blob: 3f48e0c82dada22599c2daa2f2ef6c73497df2b0 [file] [log] [blame]
/*
Copyright 2020 the original author or authors.
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 openflow
import (
"context"
"errors"
"sync"
"time"
ofp "github.com/donNewtonAlpha/goloxi/of13"
"github.com/opencord/ofagent-go/internal/pkg/holder"
"github.com/opencord/voltha-lib-go/v3/pkg/log"
"github.com/opencord/voltha-protos/v3/go/voltha"
)
var NoVolthaConnectionError = errors.New("no-voltha-connection")
type ofcEvent byte
type ofcState byte
type ofcRole byte
const (
ofcEventStart = ofcEvent(iota)
ofcEventConnect
ofcEventDisconnect
ofcEventStop
ofcStateCreated = ofcState(iota)
ofcStateStarted
ofcStateConnected
ofcStateDisconnected
ofcStateStopped
ofcRoleNone = ofcRole(iota)
ofcRoleEqual
ofcRoleMaster
ofcRoleSlave
)
func (e ofcEvent) String() string {
switch e {
case ofcEventStart:
return "ofc-event-start"
case ofcEventConnect:
return "ofc-event-connected"
case ofcEventDisconnect:
return "ofc-event-disconnected"
case ofcEventStop:
return "ofc-event-stop"
default:
return "ofc-event-unknown"
}
}
func (s ofcState) String() string {
switch s {
case ofcStateCreated:
return "ofc-state-created"
case ofcStateStarted:
return "ofc-state-started"
case ofcStateConnected:
return "ofc-state-connected"
case ofcStateDisconnected:
return "ofc-state-disconnected"
case ofcStateStopped:
return "ofc-state-stopped"
default:
return "ofc-state-unknown"
}
}
// OFClient the configuration and operational state of a connection to an
// openflow controller
type OFClient struct {
OFControllerEndPoints []string
DeviceID string
VolthaClient *holder.VolthaServiceClientHolder
PacketOutChannel chan *voltha.PacketOut
ConnectionMaxRetries int
ConnectionRetryDelay time.Duration
// map of endpoint to OF connection
connections map[string]*OFConnection
// global role state for device
generationIsDefined bool
generationID uint64
roleLock sync.Mutex
}
type RoleManager interface {
UpdateRoles(from string, request *ofp.RoleRequest) bool
}
func distance(a uint64, b uint64) int64 {
return (int64)(a - b)
}
// UpdateRoles validates a role request and updates role state for connections where it changed
func (ofc *OFClient) UpdateRoles(from string, request *ofp.RoleRequest) bool {
log.Debug("updating role", log.Fields{
"from": from,
"to": request.Role,
"id": request.GenerationId})
ofc.roleLock.Lock()
defer ofc.roleLock.Unlock()
if request.Role == ofp.OFPCRRoleEqual {
// equal request doesn't care about generation ID and always succeeds
connection := ofc.connections[from]
connection.role = ofcRoleEqual
return true
}
if ofc.generationIsDefined && distance(request.GenerationId, ofc.generationID) < 0 {
// generation ID is not valid
return false
} else {
ofc.generationID = request.GenerationId
ofc.generationIsDefined = true
if request.Role == ofp.OFPCRRoleMaster {
// master is potentially changing, find the existing master and set it to slave
for endpoint, connection := range ofc.connections {
if endpoint == from {
connection.role = ofcRoleMaster
} else if connection.role == ofcRoleMaster {
// the old master should be set to slave
connection.role = ofcRoleSlave
}
}
return true
} else if request.Role == ofp.OFPCRRoleSlave {
connection := ofc.connections[from]
connection.role = ofcRoleSlave
return true
}
}
return false
}
// NewClient returns an initialized OFClient instance based on the configuration
// specified
func NewOFClient(config *OFClient) *OFClient {
ofc := OFClient{
DeviceID: config.DeviceID,
OFControllerEndPoints: config.OFControllerEndPoints,
VolthaClient: config.VolthaClient,
PacketOutChannel: config.PacketOutChannel,
ConnectionMaxRetries: config.ConnectionMaxRetries,
ConnectionRetryDelay: config.ConnectionRetryDelay,
connections: make(map[string]*OFConnection),
}
if ofc.ConnectionRetryDelay <= 0 {
logger.Warnw("connection retry delay not valid, setting to default",
log.Fields{
"device-id": ofc.DeviceID,
"value": ofc.ConnectionRetryDelay.String(),
"default": (3 * time.Second).String()})
ofc.ConnectionRetryDelay = 3 * time.Second
}
return &ofc
}
// Stop initiates a shutdown of the OFClient
func (ofc *OFClient) Stop() {
for _, connection := range ofc.connections {
connection.events <- ofcEventStop
}
}
func (ofc *OFClient) Run(ctx context.Context) {
for _, endpoint := range ofc.OFControllerEndPoints {
connection := &OFConnection{
OFControllerEndPoint: endpoint,
DeviceID: ofc.DeviceID,
VolthaClient: ofc.VolthaClient,
PacketOutChannel: ofc.PacketOutChannel,
ConnectionMaxRetries: ofc.ConnectionMaxRetries,
ConnectionRetryDelay: ofc.ConnectionRetryDelay,
role: ofcRoleNone,
roleManager: ofc,
events: make(chan ofcEvent, 10),
sendChannel: make(chan Message, 100),
}
ofc.connections[endpoint] = connection
}
for _, connection := range ofc.connections {
go connection.Run(ctx)
}
}
func (ofc *OFClient) SendMessage(message Message) error {
for _, connection := range ofc.connections {
if connection.role == ofcRoleMaster || connection.role == ofcRoleEqual {
err := connection.SendMessage(message)
if err != nil {
return err
}
}
}
return nil
}