blob: 0add821d91e8152a6adc0508adee270afc5d78ae [file] [log] [blame]
/*
* Copyright 2018-present Open Networking Foundation
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package device
import (
"reflect"
"sync"
"gerrit.opencord.org/voltha-bbsim/common/logger"
openolt "gerrit.opencord.org/voltha-bbsim/protos"
log "github.com/sirupsen/logrus"
)
// Constants for the ONU states
const (
ONU_INACTIVE DeviceState = iota // TODO: Each stage name should be more accurate
ONU_ACTIVE
ONU_OMCIACTIVE
ONU_AUTHENTICATED
ONU_LOS_RAISED
ONU_OMCI_CHANNEL_LOS_RAISED
ONU_LOS_ON_OLT_PON_LOS // TODO give more suitable and crisp name
ONU_FREE
)
// ONUState maps int value of device state to string
var ONUState = map[DeviceState]string{
ONU_INACTIVE: "ONU_INACTIVE",
ONU_ACTIVE: "ONU_ACTIVE",
ONU_OMCIACTIVE: "ONU_OMCIACTIVE",
ONU_FREE: "ONU_FREE",
ONU_LOS_RAISED: "ONU_LOS_RAISED",
ONU_OMCI_CHANNEL_LOS_RAISED: "ONU_OMCI_CHANNEL_LOS_RAISED",
ONU_LOS_ON_OLT_PON_LOS: "ONU_LOS_ON_OLT_PON_LOS",
}
// Onu structure stores information of ONUs
type Onu struct {
InternalState DeviceState
OltID uint32
IntfID uint32
OperState string
SerialNumber *openolt.SerialNumber
OnuID uint32
GemportID uint16
FlowIDs []uint32
mu *sync.Mutex
}
// NewSN constructs and returns serial number based on the OLT ID, intf ID and ONU ID
func NewSN(oltid uint32, intfid uint32, onuid uint32) []byte {
sn := []byte{0, byte(oltid % 256), byte(intfid), byte(onuid)}
return sn
}
// NewOnus initializes and returns slice of Onu objects
func NewOnus(oltid uint32, intfid uint32, nonus uint32, nnni uint32) []*Onu {
onus := []*Onu{}
for i := 1; i <= int(nonus); i++ {
onu := Onu{}
onu.InternalState = ONU_FREE // New Onu Initialised with state ONU_FREE
onu.mu = &sync.Mutex{}
onu.IntfID = intfid
onu.OltID = oltid
onu.OperState = "down"
onu.SerialNumber = new(openolt.SerialNumber)
onu.SerialNumber.VendorId = []byte("BBSM")
onu.SerialNumber.VendorSpecific = NewSN(oltid, intfid, uint32(i))
onu.GemportID = 0
onus = append(onus, &onu)
}
return onus
}
// Initialize method initializes ONU state to up and ONU_INACTIVE
func (onu *Onu) Initialize() {
onu.OperState = "up"
onu.InternalState = ONU_INACTIVE
}
// ValidateONU method validate ONU based on the serial number in onuMap
func ValidateONU(targetonu openolt.Onu, regonus map[uint32][]*Onu) bool {
for _, onus := range regonus {
for _, onu := range onus {
if ValidateSN(*targetonu.SerialNumber, *onu.SerialNumber) {
return true
}
}
}
return false
}
// ValidateSN compares two serial numbers and returns result as true/false
func ValidateSN(sn1 openolt.SerialNumber, sn2 openolt.SerialNumber) bool {
return reflect.DeepEqual(sn1.VendorId, sn2.VendorId) && reflect.DeepEqual(sn1.VendorSpecific, sn2.VendorSpecific)
}
// UpdateOnusOpStatus method updates ONU oper status
func UpdateOnusOpStatus(ponif uint32, onu *Onu, opstatus string) {
onu.OperState = opstatus
logger.WithFields(log.Fields{
"onu": onu.SerialNumber,
"pon_interface": ponif,
}).Info("ONU OperState Updated")
}
// UpdateIntState method updates ONU internal state
func (onu *Onu) UpdateIntState(intstate DeviceState) {
onu.mu.Lock()
defer onu.mu.Unlock()
onu.InternalState = intstate
}
// GetDevkey returns ONU device key
func (onu *Onu) GetDevkey() Devkey {
return Devkey{ID: onu.OnuID, Intfid: onu.IntfID}
}
// GetIntState returns ONU internal state
func (onu *Onu) GetIntState() DeviceState {
onu.mu.Lock()
defer onu.mu.Unlock()
return onu.InternalState
}
// DeleteFlowID method search and delete flowID from the onu flowIDs slice
func (onu *Onu) DeleteFlowID(flowID uint32) {
for pos, id := range onu.FlowIDs {
if id == flowID {
// delete the flowID by shifting all flowIDs by one
onu.FlowIDs = append(onu.FlowIDs[:pos], onu.FlowIDs[pos+1:]...)
t := make([]uint32, len(onu.FlowIDs))
copy(t, onu.FlowIDs)
onu.FlowIDs = t
break
}
}
}