[ONOS-5187] Compute path with Explicit path objects
Change-Id: Id34dbef9bd6cfa9971d0d10adf4bbc141f03a913
diff --git a/apps/pce/app/src/main/java/org/onosproject/pce/pceservice/PceManager.java b/apps/pce/app/src/main/java/org/onosproject/pce/pceservice/PceManager.java
index a4c2aa6..9267dc2 100644
--- a/apps/pce/app/src/main/java/org/onosproject/pce/pceservice/PceManager.java
+++ b/apps/pce/app/src/main/java/org/onosproject/pce/pceservice/PceManager.java
@@ -24,6 +24,7 @@
import java.util.List;
import java.util.Optional;
import java.util.Set;
+
import org.apache.felix.scr.annotations.Activate;
import org.apache.felix.scr.annotations.Component;
import org.apache.felix.scr.annotations.Deactivate;
@@ -48,9 +49,11 @@
import org.onosproject.net.config.NetworkConfigService;
import org.onosproject.net.DefaultAnnotations;
import org.onosproject.net.DefaultAnnotations.Builder;
+import org.onosproject.net.DefaultPath;
import org.onosproject.net.Device;
import org.onosproject.net.DeviceId;
import org.onosproject.net.Link;
+import org.onosproject.net.NetworkResource;
import org.onosproject.net.Path;
import org.onosproject.net.device.DeviceService;
import org.onosproject.net.intent.Constraint;
@@ -86,6 +89,7 @@
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableSet;
+import com.google.common.collect.Sets;
import static org.onosproject.incubator.net.tunnel.Tunnel.State.INIT;
import static org.onosproject.incubator.net.tunnel.Tunnel.State.UNSTABLE;
@@ -230,10 +234,177 @@
return ImmutableSet.of();
}
- //[TODO:] handle requests in queue
+ //Computes the partial path from partial computed path to specified dst.
+ private List<Path> computePartialPath(List<Path> computedPath, DeviceId src, DeviceId dst,
+ List<Constraint> constraints) {
+ int size = computedPath.size();
+ Path path = null;
+ DeviceId deviceId = size == 0 ? src :
+ computedPath.get(size - 1).dst().deviceId();
+
+ Set<Path> tempComputePath = computePath(deviceId, dst, constraints);
+ if (tempComputePath.isEmpty()) {
+ return null;
+ }
+
+ //if path validation fails return null
+ //Validate computed path to avoid loop in the path
+ for (Path p : tempComputePath) {
+ if (pathValidation(computedPath, p)) {
+ path = p;
+ break;
+ }
+ }
+ if (path == null) {
+ return null;
+ }
+
+ //Store the partial path result in a list
+ computedPath.add(path);
+ return computedPath;
+ }
+
+ private List<DeviceId> createListOfDeviceIds(List<? extends NetworkResource> list) {
+ List<Link> links = new LinkedList<>();
+ if (!list.isEmpty() && list.iterator().next() instanceof Path) {
+ for (Path path : (List<Path>) list) {
+ links.addAll(path.links());
+ }
+ } else if (!list.isEmpty() && list.iterator().next() instanceof Link) {
+ links.addAll((List<Link>) list);
+ }
+
+ //List of devices for new path computed
+ DeviceId source = null;
+ DeviceId destination = null;
+ List<DeviceId> devList = new LinkedList<>();
+
+ for (Link l : links) {
+ if (!devList.contains(l.src().deviceId())) {
+ devList.add(l.src().deviceId());
+ }
+ if (!devList.contains(l.dst().deviceId())) {
+ devList.add(l.dst().deviceId());
+ }
+ }
+
+ return devList;
+ }
+
+ //To dectect loops in the path i.e if the partial paths has intersection node avoid it.
+ private boolean pathValidation(List<Path> partialPath, Path path) {
+
+ //List of devices in new path computed
+ List<DeviceId> newPartialPathDevList;
+ newPartialPathDevList = createListOfDeviceIds(path.links());
+
+ //List of devices in partial computed path
+ List<DeviceId> partialComputedPathDevList;
+ partialComputedPathDevList = createListOfDeviceIds(partialPath);
+
+ for (DeviceId deviceId : newPartialPathDevList) {
+ for (DeviceId devId : partialComputedPathDevList) {
+ if (!newPartialPathDevList.get(0).equals(deviceId) &&
+ !partialComputedPathDevList.get(partialComputedPathDevList.size() - 1).equals(devId)
+ && deviceId.equals(devId)) {
+ return false;
+ }
+ }
+ }
+
+ return true;
+ }
+
+ //Returns final computed explicit path (list of partial computed paths).
+ private List<Path> computeExplicitPath(List<ExplicitPathInfo> explicitPathInfo, DeviceId src, DeviceId dst,
+ List<Constraint> constraints) {
+ List<Path> finalComputedPath = new LinkedList<>();
+ for (ExplicitPathInfo info : explicitPathInfo) {
+ /*
+ * If explicit path object is LOOSE,
+ * 1) If specified as DeviceId (node) :
+ * If it is source , compute from source to destination (partial computation not required),
+ * otherwise compute from specified source to specified device
+ * 2) If specified as Link :
+ * Compute partial path from source to link's source , if path exists compute from link's source to dst
+ */
+ if (info.type().equals(ExplicitPathInfo.Type.LOOSE)) {
+ if (info.value() instanceof DeviceId) {
+ // If deviceId is source no need to compute
+ if (!(info.value()).equals(src)) {
+ finalComputedPath = computePartialPath(finalComputedPath, src, (DeviceId) info.value(),
+ constraints);
+ }
+
+ } else if (info.value() instanceof Link) {
+ if ((((Link) info.value()).src().deviceId().equals(src))
+ || (!finalComputedPath.isEmpty()
+ && finalComputedPath.get(finalComputedPath.size() - 1).dst().equals(
+ ((Link) info.value()).src().deviceId()))) {
+
+ finalComputedPath = computePartialPath(finalComputedPath, src, ((Link) info.value()).dst()
+ .deviceId(), constraints);
+ } else {
+
+ finalComputedPath = computePartialPath(finalComputedPath, src, ((Link) info.value()).src()
+ .deviceId(), constraints) != null ? computePartialPath(finalComputedPath, src,
+ ((Link) info.value()).dst().deviceId(), constraints) : null;
+ }
+ }
+ /*
+ * If explicit path object is STRICT,
+ * 1) If specified as DeviceId (node) :
+ * Check whether partial computed path has reachable to strict specified node or
+ * strict node is the source, if no set path as null else do nothing
+ * 2) If specified as Link :
+ * Check whether partial computed path has reachable to strict link's src, if yes compute
+ * path from strict link's src to link's dst (to include specified link)
+ */
+ } else if (info.type().equals(ExplicitPathInfo.Type.STRICT)) {
+ if (info.value() instanceof DeviceId) {
+ if (!(!finalComputedPath.isEmpty() && finalComputedPath.get(finalComputedPath.size() - 1).dst()
+ .deviceId().equals(info.value()))
+ && !info.value().equals(src)) {
+ finalComputedPath = null;
+ }
+
+ } else if (info.value() instanceof Link) {
+
+ finalComputedPath = ((Link) info.value()).src().deviceId().equals(src)
+ || !finalComputedPath.isEmpty()
+ && finalComputedPath.get(finalComputedPath.size() - 1).dst().deviceId()
+ .equals(((Link) info.value()).src().deviceId()) ? computePartialPath(
+ finalComputedPath, src, ((Link) info.value()).dst().deviceId(), constraints) : null;
+
+ }
+ }
+ if (finalComputedPath == null) {
+ return null;
+ }
+ }
+ // Destination is not reached in Partial computed path then compute till destination
+ if (finalComputedPath.isEmpty() || !finalComputedPath.isEmpty()
+ && !finalComputedPath.get(finalComputedPath.size() - 1).dst().deviceId().equals(dst)) {
+
+ finalComputedPath = computePartialPath(finalComputedPath, src, dst, constraints);
+ if (finalComputedPath == null) {
+ return null;
+ }
+ }
+
+ return finalComputedPath;
+ }
+
@Override
public boolean setupPath(DeviceId src, DeviceId dst, String tunnelName, List<Constraint> constraints,
LspType lspType) {
+ return setupPath(src, dst, tunnelName, constraints, lspType, null);
+ }
+
+ //[TODO:] handle requests in queue
+ @Override
+ public boolean setupPath(DeviceId src, DeviceId dst, String tunnelName, List<Constraint> constraints,
+ LspType lspType, List<ExplicitPathInfo> explicitPathInfo) {
checkNotNull(src);
checkNotNull(dst);
checkNotNull(tunnelName);
@@ -245,7 +416,7 @@
if (srcDevice == null || dstDevice == null) {
// Device is not known.
- pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType));
+ pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType, explicitPathInfo));
return false;
}
@@ -255,7 +426,7 @@
if (srcLsrId == null || dstLsrId == null) {
// LSR id is not known.
- pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType));
+ pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType, explicitPathInfo));
return false;
}
@@ -263,7 +434,7 @@
DeviceCapability cfg = netCfgService.getConfig(DeviceId.deviceId(srcLsrId), DeviceCapability.class);
if (cfg == null) {
log.debug("No session to ingress.");
- pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType));
+ pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType, explicitPathInfo));
return false;
}
@@ -299,12 +470,30 @@
constraints = new LinkedList<>();
constraints.add(CapabilityConstraint.of(CapabilityType.valueOf(lspType.name())));
}
+ Set<Path> computedPathSet = Sets.newLinkedHashSet();
- Set<Path> computedPathSet = computePath(src, dst, constraints);
+ if (explicitPathInfo != null && !explicitPathInfo.isEmpty()) {
+ List<Path> finalComputedPath = computeExplicitPath(explicitPathInfo, src, dst, constraints);
+ if (finalComputedPath == null) {
+ return false;
+ }
+
+ pceStore.tunnelNameExplicitPathInfoMap(tunnelName, explicitPathInfo);
+ List<Link> links = new LinkedList<>();
+ double totalCost = 0;
+ // Add all partial computed paths
+ for (Path path : finalComputedPath) {
+ links.addAll(path.links());
+ totalCost = totalCost + path.cost();
+ }
+ computedPathSet.add(new DefaultPath(finalComputedPath.iterator().next().providerId(), links, totalCost));
+ } else {
+ computedPathSet = computePath(src, dst, constraints);
+ }
// NO-PATH
if (computedPathSet.isEmpty()) {
- pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType));
+ pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType, explicitPathInfo));
return false;
}
@@ -339,14 +528,15 @@
if (bwConstraintValue != 0) {
consumerId = reserveBandwidth(computedPath, bwConstraintValue, null);
if (consumerId == null) {
- pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType));
+ pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints,
+ lspType, explicitPathInfo));
return false;
}
}
TunnelId tunnelId = tunnelService.setupTunnel(appId, src, tunnel, computedPath);
if (tunnelId == null) {
- pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType));
+ pceStore.addFailedPathInfo(new PcePathInfo(src, dst, tunnelName, constraints, lspType, explicitPathInfo));
if (consumerId != null) {
resourceService.release(consumerId);
}
@@ -363,7 +553,7 @@
@Override
public boolean updatePath(TunnelId tunnelId, List<Constraint> constraints) {
checkNotNull(tunnelId);
- Set<Path> computedPathSet = null;
+ Set<Path> computedPathSet = Sets.newLinkedHashSet();
Tunnel tunnel = tunnelService.queryTunnel(tunnelId);
if (tunnel == null) {
@@ -441,8 +631,30 @@
constraints.add(costConstraint);
}
- computedPathSet = computePath(links.get(0).src().deviceId(), links.get(links.size() - 1).dst().deviceId(),
- constraints);
+ List<ExplicitPathInfo> explicitPathInfo = pceStore
+ .getTunnelNameExplicitPathInfoMap(tunnel.tunnelName().value());
+ if (explicitPathInfo != null) {
+ List<Path> finalComputedPath = computeExplicitPath(explicitPathInfo,
+ tunnel.path().src().deviceId(), tunnel.path().dst().deviceId(),
+ constraints);
+
+ if (finalComputedPath == null) {
+ return false;
+ }
+
+ List<Link> totalLinks = new LinkedList<>();
+ double totalCost = 0;
+ //Add all partial computed paths
+ for (Path path : finalComputedPath) {
+ totalLinks.addAll(path.links());
+ totalCost = totalCost + path.cost();
+ }
+ computedPathSet.add(new DefaultPath(finalComputedPath.iterator().next().providerId(),
+ totalLinks, totalCost));
+ } else {
+ computedPathSet = computePath(tunnel.path().src().deviceId(), tunnel.path().dst().deviceId(),
+ constraints);
+ }
// NO-PATH
if (computedPathSet.isEmpty()) {
@@ -636,7 +848,8 @@
// then PCInitiate (Remove)
pceStore.addFailedPathInfo(new PcePathInfo(tunnel.path().src().deviceId(), tunnel
.path().dst().deviceId(), tunnel.tunnelName().value(), constraintList,
- LspType.valueOf(tunnel.annotations().value(LSP_SIG_TYPE))));
+ LspType.valueOf(tunnel.annotations().value(LSP_SIG_TYPE)),
+ pceStore.getTunnelNameExplicitPathInfoMap(tunnel.tunnelName().value())));
//Release that tunnel calling PCInitiate
releasePath(tunnel.tunnelId());
}
@@ -832,7 +1045,9 @@
List<Link> links = tunnel.path().links();
pceStore.addFailedPathInfo(new PcePathInfo(links.get(0).src().deviceId(),
links.get(links.size() - 1).dst().deviceId(),
- tunnel.tunnelName().value(), constraints, lspType));
+ tunnel.tunnelName().value(), constraints, lspType,
+ pceStore.getTunnelNameExplicitPathInfoMap(tunnel
+ .tunnelName().value())));
}
break;
@@ -861,6 +1076,11 @@
}
}
+ @Override
+ public List<ExplicitPathInfo> explicitPathInfoList(String tunnelName) {
+ return pceStore.getTunnelNameExplicitPathInfoMap(tunnelName);
+ }
+
//Computes path from tunnel store and also path failed to setup.
private void callForOptimization() {
//Recompute the LSPs which it was delegated [LSPs stored in PCE store (failed paths)]
@@ -880,7 +1100,7 @@
*/
if (mastershipService.isLocalMaster(failedPathInfo.src())) {
if (setupPath(failedPathInfo.src(), failedPathInfo.dst(), failedPathInfo.name(),
- failedPathInfo.constraints(), failedPathInfo.lspType())) {
+ failedPathInfo.constraints(), failedPathInfo.lspType(), failedPathInfo.explicitPathInfo())) {
// If computation is success remove that path
pceStore.removeFailedPathInfo(failedPathInfo);
return true;