import org.opendaylight.controller.protocol_plugin.openflow.core.IController;
import org.opendaylight.controller.protocol_plugin.openflow.core.IMessageListener;
import org.opendaylight.controller.protocol_plugin.openflow.core.ISwitch;
+import org.opendaylight.controller.sal.connection.IPluginOutConnectionService;
import org.opendaylight.controller.sal.core.ContainerFlow;
import org.opendaylight.controller.sal.core.IContainerListener;
import org.opendaylight.controller.sal.core.Node;
private Map<String, Set<NodeConnector>> containerToNc;
private ConcurrentMap<Long, Map<Integer, Long>> xid2rid;
private int barrierMessagePriorCount = getBarrierMessagePriorCount();
+ private IPluginOutConnectionService connectionOutService;
public FlowProgrammerService() {
controller = null;
}
}
+ void setIPluginOutConnectionService(IPluginOutConnectionService s) {
+ connectionOutService = s;
+ }
+
+ void unsetIPluginOutConnectionService(IPluginOutConnectionService s) {
+ if (connectionOutService == s) {
+ connectionOutService = null;
+ }
+ }
+
public void setFlowProgrammerNotifier(Map<String, ?> props,
IFlowProgrammerNotifier s) {
if (props == null || props.get("containerName") == null) {
/**
* Function called by the dependency manager when all the required
* dependencies are satisfied
- *
+ *
*/
void init() {
this.controller.addMessageListener(OFType.FLOW_REMOVED, this);
* Function called by the dependency manager when at least one dependency
* become unsatisfied or when the component is shutting down because for
* example bundle is being stopped.
- *
+ *
*/
void destroy() {
}
/**
* Function called by dependency manager after "init ()" is called and after
* the services provided by the class are registered in the service registry
- *
+ *
*/
void start() {
}
* Function called by the dependency manager before the services exported by
* the component are unregistered, this will be followed by a "destroy ()"
* calls
- *
+ *
*/
void stop() {
}
@Override
public Status addFlow(Node node, Flow flow) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Add flow will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
return addFlowInternal(node, flow, 0);
}
@Override
public Status modifyFlow(Node node, Flow oldFlow, Flow newFlow) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Modify flow will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
return modifyFlowInternal(node, oldFlow, newFlow, 0);
}
@Override
public Status removeFlow(Node node, Flow flow) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Remove flow will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
return removeFlowInternal(node, flow, 0);
}
@Override
public Status addFlowAsync(Node node, Flow flow, long rid) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Add flow Async will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
return addFlowInternal(node, flow, rid);
}
@Override
public Status modifyFlowAsync(Node node, Flow oldFlow, Flow newFlow,
long rid) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Modify flow async will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
return modifyFlowInternal(node, oldFlow, newFlow, rid);
}
@Override
public Status removeFlowAsync(Node node, Flow flow, long rid) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Remove flow async will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
return removeFlowInternal(node, flow, rid);
}
* will be inserted automatically to synchronize the
* progression.
*/
- result = asyncMsgSend(node, sw, msg, rid);
+ result = asyncMsgSend(node, sw, msg, rid);
}
return getStatusInternal(result, action, rid);
} else {
@Override
public Status removeAllFlows(Node node) {
- return new Status(StatusCode.SUCCESS, null);
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Remove all flows will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
+ return new Status(StatusCode.SUCCESS);
}
private String errorString(String phase, String action, String cause) {
if ((rid == null) || (rid == 0)) {
return;
}
-
+
/*
* Notifies the caller that error has been reported for a previous flow
* programming request
}
@Override
- public Status sendBarrierMessage(Node node) {
+ public Status syncSendBarrierMessage(Node node) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("Sync Send Barrier will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
if (!node.getType().equals(NodeIDType.OPENFLOW)) {
return new Status(StatusCode.NOTACCEPTABLE,
"The node does not support Barrier message.");
long swid = (Long) node.getID();
ISwitch sw = controller.getSwitch(swid);
if (sw != null) {
- sw.sendBarrierMessage();
+ sw.syncSendBarrierMessage();
clearXid2Rid(swid);
- return (new Status(StatusCode.SUCCESS, null));
+ return (new Status(StatusCode.SUCCESS));
} else {
return new Status(StatusCode.GONE,
"The node does not have a valid Switch reference.");
return new Status(StatusCode.INTERNALERROR,
"Failed to send Barrier message.");
}
-
+
+ @Override
+ public Status asyncSendBarrierMessage(Node node) {
+ if (!connectionOutService.isLocal(node)) {
+ log.debug("ASync Send Barrier will not be processed in a non-master controller for node " + node);
+ return new Status(StatusCode.NOTALLOWED, "This is not the master controller for " + node);
+ }
+
+ if (!node.getType().equals(NodeIDType.OPENFLOW)) {
+ return new Status(StatusCode.NOTACCEPTABLE,
+ "The node does not support Barrier message.");
+ }
+
+ if (controller != null) {
+ long swid = (Long) node.getID();
+ ISwitch sw = controller.getSwitch(swid);
+ if (sw != null) {
+ sw.asyncSendBarrierMessage();
+ clearXid2Rid(swid);
+ return (new Status(StatusCode.SUCCESS));
+ } else {
+ return new Status(StatusCode.GONE,
+ "The node does not have a valid Switch reference.");
+ }
+ }
+ return new Status(StatusCode.INTERNALERROR,
+ "Failed to send Barrier message.");
+ }
+
/**
* This method sends the message asynchronously until the number of messages
* sent reaches a threshold. Then a Barrier message is sent automatically
* for sync purpose. An unique Request ID associated with the message is
* passed down by the caller. The Request ID will be returned to the caller
* when an error message is received from the switch.
- *
+ *
* @param node
* The node
* @param msg
xid = sw.asyncSend(msg);
addXid2Rid(swid, xid, rid);
-
+
Map<Integer, Long> swxid2rid = this.xid2rid.get(swid);
if (swxid2rid == null) {
return result;
}
-
+
int size = swxid2rid.size();
if (size % barrierMessagePriorCount == 0) {
- result = sendBarrierMessage(node);
+ result = asyncSendBarrierMessage(node);
}
-
+
return result;
}
-
+
/**
* A number of async messages are sent followed by a synchronous Barrier
* message. This method returns the maximum async messages that can be sent
* before the Barrier message.
- *
+ *
* @return The max count of async messages sent prior to Barrier message
*/
private int getBarrierMessagePriorCount() {
return rv;
}
-
+
/**
* This method returns the message Request ID previously assigned by the
* caller for a given OF message xid
- *
+ *
* @param swid
* The switch id
* @param xid
/**
* This method returns a copy of outstanding xid to rid mappings.for a given
* switch
- *
+ *
* @param swid
* The switch id
* @return a copy of xid2rid mappings
*/
public Map<Integer, Long> getSwXid2Rid(long swid) {
Map<Integer, Long> swxid2rid = this.xid2rid.get(swid);
-
+
if (swxid2rid != null) {
return new HashMap<Integer, Long>(swxid2rid);
} else {
/**
* Adds xid to rid mapping to the local DB
- *
+ *
* @param swid
* The switch id
* @param xid
/**
* When an Error message is received, this method will be invoked to remove
* the offending xid from the local DB.
- *
+ *
* @param swid
* The switch id
* @param xid
/**
* Convert various result into Status
- *
+ *
* @param result
* The returned result from previous action
* @param action
"send", action, "Internal Error"));
}
}
-
+
/**
* When a Barrier reply is received, this method will be invoked to clear
* the local DB
- *
+ *
* @param swid
* The switch id
*/
@Override
public void updateNode(Node node, UpdateType type, Set<Property> props) {
long swid = (Long)node.getID();
-
+
switch (type) {
case ADDED:
Map<Integer, Long> swxid2rid = new HashMap<Integer, Long>();
ci.println("Please enter a valid node id");
return;
}
-
+
long sid;
try {
sid = HexEncode.stringToLong(st);
ci.println("Please enter a valid node id");
return;
}
-
+
Map<Integer, Long> swxid2rid = this.xid2rid.get(sid);
if (swxid2rid == null) {
ci.println("The node id entered does not exist");
}
ci.println("xid rid");
-
+
Set<Integer> xidSet = swxid2rid.keySet();
if (xidSet == null) {
return;