| /* |
| * 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 devices |
| |
| import ( |
| "context" |
| "errors" |
| "fmt" |
| "net" |
| |
| "time" |
| |
| "github.com/cboling/omci" |
| "github.com/google/gopacket/layers" |
| "github.com/looplab/fsm" |
| "github.com/opencord/bbsim/internal/bbsim/packetHandlers" |
| "github.com/opencord/bbsim/internal/bbsim/responders/dhcp" |
| "github.com/opencord/bbsim/internal/bbsim/responders/eapol" |
| "github.com/opencord/bbsim/internal/common" |
| omcilib "github.com/opencord/bbsim/internal/common/omci" |
| omcisim "github.com/opencord/omci-sim" |
| "github.com/opencord/voltha-protos/v2/go/openolt" |
| log "github.com/sirupsen/logrus" |
| ) |
| |
| var onuLogger = log.WithFields(log.Fields{ |
| "module": "ONU", |
| }) |
| |
| type Onu struct { |
| ID uint32 |
| PonPortID uint32 |
| PonPort PonPort |
| STag int |
| CTag int |
| Auth bool // automatically start EAPOL if set to true |
| Dhcp bool // automatically start DHCP if set to true |
| HwAddress net.HardwareAddr |
| InternalState *fsm.FSM |
| DiscoveryRetryDelay time.Duration |
| |
| // ONU State |
| // PortNo comes with flows and it's used when sending packetIndications, |
| // There is one PortNo per UNI Port, for now we're only storing the first one |
| // FIXME add support for multiple UNIs |
| PortNo uint32 |
| DhcpFlowReceived bool |
| |
| OperState *fsm.FSM |
| SerialNumber *openolt.SerialNumber |
| |
| Channel chan Message // this Channel is to track state changes OMCI messages, EAPOL and DHCP packets |
| |
| // OMCI params |
| tid uint16 |
| hpTid uint16 |
| seqNumber uint16 |
| HasGemPort bool |
| |
| DoneChannel chan bool // this channel is used to signal once the onu is complete (when the struct is used by BBR) |
| } |
| |
| func (o *Onu) Sn() string { |
| return common.OnuSnToString(o.SerialNumber) |
| } |
| |
| func CreateONU(olt OltDevice, pon PonPort, id uint32, sTag int, cTag int, auth bool, dhcp bool) *Onu { |
| |
| o := Onu{ |
| ID: id, |
| PonPortID: pon.ID, |
| PonPort: pon, |
| STag: sTag, |
| CTag: cTag, |
| Auth: auth, |
| Dhcp: dhcp, |
| HwAddress: net.HardwareAddr{0x2e, 0x60, 0x70, 0x13, byte(pon.ID), byte(id)}, |
| PortNo: 0, |
| tid: 0x1, |
| hpTid: 0x8000, |
| seqNumber: 0, |
| DoneChannel: make(chan bool, 1), |
| DhcpFlowReceived: false, |
| DiscoveryRetryDelay: 60 * time.Second, // this is used to send OnuDiscoveryIndications until an activate call is received |
| } |
| o.SerialNumber = o.NewSN(olt.ID, pon.ID, o.ID) |
| |
| // NOTE this state machine is used to track the operational |
| // state as requested by VOLTHA |
| o.OperState = getOperStateFSM(func(e *fsm.Event) { |
| onuLogger.WithFields(log.Fields{ |
| "ID": o.ID, |
| }).Debugf("Changing ONU OperState from %s to %s", e.Src, e.Dst) |
| }) |
| |
| // NOTE this state machine is used to activate the OMCI, EAPOL and DHCP clients |
| o.InternalState = fsm.NewFSM( |
| "created", |
| fsm.Events{ |
| // DEVICE Lifecycle |
| {Name: "initialize", Src: []string{"created", "disabled"}, Dst: "initialized"}, |
| {Name: "discover", Src: []string{"initialized", "pon_disabled"}, Dst: "discovered"}, |
| {Name: "enable", Src: []string{"discovered", "disabled"}, Dst: "enabled"}, |
| {Name: "receive_eapol_flow", Src: []string{"enabled", "gem_port_added"}, Dst: "eapol_flow_received"}, |
| {Name: "add_gem_port", Src: []string{"enabled", "eapol_flow_received"}, Dst: "gem_port_added"}, |
| // NOTE should disabled state be different for oper_disabled (emulating an error) and admin_disabled (received a disabled call via VOLTHA)? |
| {Name: "disable", Src: []string{"enabled", "eap_response_success_received", "auth_failed", "dhcp_ack_received", "dhcp_failed"}, Dst: "disabled"}, |
| // ONU state when PON port is disabled but ONU is power ON(more states should be added in src?) |
| {Name: "pon_disabled", Src: []string{"enabled", "gem_port_added", "eapol_flow_received", "eap_response_success_received", "auth_failed", "dhcp_ack_received", "dhcp_failed"}, Dst: "pon_disabled"}, |
| // EAPOL |
| {Name: "start_auth", Src: []string{"eapol_flow_received", "gem_port_added", "eap_start_sent", "eap_response_identity_sent", "eap_response_challenge_sent", "eap_response_success_received", "auth_failed", "dhcp_ack_received", "dhcp_failed"}, Dst: "auth_started"}, |
| {Name: "eap_start_sent", Src: []string{"auth_started"}, Dst: "eap_start_sent"}, |
| {Name: "eap_response_identity_sent", Src: []string{"eap_start_sent"}, Dst: "eap_response_identity_sent"}, |
| {Name: "eap_response_challenge_sent", Src: []string{"eap_response_identity_sent"}, Dst: "eap_response_challenge_sent"}, |
| {Name: "eap_response_success_received", Src: []string{"eap_response_challenge_sent"}, Dst: "eap_response_success_received"}, |
| {Name: "auth_failed", Src: []string{"auth_started", "eap_start_sent", "eap_response_identity_sent", "eap_response_challenge_sent"}, Dst: "auth_failed"}, |
| // DHCP |
| {Name: "start_dhcp", Src: []string{"eap_response_success_received", "dhcp_discovery_sent", "dhcp_request_sent", "dhcp_ack_received", "dhcp_failed"}, Dst: "dhcp_started"}, |
| {Name: "dhcp_discovery_sent", Src: []string{"dhcp_started"}, Dst: "dhcp_discovery_sent"}, |
| {Name: "dhcp_request_sent", Src: []string{"dhcp_discovery_sent"}, Dst: "dhcp_request_sent"}, |
| {Name: "dhcp_ack_received", Src: []string{"dhcp_request_sent"}, Dst: "dhcp_ack_received"}, |
| {Name: "dhcp_failed", Src: []string{"dhcp_started", "dhcp_discovery_sent", "dhcp_request_sent"}, Dst: "dhcp_failed"}, |
| // BBR States |
| // TODO add start OMCI state |
| {Name: "send_eapol_flow", Src: []string{"initialized"}, Dst: "eapol_flow_sent"}, |
| {Name: "send_dhcp_flow", Src: []string{"eapol_flow_sent"}, Dst: "dhcp_flow_sent"}, |
| }, |
| fsm.Callbacks{ |
| "enter_state": func(e *fsm.Event) { |
| o.logStateChange(e.Src, e.Dst) |
| }, |
| "enter_initialized": func(e *fsm.Event) { |
| // create new channel for ProcessOnuMessages Go routine |
| o.Channel = make(chan Message, 2048) |
| }, |
| "enter_discovered": func(e *fsm.Event) { |
| msg := Message{ |
| Type: OnuDiscIndication, |
| Data: OnuDiscIndicationMessage{ |
| Onu: &o, |
| OperState: UP, |
| }, |
| } |
| o.Channel <- msg |
| }, |
| "enter_enabled": func(event *fsm.Event) { |
| msg := Message{ |
| Type: OnuIndication, |
| Data: OnuIndicationMessage{ |
| OnuSN: o.SerialNumber, |
| PonPortID: o.PonPortID, |
| OperState: UP, |
| }, |
| } |
| o.Channel <- msg |
| }, |
| "enter_disabled": func(event *fsm.Event) { |
| msg := Message{ |
| Type: OnuIndication, |
| Data: OnuIndicationMessage{ |
| OnuSN: o.SerialNumber, |
| PonPortID: o.PonPortID, |
| OperState: DOWN, |
| }, |
| } |
| o.Channel <- msg |
| // terminate the ONU's ProcessOnuMessages Go routine |
| close(o.Channel) |
| }, |
| "enter_auth_started": func(e *fsm.Event) { |
| o.logStateChange(e.Src, e.Dst) |
| msg := Message{ |
| Type: StartEAPOL, |
| Data: PacketMessage{ |
| PonPortID: o.PonPortID, |
| OnuID: o.ID, |
| }, |
| } |
| o.Channel <- msg |
| }, |
| "enter_auth_failed": func(e *fsm.Event) { |
| onuLogger.WithFields(log.Fields{ |
| "OnuId": o.ID, |
| "IntfId": o.PonPortID, |
| "OnuSn": o.Sn(), |
| }).Errorf("ONU failed to authenticate!") |
| }, |
| "before_start_dhcp": func(e *fsm.Event) { |
| if o.DhcpFlowReceived == false { |
| e.Cancel(errors.New("cannot-go-to-dhcp-started-as-dhcp-flow-is-missing")) |
| } |
| }, |
| "enter_dhcp_started": func(e *fsm.Event) { |
| msg := Message{ |
| Type: StartDHCP, |
| Data: PacketMessage{ |
| PonPortID: o.PonPortID, |
| OnuID: o.ID, |
| }, |
| } |
| o.Channel <- msg |
| }, |
| "enter_dhcp_failed": func(e *fsm.Event) { |
| onuLogger.WithFields(log.Fields{ |
| "OnuId": o.ID, |
| "IntfId": o.PonPortID, |
| "OnuSn": o.Sn(), |
| }).Errorf("ONU failed to DHCP!") |
| }, |
| "enter_eapol_flow_sent": func(e *fsm.Event) { |
| msg := Message{ |
| Type: SendEapolFlow, |
| } |
| o.Channel <- msg |
| }, |
| "enter_dhcp_flow_sent": func(e *fsm.Event) { |
| msg := Message{ |
| Type: SendDhcpFlow, |
| } |
| o.Channel <- msg |
| }, |
| }, |
| ) |
| |
| return &o |
| } |
| |
| func (o *Onu) logStateChange(src string, dst string) { |
| onuLogger.WithFields(log.Fields{ |
| "OnuId": o.ID, |
| "IntfId": o.PonPortID, |
| "OnuSn": o.Sn(), |
| }).Debugf("Changing ONU InternalState from %s to %s", src, dst) |
| } |
| |
| // ProcessOnuMessages starts indication channel for each ONU |
| func (o *Onu) ProcessOnuMessages(ctx context.Context, stream openolt.Openolt_EnableIndicationServer, client openolt.OpenoltClient) { |
| onuLogger.WithFields(log.Fields{ |
| "onuID": o.ID, |
| "onuSN": o.Sn(), |
| "ponPort": o.PonPortID, |
| }).Debug("Starting ONU Indication Channel") |
| |
| loop: |
| for { |
| select { |
| case <-ctx.Done(): |
| onuLogger.WithFields(log.Fields{ |
| "onuID": o.ID, |
| "onuSN": o.Sn(), |
| }).Tracef("ONU message handling canceled via context") |
| break loop |
| case message, ok := <-o.Channel: |
| if !ok || ctx.Err() != nil { |
| onuLogger.WithFields(log.Fields{ |
| "onuID": o.ID, |
| "onuSN": o.Sn(), |
| }).Tracef("ONU message handling canceled via channel close") |
| break loop |
| } |
| onuLogger.WithFields(log.Fields{ |
| "onuID": o.ID, |
| "onuSN": o.Sn(), |
| "messageType": message.Type, |
| }).Tracef("Received message on ONU Channel") |
| |
| switch message.Type { |
| case OnuDiscIndication: |
| msg, _ := message.Data.(OnuDiscIndicationMessage) |
| // NOTE we need to slow down and send ONU Discovery Indication in batches to better emulate a real scenario |
| time.Sleep(time.Duration(int(o.ID)*o.PonPort.Olt.Delay) * time.Millisecond) |
| o.sendOnuDiscIndication(msg, stream) |
| case OnuIndication: |
| msg, _ := message.Data.(OnuIndicationMessage) |
| o.sendOnuIndication(msg, stream) |
| case OMCI: |
| msg, _ := message.Data.(OmciMessage) |
| o.handleOmciMessage(msg, stream) |
| case FlowUpdate: |
| msg, _ := message.Data.(OnuFlowUpdateMessage) |
| o.handleFlowUpdate(msg) |
| case StartEAPOL: |
| log.Infof("Receive StartEAPOL message on ONU Channel") |
| eapol.SendEapStart(o.ID, o.PonPortID, o.Sn(), o.PortNo, o.HwAddress, o.InternalState, stream) |
| case StartDHCP: |
| log.Infof("Receive StartDHCP message on ONU Channel") |
| // FIXME use id, ponId as SendEapStart |
| dhcp.SendDHCPDiscovery(o.PonPortID, o.ID, o.Sn(), o.PortNo, o.InternalState, o.HwAddress, o.CTag, stream) |
| case OnuPacketOut: |
| |
| msg, _ := message.Data.(OnuPacketMessage) |
| |
| log.WithFields(log.Fields{ |
| "IntfId": msg.IntfId, |
| "OnuId": msg.OnuId, |
| "pktType": msg.Type, |
| }).Trace("Received OnuPacketOut Message") |
| |
| if msg.Type == packetHandlers.EAPOL { |
| eapol.HandleNextPacket(msg.OnuId, msg.IntfId, o.Sn(), o.PortNo, o.InternalState, msg.Packet, stream, client) |
| } else if msg.Type == packetHandlers.DHCP { |
| // NOTE here we receive packets going from the DHCP Server to the ONU |
| // for now we expect them to be double-tagged, but ideally the should be single tagged |
| dhcp.HandleNextPacket(o.ID, o.PonPortID, o.Sn(), o.PortNo, o.HwAddress, o.CTag, o.InternalState, msg.Packet, stream) |
| } |
| case OnuPacketIn: |
| // NOTE we only receive BBR packets here. |
| // Eapol.HandleNextPacket can handle both BBSim and BBr cases so the call is the same |
| // in the DHCP case VOLTHA only act as a proxy, the behaviour is completely different thus we have a dhcp.HandleNextBbrPacket |
| msg, _ := message.Data.(OnuPacketMessage) |
| |
| log.WithFields(log.Fields{ |
| "IntfId": msg.IntfId, |
| "OnuId": msg.OnuId, |
| "pktType": msg.Type, |
| }).Trace("Received OnuPacketIn Message") |
| |
| if msg.Type == packetHandlers.EAPOL { |
| eapol.HandleNextPacket(msg.OnuId, msg.IntfId, o.Sn(), o.PortNo, o.InternalState, msg.Packet, stream, client) |
| } else if msg.Type == packetHandlers.DHCP { |
| dhcp.HandleNextBbrPacket(o.ID, o.PonPortID, o.Sn(), o.STag, o.HwAddress, o.DoneChannel, msg.Packet, client) |
| } |
| case DyingGaspIndication: |
| msg, _ := message.Data.(DyingGaspIndicationMessage) |
| o.sendDyingGaspInd(msg, stream) |
| case OmciIndication: |
| msg, _ := message.Data.(OmciIndicationMessage) |
| o.handleOmci(msg, client) |
| case SendEapolFlow: |
| o.sendEapolFlow(client) |
| case SendDhcpFlow: |
| o.sendDhcpFlow(client) |
| default: |
| onuLogger.Warnf("Received unknown message data %v for type %v in OLT Channel", message.Data, message.Type) |
| } |
| } |
| } |
| onuLogger.WithFields(log.Fields{ |
| "onuID": o.ID, |
| "onuSN": o.Sn(), |
| }).Debug("Stopped handling ONU Indication Channel") |
| } |
| |
| func (o *Onu) processOmciMessage(message omcisim.OmciChMessage, stream openolt.Openolt_EnableIndicationServer) { |
| switch message.Type { |
| case omcisim.UniLinkUp, omcisim.UniLinkDown: |
| onuLogger.WithFields(log.Fields{ |
| "OnuId": message.Data.OnuId, |
| "IntfId": message.Data.IntfId, |
| "Type": message.Type, |
| }).Infof("UNI Link Alarm") |
| // TODO send to OLT |
| |
| omciInd := openolt.OmciIndication{ |
| IntfId: message.Data.IntfId, |
| OnuId: message.Data.OnuId, |
| Pkt: message.Packet, |
| } |
| |
| omci := &openolt.Indication_OmciInd{OmciInd: &omciInd} |
| if err := stream.Send(&openolt.Indication{Data: omci}); err != nil { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "SerialNumber": o.Sn(), |
| "Type": message.Type, |
| "omciPacket": omciInd.Pkt, |
| }).Errorf("Failed to send UNI Link Alarm: %v", err) |
| return |
| } |
| |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "SerialNumber": o.Sn(), |
| "Type": message.Type, |
| "omciPacket": omciInd.Pkt, |
| }).Info("UNI Link alarm sent") |
| |
| case omcisim.GemPortAdded: |
| log.WithFields(log.Fields{ |
| "OnuId": message.Data.OnuId, |
| "IntfId": message.Data.IntfId, |
| }).Infof("GemPort Added") |
| |
| // NOTE if we receive the GemPort but we don't have EAPOL flows |
| // go an intermediate state, otherwise start auth |
| if o.InternalState.Is("enabled") { |
| if err := o.InternalState.Event("add_gem_port"); err != nil { |
| log.Errorf("Can't go to gem_port_added: %v", err) |
| } |
| } else if o.InternalState.Is("eapol_flow_received") { |
| if o.Auth == true { |
| if err := o.InternalState.Event("start_auth"); err != nil { |
| log.Warnf("Can't go to auth_started: %v", err) |
| } |
| } else { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "SerialNumber": o.Sn(), |
| }).Warn("Not starting authentication as Auth bit is not set in CLI parameters") |
| } |
| } |
| } |
| } |
| |
| func (o Onu) NewSN(oltid int, intfid uint32, onuid uint32) *openolt.SerialNumber { |
| |
| sn := new(openolt.SerialNumber) |
| |
| //sn = new(openolt.SerialNumber) |
| sn.VendorId = []byte("BBSM") |
| sn.VendorSpecific = []byte{0, byte(oltid % 256), byte(intfid), byte(onuid)} |
| |
| return sn |
| } |
| |
| // NOTE handle_/process methods can change the ONU internal state as they are receiving messages |
| // send method should not change the ONU state |
| |
| func (o *Onu) sendDyingGaspInd(msg DyingGaspIndicationMessage, stream openolt.Openolt_EnableIndicationServer) error { |
| alarmData := &openolt.AlarmIndication_DyingGaspInd{ |
| DyingGaspInd: &openolt.DyingGaspIndication{ |
| IntfId: msg.PonPortID, |
| OnuId: msg.OnuID, |
| Status: "on", |
| }, |
| } |
| data := &openolt.Indication_AlarmInd{AlarmInd: &openolt.AlarmIndication{Data: alarmData}} |
| |
| if err := stream.Send(&openolt.Indication{Data: data}); err != nil { |
| onuLogger.Errorf("Failed to send DyingGaspInd : %v", err) |
| return err |
| } |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": msg.PonPortID, |
| "OnuSn": o.Sn(), |
| "OnuId": msg.OnuID, |
| }).Info("sendDyingGaspInd") |
| return nil |
| } |
| |
| func (o *Onu) sendOnuDiscIndication(msg OnuDiscIndicationMessage, stream openolt.Openolt_EnableIndicationServer) { |
| discoverData := &openolt.Indication_OnuDiscInd{OnuDiscInd: &openolt.OnuDiscIndication{ |
| IntfId: msg.Onu.PonPortID, |
| SerialNumber: msg.Onu.SerialNumber, |
| }} |
| |
| if err := stream.Send(&openolt.Indication{Data: discoverData}); err != nil { |
| log.Errorf("Failed to send Indication_OnuDiscInd: %v", err) |
| return |
| } |
| |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": msg.Onu.PonPortID, |
| "OnuSn": msg.Onu.Sn(), |
| "OnuId": o.ID, |
| }).Debug("Sent Indication_OnuDiscInd") |
| |
| // after DiscoveryRetryDelay check if the state is the same and in case send a new OnuDiscIndication |
| go func(delay time.Duration) { |
| time.Sleep(delay) |
| if o.InternalState.Current() == "discovered" { |
| o.sendOnuDiscIndication(msg, stream) |
| } |
| }(o.DiscoveryRetryDelay) |
| } |
| |
| func (o *Onu) sendOnuIndication(msg OnuIndicationMessage, stream openolt.Openolt_EnableIndicationServer) { |
| // NOTE voltha returns an ID, but if we use that ID then it complains: |
| // expected_onu_id: 1, received_onu_id: 1024, event: ONU-id-mismatch, can happen if both voltha and the olt rebooted |
| // so we're using the internal ID that is 1 |
| // o.ID = msg.OnuID |
| |
| indData := &openolt.Indication_OnuInd{OnuInd: &openolt.OnuIndication{ |
| IntfId: o.PonPortID, |
| OnuId: o.ID, |
| OperState: msg.OperState.String(), |
| AdminState: o.OperState.Current(), |
| SerialNumber: o.SerialNumber, |
| }} |
| if err := stream.Send(&openolt.Indication{Data: indData}); err != nil { |
| // TODO do we need to transition to a broken state? |
| log.Errorf("Failed to send Indication_OnuInd: %v", err) |
| } |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "OperState": msg.OperState.String(), |
| "AdminState": msg.OperState.String(), |
| "OnuSn": o.Sn(), |
| }).Debug("Sent Indication_OnuInd") |
| |
| } |
| |
| func (o *Onu) handleOmciMessage(msg OmciMessage, stream openolt.Openolt_EnableIndicationServer) { |
| |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "SerialNumber": o.Sn(), |
| "omciPacket": msg.omciMsg.Pkt, |
| }).Tracef("Received OMCI message") |
| |
| var omciInd openolt.OmciIndication |
| respPkt, err := omcisim.OmciSim(o.PonPortID, o.ID, HexDecode(msg.omciMsg.Pkt)) |
| if err != nil { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "SerialNumber": o.Sn(), |
| "omciPacket": omciInd.Pkt, |
| "msg": msg, |
| }).Errorf("Error handling OMCI message %v", msg) |
| return |
| } |
| |
| omciInd.IntfId = o.PonPortID |
| omciInd.OnuId = o.ID |
| omciInd.Pkt = respPkt |
| |
| omci := &openolt.Indication_OmciInd{OmciInd: &omciInd} |
| if err := stream.Send(&openolt.Indication{Data: omci}); err != nil { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "SerialNumber": o.Sn(), |
| "omciPacket": omciInd.Pkt, |
| "msg": msg, |
| }).Errorf("send omcisim indication failed: %v", err) |
| return |
| } |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "SerialNumber": o.Sn(), |
| "omciPacket": omciInd.Pkt, |
| }).Tracef("Sent OMCI message") |
| } |
| |
| func (o *Onu) storePortNumber(portNo uint32) { |
| // NOTE this needed only as long as we don't support multiple UNIs |
| // we need to add support for multiple UNIs |
| // the action plan is: |
| // - refactor the omcisim-sim library to use https://github.com/cboling/omci instead of canned messages |
| // - change the library so that it reports a single UNI and remove this workaroung |
| // - add support for multiple UNIs in BBSim |
| if o.PortNo == 0 || portNo < o.PortNo { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "SerialNumber": o.Sn(), |
| "OnuPortNo": o.PortNo, |
| "FlowPortNo": portNo, |
| }).Debug("Storing ONU portNo") |
| o.PortNo = portNo |
| } |
| } |
| |
| func (o *Onu) SetID(id uint32) { |
| o.ID = id |
| } |
| |
| func (o *Onu) handleFlowUpdate(msg OnuFlowUpdateMessage) { |
| onuLogger.WithFields(log.Fields{ |
| "DstPort": msg.Flow.Classifier.DstPort, |
| "EthType": fmt.Sprintf("%x", msg.Flow.Classifier.EthType), |
| "FlowId": msg.Flow.FlowId, |
| "FlowType": msg.Flow.FlowType, |
| "InnerVlan": msg.Flow.Classifier.IVid, |
| "IntfId": msg.Flow.AccessIntfId, |
| "IpProto": msg.Flow.Classifier.IpProto, |
| "OnuId": msg.Flow.OnuId, |
| "OnuSn": o.Sn(), |
| "OuterVlan": msg.Flow.Classifier.OVid, |
| "PortNo": msg.Flow.PortNo, |
| "SrcPort": msg.Flow.Classifier.SrcPort, |
| "UniID": msg.Flow.UniId, |
| }).Debug("ONU receives Flow") |
| |
| if msg.Flow.UniId != 0 { |
| // as of now BBSim only support a single UNI, so ignore everything that is not targeted to it |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "SerialNumber": o.Sn(), |
| }).Debug("Ignoring flow as it's not for the first UNI") |
| return |
| } |
| |
| if msg.Flow.Classifier.EthType == uint32(layers.EthernetTypeEAPOL) && msg.Flow.Classifier.OVid == 4091 { |
| // NOTE storing the PortNO, it's needed when sending PacketIndications |
| o.storePortNumber(uint32(msg.Flow.PortNo)) |
| |
| // NOTE if we receive the EAPOL flows but we don't have GemPorts |
| // go an intermediate state, otherwise start auth |
| if o.InternalState.Is("enabled") { |
| if err := o.InternalState.Event("receive_eapol_flow"); err != nil { |
| log.Warnf("Can't go to eapol_flow_received: %v", err) |
| } |
| } else if o.InternalState.Is("gem_port_added") { |
| |
| if o.Auth == true { |
| if err := o.InternalState.Event("start_auth"); err != nil { |
| log.Warnf("Can't go to auth_started: %v", err) |
| } |
| } else { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "SerialNumber": o.Sn(), |
| }).Warn("Not starting authentication as Auth bit is not set in CLI parameters") |
| } |
| |
| } |
| } else if msg.Flow.Classifier.EthType == uint32(layers.EthernetTypeIPv4) && |
| msg.Flow.Classifier.SrcPort == uint32(68) && |
| msg.Flow.Classifier.DstPort == uint32(67) { |
| |
| // keep track that we received the DHCP Flows so that we can transition the state to dhcp_started |
| o.DhcpFlowReceived = true |
| |
| if o.Dhcp == true { |
| // NOTE we are receiving multiple DHCP flows but we shouldn't call the transition multiple times |
| if err := o.InternalState.Event("start_dhcp"); err != nil { |
| log.Errorf("Can't go to dhcp_started: %v", err) |
| } |
| } else { |
| onuLogger.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "SerialNumber": o.Sn(), |
| }).Warn("Not starting DHCP as Dhcp bit is not set in CLI parameters") |
| } |
| } |
| } |
| |
| // HexDecode converts the hex encoding to binary |
| func HexDecode(pkt []byte) []byte { |
| p := make([]byte, len(pkt)/2) |
| for i, j := 0, 0; i < len(pkt); i, j = i+2, j+1 { |
| // Go figure this ;) |
| u := (pkt[i] & 15) + (pkt[i]>>6)*9 |
| l := (pkt[i+1] & 15) + (pkt[i+1]>>6)*9 |
| p[j] = u<<4 + l |
| } |
| onuLogger.Tracef("Omci decoded: %x.", p) |
| return p |
| } |
| |
| // BBR methods |
| |
| func sendOmciMsg(pktBytes []byte, intfId uint32, onuId uint32, sn *openolt.SerialNumber, msgType string, client openolt.OpenoltClient) { |
| omciMsg := openolt.OmciMsg{ |
| IntfId: intfId, |
| OnuId: onuId, |
| Pkt: pktBytes, |
| } |
| |
| if _, err := client.OmciMsgOut(context.Background(), &omciMsg); err != nil { |
| log.WithFields(log.Fields{ |
| "IntfId": intfId, |
| "OnuId": onuId, |
| "SerialNumber": common.OnuSnToString(sn), |
| "Pkt": omciMsg.Pkt, |
| }).Fatalf("Failed to send MIB Reset") |
| } |
| log.WithFields(log.Fields{ |
| "IntfId": intfId, |
| "OnuId": onuId, |
| "SerialNumber": common.OnuSnToString(sn), |
| "Pkt": omciMsg.Pkt, |
| }).Tracef("Sent OMCI message %s", msgType) |
| } |
| |
| func (onu *Onu) getNextTid(highPriority ...bool) uint16 { |
| var next uint16 |
| if len(highPriority) > 0 && highPriority[0] { |
| next = onu.hpTid |
| onu.hpTid += 1 |
| if onu.hpTid < 0x8000 { |
| onu.hpTid = 0x8000 |
| } |
| } else { |
| next = onu.tid |
| onu.tid += 1 |
| if onu.tid >= 0x8000 { |
| onu.tid = 1 |
| } |
| } |
| return next |
| } |
| |
| // TODO move this method in responders/omcisim |
| func (o *Onu) StartOmci(client openolt.OpenoltClient) { |
| mibReset, _ := omcilib.CreateMibResetRequest(o.getNextTid(false)) |
| sendOmciMsg(mibReset, o.PonPortID, o.ID, o.SerialNumber, "mibReset", client) |
| } |
| |
| func (o *Onu) handleOmci(msg OmciIndicationMessage, client openolt.OpenoltClient) { |
| msgType, packet := omcilib.DecodeOmci(msg.OmciInd.Pkt) |
| |
| log.WithFields(log.Fields{ |
| "IntfId": msg.OmciInd.IntfId, |
| "OnuId": msg.OmciInd.OnuId, |
| "OnuSn": common.OnuSnToString(o.SerialNumber), |
| "Pkt": msg.OmciInd.Pkt, |
| "msgType": msgType, |
| }).Trace("ONU Receveives OMCI Msg") |
| switch msgType { |
| default: |
| log.WithFields(log.Fields{ |
| "IntfId": msg.OmciInd.IntfId, |
| "OnuId": msg.OmciInd.OnuId, |
| "OnuSn": common.OnuSnToString(o.SerialNumber), |
| "Pkt": msg.OmciInd.Pkt, |
| "msgType": msgType, |
| }).Fatalf("unexpected frame: %v", packet) |
| case omci.MibResetResponseType: |
| mibUpload, _ := omcilib.CreateMibUploadRequest(o.getNextTid(false)) |
| sendOmciMsg(mibUpload, o.PonPortID, o.ID, o.SerialNumber, "mibUpload", client) |
| case omci.MibUploadResponseType: |
| mibUploadNext, _ := omcilib.CreateMibUploadNextRequest(o.getNextTid(false), o.seqNumber) |
| sendOmciMsg(mibUploadNext, o.PonPortID, o.ID, o.SerialNumber, "mibUploadNext", client) |
| case omci.MibUploadNextResponseType: |
| o.seqNumber++ |
| |
| if o.seqNumber > 290 { |
| // NOTE we are done with the MIB Upload (290 is the number of messages the omci-sim library will respond to) |
| galEnet, _ := omcilib.CreateGalEnetRequest(o.getNextTid(false)) |
| sendOmciMsg(galEnet, o.PonPortID, o.ID, o.SerialNumber, "CreateGalEnetRequest", client) |
| } else { |
| mibUploadNext, _ := omcilib.CreateMibUploadNextRequest(o.getNextTid(false), o.seqNumber) |
| sendOmciMsg(mibUploadNext, o.PonPortID, o.ID, o.SerialNumber, "mibUploadNext", client) |
| } |
| case omci.CreateResponseType: |
| // NOTE Creating a GemPort, |
| // BBsim actually doesn't care about the values, so we can do we want with the parameters |
| // In the same way we can create a GemPort even without setting up UNIs/TConts/... |
| // but we need the GemPort to trigger the state change |
| |
| if !o.HasGemPort { |
| // NOTE this sends a CreateRequestType and BBSim replies with a CreateResponseType |
| // thus we send this request only once |
| gemReq, _ := omcilib.CreateGemPortRequest(o.getNextTid(false)) |
| sendOmciMsg(gemReq, o.PonPortID, o.ID, o.SerialNumber, "CreateGemPortRequest", client) |
| o.HasGemPort = true |
| } else { |
| if err := o.InternalState.Event("send_eapol_flow"); err != nil { |
| onuLogger.WithFields(log.Fields{ |
| "OnuId": o.ID, |
| "IntfId": o.PonPortID, |
| "OnuSn": o.Sn(), |
| }).Errorf("Error while transitioning ONU State %v", err) |
| } |
| } |
| |
| } |
| } |
| |
| func (o *Onu) sendEapolFlow(client openolt.OpenoltClient) { |
| |
| classifierProto := openolt.Classifier{ |
| EthType: uint32(layers.EthernetTypeEAPOL), |
| OVid: 4091, |
| } |
| |
| actionProto := openolt.Action{} |
| |
| downstreamFlow := openolt.Flow{ |
| AccessIntfId: int32(o.PonPortID), |
| OnuId: int32(o.ID), |
| UniId: int32(0), // NOTE do not hardcode this, we need to support multiple UNIs |
| FlowId: uint32(o.ID), |
| FlowType: "downstream", |
| AllocId: int32(0), |
| NetworkIntfId: int32(0), |
| GemportId: int32(1), // FIXME use the same value as CreateGemPortRequest PortID, do not hardcode |
| Classifier: &classifierProto, |
| Action: &actionProto, |
| Priority: int32(100), |
| Cookie: uint64(o.ID), |
| PortNo: uint32(o.ID), // NOTE we are using this to map an incoming packetIndication to an ONU |
| } |
| |
| if _, err := client.FlowAdd(context.Background(), &downstreamFlow); err != nil { |
| log.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "FlowId": downstreamFlow.FlowId, |
| "PortNo": downstreamFlow.PortNo, |
| "SerialNumber": common.OnuSnToString(o.SerialNumber), |
| }).Fatalf("Failed to EAPOL Flow") |
| } |
| log.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "FlowId": downstreamFlow.FlowId, |
| "PortNo": downstreamFlow.PortNo, |
| "SerialNumber": common.OnuSnToString(o.SerialNumber), |
| }).Info("Sent EAPOL Flow") |
| } |
| |
| func (o *Onu) sendDhcpFlow(client openolt.OpenoltClient) { |
| classifierProto := openolt.Classifier{ |
| EthType: uint32(layers.EthernetTypeIPv4), |
| SrcPort: uint32(68), |
| DstPort: uint32(67), |
| } |
| |
| actionProto := openolt.Action{} |
| |
| downstreamFlow := openolt.Flow{ |
| AccessIntfId: int32(o.PonPortID), |
| OnuId: int32(o.ID), |
| UniId: int32(0), // FIXME do not hardcode this |
| FlowId: uint32(o.ID), |
| FlowType: "downstream", |
| AllocId: int32(0), |
| NetworkIntfId: int32(0), |
| GemportId: int32(1), // FIXME use the same value as CreateGemPortRequest PortID, do not hardcode |
| Classifier: &classifierProto, |
| Action: &actionProto, |
| Priority: int32(100), |
| Cookie: uint64(o.ID), |
| PortNo: uint32(o.ID), // NOTE we are using this to map an incoming packetIndication to an ONU |
| } |
| |
| if _, err := client.FlowAdd(context.Background(), &downstreamFlow); err != nil { |
| log.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "FlowId": downstreamFlow.FlowId, |
| "PortNo": downstreamFlow.PortNo, |
| "SerialNumber": common.OnuSnToString(o.SerialNumber), |
| }).Fatalf("Failed to send DHCP Flow") |
| } |
| log.WithFields(log.Fields{ |
| "IntfId": o.PonPortID, |
| "OnuId": o.ID, |
| "FlowId": downstreamFlow.FlowId, |
| "PortNo": downstreamFlow.PortNo, |
| "SerialNumber": common.OnuSnToString(o.SerialNumber), |
| }).Info("Sent DHCP Flow") |
| } |