rw_core/graph/device_graph.go - voltha-go - Gitiles

 /*
  * 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 graph

 import (
 	"errors"
 	"fmt"
 	"github.com/gyuho/goraph"
 	"github.com/opencord/voltha-go/common/log"
 	"github.com/opencord/voltha-go/protos/voltha"
 	"strconv"
 	"strings"
 	"sync"
 )

 func init() {
 	log.AddPackage(log.JSON, log.DebugLevel, nil)
 }

 type RouteHop struct {
 	DeviceID string
 	Ingress  uint32
 	Egress   uint32
 }

 type OFPortLink struct {
 	Ingress uint32
 	Egress  uint32
 }

 type GetDeviceFunc func(id string) (*voltha.Device, error)

 func concatDeviceIdPortId(deviceId string, portId uint32) string {
 	return fmt.Sprintf("%s:%d", deviceId, portId)
 }

 func splitIntoDeviceIdPortId(id string) (string, uint32, error) {
 	result := strings.Split(id, ":")
 	if len(result) != 2 {
 		return "", 0, errors.New(fmt.Sprintf("invalid-id-%s", id))
 	}
 	if temp, err := strconv.ParseInt(result[1], 10, 32); err != nil {
 		return "", 0, errors.New(fmt.Sprintf("invalid-id-%s-%s", id, err.Error()))
 	} else {
 		return result[0], uint32(temp), nil
 	}
 }

 type DeviceGraph struct {
 	GGraph        goraph.Graph
 	getDevice     GetDeviceFunc
 	logicalPorts  []*voltha.LogicalPort
 	RootPorts     map[uint32]uint32
 	Routes        map[OFPortLink][]RouteHop
 	boundaryPorts sync.Map
 }

 func NewDeviceGraph(getDevice GetDeviceFunc) *DeviceGraph {
 	var dg DeviceGraph
 	dg.GGraph = goraph.NewGraph()
 	dg.getDevice = getDevice
 	return &dg
 }

 func (dg *DeviceGraph) ComputeRoutes(lps []*voltha.LogicalPort) {
 	if dg == nil {
 		return
 	}
 	dg.logicalPorts = lps
 	// Set the root ports
 	dg.RootPorts = make(map[uint32]uint32)
 	for _, lp := range lps {
 		if lp.RootPort {
 			dg.RootPorts[lp.OfpPort.PortNo] = lp.OfpPort.PortNo
 		}
 	}
 	// set the boundary ports
 	dg.boundaryPorts.Range(func(key interface{}, value interface{}) bool {
 		dg.boundaryPorts.Delete(key)
 		return true
 	})
 	//dg.boundaryPorts = sync.Map{}

 	for _, lp := range lps {
 		dg.boundaryPorts.Store(fmt.Sprintf("%s:%d", lp.DeviceId, lp.DevicePortNo), lp.OfpPort.PortNo)
 	}
 	dg.Routes = make(map[OFPortLink][]RouteHop)

 	// Build the graph
 	var device *voltha.Device
 	devicesAdded := make(map[string]string)
 	portsAdded := make(map[string]string)
 	for _, logicalPort := range dg.logicalPorts {
 		device, _ = dg.getDevice(logicalPort.DeviceId)
 		dg.GGraph = dg.addDevice(device, dg.GGraph, &devicesAdded, &portsAdded, dg.boundaryPorts)
 	}
 	dg.Routes = dg.buildRoutes()
 }

 func (dg *DeviceGraph) addDevice(device *voltha.Device, g goraph.Graph, devicesAdded *map[string]string, portsAdded *map[string]string,
 	boundaryPorts sync.Map) goraph.Graph {

 	if device == nil {
 		return g
 	}

 	if _, exist := (*devicesAdded)[device.Id]; exist {
 		return g
 	}
 	g.AddNode(goraph.NewNode(device.Id))
 	(*devicesAdded)[device.Id] = device.Id

 	var portId string
 	var peerPortId string
 	for _, port := range device.Ports {
 		portId = concatDeviceIdPortId(device.Id, port.PortNo)
 		if _, exist := (*portsAdded)[portId]; !exist {
 			(*portsAdded)[portId] = portId
 			g.AddNode(goraph.NewNode(portId))
 			g.AddEdge(goraph.StringID(device.Id), goraph.StringID(portId), 1)
 			g.AddEdge(goraph.StringID(portId), goraph.StringID(device.Id), 1)
 		}
 		for _, peer := range port.Peers {
 			if _, exist := (*devicesAdded)[peer.DeviceId]; !exist {
 				d, _ := dg.getDevice(peer.DeviceId)
 				g = dg.addDevice(d, g, devicesAdded, portsAdded, boundaryPorts)
 			} else {
 				peerPortId = concatDeviceIdPortId(peer.DeviceId, peer.PortNo)
 				g.AddEdge(goraph.StringID(portId), goraph.StringID(peerPortId), 1)
 				g.AddEdge(goraph.StringID(peerPortId), goraph.StringID(portId), 1)
 			}
 		}
 	}
 	return g
 }

 func (dg *DeviceGraph) IsRootPort(port uint32) bool {
 	_, exist := dg.RootPorts[port]
 	return exist
 }

 func (dg *DeviceGraph) buildRoutes() map[OFPortLink][]RouteHop {
 	var pathIds []goraph.ID
 	path := make([]RouteHop, 0)
 	paths := make(map[OFPortLink][]RouteHop)
 	var err error
 	var hop RouteHop

 	dg.boundaryPorts.Range(func(src, srcPort interface{}) bool {
 		source := src.(string)
 		sourcePort := srcPort.(uint32)

 		dg.boundaryPorts.Range(func(dst, dstPort interface{}) bool {
 			target := dst.(string)
 			targetPort := dstPort.(uint32)

 			if source == target {
 				return true
 			}
 			//Ignore NNI - NNI Routes
 			if dg.IsRootPort(sourcePort) && dg.IsRootPort(targetPort) {
 				return true
 			}

 			//Ignore UNI - UNI Routes
 			if !dg.IsRootPort(sourcePort) && !dg.IsRootPort(targetPort) {
 				return true
 			}

 			if pathIds, _, err = goraph.Dijkstra(dg.GGraph, goraph.StringID(source), goraph.StringID(target)); err != nil {
 				log.Errorw("no-path", log.Fields{"source": source, "target": target, "error": err})
 				return true
 			}
 			if len(pathIds)%3 != 0 {
 				return true
 			}
 			var deviceId string
 			var ingressPort uint32
 			var egressPort uint32
 			for i := 0; i < len(pathIds); i = i + 3 {
 				if deviceId, ingressPort, err = splitIntoDeviceIdPortId(pathIds[i].String()); err != nil {
 					log.Errorw("id-error", log.Fields{"source": source, "target": target, "error": err})
 					break
 				}
 				if _, egressPort, err = splitIntoDeviceIdPortId(pathIds[i+2].String()); err != nil {
 					log.Errorw("id-error", log.Fields{"source": source, "target": target, "error": err})
 					break
 				}
 				hop = RouteHop{Ingress: ingressPort, DeviceID: deviceId, Egress: egressPort}
 				path = append(path, hop)
 			}
 			tmp := make([]RouteHop, len(path))
 			copy(tmp, path)
 			path = nil
 			paths[OFPortLink{Ingress: sourcePort, Egress: targetPort}] = tmp
 			return true
 		})
 		return true
 	})
 	return paths
 }

 func (dg *DeviceGraph) GetDeviceNodeIds() map[string]string {
 	nodeIds := make(map[string]string)
 	nodesMap := dg.GGraph.GetNodes()
 	for id, node := range nodesMap {
 		if len(strings.Split(node.String(), ":")) != 2 { // not port node
 			nodeIds[id.String()] = id.String()
 		}
 	}
 	return nodeIds
 }
	/*
	* 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 graph

	import (
	"errors"
	"fmt"
	"github.com/gyuho/goraph"
	"github.com/opencord/voltha-go/common/log"
	"github.com/opencord/voltha-go/protos/voltha"
	"strconv"
	"strings"
	"sync"
	)

	func init() {
	log.AddPackage(log.JSON, log.DebugLevel, nil)
	}

	type RouteHop struct {
	DeviceID string
	Ingress uint32
	Egress uint32
	}

	type OFPortLink struct {
	Ingress uint32
	Egress uint32
	}

	type GetDeviceFunc func(id string) (*voltha.Device, error)

	func concatDeviceIdPortId(deviceId string, portId uint32) string {
	return fmt.Sprintf("%s:%d", deviceId, portId)
	}

	func splitIntoDeviceIdPortId(id string) (string, uint32, error) {
	result := strings.Split(id, ":")
	if len(result) != 2 {
	return "", 0, errors.New(fmt.Sprintf("invalid-id-%s", id))
	}
	if temp, err := strconv.ParseInt(result[1], 10, 32); err != nil {
	return "", 0, errors.New(fmt.Sprintf("invalid-id-%s-%s", id, err.Error()))
	} else {
	return result[0], uint32(temp), nil
	}
	}

	type DeviceGraph struct {
	GGraph goraph.Graph
	getDevice GetDeviceFunc
	logicalPorts []*voltha.LogicalPort
	RootPorts map[uint32]uint32
	Routes map[OFPortLink][]RouteHop
	boundaryPorts sync.Map
	}

	func NewDeviceGraph(getDevice GetDeviceFunc) *DeviceGraph {
	var dg DeviceGraph
	dg.GGraph = goraph.NewGraph()
	dg.getDevice = getDevice
	return &dg
	}

	func (dg DeviceGraph) ComputeRoutes(lps []voltha.LogicalPort) {
	if dg == nil {
	return
	}
	dg.logicalPorts = lps
	// Set the root ports
	dg.RootPorts = make(map[uint32]uint32)
	for _, lp := range lps {
	if lp.RootPort {
	dg.RootPorts[lp.OfpPort.PortNo] = lp.OfpPort.PortNo
	}
	}
	// set the boundary ports
	dg.boundaryPorts.Range(func(key interface{}, value interface{}) bool {
	dg.boundaryPorts.Delete(key)
	return true
	})
	//dg.boundaryPorts = sync.Map{}

	for _, lp := range lps {
	dg.boundaryPorts.Store(fmt.Sprintf("%s:%d", lp.DeviceId, lp.DevicePortNo), lp.OfpPort.PortNo)
	}
	dg.Routes = make(map[OFPortLink][]RouteHop)

	// Build the graph
	var device *voltha.Device
	devicesAdded := make(map[string]string)
	portsAdded := make(map[string]string)
	for _, logicalPort := range dg.logicalPorts {
	device, _ = dg.getDevice(logicalPort.DeviceId)
	dg.GGraph = dg.addDevice(device, dg.GGraph, &devicesAdded, &portsAdded, dg.boundaryPorts)
	}
	dg.Routes = dg.buildRoutes()
	}

	func (dg DeviceGraph) addDevice(device voltha.Device, g goraph.Graph, devicesAdded map[string]string, portsAdded map[string]string,
	boundaryPorts sync.Map) goraph.Graph {

	if device == nil {
	return g
	}

	if _, exist := (*devicesAdded)[device.Id]; exist {
	return g
	}
	g.AddNode(goraph.NewNode(device.Id))
	(*devicesAdded)[device.Id] = device.Id

	var portId string
	var peerPortId string
	for _, port := range device.Ports {
	portId = concatDeviceIdPortId(device.Id, port.PortNo)
	if _, exist := (*portsAdded)[portId]; !exist {
	(*portsAdded)[portId] = portId
	g.AddNode(goraph.NewNode(portId))
	g.AddEdge(goraph.StringID(device.Id), goraph.StringID(portId), 1)
	g.AddEdge(goraph.StringID(portId), goraph.StringID(device.Id), 1)
	}
	for _, peer := range port.Peers {
	if _, exist := (*devicesAdded)[peer.DeviceId]; !exist {
	d, _ := dg.getDevice(peer.DeviceId)
	g = dg.addDevice(d, g, devicesAdded, portsAdded, boundaryPorts)
	} else {
	peerPortId = concatDeviceIdPortId(peer.DeviceId, peer.PortNo)
	g.AddEdge(goraph.StringID(portId), goraph.StringID(peerPortId), 1)
	g.AddEdge(goraph.StringID(peerPortId), goraph.StringID(portId), 1)
	}
	}
	}
	return g
	}

	func (dg *DeviceGraph) IsRootPort(port uint32) bool {
	_, exist := dg.RootPorts[port]
	return exist
	}

	func (dg *DeviceGraph) buildRoutes() map[OFPortLink][]RouteHop {
	var pathIds []goraph.ID
	path := make([]RouteHop, 0)
	paths := make(map[OFPortLink][]RouteHop)
	var err error
	var hop RouteHop

	dg.boundaryPorts.Range(func(src, srcPort interface{}) bool {
	source := src.(string)
	sourcePort := srcPort.(uint32)

	dg.boundaryPorts.Range(func(dst, dstPort interface{}) bool {
	target := dst.(string)
	targetPort := dstPort.(uint32)

	if source == target {
	return true
	}
	//Ignore NNI - NNI Routes
	if dg.IsRootPort(sourcePort) && dg.IsRootPort(targetPort) {
	return true
	}

	//Ignore UNI - UNI Routes
	if !dg.IsRootPort(sourcePort) && !dg.IsRootPort(targetPort) {
	return true
	}

	if pathIds, _, err = goraph.Dijkstra(dg.GGraph, goraph.StringID(source), goraph.StringID(target)); err != nil {
	log.Errorw("no-path", log.Fields{"source": source, "target": target, "error": err})
	return true
	}
	if len(pathIds)%3 != 0 {
	return true
	}
	var deviceId string
	var ingressPort uint32
	var egressPort uint32
	for i := 0; i < len(pathIds); i = i + 3 {
	if deviceId, ingressPort, err = splitIntoDeviceIdPortId(pathIds[i].String()); err != nil {
	log.Errorw("id-error", log.Fields{"source": source, "target": target, "error": err})
	break
	}
	if _, egressPort, err = splitIntoDeviceIdPortId(pathIds[i+2].String()); err != nil {
	log.Errorw("id-error", log.Fields{"source": source, "target": target, "error": err})
	break
	}
	hop = RouteHop{Ingress: ingressPort, DeviceID: deviceId, Egress: egressPort}
	path = append(path, hop)
	}
	tmp := make([]RouteHop, len(path))
	copy(tmp, path)
	path = nil
	paths[OFPortLink{Ingress: sourcePort, Egress: targetPort}] = tmp
	return true
	})
	return true
	})
	return paths
	}

	func (dg *DeviceGraph) GetDeviceNodeIds() map[string]string {
	nodeIds := make(map[string]string)
	nodesMap := dg.GGraph.GetNodes()
	for id, node := range nodesMap {
	if len(strings.Split(node.String(), ":")) != 2 { // not port node
	nodeIds[id.String()] = id.String()
	}
	}
	return nodeIds
	}