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Mahesh Poojary S
Committed by Mahesh Poojary Huawei
a4df1aa0 1 parent e642f7cf

[ONOS-4164] Basic PCECC and SR-TE Handlers 

Change-Id: I7fbf86d845ec6b5d780f63518776fa841e9fb57c
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/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.pce.pceservice;
import static com.google.common.base.Preconditions.checkNotNull;
import java.util.Collection;
import java.util.Iterator;
import java.util.List;
import java.util.ListIterator;
import java.util.LinkedList;
import org.onosproject.incubator.net.resource.label.DefaultLabelResource;
import org.onosproject.incubator.net.resource.label.LabelResource;
import org.onosproject.incubator.net.resource.label.LabelResourceId;
import org.onosproject.incubator.net.resource.label.LabelResourceService;
import org.onosproject.incubator.net.tunnel.Tunnel;
import org.onosproject.net.DeviceId;
import org.onosproject.net.PortNumber;
import org.onosproject.pce.pcestore.api.PceStore;
import org.onosproject.pce.pcestore.api.LspLocalLabelInfo;
import org.onosproject.pce.pcestore.PceccTunnelInfo;
import org.onosproject.pce.pcestore.DefaultLspLocalLabelInfo;
import org.onosproject.net.Link;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.google.common.collect.ArrayListMultimap;
import com.google.common.collect.Multimap;
/**
* Basic PCECC handler.
* In Basic PCECC, after path computation will configure IN and OUT label to nodes.
* [X]OUT---link----IN[Y]OUT---link-----IN[Z] where X, Y and Z are nodes.
* For generating labels, will go thorough links in the path from Egress to Ingress.
* In each link, will take label from destination node local pool as IN label,
* and assign this label as OUT label to source node.
*/
public final class BasicPceccHandler {
private static final Logger log = LoggerFactory.getLogger(BasicPceccHandler.class);
private static final String LABEL_RESOURCE_SERVICE_NULL = "Label Resource Service cannot be null";
private static final String PCE_STORE_NULL = "PCE Store cannot be null";
private static BasicPceccHandler crHandlerInstance = null;
private LabelResourceService labelRsrcService;
private PceStore pceStore;
/**
* Initializes default values.
*/
private BasicPceccHandler() {
}
/**
* Returns single instance of this class.
*
* @return this class single instance
*/
public static BasicPceccHandler getInstance() {
if (crHandlerInstance == null) {
crHandlerInstance = new BasicPceccHandler();
}
return crHandlerInstance;
}
/**
* Initialization of label manager and pce store.
*
* @param labelRsrcService label resource service
* @param pceStore pce label store
*/
public void initialize(LabelResourceService labelRsrcService, PceStore pceStore) {
this.labelRsrcService = labelRsrcService;
this.pceStore = pceStore;
}
/**
* Allocates labels from local resource pool and configure these (IN and OUT) labels into devices.
*
* @param tunnel tunnel between ingress to egress
* @return success or failure
*/
public boolean allocateLabel(Tunnel tunnel) {
long applyNum = 1;
boolean isLastLabelToPush = false;
Collection<LabelResource> labelRscList;
checkNotNull(labelRsrcService, LABEL_RESOURCE_SERVICE_NULL);
checkNotNull(pceStore, PCE_STORE_NULL);
List<Link> linkList = tunnel.path().links();
if ((linkList != null) && (linkList.size() > 0)) {
// Sequence through reverse order to push local labels into devices
// Generation of labels from egress to ingress
for (ListIterator iterator = linkList.listIterator(linkList.size()); iterator.hasPrevious();) {
Link link = (Link) iterator.previous();
DeviceId dstDeviceId = link.dst().deviceId();
DeviceId srcDeviceId = link.src().deviceId();
labelRscList = labelRsrcService.applyFromDevicePool(dstDeviceId, applyNum);
if ((labelRscList != null) && (labelRscList.size() > 0)) {
// Link label value is taken from destination device local pool.
// [X]OUT---link----IN[Y]OUT---link-----IN[Z] where X, Y and Z are nodes.
// Link label value is used as OUT and IN for both ends
// (source and destination devices) of the link.
// Currently only one label is allocated to a device (destination device).
// So, no need to iterate through list
Iterator<LabelResource> labelIterator = labelRscList.iterator();
DefaultLabelResource defaultLabelResource = (DefaultLabelResource) labelIterator.next();
LabelResourceId labelId = defaultLabelResource.labelResourceId();
log.debug("Allocated local label: " + labelId.toString()
+ "to device: " + defaultLabelResource.deviceId().toString());
PortNumber dstPort = link.dst().port();
// Check whether this is last link label to push
if (!iterator.hasPrevious()) {
isLastLabelToPush = true;
}
// Push into destination device
//TODO: uncomment below lines once installLocalLabelRule() method is ready
// Destination device IN port is link.dst().port()
//installLocalLabelRule(dstDeviceId, labelId, dstPort, tunnel.tunnelId(), isLastLabelToPush,
// LabelType.IN, Objective.Operation.ADD);
// Push into source device
//TODO: uncomment below lines once installLocalLabelRule() method is ready
// Source device OUT port will be link.dst().port(). Means its remote port used to send packet.
//installLocalLabelRule(srcDeviceId, labelId, dstPort, tunnel.tunnelId(), isLastLabelToPush,
// LabelType.OUT, Objective.Operation.ADD);
// Add or update pcecc tunnel info in pce store.
updatePceccTunnelInfoInStore(srcDeviceId, dstDeviceId, labelId, dstPort,
tunnel, isLastLabelToPush);
} else {
log.error("Unable to allocate label to device id {}.", dstDeviceId.toString());
releaseLabel(tunnel);
return false;
}
}
} else {
log.error("Tunnel {} is having empty links.", tunnel.toString());
return false;
}
return true;
}
/**
* Updates list of local labels of PCECC tunnel info in pce store.
*
* @param srcDeviceId source device in a link
* @param dstDeviceId destination device in a link
* @param labelId label id of a link
* @param dstPort destination device port number of a link
* @param tunnel tunnel
* @param isLastLabelToPush indicates this is the last label to push in Basic PCECC case
*/
public void updatePceccTunnelInfoInStore(DeviceId srcDeviceId, DeviceId dstDeviceId, LabelResourceId labelId,
PortNumber dstPort, Tunnel tunnel, boolean isLastLabelToPush) {
// First try to retrieve device from store and update its label id if it is exists,
// otherwise add it
boolean dstDeviceUpdated = false;
boolean srcDeviceUpdated = false;
PceccTunnelInfo pceccTunnelInfo = pceStore.getTunnelInfo(tunnel.tunnelId());
List<LspLocalLabelInfo> lspLabelInfoList;
if (pceccTunnelInfo != null) {
lspLabelInfoList = pceccTunnelInfo.lspLocalLabelInfoList();
if ((lspLabelInfoList != null) && (lspLabelInfoList.size() > 0)) {
for (int i = 0; i < lspLabelInfoList.size(); ++i) {
LspLocalLabelInfo lspLocalLabelInfo =
(DefaultLspLocalLabelInfo) lspLabelInfoList.get(i);
LspLocalLabelInfo.Builder lspLocalLabelInfoBuilder = null;
if (dstDeviceId.equals(lspLocalLabelInfo.deviceId())) {
lspLocalLabelInfoBuilder = DefaultLspLocalLabelInfo.builder(lspLocalLabelInfo);
lspLocalLabelInfoBuilder.inLabelId(labelId);
// Destination device IN port will be link destination port
lspLocalLabelInfoBuilder.inPort(dstPort);
dstDeviceUpdated = true;
} else if (srcDeviceId.equals(lspLocalLabelInfo.deviceId())) {
lspLocalLabelInfoBuilder = DefaultLspLocalLabelInfo.builder(lspLocalLabelInfo);
lspLocalLabelInfoBuilder.outLabelId(labelId);
// Source device OUT port will be link destination (remote) port
lspLocalLabelInfoBuilder.outPort(dstPort);
srcDeviceUpdated = true;
}
// Update
if ((lspLocalLabelInfoBuilder != null) && (dstDeviceUpdated || srcDeviceUpdated)) {
lspLabelInfoList.set(i, lspLocalLabelInfoBuilder.build());
}
}
}
}
// If it is not found in store then add it to store
if (!dstDeviceUpdated || !srcDeviceUpdated) {
// If tunnel info itself not available then create new one, otherwise add node to list.
if (pceccTunnelInfo == null) {
pceccTunnelInfo = new PceccTunnelInfo();
lspLabelInfoList = new LinkedList<>();
} else {
lspLabelInfoList = pceccTunnelInfo.lspLocalLabelInfoList();
if (lspLabelInfoList == null) {
lspLabelInfoList = new LinkedList<>();
}
}
if (!dstDeviceUpdated) {
LspLocalLabelInfo lspLocalLabelInfo = DefaultLspLocalLabelInfo.builder()
.deviceId(dstDeviceId)
.inLabelId(labelId)
.outLabelId(null)
.inPort(dstPort) // Destination device IN port will be link destination port
.outPort(null)
.build();
lspLabelInfoList.add(lspLocalLabelInfo);
}
if (!srcDeviceUpdated) {
LspLocalLabelInfo lspLocalLabelInfo = DefaultLspLocalLabelInfo.builder()
.deviceId(srcDeviceId)
.inLabelId(null)
.outLabelId(labelId)
.inPort(null)
.outPort(dstPort) // Source device OUT port will be link destination (remote) port
.build();
lspLabelInfoList.add(lspLocalLabelInfo);
}
pceccTunnelInfo.lspLocalLabelInfoList(lspLabelInfoList);
pceStore.addTunnelInfo(tunnel.tunnelId(), pceccTunnelInfo);
}
}
/**
* Deallocates unused labels to device pools.
*
* @param tunnel tunnel between ingress to egress
*/
public void releaseLabel(Tunnel tunnel) {
boolean isLastLabelToPush = false;
checkNotNull(labelRsrcService, LABEL_RESOURCE_SERVICE_NULL);
checkNotNull(pceStore, PCE_STORE_NULL);
Multimap<DeviceId, LabelResource> release = ArrayListMultimap.create();
PceccTunnelInfo pceccTunnelInfo = pceStore.getTunnelInfo(tunnel.tunnelId());
if (pceccTunnelInfo != null) {
List<LspLocalLabelInfo> lspLocalLabelInfoList = pceccTunnelInfo.lspLocalLabelInfoList();
if ((lspLocalLabelInfoList != null) && (lspLocalLabelInfoList.size() > 0)) {
for (Iterator<LspLocalLabelInfo> iterator = lspLocalLabelInfoList.iterator(); iterator.hasNext();) {
LspLocalLabelInfo lspLocalLabelInfo = (DefaultLspLocalLabelInfo) iterator.next();
DeviceId deviceId = lspLocalLabelInfo.deviceId();
LabelResourceId inLabelId = lspLocalLabelInfo.inLabelId();
LabelResourceId outLabelId = lspLocalLabelInfo.outLabelId();
PortNumber inPort = lspLocalLabelInfo.inPort();
PortNumber outPort = lspLocalLabelInfo.outPort();
// Check whether this is last link label to push
if (!iterator.hasNext()) {
isLastLabelToPush = true;
}
// Push into device
if ((inLabelId != null) && (inPort != null)) {
//TODO: uncomment below lines once installLocalLabelRule() method is ready
//installLocalLabelRule(deviceId, inLabelId, inPort, tunnelId, isLastLabelToPush,
// LabelType.IN, Objective.Operation.REMOVE);
}
if ((outLabelId != null) && (outPort != null)) {
//TODO: uncomment below lines once installLocalLabelRule() method is ready
//installLocalLabelRule(deviceId, outLabelId, outPort, tunnelId, isLastLabelToPush,
// LabelType.OUT, Objective.Operation.REMOVE);
}
// List is stored from egress to ingress. So, using IN label id to release.
// Only one local label is assigned to device (destination node)
// and that is used as OUT label for source node.
// No need to release label for last node in the list from pool because label was not allocated to
// ingress node (source node).
if ((iterator.hasNext()) && (inLabelId != null)) {
LabelResource labelRsc = new DefaultLabelResource(deviceId, inLabelId);
release.put(deviceId, labelRsc);
}
}
}
// Release from label pool
if (!release.isEmpty()) {
labelRsrcService.releaseToDevicePool(release);
}
// Remove tunnel info only if tunnel consumer id is not saved.
// If tunnel consumer id is saved, this tunnel info will be removed during releasing bandwidth.
if (pceccTunnelInfo.tunnelConsumerId() == null) {
pceStore.removeTunnelInfo(tunnel.tunnelId());
}
} else {
log.error("Unable to find PCECC tunnel info in store for a tunnel {}.", tunnel.toString());
}
}
}
/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.pce.pceservice;
/**
* Describes about Label type.
*/
public enum LabelType {
/**
* Signifies in label id of a device.
*/
OUT_LABEL(0),
/**
* Signifies out label id of a device.
*/
IN_LABEL(1);
int value;
/**
* Assign val with the value as the Label type.
*
* @param val Label type
*/
LabelType(int val) {
value = val;
}
/**
* Returns value of Label type.
*
* @return label type
*/
public byte type() {
return (byte) value;
}
}
/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.pce.pceservice;
import static com.google.common.base.Preconditions.checkNotNull;
import java.util.Collection;
import java.util.Iterator;
import java.util.HashSet;
import java.util.List;
import java.util.LinkedList;
import java.util.Map;
import java.util.Set;
import org.onosproject.incubator.net.resource.label.DefaultLabelResource;
import org.onosproject.incubator.net.resource.label.LabelResource;
import org.onosproject.incubator.net.resource.label.LabelResourceId;
import org.onosproject.incubator.net.resource.label.LabelResourceAdminService;
import org.onosproject.incubator.net.resource.label.LabelResourceService;
import org.onosproject.incubator.net.tunnel.DefaultLabelStack;
import org.onosproject.incubator.net.tunnel.LabelStack;
import org.onosproject.net.DeviceId;
import org.onosproject.pce.pcestore.api.PceStore;
import org.onosproject.net.Link;
import org.onosproject.net.Path;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.google.common.collect.ArrayListMultimap;
import com.google.common.collect.Multimap;
/**
* PCE SR-BE and SR-TE functionality.
* SR-BE: Each node (PCC) is allocated a node-SID (label) by the PCECC. The PCECC sends PCLabelUpd to
* update the label map of each node to all the nodes in the domain.
* SR-TE: apart from node-SID, Adj-SID is used where each adjacency is allocated an Adj-SID (label) by the PCECC.
* The PCECC sends PCLabelUpd to update the label map of each Adj to the corresponding nodes in the domain.
*/
public final class PceccSrTeBeHandler {
private static final Logger log = LoggerFactory.getLogger(PceccSrTeBeHandler.class);
private static final String LABEL_RESOURCE_ADMIN_SERVICE_NULL = "Label Resource Admin Service cannot be null";
private static final String LABEL_RESOURCE_SERVICE_NULL = "Label Resource Service cannot be null";
private static final String PCE_STORE_NULL = "PCE Store cannot be null";
private static final String DEVICE_SERVICE_NULL = "Device Service cannot be null";
private static final String DEVICE_ID_NULL = "Device-Id cannot be null";
private static final String LSR_ID_NULL = "LSR-Id cannot be null";
private static final String DEVICE_ID_LSR_ID_MAP_NULL = "Device-Id and LSR-Id map cannot be null";
private static final String LINK_NULL = "Link cannot be null";
private static final String PATH_NULL = "Path cannot be null";
private static final String LSR_ID = "lsrId";
private static final int PREFIX_LENGTH = 32;
private static PceccSrTeBeHandler srTeHandlerInstance = null;
private LabelResourceAdminService labelRsrcAdminService;
private LabelResourceService labelRsrcService;
private PceStore pceStore;
/**
* Initializes default values.
*/
private PceccSrTeBeHandler() {
}
/**
* Returns single instance of this class.
*
* @return this class single instance
*/
public static PceccSrTeBeHandler getInstance() {
if (srTeHandlerInstance == null) {
srTeHandlerInstance = new PceccSrTeBeHandler();
}
return srTeHandlerInstance;
}
/**
* Initialization of label manager interfaces and pce store.
*
* @param labelRsrcAdminService label resource admin service
* @param labelRsrcService label resource service
* @param pceStore PCE label store
*/
public void initialize(LabelResourceAdminService labelRsrcAdminService,
LabelResourceService labelRsrcService, PceStore pceStore) {
this.labelRsrcAdminService = labelRsrcAdminService;
this.labelRsrcService = labelRsrcService;
this.pceStore = pceStore;
}
/**
* Reserves the global label pool.
*
* @param beginLabel minimum value of global label space
* @param endLabel maximum value of global label space
* @return success or failure
*/
public boolean reserveGlobalPool(long beginLabel, long endLabel) {
checkNotNull(labelRsrcAdminService, LABEL_RESOURCE_ADMIN_SERVICE_NULL);
return labelRsrcAdminService.createGlobalPool(LabelResourceId.labelResourceId(beginLabel),
LabelResourceId.labelResourceId(endLabel));
}
/**
* Allocates node label from global node label pool to specific device.
* Configure this device with labels and lsrid mapping of all other devices and vice versa.
*
* @param specificDeviceId node label needs to be allocated to specific device
* @param specificLsrId lsrid of specific device
* @param deviceIdLsrIdMap deviceid and lsrid mapping
* @return success or failure
*/
public boolean allocateNodeLabel(DeviceId specificDeviceId, String specificLsrId,
Map<DeviceId, String> deviceIdLsrIdMap) {
long applyNum = 1; // For each node only one node label
LabelResourceId specificLabelId = null;
checkNotNull(specificDeviceId, DEVICE_ID_NULL);
checkNotNull(specificLsrId, LSR_ID_NULL);
checkNotNull(deviceIdLsrIdMap, DEVICE_ID_LSR_ID_MAP_NULL);
checkNotNull(labelRsrcService, LABEL_RESOURCE_SERVICE_NULL);
checkNotNull(pceStore, PCE_STORE_NULL);
// The specificDeviceId is the new device and is not there in the deviceIdLsrIdMap.
// So, first generate its label and configure label and its lsr-id to it.
Collection<LabelResource> result = labelRsrcService.applyFromGlobalPool(applyNum);
if (result.size() > 0) {
// Only one element (label-id) to retrieve
Iterator<LabelResource> iterator = result.iterator();
DefaultLabelResource defaultLabelResource = (DefaultLabelResource) iterator.next();
specificLabelId = defaultLabelResource.labelResourceId();
if (specificLabelId == null) {
log.error("Unable to retrieve global node label for a device id {}.", specificDeviceId.toString());
return false;
}
} else {
log.error("Unable to allocate global node label for a device id {}.", specificDeviceId.toString());
return false;
}
pceStore.addGlobalNodeLabel(specificDeviceId, specificLabelId);
//TODO: uncomment below line once advertiseNodeLabelRule() is ready
// Push its label information into specificDeviceId
//advertiseNodeLabelRule(specificDeviceId, specificLabelId,
// IpPrefix.valueOf(IpAddress.valueOf(specificLsrId), PREFIX_LENGTH),
// Configure (node-label, lsr-id) mapping of each devices in list to specific device and vice versa.
for (Map.Entry element:deviceIdLsrIdMap.entrySet()) {
DeviceId otherDevId = (DeviceId) element.getKey();
String otherLsrId = (String) element.getValue();
if (otherLsrId == null) {
log.error("The lsr-id of device id {} is null.", otherDevId.toString());
releaseNodeLabel(specificDeviceId, specificLsrId, deviceIdLsrIdMap);
return false;
}
// Label for other device in list should be already allocated.
LabelResourceId otherLabelId = pceStore.getGlobalNodeLabel(otherDevId);
if (otherLabelId == null) {
log.error("Unable to find global node label in store for a device id {}.", otherDevId.toString());
releaseNodeLabel(specificDeviceId, specificLsrId, deviceIdLsrIdMap);
return false;
}
// Push to device
// TODO: uncomment below line once advertiseNodeLabelRule() is ready
// Push label information of specificDeviceId to otherDevId in list and vice versa.
//advertiseNodeLabelRule(otherDevId, specificLabelId, IpPrefix.valueOf(IpAddress.valueOf(specificLsrId),
// PREFIX_LENGTH), Objective.Operation.ADD);
//advertiseNodeLabelRule(specificDeviceId, otherLabelId, IpPrefix.valueOf(IpAddress.valueOf(otherLsrId),
// PREFIX_LENGTH), Objective.Operation.ADD);
}
return true;
}
/**
* Releases assigned node label of specific device from global node label pool and pce store.
* and remove configured this node label from all other devices.
*
* @param specificDeviceId node label needs to be released for specific device
* @param specificLsrId lsrid of specific device
* @param deviceIdLsrIdMap deviceid and lsrid mapping
* @return success or failure
*/
public boolean releaseNodeLabel(DeviceId specificDeviceId, String specificLsrId,
Map<DeviceId, String> deviceIdLsrIdMap) {
checkNotNull(specificDeviceId, DEVICE_ID_NULL);
checkNotNull(specificLsrId, LSR_ID_NULL);
checkNotNull(deviceIdLsrIdMap, DEVICE_ID_LSR_ID_MAP_NULL);
checkNotNull(labelRsrcService, LABEL_RESOURCE_SERVICE_NULL);
checkNotNull(pceStore, PCE_STORE_NULL);
boolean retValue = true;
// Release node label entry of this specific device from all other devices
// Retrieve node label of this specific device from store
LabelResourceId labelId = pceStore.getGlobalNodeLabel(specificDeviceId);
if (labelId == null) {
log.error("Unable to retrieve label of a device id {} from store.", specificDeviceId.toString());
return false;
}
// Go through all devices in the map and remove label entry
for (Map.Entry element:deviceIdLsrIdMap.entrySet()) {
DeviceId otherDevId = (DeviceId) element.getKey();
// Remove this specific device label information from all other nodes except
// this specific node where connection already lost.
if (!specificDeviceId.equals(otherDevId)) {
//TODO: uncomment below lines once advertiseNodeLabelRule() is ready
//advertiseNodeLabelRule(otherDevId, labelId, IpPrefix.valueOf(IpAddress.valueOf(specificLsrId),
// PREFIX_LENGTH), Objective.Operation.REMOVE);
}
}
// Release from label manager
Set<LabelResourceId> release = new HashSet<>();
release.add(labelId);
if (!labelRsrcService.releaseToGlobalPool(release)) {
log.error("Unable to release label id {} from label manager.", labelId.toString());
retValue = false;
}
// Remove from store
if (!pceStore.removeGlobalNodeLabel(specificDeviceId)) {
log.error("Unable to remove global node label id {} from store.", labelId.toString());
retValue = false;
}
return retValue;
}
/**
* Allocates adjacency label to a link from local resource pool by a specific device id.
*
* @param link between devices
* @return success or failure
*/
public boolean allocateAdjacencyLabel(Link link) {
long applyNum = 1; // Single label to each link.
DeviceId srcDeviceId = link.src().deviceId();
Collection<LabelResource> labelList;
checkNotNull(link, LINK_NULL);
checkNotNull(labelRsrcService, LABEL_RESOURCE_SERVICE_NULL);
checkNotNull(pceStore, PCE_STORE_NULL);
// Allocate adjacency label to a link from label manager.
// Take label from source device pool to allocate.
labelList = labelRsrcService.applyFromDevicePool(srcDeviceId, applyNum);
if (labelList.size() <= 0) {
log.error("Unable to allocate label to a device id {}.", srcDeviceId.toString());
return false;
}
// Currently only one label to a device. So, no need to iterate through list
Iterator<LabelResource> iterator = labelList.iterator();
DefaultLabelResource defaultLabelResource = (DefaultLabelResource) iterator.next();
LabelResourceId labelId = defaultLabelResource.labelResourceId();
if (labelId == null) {
log.error("Unable to allocate label to a device id {}.", srcDeviceId.toString());
return false;
}
log.debug("Allocated adjacency label {} to a link {}.", labelId.toString(),
link.toString());
// Push adjacency label to device
//TODO: uncomment below line once installAdjLabelRule() method is ready
//installAdjLabelRule(srcDeviceId, labelId, link.src().port(), link.dst().port(), Objective.Operation.ADD);
// Save in store
pceStore.addAdjLabel(link, labelId);
return true;
}
/**
* Releases unused adjacency labels from device pools.
*
* @param link between devices
* @return success or failure
*/
public boolean releaseAdjacencyLabel(Link link) {
checkNotNull(link, LINK_NULL);
checkNotNull(labelRsrcService, LABEL_RESOURCE_SERVICE_NULL);
checkNotNull(pceStore, PCE_STORE_NULL);
boolean retValue = true;
// Retrieve link label from store
LabelResourceId labelId = pceStore.getAdjLabel(link);
if (labelId == null) {
log.error("Unabel to retrieve label for a link {} from store.", link.toString());
return false;
}
// Device
DeviceId srcDeviceId = link.src().deviceId();
// Release adjacency label from device
//TODO: uncomment below line once installAdjLabelRule() method is ready
//installAdjLabelRule(srcDeviceId, labelId, link.src().port(), link.dst().port(), Objective.Operation.REMOVE);
// Release link label from label manager
Multimap<DeviceId, LabelResource> release = ArrayListMultimap.create();
DefaultLabelResource defaultLabelResource = new DefaultLabelResource(srcDeviceId, labelId);
release.put(srcDeviceId, defaultLabelResource);
if (!labelRsrcService.releaseToDevicePool(release)) {
log.error("Unable to release label id {} from label manager.", labelId.toString());
retValue = false;
}
// Remove adjacency label from store
if (!pceStore.removeAdjLabel(link)) {
log.error("Unable to remove adjacency label id {} from store.", labelId.toString());
retValue = false;
}
return retValue;
}
/**
* Computes label stack for a path.
*
* @param path lsp path
* @return label stack
*/
public LabelStack computeLabelStack(Path path) {
checkNotNull(path, PATH_NULL);
// Label stack is linked list to make labels in order.
List<LabelResourceId> labelStack = new LinkedList<>();
List<Link> linkList = path.links();
if ((linkList != null) && (linkList.size() > 0)) {
// Path: [x] ---- [y] ---- [z]
// For other than last link, add only source[x] device label.
// For the last link, add both source[y] and destination[z] device labels.
// For all links add adjacency label
Link link = null;
LabelResourceId nodeLabelId = null;
LabelResourceId adjLabelId = null;
DeviceId deviceId = null;
for (Iterator<Link> iterator = linkList.iterator(); iterator.hasNext();) {
link = (Link) iterator.next();
// Add source device label now
deviceId = link.src().deviceId();
nodeLabelId = pceStore.getGlobalNodeLabel(deviceId);
if (nodeLabelId == null) {
log.error("Unable to find node label for a device id {} in store.", deviceId.toString());
return null;
}
labelStack.add(nodeLabelId);
// Add adjacency label for this link
adjLabelId = pceStore.getAdjLabel(link);
if (adjLabelId == null) {
log.error("Adjacency label id is null for a link {}.", link.toString());
return null;
}
labelStack.add(adjLabelId);
}
// This is the last link in path
// Add destination device label now.
if (link != null) {
deviceId = link.dst().deviceId();
nodeLabelId = pceStore.getGlobalNodeLabel(deviceId);
if (nodeLabelId == null) {
log.error("Unable to find node label for a device id {} in store.", deviceId.toString());
return null;
}
labelStack.add(nodeLabelId);
}
} else {
log.debug("Empty link in path.");
return null;
}
return new DefaultLabelStack(labelStack);
}
}
/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.pce.pceservice;
import static org.hamcrest.MatcherAssert.assertThat;
import static org.hamcrest.Matchers.is;
import static org.hamcrest.Matchers.notNullValue;
import static org.hamcrest.Matchers.nullValue;
import static org.onosproject.net.Link.Type.DIRECT;
import java.util.Iterator;
import java.util.List;
import java.util.LinkedList;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
import org.onlab.packet.IpAddress;
import org.onosproject.core.DefaultGroupId;
import org.onosproject.incubator.net.tunnel.Tunnel;
import org.onosproject.incubator.net.tunnel.TunnelEndPoint;
import org.onosproject.incubator.net.tunnel.IpTunnelEndPoint;
import org.onosproject.incubator.net.tunnel.TunnelName;
import org.onosproject.incubator.net.tunnel.TunnelId;
import org.onosproject.incubator.net.tunnel.DefaultTunnel;
import org.onosproject.incubator.net.resource.label.LabelResourceId;
import org.onosproject.incubator.net.resource.label.LabelResourceService;
import org.onosproject.net.ConnectPoint;
import org.onosproject.net.DefaultAnnotations;
import org.onosproject.net.DefaultPath;
import org.onosproject.net.DeviceId;
import org.onosproject.net.PortNumber;
import org.onosproject.net.Path;
import org.onosproject.pce.pcestore.api.LspLocalLabelInfo;
import org.onosproject.pce.pcestore.api.PceStore;
import org.onosproject.pce.pcestore.PceccTunnelInfo;
import org.onosproject.pce.pcestore.DefaultLspLocalLabelInfo;
import org.onosproject.net.provider.ProviderId;
import org.onosproject.pce.util.LabelResourceAdapter;
import org.onosproject.pce.util.PceStoreAdapter;
import org.onosproject.net.DefaultLink;
import org.onosproject.net.Link;
/**
* Unit tests for BasicPceccHandler class.
*/
public class BasicPceccHandlerTest {
public static final long LOCAL_LABEL_SPACE_MIN = 5122;
public static final long LOCAL_LABEL_SPACE_MAX = 9217;
private BasicPceccHandler pceccHandler;
protected LabelResourceService labelRsrcService;
protected PceStore pceStore;
private TunnelEndPoint src = IpTunnelEndPoint.ipTunnelPoint(IpAddress.valueOf(23423));
private TunnelEndPoint dst = IpTunnelEndPoint.ipTunnelPoint(IpAddress.valueOf(32421));
private DefaultGroupId groupId = new DefaultGroupId(92034);
private TunnelName tunnelName = TunnelName.tunnelName("TunnelName");
private TunnelId tunnelId = TunnelId.valueOf("41654654");
private ProviderId producerName = new ProviderId("producer1", "13");
private Path path;
private Tunnel tunnel;
private PceccTunnelInfo pceccTunnelInfo;
private DeviceId deviceId1;
private DeviceId deviceId2;
private DeviceId deviceId3;
private DeviceId deviceId4;
private DeviceId deviceId5;
private PortNumber port1;
private PortNumber port2;
private PortNumber port3;
private PortNumber port4;
private PortNumber port5;
@Before
public void setUp() throws Exception {
pceccHandler = BasicPceccHandler.getInstance();
labelRsrcService = new LabelResourceAdapter();
pceStore = new PceStoreAdapter();
pceccHandler.initialize(labelRsrcService, pceStore);
// Cretae tunnel test
// Link
ProviderId providerId = new ProviderId("of", "foo");
deviceId1 = DeviceId.deviceId("of:A");
deviceId2 = DeviceId.deviceId("of:B");
deviceId3 = DeviceId.deviceId("of:C");
deviceId4 = DeviceId.deviceId("of:D");
deviceId5 = DeviceId.deviceId("of:E");
port1 = PortNumber.portNumber(1);
port2 = PortNumber.portNumber(2);
port3 = PortNumber.portNumber(3);
port4 = PortNumber.portNumber(4);
port5 = PortNumber.portNumber(5);
List<Link> linkList = new LinkedList<>();
Link l1 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key1", "yahoo").build())
.src(new ConnectPoint(deviceId1, port1))
.dst(new ConnectPoint(deviceId2, port2))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(l1);
Link l2 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key2", "yahoo").build())
.src(new ConnectPoint(deviceId2, port2))
.dst(new ConnectPoint(deviceId3, port3))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(l2);
Link l3 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key3", "yahoo").build())
.src(new ConnectPoint(deviceId3, port3))
.dst(new ConnectPoint(deviceId4, port4))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(l3);
Link l4 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key4", "yahoo").build())
.src(new ConnectPoint(deviceId4, port4))
.dst(new ConnectPoint(deviceId5, port5))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(l4);
// Path
path = new DefaultPath(providerId, linkList, 10);
// Tunnel
tunnel = new DefaultTunnel(producerName, src, dst, Tunnel.Type.VXLAN,
Tunnel.State.ACTIVE, groupId, tunnelId,
tunnelName, path);
}
@After
public void tearDown() throws Exception {
}
/**
* Checks the operation of getInstance() method.
*/
@Test
public void testGetInstance() {
assertThat(pceccHandler, is(notNullValue()));
}
/**
* Checks the operation of allocateLabel() method.
*/
@Test
public void testAllocateLabel() {
List<LspLocalLabelInfo> lspLocalLabelInfoList;
Iterator<LspLocalLabelInfo> iterator;
LspLocalLabelInfo lspLocalLabelInfo;
DeviceId deviceId;
LabelResourceId inLabelId;
LabelResourceId outLabelId;
PortNumber inPort;
PortNumber outPort;
// check allocation result
assertThat(pceccHandler.allocateLabel(tunnel), is(true));
// Check list of devices with IN and OUT labels whether stored properly in store
pceccTunnelInfo = pceStore.getTunnelInfo(tunnel.tunnelId());
lspLocalLabelInfoList = pceccTunnelInfo.lspLocalLabelInfoList();
iterator = lspLocalLabelInfoList.iterator();
// Retrieve values and check device5
lspLocalLabelInfo = (DefaultLspLocalLabelInfo) iterator.next();
deviceId = lspLocalLabelInfo.deviceId();
inLabelId = lspLocalLabelInfo.inLabelId();
outLabelId = lspLocalLabelInfo.outLabelId();
inPort = lspLocalLabelInfo.inPort();
outPort = lspLocalLabelInfo.outPort();
assertThat(deviceId, is(deviceId5));
assertThat(inLabelId, is(notNullValue()));
assertThat(outLabelId, is(nullValue()));
assertThat(inPort, is(port5));
assertThat(outPort, is(nullValue()));
// Next element check
// Retrieve values and check device4
lspLocalLabelInfo = (DefaultLspLocalLabelInfo) iterator.next();
deviceId = lspLocalLabelInfo.deviceId();
inLabelId = lspLocalLabelInfo.inLabelId();
outLabelId = lspLocalLabelInfo.outLabelId();
inPort = lspLocalLabelInfo.inPort();
outPort = lspLocalLabelInfo.outPort();
assertThat(deviceId, is(deviceId4));
assertThat(inLabelId, is(notNullValue()));
assertThat(outLabelId, is(notNullValue()));
assertThat(inPort, is(port4));
assertThat(outPort, is(port5));
// Next element check
// Retrieve values and check device3
lspLocalLabelInfo = (DefaultLspLocalLabelInfo) iterator.next();
deviceId = lspLocalLabelInfo.deviceId();
inLabelId = lspLocalLabelInfo.inLabelId();
outLabelId = lspLocalLabelInfo.outLabelId();
inPort = lspLocalLabelInfo.inPort();
outPort = lspLocalLabelInfo.outPort();
assertThat(deviceId, is(deviceId3));
assertThat(inLabelId, is(notNullValue()));
assertThat(outLabelId, is(notNullValue()));
assertThat(inPort, is(port3));
assertThat(outPort, is(port4));
// Next element check
// Retrieve values and check device2
lspLocalLabelInfo = (DefaultLspLocalLabelInfo) iterator.next();
deviceId = lspLocalLabelInfo.deviceId();
inLabelId = lspLocalLabelInfo.inLabelId();
outLabelId = lspLocalLabelInfo.outLabelId();
inPort = lspLocalLabelInfo.inPort();
outPort = lspLocalLabelInfo.outPort();
assertThat(deviceId, is(deviceId2));
assertThat(inLabelId, is(notNullValue()));
assertThat(outLabelId, is(notNullValue()));
assertThat(inPort, is(port2));
assertThat(outPort, is(port3));
// Next element check
// Retrieve values and check device1
lspLocalLabelInfo = (DefaultLspLocalLabelInfo) iterator.next();
deviceId = lspLocalLabelInfo.deviceId();
inLabelId = lspLocalLabelInfo.inLabelId();
outLabelId = lspLocalLabelInfo.outLabelId();
inPort = lspLocalLabelInfo.inPort();
outPort = lspLocalLabelInfo.outPort();
assertThat(deviceId, is(deviceId1));
assertThat(inLabelId, is(nullValue()));
assertThat(outLabelId, is(notNullValue()));
assertThat(inPort, is(nullValue()));
assertThat(outPort, is(port2));
}
/**
* Checks the operation of releaseLabel() method.
*/
@Test
public void testReleaseLabel() {
// Release tunnels
assertThat(pceccHandler.allocateLabel(tunnel), is(true));
pceccHandler.releaseLabel(tunnel);
// Retrieve from store. Store should not contain this tunnel info.
pceccTunnelInfo = pceStore.getTunnelInfo(tunnel.tunnelId());
assertThat(pceccTunnelInfo, is(nullValue()));
}
}
/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.pce.pceservice;
import static org.hamcrest.MatcherAssert.assertThat;
import static org.hamcrest.Matchers.is;
import static org.hamcrest.Matchers.notNullValue;
import static org.hamcrest.Matchers.nullValue;
import static org.onosproject.net.Link.Type.DIRECT;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.List;
import java.util.LinkedList;
import org.junit.After;
import org.junit.Before;
import org.junit.Test;
import org.onosproject.incubator.net.resource.label.LabelResourceId;
import org.onosproject.incubator.net.resource.label.LabelResourceAdminService;
import org.onosproject.incubator.net.resource.label.LabelResourceService;
import org.onosproject.incubator.net.tunnel.LabelStack;
import org.onosproject.net.ConnectPoint;
import org.onosproject.net.DefaultAnnotations;
import org.onosproject.net.DefaultPath;
import org.onosproject.net.DeviceId;
import org.onosproject.net.PortNumber;
import org.onosproject.net.Path;
import org.onosproject.pce.pcestore.api.PceStore;
import org.onosproject.net.provider.ProviderId;
import org.onosproject.pce.util.LabelResourceAdapter;
import org.onosproject.pce.util.PceStoreAdapter;
import org.onosproject.net.DefaultLink;
import org.onosproject.net.Link;
/**
* Unit tests for PceccSrTeBeHandler class.
*/
public class PceccSrTeBeHandlerTest {
public static final long GLOBAL_LABEL_SPACE_MIN = 4097;
public static final long GLOBAL_LABEL_SPACE_MAX = 5121;
private PceccSrTeBeHandler srTeHandler;
protected LabelResourceAdminService labelRsrcAdminService;
protected LabelResourceService labelRsrcService;
protected PceStore pceStore;
private ProviderId providerId;
private DeviceId deviceId1;
private DeviceId deviceId2;
private DeviceId deviceId3;
private DeviceId deviceId4;
private DeviceId deviceId5;
private PortNumber port1;
private PortNumber port2;
private PortNumber port3;
private PortNumber port4;
private PortNumber port5;
private Link link1;
private Link link2;
private Link link3;
private Link link4;
private Path path1;
LabelResourceId labelId;
private LabelResourceId labelId1 = LabelResourceId.labelResourceId(4098);
private LabelResourceId labelId2 = LabelResourceId.labelResourceId(4099);
private Map<DeviceId, String> deviceIdLsrIdMap;
@Before
public void setUp() throws Exception {
// Initialization of member variables
srTeHandler = PceccSrTeBeHandler.getInstance();
labelRsrcService = new LabelResourceAdapter();
labelRsrcAdminService = new LabelResourceAdapter();
pceStore = new PceStoreAdapter();
srTeHandler.initialize(labelRsrcAdminService, labelRsrcService, pceStore);
// Creates path
// Creates list of links
providerId = new ProviderId("of", "foo");
deviceId1 = DeviceId.deviceId("of:A");
deviceId2 = DeviceId.deviceId("of:B");
deviceId3 = DeviceId.deviceId("of:C");
deviceId4 = DeviceId.deviceId("of:D");
deviceId5 = DeviceId.deviceId("of:E");
port1 = PortNumber.portNumber(1);
port2 = PortNumber.portNumber(2);
port3 = PortNumber.portNumber(3);
port4 = PortNumber.portNumber(4);
port5 = PortNumber.portNumber(5);
List<Link> linkList = new LinkedList<>();
link1 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key1", "yahoo").build())
.src(new ConnectPoint(deviceId1, port1))
.dst(new ConnectPoint(deviceId2, port2))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(link1);
link2 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key2", "yahoo").build())
.src(new ConnectPoint(deviceId2, port2))
.dst(new ConnectPoint(deviceId3, port3))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(link2);
link3 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key3", "yahoo").build())
.src(new ConnectPoint(deviceId3, port3))
.dst(new ConnectPoint(deviceId4, port4))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(link3);
link4 = DefaultLink.builder()
.providerId(providerId)
.annotations(DefaultAnnotations.builder().set("key4", "yahoo").build())
.src(new ConnectPoint(deviceId4, port4))
.dst(new ConnectPoint(deviceId5, port5))
.type(DIRECT)
.state(Link.State.ACTIVE)
.build();
linkList.add(link4);
// Path
path1 = new DefaultPath(providerId, linkList, 10);
}
@After
public void tearDown() throws Exception {
}
/**
* Checks the operation of getInstance() method.
*/
@Test
public void testGetInstance() {
assertThat(srTeHandler, is(notNullValue()));
}
/**
* Checks the operation of reserveGlobalPool() method.
*/
@Test
public void testReserveGlobalPool() {
assertThat(srTeHandler.reserveGlobalPool(GLOBAL_LABEL_SPACE_MIN,
GLOBAL_LABEL_SPACE_MAX), is(true));
}
/**
* Checks the operation of allocateNodeLabel() method on node label.
* Considered some nodes are already available before PceManager came up.
*/
@Test
public void testAllocateNodeLabel1() {
// Specific device deviceId1
// Devices mapping with lsr-id
deviceIdLsrIdMap = new HashMap<>();
//device 1
String lsrId1 = "11.1.1.1";
deviceIdLsrIdMap.put(deviceId1, lsrId1);
// device 2
String lsrId2 = "12.1.1.1";
deviceIdLsrIdMap.put(deviceId2, lsrId2);
// device 3
String lsrId3 = "13.1.1.1";
deviceIdLsrIdMap.put(deviceId3, lsrId3);
// device 4
String lsrId4 = "14.1.1.1";
deviceIdLsrIdMap.put(deviceId4, lsrId4);
// device 5
String lsrId5 = "15.1.1.1";
deviceIdLsrIdMap.put(deviceId5, lsrId5);
// Considered devices are stored in deviceIdLsrIdMap.
// Creating temporary tempDeviceIdLsrIdMap to pass to allocateNodeLabel()
Map<DeviceId, String> tempDeviceIdLsrIdMap = new HashMap<>();
for (Map.Entry element : deviceIdLsrIdMap.entrySet()) {
DeviceId devId = (DeviceId) element.getKey();
String lsrId = (String) element.getValue();
// Allocate node label for specific device devId
assertThat(srTeHandler.allocateNodeLabel(devId, lsrId, tempDeviceIdLsrIdMap), is(true));
// Retrieve label from store
LabelResourceId labelId = pceStore.getGlobalNodeLabel(devId);
// Check whether label is generated for this device devId
assertThat(labelId, is(notNullValue()));
//Now add device to tempDeviceIdLsrIdMap
tempDeviceIdLsrIdMap.put(devId, lsrId);
}
}
/**
* Checks the operation of allocateNodeLabel() method on node label.
* Considered initially map is empty and keep on getting new devices from event.
*/
@Test
public void testAllocateNodeLabel2() {
// Specific device deviceId1
// Device-id mapping with lsr-id
deviceIdLsrIdMap = new HashMap<>();
//device 1
String lsrId1 = "11.1.1.1";
// Allocate node label for specific device deviceId1
assertThat(srTeHandler.allocateNodeLabel(deviceId1, lsrId1, deviceIdLsrIdMap), is(true));
// Retrieve label from store
LabelResourceId labelId = pceStore.getGlobalNodeLabel(deviceId1);
// Check whether label is generated for this device deviceId1
assertThat(labelId, is(notNullValue()));
//Now add device to deviceIdLsrIdMap
deviceIdLsrIdMap.put(deviceId1, lsrId1);
// device 2
String lsrId2 = "12.1.1.1";
// Allocate node label for specific device deviceId2
assertThat(srTeHandler.allocateNodeLabel(deviceId2, lsrId2, deviceIdLsrIdMap), is(true));
// Retrieve label from store
labelId = pceStore.getGlobalNodeLabel(deviceId2);
// Check whether label is generated for this device deviceId2
assertThat(labelId, is(notNullValue()));
//Now add device to deviceIdLsrIdMap
deviceIdLsrIdMap.put(deviceId2, lsrId2);
// device 3
String lsrId3 = "13.1.1.1";
// Allocate node label for specific device deviceId3
assertThat(srTeHandler.allocateNodeLabel(deviceId3, lsrId3, deviceIdLsrIdMap), is(true));
// Retrieve label from store
labelId = pceStore.getGlobalNodeLabel(deviceId3);
// Check whether label is generated for this device deviceId3
assertThat(labelId, is(notNullValue()));
//Now add device to deviceIdLsrIdMap
deviceIdLsrIdMap.put(deviceId3, lsrId3);
// device 4
String lsrId4 = "14.1.1.1";
// Allocate node label for specific device deviceId4
assertThat(srTeHandler.allocateNodeLabel(deviceId4, lsrId4, deviceIdLsrIdMap), is(true));
// Retrieve label from store
labelId = pceStore.getGlobalNodeLabel(deviceId4);
// Check whether label is generated for this device deviceId4
assertThat(labelId, is(notNullValue()));
//Now add device to deviceIdLsrIdMap
deviceIdLsrIdMap.put(deviceId4, lsrId4);
// device 5
String lsrId5 = "15.1.1.1";
// Allocate node label for specific device deviceId5
assertThat(srTeHandler.allocateNodeLabel(deviceId5, lsrId5, deviceIdLsrIdMap), is(true));
// Retrieve label from store
labelId = pceStore.getGlobalNodeLabel(deviceId5);
// Check whether label is generated for this device deviceId5
assertThat(labelId, is(notNullValue()));
//Now add device to deviceIdLsrIdMap
deviceIdLsrIdMap.put(deviceId5, lsrId5);
}
/**
* Checks the operation of releaseNodeLabel() method on node label.
*/
@Test
public void testReleaseNodeLabelSuccess() {
testAllocateNodeLabel2();
// Specific device deviceId1
//device 1
String lsrId1 = "11.1.1.1";
// Check whether successfully released node label
assertThat(srTeHandler.releaseNodeLabel(deviceId1, lsrId1, deviceIdLsrIdMap), is(true));
// Check whether successfully removed label from store
LabelResourceId labelId = pceStore.getGlobalNodeLabel(deviceId1);
assertThat(labelId, is(nullValue()));
// Remove released deviceId1
deviceIdLsrIdMap.remove(deviceId1);
//device 2
String lsrId2 = "12.1.1.1";
// Check whether successfully released node label
assertThat(srTeHandler.releaseNodeLabel(deviceId2, lsrId2, deviceIdLsrIdMap), is(true));
// Check whether successfully removed label from store
labelId = pceStore.getGlobalNodeLabel(deviceId2);
assertThat(labelId, is(nullValue()));
// Remove released deviceId2
deviceIdLsrIdMap.remove(deviceId2);
//device 3
String lsrId3 = "13.1.1.1";
// Check whether successfully released node label
assertThat(srTeHandler.releaseNodeLabel(deviceId3, lsrId3, deviceIdLsrIdMap), is(true));
// Check whether successfully removed label from store
labelId = pceStore.getGlobalNodeLabel(deviceId3);
assertThat(labelId, is(nullValue()));
// Remove released deviceId3
deviceIdLsrIdMap.remove(deviceId3);
//device 4
String lsrId4 = "14.1.1.1";
// Check whether successfully released node label
assertThat(srTeHandler.releaseNodeLabel(deviceId4, lsrId4, deviceIdLsrIdMap), is(true));
// Check whether successfully removed label from store
labelId = pceStore.getGlobalNodeLabel(deviceId4);
assertThat(labelId, is(nullValue()));
// Remove released deviceId4
deviceIdLsrIdMap.remove(deviceId4);
//device 5
String lsrId5 = "15.1.1.1";
// Check whether successfully released node label
assertThat(srTeHandler.releaseNodeLabel(deviceId5, lsrId5, deviceIdLsrIdMap), is(true));
// Check whether successfully removed label from store
labelId = pceStore.getGlobalNodeLabel(deviceId5);
assertThat(labelId, is(nullValue()));
// Remove released deviceId5
deviceIdLsrIdMap.remove(deviceId5);
}
@Test
public void testReleaseNodeLabelFailure() {
testAllocateNodeLabel2();
//device 6
String lsrId6 = "16.1.1.1";
// Check whether successfully released node label
DeviceId deviceId6 = DeviceId.deviceId("foo6");
assertThat(srTeHandler.releaseNodeLabel(deviceId6, lsrId6, deviceIdLsrIdMap), is(false));
}
/**
* Checks the operation of allocateAdjacencyLabel() method on adjacency label.
*/
@Test
public void testAllocateAdjacencyLabel() {
// test link1
// Check whether adjacency label is allocated successfully.
assertThat(srTeHandler.allocateAdjacencyLabel(link1), is(true));
// Retrieve from store and check whether adjacency label is generated successfully for this device.
LabelResourceId labelId = pceStore.getAdjLabel(link1);
assertThat(labelId, is(notNullValue()));
// test link2
// Check whether adjacency label is allocated successfully.
assertThat(srTeHandler.allocateAdjacencyLabel(link2), is(true));
// Retrieve from store and check whether adjacency label is generated successfully for this device.
labelId = pceStore.getAdjLabel(link2);
assertThat(labelId, is(notNullValue()));
// test link3
// Check whether adjacency label is allocated successfully.
assertThat(srTeHandler.allocateAdjacencyLabel(link3), is(true));
// Retrieve from store and check whether adjacency label is generated successfully for this device.
labelId = pceStore.getAdjLabel(link3);
assertThat(labelId, is(notNullValue()));
// test link4
// Check whether adjacency label is allocated successfully.
assertThat(srTeHandler.allocateAdjacencyLabel(link4), is(true));
// Retrieve from store and check whether adjacency label is generated successfully for this device.
labelId = pceStore.getAdjLabel(link4);
assertThat(labelId, is(notNullValue()));
}
/**
* Checks the operation of releaseAdjacencyLabel() method on adjacency label.
*/
@Test
public void testReleaseAdjacencyLabel() {
// Test link1
// Check whether adjacency label is released successfully.
assertThat(srTeHandler.allocateAdjacencyLabel(link1), is(true));
assertThat(srTeHandler.releaseAdjacencyLabel(link1), is(true));
// Retrieve from store and check whether adjacency label is removed successfully for this device.
LabelResourceId labelId = pceStore.getAdjLabel(link1);
assertThat(labelId, is(nullValue()));
// Test link2
// Check whether adjacency label is released successfully.
assertThat(srTeHandler.allocateAdjacencyLabel(link2), is(true));
assertThat(srTeHandler.releaseAdjacencyLabel(link2), is(true));
// Retrieve from store and check whether adjacency label is removed successfully for this device.
labelId = pceStore.getAdjLabel(link2);
assertThat(labelId, is(nullValue()));
}
/**
* Checks the operation of computeLabelStack() method.
*/
@Test
public void testComputeLabelStack() {
// Allocate node labels to each devices
labelId = LabelResourceId.labelResourceId(4097);
pceStore.addGlobalNodeLabel(deviceId1, labelId);
labelId = LabelResourceId.labelResourceId(4098);
pceStore.addGlobalNodeLabel(deviceId2, labelId);
labelId = LabelResourceId.labelResourceId(4099);
pceStore.addGlobalNodeLabel(deviceId3, labelId);
labelId = LabelResourceId.labelResourceId(4100);
pceStore.addGlobalNodeLabel(deviceId4, labelId);
labelId = LabelResourceId.labelResourceId(4101);
pceStore.addGlobalNodeLabel(deviceId5, labelId);
// Allocate adjacency labels to each devices
labelId = LabelResourceId.labelResourceId(5122);
pceStore.addAdjLabel(link1, labelId);
labelId = LabelResourceId.labelResourceId(5123);
pceStore.addAdjLabel(link2, labelId);
labelId = LabelResourceId.labelResourceId(5124);
pceStore.addAdjLabel(link3, labelId);
labelId = LabelResourceId.labelResourceId(5125);
pceStore.addAdjLabel(link4, labelId);
// Compute label stack
LabelStack labelStack = srTeHandler.computeLabelStack(path1);
// check node-label of deviceId1
List<LabelResourceId> labelList = labelStack.labelResources();
Iterator<LabelResourceId> iterator = labelList.iterator();
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(4097)));
// check adjacency label of deviceId1
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(5122)));
// check node-label of deviceId2
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(4098)));
// check adjacency label of deviceId2
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(5123)));
// check node-label of deviceId3
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(4099)));
// check adjacency label of deviceId3
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(5124)));
// check node-label of deviceId4
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(4100)));
// check adjacency label of deviceId4
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(5125)));
// check node-label of deviceId5
labelId = (LabelResourceId) iterator.next();
assertThat(labelId, is(LabelResourceId.labelResourceId(4101)));
}
}
/*
* Copyright 2016-present Open Networking Laboratory
*
* 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 org.onosproject.pce.util;
import static com.google.common.base.Preconditions.checkNotNull;
import java.util.Collection;
import java.util.LinkedList;
import java.util.Random;
import java.util.Set;
import org.onosproject.incubator.net.resource.label.DefaultLabelResource;
import org.onosproject.incubator.net.resource.label.LabelResource;
import org.onosproject.incubator.net.resource.label.LabelResourceAdminService;
import org.onosproject.incubator.net.resource.label.LabelResourceDelegate;
import org.onosproject.incubator.net.resource.label.LabelResourceEvent;
import org.onosproject.incubator.net.resource.label.LabelResourceId;
import org.onosproject.incubator.net.resource.label.LabelResourceListener;
import org.onosproject.incubator.net.resource.label.LabelResourcePool;
import org.onosproject.incubator.net.resource.label.LabelResourceProvider;
import org.onosproject.incubator.net.resource.label.LabelResourceProviderRegistry;
import org.onosproject.incubator.net.resource.label.LabelResourceProviderService;
import org.onosproject.incubator.net.resource.label.LabelResourceService;
import org.onosproject.net.Device;
import org.onosproject.net.DeviceId;
import org.onosproject.net.device.DeviceEvent;
import org.onosproject.net.device.DeviceEvent.Type;
import org.onosproject.net.device.DeviceListener;
import org.onosproject.net.provider.AbstractListenerProviderRegistry;
import org.onosproject.net.provider.AbstractProviderService;
import com.google.common.collect.Multimap;
/**
* Provides test implementation of class LabelResourceService.
*/
public class LabelResourceAdapter
extends AbstractListenerProviderRegistry<LabelResourceEvent, LabelResourceListener,
LabelResourceProvider, LabelResourceProviderService>
implements LabelResourceService, LabelResourceAdminService, LabelResourceProviderRegistry {
public static final long GLOBAL_LABEL_SPACE_MIN = 4097;
public static final long GLOBAL_LABEL_SPACE_MAX = 5121;
public static final long LOCAL_LABEL_SPACE_MIN = 5122;
public static final long LOCAL_LABEL_SPACE_MAX = 9217;
private Random random = new Random();
@Override
public boolean createDevicePool(DeviceId deviceId,
LabelResourceId beginLabel,
LabelResourceId endLabel) {
return true;
}
@Override
public boolean createGlobalPool(LabelResourceId beginLabel,
LabelResourceId endLabel) {
return true;
}
@Override
public boolean destroyDevicePool(DeviceId deviceId) {
return true;
}
@Override
public boolean destroyGlobalPool() {
return true;
}
public long getLabelId(long min, long max) {
return random.nextInt((int) max - (int) min + 1) + (int) min;
}
public Collection<LabelResource> applyFromDevicePool(DeviceId deviceId,
long applyNum) {
Collection<LabelResource> labelList = new LinkedList<>();
LabelResource label = new DefaultLabelResource(deviceId,
LabelResourceId.labelResourceId(
getLabelId(LOCAL_LABEL_SPACE_MIN, LOCAL_LABEL_SPACE_MAX)));
labelList.add(label);
return labelList;
}
public Collection<LabelResource> applyFromGlobalPool(long applyNum) {
Collection<LabelResource> labelList = new LinkedList<>();
LabelResource label = new DefaultLabelResource(DeviceId.deviceId("foo"),
LabelResourceId.labelResourceId(
getLabelId(GLOBAL_LABEL_SPACE_MIN, GLOBAL_LABEL_SPACE_MAX)));
labelList.add(label);
return labelList;
}
public boolean releaseToDevicePool(Multimap<DeviceId, LabelResource> release) {
return true;
}
public boolean releaseToGlobalPool(Set<LabelResourceId> release) {
return true;
}
public boolean isDevicePoolFull(DeviceId deviceId) {
return false;
}
public boolean isGlobalPoolFull() {
return false;
}
public long getFreeNumOfDevicePool(DeviceId deviceId) {
return 4;
}
public long getFreeNumOfGlobalPool() {
return 4;
}
@Override
public LabelResourcePool getDeviceLabelResourcePool(DeviceId deviceId) {
return null;
}
@Override
public LabelResourcePool getGlobalLabelResourcePool() {
return null;
}
private class InternalLabelResourceDelegate implements LabelResourceDelegate {
@Override
public void notify(LabelResourceEvent event) {
post(event);
}
}
private class InternalDeviceListener implements DeviceListener {
@Override
public void event(DeviceEvent event) {
Device device = event.subject();
if (Type.DEVICE_REMOVED.equals(event.type())) {
destroyDevicePool(device.id());
}
}
}
private class InternalLabelResourceProviderService
extends AbstractProviderService<LabelResourceProvider>
implements LabelResourceProviderService {
protected InternalLabelResourceProviderService(LabelResourceProvider provider) {
super(provider);
}
@Override
public void deviceLabelResourcePoolDetected(DeviceId deviceId,
LabelResourceId beginLabel,
LabelResourceId endLabel) {
checkNotNull(deviceId, "deviceId is not null");
checkNotNull(beginLabel, "beginLabel is not null");
checkNotNull(endLabel, "endLabel is not null");
createDevicePool(deviceId, beginLabel, endLabel);
}
@Override
public void deviceLabelResourcePoolDestroyed(DeviceId deviceId) {
checkNotNull(deviceId, "deviceId is not null");
destroyDevicePool(deviceId);
}
}
@Override
protected LabelResourceProviderService createProviderService(LabelResourceProvider provider) {
return null;
}
}