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Marc De Leenheer
Committed by Gerrit Code Review
723f5531 1 parent a3d67cd8

Allow static lambda and port mappings (ONOS-2067). 

Fix bug in device resource store.

Change-Id: I219a4de9ec803b3d142a6b957868f64dc599fa24
Inline Side-by-side
Showing 5 changed files with 172 additions and 31 deletions
......@@ -85,6 +85,10 @@ public final class AnnotationKeys {
*/
public static final String ROUTER_ID = "routerId";
public static final String STATIC_LAMBDA = "staticLambda";
public static final String STATIC_PORT = "staticPort";
/**
* Returns the value annotated object for the specified annotation key.
* The annotated value is expected to be String that can be parsed as double.
......
......@@ -23,8 +23,8 @@ import org.apache.felix.scr.annotations.Reference;
import org.apache.felix.scr.annotations.ReferenceCardinality;
import org.onosproject.core.ApplicationId;
import org.onosproject.core.CoreService;
import org.onosproject.net.AnnotationKeys;
import org.onosproject.net.ConnectPoint;
import org.onosproject.net.DeviceId;
import org.onosproject.net.OchPort;
import org.onosproject.net.OduCltPort;
import org.onosproject.net.OduSignalType;
......@@ -138,7 +138,7 @@ public class OpticalCircuitIntentCompiler implements IntentCompiler<OpticalCircu
.signalType(OduSignalType.ODU4)
.bidirectional(intent.isBidirectional())
.build();
intents.add(connIntent);
intentService.submit(connIntent);
}
// Create optical circuit intent
......@@ -155,7 +155,7 @@ public class OpticalCircuitIntentCompiler implements IntentCompiler<OpticalCircu
circuitIntent = new FlowRuleIntent(appId, rules, intent.resources());
// Save circuit to connectivity intent mapping
deviceResourceService.requestMapping(connIntent.id(), circuitIntent.id());
deviceResourceService.requestMapping(connIntent.id(), intent.id());
intents.add(circuitIntent);
return intents;
......@@ -163,16 +163,43 @@ public class OpticalCircuitIntentCompiler implements IntentCompiler<OpticalCircu
/**
* Checks if current allocations on given resource can satisfy request.
* If the resource is null, return true.
*
* @param request
* @param resource
* @return
*/
private boolean isAvailable(Intent request, IntentId resource) {
if (resource == null) {
return true;
}
Set<IntentId> mapping = deviceResourceService.getMapping(resource);
// TODO: hardcoded 10 x 10G
return mapping.size() < 10;
if (mapping == null) {
return true;
}
// TODO: hardcoded 80% utilization
return mapping.size() < 8;
}
private boolean isAllowed(OpticalCircuitIntent circuitIntent, OpticalConnectivityIntent connIntent) {
ConnectPoint srcStaticPort = staticPort(circuitIntent.getSrc());
if (srcStaticPort != null) {
if (!srcStaticPort.equals(connIntent.getSrc())) {
return false;
}
}
ConnectPoint dstStaticPort = staticPort(circuitIntent.getDst());
if (dstStaticPort != null) {
if (!dstStaticPort.equals(connIntent.getDst())) {
return false;
}
}
return true;
}
/**
......@@ -191,7 +218,13 @@ public class OpticalCircuitIntentCompiler implements IntentCompiler<OpticalCircu
ConnectPoint src = circuitIntent.getSrc();
ConnectPoint dst = circuitIntent.getDst();
if (!src.equals(connIntent.getSrc()) && !dst.equals(connIntent.getDst())) {
// Ignore if the intents don't have identical src and dst devices
if (!src.deviceId().equals(connIntent.getSrc().deviceId()) &&
!dst.deviceId().equals(connIntent.getDst().deviceId())) {
continue;
}
if (!isAllowed(circuitIntent, connIntent)) {
continue;
}
......@@ -203,21 +236,44 @@ public class OpticalCircuitIntentCompiler implements IntentCompiler<OpticalCircu
return null;
}
private OchPort findAvailableOchPort(DeviceId deviceId, OpticalCircuitIntent circuitIntent) {
List<Port> ports = deviceService.getPorts(deviceId);
private ConnectPoint staticPort(ConnectPoint connectPoint) {
Port port = deviceService.getPort(connectPoint.deviceId(), connectPoint.port());
String staticPort = port.annotations().value(AnnotationKeys.STATIC_PORT);
// FIXME: need a better way to match the port
if (staticPort != null) {
for (Port p : deviceService.getPorts(connectPoint.deviceId())) {
if (staticPort.equals(p.number().name())) {
return new ConnectPoint(p.element().id(), p.number());
}
}
}
return null;
}
private OchPort findAvailableOchPort(ConnectPoint oduPort, OpticalCircuitIntent circuitIntent) {
// First see if the port mappings are constrained
ConnectPoint ochCP = staticPort(oduPort);
if (ochCP != null) {
OchPort ochPort = (OchPort) deviceService.getPort(ochCP.deviceId(), ochCP.port());
IntentId intentId = deviceResourceService.getAllocations(ochPort);
if (isAvailable(circuitIntent, intentId)) {
return ochPort;
}
}
// No port constraints, so find any port that works
List<Port> ports = deviceService.getPorts(oduPort.deviceId());
for (Port port : ports) {
if (!(port instanceof OchPort)) {
continue;
}
// Port is not used
IntentId intentId = deviceResourceService.getAllocations(port);
if (intentId == null) {
return (OchPort) port;
}
// Port is used but has free resources
if (isAvailable(circuitIntent, intentId)) {
return (OchPort) port;
}
......@@ -226,16 +282,14 @@ public class OpticalCircuitIntentCompiler implements IntentCompiler<OpticalCircu
return null;
}
// TODO: Add constraints for OduClt to OCh port mappings
// E.g., ports need to belong to same line card.
private Pair<OchPort, OchPort> findPorts(OpticalCircuitIntent intent) {
OchPort srcPort = findAvailableOchPort(intent.getSrc().deviceId(), intent);
OchPort srcPort = findAvailableOchPort(intent.getSrc(), intent);
if (srcPort == null) {
return null;
}
OchPort dstPort = findAvailableOchPort(intent.getDst().deviceId(), intent);
OchPort dstPort = findAvailableOchPort(intent.getDst(), intent);
if (dstPort == null) {
return null;
}
......
......@@ -26,8 +26,10 @@ import org.apache.felix.scr.annotations.Deactivate;
import org.apache.felix.scr.annotations.Reference;
import org.apache.felix.scr.annotations.ReferenceCardinality;
import org.onlab.util.Frequency;
import org.onosproject.net.AnnotationKeys;
import org.onosproject.net.ChannelSpacing;
import org.onosproject.net.ConnectPoint;
import org.onosproject.net.DeviceId;
import org.onosproject.net.GridType;
import org.onosproject.net.Link;
import org.onosproject.net.OchPort;
......@@ -123,17 +125,26 @@ public class OpticalConnectivityIntentCompiler implements IntentCompiler<Optical
// Use first path that can be successfully reserved
for (Path path : paths) {
// Static or dynamic lambda allocation
LambdaResourceAllocation lambdaAlloc;
String staticLambda = srcPort.annotations().value(AnnotationKeys.STATIC_LAMBDA);
if (staticLambda != null) {
// FIXME: need to actually reserve the lambda
lambdaAlloc = new LambdaResourceAllocation(LambdaResource.valueOf(Integer.parseInt(staticLambda)));
} else {
// Request and reserve lambda on path
LinkResourceAllocations linkAllocs = assignWavelength(intent, path);
if (linkAllocs == null) {
continue;
}
lambdaAlloc = getWavelength(path, linkAllocs);
}
OmsPort omsPort = (OmsPort) deviceService.getPort(path.src().deviceId(), path.src().port());
// Create installable optical path intent
LambdaResourceAllocation lambdaAlloc = getWavelength(path, linkAllocs);
OchSignal ochSignal = getOchSignal(lambdaAlloc, omsPort.minFrequency(), omsPort.grid());
OchSignal ochSignal = getOchSignal(lambdaAlloc, omsPort.maxFrequency(), omsPort.grid());
// Only support fixed grid for now
OchSignalType signalType = OchSignalType.FIXED_GRID;
......@@ -188,7 +199,10 @@ public class OpticalConnectivityIntentCompiler implements IntentCompiler<Optical
LinkResourceAllocations allocations = linkResourceService.requestResources(request.build());
checkWavelengthContinuity(allocations, path);
if (!checkWavelengthContinuity(allocations, path)) {
linkResourceService.releaseResources(allocations);
return null;
}
return allocations;
}
......@@ -229,15 +243,15 @@ public class OpticalConnectivityIntentCompiler implements IntentCompiler<Optical
* Convert lambda resource allocation in OCh signal.
*
* @param alloc lambda resource allocation
* @param minFrequency minimum frequency
* @param maxFrequency maximum frequency
* @param grid grid spacing frequency
* @return OCh signal
*/
private OchSignal getOchSignal(LambdaResourceAllocation alloc, Frequency minFrequency, Frequency grid) {
private OchSignal getOchSignal(LambdaResourceAllocation alloc, Frequency maxFrequency, Frequency grid) {
int channel = alloc.lambda().toInt();
// Calculate center frequency
Frequency centerFrequency = minFrequency.add(grid.multiply(channel)).add(grid.floorDivision(2));
Frequency centerFrequency = maxFrequency.subtract(grid.multiply(channel - 1));
// Build OCh signal object
int spacingMultiplier = (int) (centerFrequency.subtract(OchSignal.CENTER_FREQUENCY).asHz() / grid.asHz());
......@@ -248,6 +262,23 @@ public class OpticalConnectivityIntentCompiler implements IntentCompiler<Optical
return ochSignal;
}
private ConnectPoint staticPort(ConnectPoint connectPoint) {
Port port = deviceService.getPort(connectPoint.deviceId(), connectPoint.port());
String staticPort = port.annotations().value(AnnotationKeys.STATIC_PORT);
// FIXME: need a better way to match the port
if (staticPort != null) {
for (Port p : deviceService.getPorts(connectPoint.deviceId())) {
if (staticPort.equals(p.number().name())) {
return new ConnectPoint(p.element().id(), p.number());
}
}
}
return null;
}
/**
* Calculates optical paths in WDM topology.
*
......@@ -260,13 +291,29 @@ public class OpticalConnectivityIntentCompiler implements IntentCompiler<Optical
LinkWeight weight = new LinkWeight() {
@Override
public double weight(TopologyEdge edge) {
// Disregard inactive or non-optical links
if (edge.link().state() == Link.State.INACTIVE) {
return -1;
}
if (edge.link().type() != Link.Type.OPTICAL) {
return -1;
}
//return edge.link().annotations().value("optical.type").equals("WDM") ? +1 : -1;
// Adhere to static port mappings
DeviceId srcDeviceId = edge.link().src().deviceId();
if (srcDeviceId.equals(intent.getSrc().deviceId())) {
ConnectPoint srcStaticPort = staticPort(intent.getSrc());
if (srcStaticPort != null) {
return srcStaticPort.equals(edge.link().src()) ? 1 : -1;
}
}
DeviceId dstDeviceId = edge.link().dst().deviceId();
if (dstDeviceId.equals(intent.getDst().deviceId())) {
ConnectPoint dstStaticPort = staticPort(intent.getDst());
if (dstStaticPort != null) {
return dstStaticPort.equals(edge.link().dst()) ? 1 : -1;
}
}
return 1;
}
};
......
......@@ -165,7 +165,13 @@ public class ConsistentDeviceResourceStore implements DeviceResourceStore {
@Override
public Set<IntentId> getMapping(IntentId intentId) {
return intentMapping.get(intentId).value();
Versioned<Set<IntentId>> result = intentMapping.get(intentId);
if (result == null) {
return result.value();
}
return null;
}
@Override
......@@ -174,10 +180,11 @@ public class ConsistentDeviceResourceStore implements DeviceResourceStore {
if (versionedIntents == null) {
intentMapping.put(keyIntentId, Collections.singleton(valIntentId));
Set<IntentId> newSet = new HashSet<>();
newSet.add(valIntentId);
intentMapping.put(keyIntentId, newSet);
} else {
versionedIntents.value().add(valIntentId);
intentMapping.put(keyIntentId, versionedIntents.value());
}
return true;
......
......@@ -214,15 +214,28 @@ class ConfigProvider implements DeviceProvider, LinkProvider, HostProvider {
private void parsePorts(DeviceId deviceId, JsonNode nodes) {
List<PortDescription> ports = new ArrayList<>();
for (JsonNode node : nodes) {
ports.add(parsePort(node));
ports.add(parsePort(deviceId, node));
}
deviceProviderService.updatePorts(deviceId, ports);
}
// Parses the given node with port information.
private PortDescription parsePort(JsonNode node) {
private PortDescription parsePort(DeviceId deviceId, JsonNode node) {
Port.Type type = Port.Type.valueOf(node.path("type").asText("COPPER"));
PortNumber port = portNumber(node.path("port").asLong(0));
// TL1-based ports have a name
PortNumber port = null;
if (node.has("name")) {
for (Port p : deviceService.getPorts(deviceId)) {
if (p.number().name().equals(node.get("name").asText())) {
port = p.number();
break;
}
}
} else {
port = portNumber(node.path("port").asLong(0));
}
checkNotNull(port);
String portName = Strings.emptyToNull(port.name());
SparseAnnotations annotations = null;
if (portName != null) {
......@@ -239,6 +252,22 @@ class ConfigProvider implements DeviceProvider, LinkProvider, HostProvider {
return new OmsPortDescription(port, node.path("enabled").asBoolean(true),
CENTER, CENTER.add(TOTAL),
Frequency.ofGHz(100), annotations);
case ODUCLT:
annotations = annotations(node.get("annotations"));
OduCltPort oduCltPort = (OduCltPort) deviceService.getPort(deviceId, port);
return new OduCltPortDescription(port, node.path("enabled").asBoolean(true),
oduCltPort.signalType(), annotations);
case OCH:
annotations = annotations(node.get("annotations"));
OchPort ochPort = (OchPort) deviceService.getPort(deviceId, port);
return new OchPortDescription(port, node.path("enabled").asBoolean(true),
ochPort.signalType(), ochPort.isTunable(),
ochPort.lambda(), annotations);
case OMS:
annotations = annotations(node.get("annotations"));
OmsPort omsPort = (OmsPort) deviceService.getPort(deviceId, port);
return new OmsPortDescription(port, node.path("enabled").asBoolean(true),
omsPort.minFrequency(), omsPort.maxFrequency(), omsPort.grid(), annotations);
default:
log.warn("{}: Unsupported Port Type");
}
......