx, "Received Southbound Packet In", log.Fields{"Pkt": hex.EncodeToString(gopkt.Data())}) |
| |
| // Classify the packet into packet types that we support |
| // The supported types are DHCP and IGMP. The DHCP packet is |
| // identified by matching the L4 protocol to UDP. The IGMP packet |
| // is identified by matching L3 protocol to IGMP |
| arpl := gopkt.Layer(layers.LayerTypeARP) |
| if arpl != nil { |
| if callBack, ok := PacketHandlers[ARP]; ok { |
| callBack(cntx, device, port, gopkt) |
| } else { |
| logger.Debugw(ctx, "ARP handler is not registered, dropping the packet", log.Fields{"Pkt": hex.EncodeToString(gopkt.Data())}) |
| } |
| return |
| } |
| ipv4l := gopkt.Layer(layers.LayerTypeIPv4) |
| if ipv4l != nil { |
| ip := ipv4l.(*layers.IPv4) |
| |
| if ip.Protocol == layers.IPProtocolUDP { |
| logger.Debugw(ctx, "Received Southbound UDP ipv4 packet in", log.Fields{"StreamSide": packetSide}) |
| dhcpl := gopkt.Layer(layers.LayerTypeDHCPv4) |
| if dhcpl != nil { |
| if callBack, ok := PacketHandlers[DHCPv4]; ok { |
| callBack(cntx, device, port, gopkt) |
| } else { |
| logger.Debugw(ctx, "DHCPv4 handler is not registered, dropping the packet", log.Fields{"Pkt": hex.EncodeToString(gopkt.Data())}) |
| } |
| } |
| } else if ip.Protocol == layers.IPProtocolIGMP { |
| logger.Debugw(ctx, "Received Southbound IGMP packet in", log.Fields{"StreamSide": packetSide}) |
| if callBack, ok := PacketHandlers[IGMP]; ok { |
| callBack(cntx, device, port, gopkt) |
| } else { |
| logger.Debugw(ctx, "IGMP handler is not registered, dropping the packet", log.Fields{"Pkt": hex.EncodeToString(gopkt.Data())}) |
| } |
| } |
| return |
| } |
| ipv6l := gopkt.Layer(layers.LayerTypeIPv6) |
| if ipv6l != nil { |
| ip := ipv6l.(*layers.IPv6) |
| if ip.NextHeader == layers.IPProtocolUDP { |
| logger.Debug(ctx, "Received Southbound UDP ipv6 packet in") |
| dhcpl := gopkt.Layer(layers.LayerTypeDHCPv6) |
| if dhcpl != nil { |
| if callBack, ok := PacketHandlers[DHCPv6]; ok { |
| callBack(cntx, device, port, gopkt) |
| } else { |
| logger.Debugw(ctx, "DHCPv6 handler is not registered, dropping the packet", log.Fields{"Pkt": hex.EncodeToString(gopkt.Data())}) |
| } |
| } |
| } |
| return |
| } |
| |
| pppoel := gopkt.Layer(layers.LayerTypePPPoE) |
| if pppoel != nil { |
| logger.Debugw(ctx, "Received Southbound PPPoE packet in", log.Fields{"StreamSide": packetSide}) |
| if callBack, ok := PacketHandlers[PPPOE]; ok { |
| callBack(cntx, device, port, gopkt) |
| } else { |
| logger.Debugw(ctx, "PPPoE handler is not registered, dropping the packet", log.Fields{"Pkt": hex.EncodeToString(gopkt.Data())}) |
| } |
| } |
| } |
| |
| // GetVlans : This utility gets the VLANs from the packet. The VLANs are |
| // used to identify the right service that must process the incoming |
| // packet |
| func GetVlans(pkt gopacket.Packet) []of.VlanType { |
| var vlans []of.VlanType |
| for _, l := range pkt.Layers() { |
| if l.LayerType() == layers.LayerTypeDot1Q { |
| q, ok := l.(*layers.Dot1Q) |
| if ok { |
| vlans = append(vlans, of.VlanType(q.VLANIdentifier)) |
| } |
| } |
| } |
| return vlans |
| } |
| |
| // GetPriority to get priority |
| func GetPriority(pkt gopacket.Packet) uint8 { |
| for _, l := range pkt.Layers() { |
| if l.LayerType() == layers.LayerTypeDot1Q { |
| q, ok := l.(*layers.Dot1Q) |
| if ok { |
| return q.Priority |
| } |
| } |
| } |
| return PriorityNone |
| } |
| |
| // HandleFlowClearFlag to handle flow clear flag during reboot |
| func (va *VoltApplication) HandleFlowClearFlag(cntx context.Context, deviceID string, serialNum, southBoundID string) { |
| logger.Warnw(ctx, "Clear All flags for Device", log.Fields{"Device": deviceID, "SerialNum": serialNum, "SBID": southBoundID}) |
| dev, ok := va.DevicesDisc.Load(deviceID) |
| if ok && dev != nil { |
| logger.Infow(ctx, "Clear Flags for device", log.Fields{"voltDevice": dev.(*VoltDevice).Name}) |
| dev.(*VoltDevice).icmpv6GroupAdded = false |
| logger.Infow(ctx, "Clearing DS Icmpv6 Map", |
| log.Fields{"voltDevice": dev.(*VoltDevice).Name}) |
| dev.(*VoltDevice).ConfiguredVlanForDeviceFlows = util.NewConcurrentMap() |
| logger.Infow(ctx, "Clearing DS IGMP Map", |
| log.Fields{"voltDevice": dev.(*VoltDevice).Name}) |
| for k := range dev.(*VoltDevice).IgmpDsFlowAppliedForMvlan { |
| delete(dev.(*VoltDevice).IgmpDsFlowAppliedForMvlan, k) |
| } |
| //Delete group 1 - ICMPv6/ARP group |
| if err := ProcessIcmpv6McGroup(deviceID, true); err != nil { |
| logger.Errorw(ctx, "ProcessIcmpv6McGroup failed", log.Fields{"Device": deviceID, "Error": err}) |
| } |
| } else { |
| logger.Warnw(ctx, "VoltDevice not found for device ", log.Fields{"deviceID": deviceID}) |
| } |
| |
| getVpvs := func(key interface{}, value interface{}) bool { |
| vpvs := value.([]*VoltPortVnet) |
| for _, vpv := range vpvs { |
| if vpv.Device == deviceID { |
| logger.Infow(ctx, "Clear Flags for vpv", |
| log.Fields{"device": vpv.Device, "port": vpv.Port, |
| "svlan": vpv.SVlan, "cvlan": vpv.CVlan, "univlan": vpv.UniVlan}) |
| vpv.ClearAllServiceFlags(cntx) |
| vpv.ClearAllVpvFlags(cntx) |
| |
| if vpv.IgmpEnabled { |
| va.ReceiverDownInd(cntx, vpv.Device, vpv.Port) |
| //Also clear service igmp stats |
| vpv.ClearServiceCounters(cntx) |
| } |
| } |
| } |
| return true |
| } |
| va.VnetsByPort.Range(getVpvs) |
| |
| //Clear Static Group |
| va.ReceiverDownInd(cntx, deviceID, StaticPort) |
| |
| logger.Warnw(ctx, "All flags cleared for device", log.Fields{"Device": deviceID}) |
| |
| //Reset pending group pool |
| va.RemovePendingGroups(cntx, deviceID, true) |
| |
| //Process all Migrate Service Request - force udpate all profiles since resources are already cleaned up |
| if dev != nil { |
| triggerForceUpdate := func(key, value interface{}) bool { |
| msrList := value.(*util.ConcurrentMap) |
| forceUpdateServices := func(key, value interface{}) bool { |
| msr := value.(*MigrateServicesRequest) |
| forceUpdateAllServices(cntx, msr) |
| return true |
| } |
| msrList.Range(forceUpdateServices) |
| return true |
| } |
| dev.(*VoltDevice).MigratingServices.Range(triggerForceUpdate) |
| } else { |
| va.FetchAndProcessAllMigrateServicesReq(cntx, deviceID, forceUpdateAllServices) |
| } |
| } |
| |
| //GetPonPortIDFromUNIPort to get pon port id from uni port |
| func GetPonPortIDFromUNIPort(uniPortID uint32) uint32 { |
| ponPortID := (uniPortID & 0x0FF00000) >> 20 |
| return ponPortID |
| } |
| |
| //ProcessFlowModResultIndication - Processes Flow mod operation indications from controller |
| func (va *VoltApplication) ProcessFlowModResultIndication(cntx context.Context, flowStatus intf.FlowStatus) { |
| |
| d := va.GetDevice(flowStatus.Device) |
| if d == nil { |
| logger.Errorw(ctx, "Dropping Flow Mod Indication. Device not found", log.Fields{"Cookie": flowStatus.Cookie, "Device": flowStatus.Device}) |
| return |
| } |
| |
| cookieExists := ExecuteFlowEvent(cntx, d, flowStatus.Cookie, flowStatus) |
| |
| if flowStatus.Flow != nil { |
| flowAdd := (flowStatus.FlowModType == of.CommandAdd) |
| if !cookieExists && !isFlowStatusSuccess(flowStatus.Status, flowAdd) { |
| pushFlowFailureNotif(flowStatus) |
| } |
| } |
| } |
| |
| func pushFlowFailureNotif(flowStatus intf.FlowStatus) { |
| subFlow := flowStatus.Flow |
| cookie := subFlow.Cookie |
| uniPort := cookie >> 16 & 0xFFFFFFFF |
| logger.Errorw(ctx, "Flow Failure Notification", log.Fields{"uniPort": uniPort, "Cookie": cookie}) |
| } |
| |
| //UpdateMvlanProfilesForDevice to update mvlan profile for device |
| func (va *VoltApplication) UpdateMvlanProfilesForDevice(cntx context.Context, device string) { |
| |
| checkAndAddMvlanUpdateTask := func(key, value interface{}) bool { |
| mvp := value.(*MvlanProfile) |
| if mvp.IsUpdateInProgressForDevice(device) { |
| mvp.UpdateProfile(cntx, device) |
| } |
| return true |
| } |
| va.MvlanProfilesByName.Range(checkAndAddMvlanUpdateTask) |
| } |
| |
| // TaskInfo structure that is used to store the task Info. |
| type TaskInfo struct { |
| ID string |
| Name string |
| Timestamp string |
| } |
| |
| // GetTaskList to get task list information. |
| func (va *VoltApplication) GetTaskList(device string) map[int]*TaskInfo { |
| taskList := cntlr.GetController().GetTaskList(device) |
| taskMap := make(map[int]*TaskInfo) |
| for i, task := range taskList { |
| taskID := strconv.Itoa(int(task.TaskID())) |
| name := task.Name() |
| timestamp := task.Timestamp() |
| taskInfo := &TaskInfo{ID: taskID, Name: name, Timestamp: timestamp} |
| taskMap[i] = taskInfo |
| } |
| return taskMap |
| } |
| |
| // UpdateDeviceSerialNumberList to update the device serial number list after device serial number is updated for vnet and mvlan |
| func (va *VoltApplication) UpdateDeviceSerialNumberList(oldOltSlNo string, newOltSlNo string) { |
| |
| voltDevice, _ := va.GetDeviceBySerialNo(oldOltSlNo) |
| |
| if voltDevice != nil { |
| // Device is present with old serial number ID |
| logger.Errorw(ctx, "OLT Migration cannot be completed as there are dangling devices", log.Fields{"Serial Number": oldOltSlNo}) |
| |
| } else { |
| logger.Infow(ctx, "No device present with old serial number", log.Fields{"Serial Number": oldOltSlNo}) |
| |
| // Add Serial Number to Blocked Devices List. |
| cntlr.GetController().AddBlockedDevices(oldOltSlNo) |
| cntlr.GetController().AddBlockedDevices(newOltSlNo) |
| |
| updateSlNoForVnet := func(key, value interface{}) bool { |
| vnet := value.(*VoltVnet) |
| for i, deviceSlNo := range vnet.VnetConfig.DevicesList { |
| if deviceSlNo == oldOltSlNo { |
| vnet.VnetConfig.DevicesList[i] = newOltSlNo |
| logger.Infow(ctx, "device serial number updated for vnet profile", log.Fields{"Updated Serial Number": deviceSlNo, "Previous Serial Number": oldOltSlNo}) |
| break |
| } |
| } |
| return true |
| } |
| |
| updateSlNoforMvlan := func(key interface{}, value interface{}) bool { |
| mvProfile := value.(*MvlanProfile) |
| for deviceSlNo := range mvProfile.DevicesList { |
| if deviceSlNo == oldOltSlNo { |
| mvProfile.DevicesList[newOltSlNo] = mvProfile.DevicesList[oldOltSlNo] |
| delete(mvProfile.DevicesList, oldOltSlNo) |
| logger.Infow(ctx, "device serial number updated for mvlan profile", log.Fields{"Updated Serial Number": deviceSlNo, "Previous Serial Number": oldOltSlNo}) |
| break |
| } |
| } |
| return true |
| } |
| |
| va.VnetsByName.Range(updateSlNoForVnet) |
| va.MvlanProfilesByName.Range(updateSlNoforMvlan) |
| |
| // Clear the serial number from Blocked Devices List |
| cntlr.GetController().DelBlockedDevices(oldOltSlNo) |
| cntlr.GetController().DelBlockedDevices(newOltSlNo) |
| |
| } |
| } |
| |
| // GetVpvsForDsPkt to get vpv for downstream packets |
| func (va *VoltApplication) GetVpvsForDsPkt(cvlan of.VlanType, svlan of.VlanType, clientMAC net.HardwareAddr, |
| pbit uint8) ([]*VoltPortVnet, error) { |
| |
| var matchVPVs []*VoltPortVnet |
| findVpv := func(key, value interface{}) bool { |
| vpvs := value.([]*VoltPortVnet) |
| for _, vpv := range vpvs { |
| if vpv.isVlanMatching(cvlan, svlan) && vpv.MatchesPriority(pbit) != nil { |
| var subMac net.HardwareAddr |
| if NonZeroMacAddress(vpv.MacAddr) { |
| subMac = vpv.MacAddr |
| } else if vpv.LearntMacAddr != nil && NonZeroMacAddress(vpv.LearntMacAddr) { |
| subMac = vpv.LearntMacAddr |
| } else { |
| matchVPVs = append(matchVPVs, vpv) |
| continue |
| } |
| if util.MacAddrsMatch(subMac, clientMAC) { |
| matchVPVs = append([]*VoltPortVnet{}, vpv) |
| logger.Infow(ctx, "Matching VPV found", log.Fields{"Port": vpv.Port, "SVLAN": vpv.SVlan, "CVLAN": vpv.CVlan, "UNIVlan": vpv.UniVlan, "MAC": clientMAC}) |
| return false |
| } |
| } |
| } |
| return true |
| } |
| va.VnetsByPort.Range(findVpv) |
| |
| if len(matchVPVs) != 1 { |
| logger.Infow(ctx, "No matching VPV found or multiple vpvs found", log.Fields{"Match VPVs": matchVPVs, "MAC": clientMAC}) |
| return nil, errors.New("No matching VPV found or multiple vpvs found") |
| } |
| return matchVPVs, nil |
| } |
| |
| // GetMacInPortMap to get PORT value based on MAC key |
| func (va *VoltApplication) GetMacInPortMap(macAddr net.HardwareAddr) string { |
| if NonZeroMacAddress(macAddr) { |
| va.macPortLock.Lock() |
| defer va.macPortLock.Unlock() |
| if port, ok := va.macPortMap[macAddr.String()]; ok { |
| logger.Debugw(ctx, "found-entry-macportmap", log.Fields{"MacAddr": macAddr.String(), "Port": port}) |
| return port |
| } |
| } |
| logger.Infow(ctx, "entry-not-found-macportmap", log.Fields{"MacAddr": macAddr.String()}) |
| return "" |
| } |
| |
| // UpdateMacInPortMap to update MAC PORT (key value) information in MacPortMap |
| func (va *VoltApplication) UpdateMacInPortMap(macAddr net.HardwareAddr, port string) { |
| if NonZeroMacAddress(macAddr) { |
| va.macPortLock.Lock() |
| va.macPortMap[macAddr.String()] = port |
| va.macPortLock.Unlock() |
| logger.Debugw(ctx, "updated-macportmap", log.Fields{"MacAddr": macAddr.String(), "Port": port}) |
| } |
| } |
| |
| // DeleteMacInPortMap to remove MAC key from MacPortMap |
| func (va *VoltApplication) DeleteMacInPortMap(macAddr net.HardwareAddr) { |
| if NonZeroMacAddress(macAddr) { |
| port := va.GetMacInPortMap(macAddr) |
| va.macPortLock.Lock() |
| delete(va.macPortMap, macAddr.String()) |
| va.macPortLock.Unlock() |
| logger.Debugw(ctx, "deleted-from-macportmap", log.Fields{"MacAddr": macAddr.String(), "Port": port}) |
| } |
| } |
| |
| //AddGroupToPendingPool - adds the IgmpGroup with active group table entry to global pending pool |
| func (va *VoltApplication) AddGroupToPendingPool(ig *IgmpGroup) { |
| var grpMap map[*IgmpGroup]bool |
| var ok bool |
| |
| va.PendingPoolLock.Lock() |
| defer va.PendingPoolLock.Unlock() |
| |
| logger.Infow(ctx, "Adding IgmpGroup to Global Pending Pool", log.Fields{"GroupID": ig.GroupID, "GroupName": ig.GroupName, "GroupAddr": ig.GroupAddr, "PendingDevices": len(ig.Devices)}) |
| // Do Not Reset any current profile info since group table entry tied to mvlan profile |
| // The PonVlan is part of set field in group installed |
| // Hence, Group created is always tied to the same mvlan profile until deleted |
| |
| for device := range ig.Devices { |
| key := getPendingPoolKey(ig.Mvlan, device) |
| |
| if grpMap, ok = va.IgmpPendingPool[key]; !ok { |
| grpMap = make(map[*IgmpGroup]bool) |
| } |
| grpMap[ig] = true |
| |
| //Add grpObj reference to all associated devices |
| va.IgmpPendingPool[key] = grpMap |
| } |
| } |
| |
| //RemoveGroupFromPendingPool - removes the group from global pending group pool |
| func (va *VoltApplication) RemoveGroupFromPendingPool(device string, ig *IgmpGroup) bool { |
| GetApplication().PendingPoolLock.Lock() |
| defer GetApplication().PendingPoolLock.Unlock() |
| |
| logger.Infow(ctx, "Removing IgmpGroup from Global Pending Pool", log.Fields{"Device": device, "GroupID": ig.GroupID, "GroupName": ig.GroupName, "GroupAddr": ig.GroupAddr, "PendingDevices": len(ig.Devices)}) |
| |
| key := getPendingPoolKey(ig.Mvlan, device) |
| if _, ok := va.IgmpPendingPool[key]; ok { |
| delete(va.IgmpPendingPool[key], ig) |
| return true |
| } |
| return false |
| } |
| |
| //RemoveGroupsFromPendingPool - removes the group from global pending group pool |
| func (va *VoltApplication) RemoveGroupsFromPendingPool(cntx context.Context, device string, mvlan of.VlanType) { |
| GetApplication().PendingPoolLock.Lock() |
| defer GetApplication().PendingPoolLock.Unlock() |
| |
| logger.Infow(ctx, "Removing IgmpGroups from Global Pending Pool for given Deivce & Mvlan", log.Fields{"Device": device, "Mvlan": mvlan.String()}) |
| |
| key := getPendingPoolKey(mvlan, device) |
| va.RemoveGroupListFromPendingPool(cntx, key) |
| } |
| |
| //RemoveGroupListFromPendingPool - removes the groups for provided key |
| // 1. Deletes the group from device |
| // 2. Delete the IgmpGroup obj and release the group ID to pool |
| // Note: Make sure to obtain PendingPoolLock lock before calling this func |
| func (va *VoltApplication) RemoveGroupListFromPendingPool(cntx context.Context, key string) { |
| if grpMap, ok := va.IgmpPendingPool[key]; ok { |
| delete(va.IgmpPendingPool, key) |
| for ig := range grpMap { |
| for device := range ig.Devices { |
| ig.DeleteIgmpGroupDevice(cntx, device) |
| } |
| } |
| } |
| } |
| |
| //RemoveGroupDevicesFromPendingPool - removes the group from global pending group pool |
| func (va *VoltApplication) RemoveGroupDevicesFromPendingPool(ig *IgmpGroup) { |
| |
| logger.Infow(ctx, "Removing IgmpGroup for all devices from Global Pending Pool", log.Fields{"GroupID": ig.GroupID, "GroupName": ig.GroupName, "GroupAddr": ig.GroupAddr, "PendingDevices": len(ig.Devices)}) |
| for device := range ig.PendingGroupForDevice { |
| va.RemoveGroupFromPendingPool(device, ig) |
| } |
| } |
| |
| //GetGroupFromPendingPool - Returns IgmpGroup obj from global pending pool |
| func (va *VoltApplication) GetGroupFromPendingPool(mvlan of.VlanType, device string) *IgmpGroup { |
| |
| var ig *IgmpGroup |
| |
| va.PendingPoolLock.Lock() |
| defer va.PendingPoolLock.Unlock() |
| |
| key := getPendingPoolKey(mvlan, device) |
| logger.Infow(ctx, "Getting IgmpGroup from Global Pending Pool", log.Fields{"Device": device, "Mvlan": mvlan.String(), "Key": key}) |
| |
| //Gets all IgmpGrp Obj for the device |
| grpMap, ok := va.IgmpPendingPool[key] |
| if !ok || len(grpMap) == 0 { |
| logger.Infow(ctx, "Matching IgmpGroup not found in Global Pending Pool", log.Fields{"Device": device, "Mvlan": mvlan.String()}) |
| return nil |
| } |
| |
| //Gets a random obj from available grps |
| for ig = range grpMap { |
| |
| //Remove grp obj reference from all devices associated in pending pool |
| for dev := range ig.Devices { |
| key := getPendingPoolKey(mvlan, dev) |
| delete(va.IgmpPendingPool[key], ig) |
| } |
| |
| //Safety check to avoid re-allocating group already in use |
| if ig.NumDevicesActive() == 0 { |
| return ig |
| } |
| |
| //Iteration will continue only if IG is not allocated |
| } |
| return nil |
| } |
| |
| //RemovePendingGroups - removes all pending groups for provided reference from global pending pool |
| // reference - mvlan/device ID |
| // isRefDevice - true - Device as reference |
| // false - Mvlan as reference |
| func (va *VoltApplication) RemovePendingGroups(cntx context.Context, reference string, isRefDevice bool) { |
| va.PendingPoolLock.Lock() |
| defer va.PendingPoolLock.Unlock() |
| |
| logger.Infow(ctx, "Removing IgmpGroups from Global Pending Pool", log.Fields{"Reference": reference, "isRefDevice": isRefDevice}) |
| |
| //Pending Pool key: "<mvlan>_<DeviceID>"" |
| paramPosition := 0 |
| if isRefDevice { |
| paramPosition = 1 |
| } |
| |
| // 1.Remove the Entry from pending pool |
| // 2.Deletes the group from device |
| // 3.Delete the IgmpGroup obj and release the group ID to pool |
| for key := range va.IgmpPendingPool { |
| keyParams := strings.Split(key, "_") |
| if keyParams[paramPosition] == reference { |
| va.RemoveGroupListFromPendingPool(cntx, key) |
| } |
| } |
| } |
| |
| func getPendingPoolKey(mvlan of.VlanType, device string) string { |
| return mvlan.String() + "_" + device |
| } |
| |
| func (va *VoltApplication) removeExpiredGroups(cntx context.Context) { |
| logger.Debug(ctx, "Check for expired Igmp Groups") |
| removeExpiredGroups := func(key interface{}, value interface{}) bool { |
| ig := value.(*IgmpGroup) |
| ig.removeExpiredGroupFromDevice(cntx) |
| return true |
| } |
| va.IgmpGroups.Range(removeExpiredGroups) |
| } |
| |
| //TriggerPendingProfileDeleteReq - trigger pending profile delete request |
| func (va *VoltApplication) TriggerPendingProfileDeleteReq(cntx context.Context, device string) { |
| va.TriggerPendingServiceDeleteReq(cntx, device) |
| va.TriggerPendingVpvDeleteReq(cntx, device) |
| va.TriggerPendingVnetDeleteReq(cntx, device) |
| logger.Warnw(ctx, "All Pending Profile Delete triggered for device", log.Fields{"Device": device}) |
| } |
| |
| //TriggerPendingServiceDeleteReq - trigger pending service delete request |
| func (va *VoltApplication) TriggerPendingServiceDeleteReq(cntx context.Context, device string) { |
| |
| logger.Warnw(ctx, "Pending Services to be deleted", log.Fields{"Count": len(va.ServicesToDelete)}) |
| for serviceName := range va.ServicesToDelete { |
| logger.Debugw(ctx, "Trigger Service Delete", log.Fields{"Service": serviceName}) |
| if vs := va.GetService(serviceName); vs != nil { |
| if vs.Device == device { |
| logger.Warnw(ctx, "Triggering Pending Service delete", log.Fields{"Service": vs.Name}) |
| vs.DelHsiaFlows(cntx) |
| if vs.ForceDelete { |
| vs.DelFromDb(cntx) |
| } |
| } |
| } else { |
| logger.Errorw(ctx, "Pending Service Not found", log.Fields{"Service": serviceName}) |
| } |
| } |
| } |
| |
| //TriggerPendingVpvDeleteReq - trigger pending VPV delete request |
| func (va *VoltApplication) TriggerPendingVpvDeleteReq(cntx context.Context, device string) { |
| |
| logger.Warnw(ctx, "Pending VPVs to be deleted", log.Fields{"Count": len(va.VoltPortVnetsToDelete)}) |
| for vpv := range va.VoltPortVnetsToDelete { |
| if vpv.Device == device { |
| logger.Warnw(ctx, "Triggering Pending VPv flow delete", log.Fields{"Port": vpv.Port, "Device": vpv.Device, "Vnet": vpv.VnetName}) |
| va.DelVnetFromPort(cntx, vpv.Port, vpv) |
| } |
| } |
| } |
| |
| //TriggerPendingVnetDeleteReq - trigger pending vnet delete request |
| func (va *VoltApplication) TriggerPendingVnetDeleteReq(cntx context.Context, device string) { |
| |
| logger.Warnw(ctx, "Pending Vnets to be deleted", log.Fields{"Count": len(va.VnetsToDelete)}) |
| for vnetName := range va.VnetsToDelete { |
| if vnetIntf, _ := va.VnetsByName.Load(vnetName); vnetIntf != nil { |
| vnet := vnetIntf.(*VoltVnet) |
| logger.Warnw(ctx, "Triggering Pending Vnet flows delete", log.Fields{"Vnet": vnet.Name}) |
| if d, _ := va.GetDeviceBySerialNo(vnet.PendingDeviceToDelete); d != nil && d.SerialNum == vnet.PendingDeviceToDelete { |
| va.DeleteDevFlowForVlanFromDevice(cntx, vnet, vnet.PendingDeviceToDelete) |
| va.deleteVnetConfig(vnet) |
| } else { |
| logger.Warnw(ctx, "Vnet Delete Failed : Device Not Found", log.Fields{"Vnet": vnet.Name, "Device": vnet.PendingDeviceToDelete}) |
| } |
| } |
| } |
| } |
| |
| type OltFlowService struct { |
| EnableDhcpOnNni bool `json:"enableDhcpOnNni"` |
| DefaultTechProfileId int `json:"defaultTechProfileId"` |
| EnableIgmpOnNni bool `json:"enableIgmpOnNni"` |
| EnableEapol bool `json:"enableEapol"` |
| EnableDhcpV6 bool `json:"enableDhcpV6"` |
| EnableDhcpV4 bool `json:"enableDhcpV4"` |
| RemoveFlowsOnDisable bool `json:"removeFlowsOnDisable"` |
| } |
| |
| func (va *VoltApplication) UpdateOltFlowService(cntx context.Context, oltFlowService OltFlowService) { |
| logger.Infow(ctx, "UpdateOltFlowService", log.Fields{"oldValue": va.OltFlowServiceConfig, "newValue": oltFlowService}) |
| va.OltFlowServiceConfig = oltFlowService |
| b, err := json.Marshal(va.OltFlowServiceConfig) |
| if err != nil { |
| logger.Warnw(ctx, "Failed to Marshal OltFlowServiceConfig", log.Fields{"OltFlowServiceConfig": va.OltFlowServiceConfig}) |
| return |
| } |
| _ = db.PutOltFlowService(cntx, string(b)) |
| } |
| |
| // RestoreOltFlowService to read from the DB and restore olt flow service config |
| func (va *VoltApplication) RestoreOltFlowService(cntx context.Context) { |
| oltflowService, err := db.GetOltFlowService(cntx) |
| if err != nil { |
| logger.Warnw(ctx, "Failed to Get OltFlowServiceConfig from DB", log.Fields{"Error": err}) |
| return |
| } |
| err = json.Unmarshal([]byte(oltflowService), &va.OltFlowServiceConfig) |
| if err != nil { |
| logger.Warn(ctx, "Unmarshal of oltflowService failed") |
| return |
| } |
| logger.Infow(ctx, "updated OltFlowServiceConfig from DB", log.Fields{"OltFlowServiceConfig": va.OltFlowServiceConfig}) |
| } |
| |
| func (va *VoltApplication) UpdateDeviceConfig(cntx context.Context, deviceConfig *DeviceConfig) { |
| var dc *DeviceConfig |
| va.DevicesConfig.Store(deviceConfig.SerialNumber, deviceConfig) |
| err := dc.WriteDeviceConfigToDb(cntx, deviceConfig.SerialNumber, deviceConfig) |
| if err != nil { |
| logger.Errorw(ctx, "DB update for device config failed", log.Fields{"err": err}) |
| } |
| logger.Infow(ctx, "Added OLT configurations", log.Fields{"DeviceInfo": deviceConfig}) |
| // If device is already discovered update the VoltDevice structure |
| device, id := va.GetDeviceBySerialNo(deviceConfig.SerialNumber) |
| if device != nil { |
| device.NniDhcpTrapVid = of.VlanType(deviceConfig.NniDhcpTrapVid) |
| va.DevicesDisc.Store(id, device) |
| } |
| } |