import java.util.EnumSet;
import java.util.HashMap;
import java.util.HashSet;
-import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;
+import java.util.concurrent.BlockingQueue;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
+import java.util.concurrent.LinkedBlockingQueue;
import org.eclipse.osgi.framework.console.CommandInterpreter;
import org.eclipse.osgi.framework.console.CommandProvider;
* the network. It also maintains the central repository of all the forwarding
* rules installed on the network nodes.
*/
-public class ForwardingRulesManagerImpl implements IForwardingRulesManager,
- PortGroupChangeListener, IContainerListener, ISwitchManagerAware,
- IConfigurationContainerAware, IInventoryListener, IObjectReader,
- ICacheUpdateAware<Long, String>, CommandProvider,
- IFlowProgrammerListener {
+public class ForwardingRulesManagerImpl implements IForwardingRulesManager, PortGroupChangeListener,
+ IContainerListener, ISwitchManagerAware, IConfigurationContainerAware, IInventoryListener, IObjectReader,
+ ICacheUpdateAware<Long, String>, CommandProvider, IFlowProgrammerListener {
private static final String SAVE = "Save";
private static final String NODEDOWN = "Node is Down";
- private static final Logger log = LoggerFactory
- .getLogger(ForwardingRulesManagerImpl.class);
+ private static final String SUCCESS = StatusCode.SUCCESS.toString();
+ private static final Logger log = LoggerFactory.getLogger(ForwardingRulesManagerImpl.class);
private Map<Long, String> flowsSaveEvent;
private String frmFileName;
private String portGroupFileName;
private ConcurrentMap<String, PortGroupConfig> portGroupConfigs;
private ConcurrentMap<PortGroupConfig, Map<Node, PortGroup>> portGroupData;
private ConcurrentMap<String, Object> TSPolicies;
- private boolean inContainerMode; // being used by default instance only
+ private boolean inContainerMode; // being used by global instance only
+ private boolean stopping;
+
/*
- * Flow database. It's the software view of what was installed on the
- * switch. It is indexed by node. For convenience a version indexed by group
- * name is also maintained. The core element is a class which contains the
- * flow entry pushed by the functional modules and the respective container
- * flow merged version. In absence of container flows, the two flow entries
- * are the same.
+ * Flow database. It's the software view of what was requested to install
+ * and what is installed on the switch. It is indexed by the entry itself.
+ * The entry's hashcode resumes the network node index, the flow's priority
+ * and the flow's match. The value element is a class which contains the
+ * flow entry pushed by the applications modules and the respective
+ * container flow merged version. In absence of container flows, the two
+ * flow entries are the same.
*/
- private ConcurrentMap<Node, Set<FlowEntryInstall>> nodeFlows;
- private ConcurrentMap<String, Set<FlowEntryInstall>> groupFlows;
+ private ConcurrentMap<FlowEntry, FlowEntry> originalSwView;
+ private ConcurrentMap<FlowEntryInstall, FlowEntryInstall> installedSwView;
+ /*
+ * Per node and per group indexing
+ */
+ private ConcurrentMap<Node, List<FlowEntryInstall>> nodeFlows;
+ private ConcurrentMap<String, List<FlowEntryInstall>> groupFlows;
+
/*
* Inactive flow list. This is for the global instance of FRM It will
* contain all the flow entries which were installed on the global container
private IFlowProgrammerService programmer;
private IClusterContainerServices clusterContainerService = null;
private ISwitchManager switchManager;
+ private Thread frmEventHandler;
+ protected BlockingQueue<FRMEvent> pendingEvents;
/**
* Adds a flow entry onto the network node It runs various validity checks
* and derive the final container flows merged entries that will be
* attempted to be installed
- *
+ *
* @param flowEntry
* the original flow entry application requested to add
* @param async
* the flag indicating if this is a asynchronous request
- * @return the status of this request. In case of asynchronous call, it
- * will contain the unique id assigned to this request
+ * @return the status of this request. In case of asynchronous call, it will
+ * contain the unique id assigned to this request
*/
private Status addEntry(FlowEntry flowEntry, boolean async) {
-
+
// Sanity Check
if (flowEntry == null || flowEntry.getNode() == null) {
String msg = "Invalid FlowEntry";
* Derive the container flow merged entries to install In presence of N
* container flows, we may end up with N different entries to install...
*/
- List<FlowEntryInstall> toInstallList = deriveInstallEntries(
- flowEntry.clone(), container.getContainerFlows());
+ List<FlowEntryInstall> toInstallList = deriveInstallEntries(flowEntry.clone(), container.getContainerFlows());
// Container Flow conflict Check
if (toInstallList.isEmpty()) {
for (FlowEntryInstall entry : toInstallList) {
// Conflict Check: Verify new entry would not overwrite existing
// ones
- if (findMatch(entry.getInstall(), false) != null) {
- log.warn("Operation Rejected: A flow with same match "
- + "and priority exists on the target node");
+ if (this.installedSwView.containsKey(entry)) {
+ log.warn("Operation Rejected: A flow with same match and priority exists on the target node");
log.trace("Aborting to install {}", entry);
continue;
}
// Declare failure if all the container flow merged entries clash with
// existing entries
if (toInstallSafe.size() == 0) {
- String msg = "A flow with same match and priority exists "
- + "on the target node";
+ String msg = "A flow with same match and priority exists on the target node";
String logMsg = msg + ": {}";
log.warn(logMsg, flowEntry);
return new Status(StatusCode.CONFLICT, msg);
if (ret.isSuccess()) {
oneSucceded = true;
/*
- * The first successful status response will be returned
- * For the asynchronous call, we can discard the container flow
- * complication for now and assume we will always deal with
- * one flow only per request
+ * The first successful status response will be returned For the
+ * asynchronous call, we can discard the container flow
+ * complication for now and assume we will always deal with one
+ * flow only per request
*/
- succeded = ret;
+ succeded = ret;
} else {
error = ret;
- log.warn("Failed to install the entry: {}. The failure is: {}",
- installEntry, ret.getDescription());
+ log.warn("Failed to install the entry: {}. The failure is: {}", installEntry, ret.getDescription());
}
}
* flow entry is congruent with all the N container flows, then the output
* install entry list will contain N entries. If the output list is empty,
* it means the passed flow entry conflicts with all the container flows.
- *
+ *
* @param cFlowList
* The list of container flows
* @return the list of container flow merged entries good to be installed on
* this container
*/
- private List<FlowEntryInstall> deriveInstallEntries(FlowEntry request,
- List<ContainerFlow> cFlowList) {
- List<FlowEntryInstall> toInstallList = new ArrayList<FlowEntryInstall>(
- 1);
+ private List<FlowEntryInstall> deriveInstallEntries(FlowEntry request, List<ContainerFlow> cFlowList) {
+ List<FlowEntryInstall> toInstallList = new ArrayList<FlowEntryInstall>(1);
- if (container.getContainerFlows() == null
- || container.getContainerFlows().isEmpty()) {
+ if (container.getContainerFlows() == null || container.getContainerFlows().isEmpty()) {
// No container flows => entry good to be installed unchanged
toInstallList.add(new FlowEntryInstall(request.clone(), null));
} else {
// created
for (ContainerFlow cFlow : container.getContainerFlows()) {
if (cFlow.allowsFlow(request.getFlow())) {
- toInstallList.add(new FlowEntryInstall(request.clone(),
- cFlow));
+ toInstallList.add(new FlowEntryInstall(request.clone(), cFlow));
}
}
}
/**
* Modify a flow entry with a new one It runs various validity check and
* derive the final container flows merged flow entries to work with
- *
+ *
* @param currentFlowEntry
* @param newFlowEntry
* @param async
* the flag indicating if this is a asynchronous request
- * @return the status of this request. In case of asynchronous call, it
- * will contain the unique id assigned to this request
+ * @return the status of this request. In case of asynchronous call, it will
+ * contain the unique id assigned to this request
*/
- private Status modifyEntry(FlowEntry currentFlowEntry,
- FlowEntry newFlowEntry, boolean async) {
-
+ private Status modifyEntry(FlowEntry currentFlowEntry, FlowEntry newFlowEntry, boolean async) {
Status retExt;
// Sanity checks
- if (currentFlowEntry == null || currentFlowEntry.getNode() == null
- || newFlowEntry == null || newFlowEntry.getNode() == null) {
+ if (currentFlowEntry == null || currentFlowEntry.getNode() == null || newFlowEntry == null
+ || newFlowEntry.getNode() == null) {
String msg = "Modify: Invalid FlowEntry";
String logMsg = msg + ": {} or {}";
log.warn(logMsg, currentFlowEntry, newFlowEntry);
return new Status(StatusCode.NOTACCEPTABLE, msg);
}
if (!currentFlowEntry.getNode().equals(newFlowEntry.getNode())
- || !currentFlowEntry.getFlowName().equals(
- newFlowEntry.getFlowName())) {
+ || !currentFlowEntry.getFlowName().equals(newFlowEntry.getFlowName())) {
String msg = "Modify: Incompatible Flow Entries";
String logMsg = msg + ": {} and {}";
log.warn(logMsg, currentFlowEntry, newFlowEntry);
}
// Equality Check
- if (currentFlowEntry.equals(newFlowEntry)) {
+ if (currentFlowEntry.getFlow().equals(newFlowEntry.getFlow())) {
String msg = "Modify skipped as flows are the same";
String logMsg = msg + ": {} and {}";
log.debug(logMsg, currentFlowEntry, newFlowEntry);
return new Status(StatusCode.SUCCESS, msg);
}
- // Conflict Check: Verify the new entry would not conflict with another
- // existing one
- // This is a loose check on the previous original flow entry requests.
- // No check
- // on the container flow merged flow entries (if any) yet
- FlowEntryInstall sameMatchOriginalEntry = findMatch(newFlowEntry, true);
- if (sameMatchOriginalEntry != null
- && !sameMatchOriginalEntry.getOriginal().equals(
- currentFlowEntry)) {
- String msg = "Operation Rejected: Another flow with same match "
- + "and priority exists on the target node";
+ /*
+ * Conflict Check: Verify the new entry would not conflict with an
+ * existing one. This is a loose check on the previous original flow
+ * entry requests. No check on the container flow merged flow entries
+ * (if any) yet
+ */
+ FlowEntry sameMatchOriginalEntry = originalSwView.get(newFlowEntry);
+ if (sameMatchOriginalEntry != null && !sameMatchOriginalEntry.equals(currentFlowEntry)) {
+ String msg = "Operation Rejected: Another flow with same match and priority exists on the target node";
String logMsg = msg + ": {}";
log.warn(logMsg, currentFlowEntry);
return new Status(StatusCode.CONFLICT, msg);
}
// Derive the installed and toInstall entries
- List<FlowEntryInstall> installedList = deriveInstallEntries(
- currentFlowEntry.clone(), container.getContainerFlows());
- List<FlowEntryInstall> toInstallList = deriveInstallEntries(
- newFlowEntry.clone(), container.getContainerFlows());
+ List<FlowEntryInstall> installedList = deriveInstallEntries(currentFlowEntry.clone(),
+ container.getContainerFlows());
+ List<FlowEntryInstall> toInstallList = deriveInstallEntries(newFlowEntry.clone(), container.getContainerFlows());
if (toInstallList.isEmpty()) {
- String msg = "Modify Operation Rejected: The new entry "
- + "conflicts with all the container flows";
+ String msg = "Modify Operation Rejected: The new entry conflicts with all the container flows";
String logMsg = msg + ": {}";
log.warn(logMsg, newFlowEntry);
log.warn(msg);
* This is only possible when the new entry and current entry have
* different match. In this scenario the modification would ultimately
* be handled as a remove and add operations in the protocol plugin.
- *
+ *
* Also, if any of the new flow entries would clash with an existing
* one, we cannot proceed with the modify operation, because it would
* fail for some entries and leave stale entries on the network node.
* Modify path can be taken only if it can be performed completely, for
* all entries.
- *
+ *
* So, for the above two cases, to simplify, let's decouple the modify
* in: 1) remove current entries 2) install new entries
*/
}
List<FlowEntryInstall> toInstallSafe = new ArrayList<FlowEntryInstall>();
for (FlowEntryInstall installEntry : toInstallList) {
- // Conflict Check: Verify the new entry would not overwrite another
- // existing one
- FlowEntryInstall sameMatchEntry = findMatch(
- installEntry.getInstall(), false);
- if (sameMatchEntry != null
- && !sameMatchEntry.getOriginal().equals(currentFlowEntry)) {
- log.info("Modify: new container flow merged flow entry "
- + "clashes with existing flow");
+ /*
+ * Conflict Check: Verify the new entry would not overwrite another
+ * existing one
+ */
+ FlowEntryInstall sameMatchEntry = installedSwView.get(installEntry);
+ if (sameMatchEntry != null && !sameMatchEntry.getOriginal().equals(currentFlowEntry)) {
+ log.info("Modify: new container flow merged flow entry clashes with existing flow");
decouple = true;
} else {
toInstallSafe.add(installEntry);
* (and might be wrong) that the same container flows that were
* satisfied by the current entries are the same that are satisfied
* by the new entries. Let's take the risk for now.
- *
+ *
* Note: modification has to be complete. If any entry modification
* fails, we need to stop, restore the already modified entries, and
* declare failure.
int size = toInstallList.size();
while (i < size) {
// Modify and update database
- retModify = modifyEntryInternal(installedList.get(i),
- toInstallList.get(i), async);
+ retModify = modifyEntryInternal(installedList.get(i), toInstallList.get(i), async);
if (retModify.isSuccess()) {
i++;
} else {
}
// Check if uncompleted modify
if (i < size) {
- log.warn("Unable to perform a complete modify for all "
- + "the container flows merged entries");
+ log.warn("Unable to perform a complete modify for all the container flows merged entries");
// Restore original entries
int j = 0;
while (j < i) {
log.info("Attempting to restore initial entries");
- retExt = modifyEntryInternal(toInstallList.get(i),
- installedList.get(i), async);
+ retExt = modifyEntryInternal(toInstallList.get(i), installedList.get(i), async);
if (retExt.isSuccess()) {
j++;
} else {
succeeded = retModify;
}
/*
- * The first successful status response will be returned.
- * For the asynchronous call, we can discard the container flow
- * complication for now and assume we will always deal with
- * one flow only per request
+ * The first successful status response will be returned. For the
+ * asynchronous call, we can discard the container flow complication for
+ * now and assume we will always deal with one flow only per request
*/
return succeeded;
}
* This is the function that modifies the final container flows merged
* entries on the network node and update the database. It expects that all
* the validity checks are passed
- *
+ *
* @param currentEntries
* @param newEntries
* @param async
* the flag indicating if this is a asynchronous request
- * @return the status of this request. In case of asynchronous call, it
- * will contain the unique id assigned to this request
+ * @return the status of this request. In case of asynchronous call, it will
+ * contain the unique id assigned to this request
*/
- private Status modifyEntryInternal(FlowEntryInstall currentEntries,
- FlowEntryInstall newEntries, boolean async) {
+ private Status modifyEntryInternal(FlowEntryInstall currentEntries, FlowEntryInstall newEntries, boolean async) {
// Modify the flow on the network node
- Status status = (async)?
- programmer.modifyFlowAsync(currentEntries.getNode(),
- currentEntries.getInstall().getFlow(), newEntries.getInstall()
- .getFlow()) :
- programmer.modifyFlow(currentEntries.getNode(),
- currentEntries.getInstall().getFlow(), newEntries.getInstall()
- .getFlow());
-
+ Status status = (async) ? programmer.modifyFlowAsync(currentEntries.getNode(), currentEntries.getInstall()
+ .getFlow(), newEntries.getInstall().getFlow()) : programmer.modifyFlow(currentEntries.getNode(),
+ currentEntries.getInstall().getFlow(), newEntries.getInstall().getFlow());
if (!status.isSuccess()) {
- log.warn(
- "SDN Plugin failed to program the flow: {}. The failure is: {}",
- newEntries.getInstall(), status.getDescription());
+ log.warn("SDN Plugin failed to program the flow: {}. The failure is: {}", newEntries.getInstall(),
+ status.getDescription());
return status;
}
- log.trace("Modified {} => {}", currentEntries.getInstall(),
- newEntries.getInstall());
+ log.trace("Modified {} => {}", currentEntries.getInstall(), newEntries.getInstall());
// Update DB
newEntries.setRequestId(status.getRequestId());
/**
* Remove a flow entry. If the entry is not present in the software view
* (entry or node not present), it return successfully
- *
+ *
* @param flowEntry
- * the flow entry to remove
+ * the flow entry to remove
* @param async
* the flag indicating if this is a asynchronous request
- * @return the status of this request. In case of asynchronous call, it
- * will contain the unique id assigned to this request
+ * @return the status of this request. In case of asynchronous call, it will
+ * contain the unique id assigned to this request
*/
private Status removeEntry(FlowEntry flowEntry, boolean async) {
Status error = new Status(null, null);
}
// Derive the container flows merged installed entries
- List<FlowEntryInstall> installedList = deriveInstallEntries(
- flowEntry.clone(), container.getContainerFlows());
+ List<FlowEntryInstall> installedList = deriveInstallEntries(flowEntry.clone(), container.getContainerFlows());
- Set<FlowEntryInstall> flowsOnNode = nodeFlows.get(flowEntry.getNode());
Status succeeded = null;
boolean atLeastOneRemoved = false;
for (FlowEntryInstall entry : installedList) {
- if (flowsOnNode == null) {
- String msg = "Removal skipped (Node down) for flow entry";
- String logMsg = msg + ": {}";
- log.debug(logMsg, flowEntry);
- return new Status(StatusCode.SUCCESS, msg);
- }
- if (!flowsOnNode.contains(entry)) {
+ if (!installedSwView.containsKey(entry)) {
String logMsg = "Removal skipped (not present in software view) for flow entry: {}";
log.debug(logMsg, flowEntry);
if (installedList.size() == 1) {
if (!ret.isSuccess()) {
error = ret;
- log.warn("Failed to remove the entry: {}. The failure is: {}",
- entry.getInstall(), ret.getDescription());
+ log.warn("Failed to remove the entry: {}. The failure is: {}", entry.getInstall(), ret.getDescription());
if (installedList.size() == 1) {
// If we had only one entry to remove, this is fatal failure
return error;
* This is the function that removes the final container flows merged entry
* from the network node and update the database. It expects that all the
* validity checks are passed
- *
+ *
* @param entry
* the flow entry to remove
* @param async
* the flag indicating if this is a asynchronous request
- * @return the status of this request. In case of asynchronous call, it
- * will contain the unique id assigned to this request
+ * @return the status of this request. In case of asynchronous call, it will
+ * contain the unique id assigned to this request
*/
private Status removeEntryInternal(FlowEntryInstall entry, boolean async) {
// Mark the entry to be deleted (for CC just in case we fail)
entry.toBeDeleted();
// Remove from node
- Status status = (async)?
- programmer.removeFlowAsync(entry.getNode(), entry
- .getInstall().getFlow()) :
- programmer.removeFlow(entry.getNode(), entry
- .getInstall().getFlow());
-
+ Status status = (async) ? programmer.removeFlowAsync(entry.getNode(), entry.getInstall().getFlow())
+ : programmer.removeFlow(entry.getNode(), entry.getInstall().getFlow());
if (!status.isSuccess()) {
- log.warn(
- "SDN Plugin failed to program the flow: {}. The failure is: {}",
- entry.getInstall(), status.getDescription());
+ log.warn("SDN Plugin failed to program the flow: {}. The failure is: {}", entry.getInstall(),
+ status.getDescription());
return status;
}
log.trace("Removed {}", entry.getInstall());
* on the network node and updates the database. It expects that all the
* validity and conflict checks are passed. That means it does not check
* whether this flow would conflict or overwrite an existing one.
- *
+ *
* @param entry
* the flow entry to install
* @param async
* the flag indicating if this is a asynchronous request
- * @return the status of this request. In case of asynchronous call, it
- * will contain the unique id assigned to this request
+ * @return the status of this request. In case of asynchronous call, it will
+ * contain the unique id assigned to this request
*/
private Status addEntriesInternal(FlowEntryInstall entry, boolean async) {
// Install the flow on the network node
- Status status = (async)?
- programmer.addFlow(entry.getNode(), entry.getInstall()
- .getFlow()) :
- programmer.addFlowAsync(entry.getNode(), entry.getInstall()
- .getFlow());
-
+ Status status = (async) ? programmer.addFlowAsync(entry.getNode(), entry.getInstall().getFlow()) : programmer
+ .addFlow(entry.getNode(), entry.getInstall().getFlow());
if (!status.isSuccess()) {
- log.warn(
- "SDN Plugin failed to program the flow: {}. The failure is: {}",
- entry.getInstall(), status.getDescription());
+ log.warn("SDN Plugin failed to program the flow: {}. The failure is: {}", entry.getInstall(),
+ status.getDescription());
return status;
}
* means that if the function returns true, the passed flow entry is
* congruent with at least one container flow, hence it is good to be
* installed on this container.
- *
+ *
* @param flowEntry
* @return true if flow conflicts with all the container flows, false
* otherwise
return true;
}
- private synchronized void updateLocalDatabase(FlowEntryInstall entry,
- boolean add) {
+ private void updateLocalDatabase(FlowEntryInstall entry, boolean add) {
+ // Update the software view
+ updateSwViewes(entry, add);
+
// Update node indexed flow database
updateNodeFlowsDB(entry, add);
updateGroupFlowsDB(entry, add);
}
+ /*
+ * Update the node mapped flows database
+ */
+ private void updateSwViewes(FlowEntryInstall flowEntries, boolean add) {
+ if (add) {
+ originalSwView.put(flowEntries.getOriginal(), flowEntries.getOriginal());
+ installedSwView.put(flowEntries, flowEntries);
+ } else {
+ originalSwView.remove(flowEntries.getOriginal());
+ installedSwView.remove(flowEntries);
+ }
+ }
+
/*
* Update the node mapped flows database
*/
private void updateNodeFlowsDB(FlowEntryInstall flowEntries, boolean add) {
Node node = flowEntries.getNode();
- Set<FlowEntryInstall> flowEntrylist = this.nodeFlows.get(node);
- if (flowEntrylist == null) {
- if (add == false) {
+ List<FlowEntryInstall> nodeIndeces = this.nodeFlows.get(node);
+ if (nodeIndeces == null) {
+ if (!add) {
return;
} else {
- flowEntrylist = new HashSet<FlowEntryInstall>();
+ nodeIndeces = new ArrayList<FlowEntryInstall>();
}
}
- if (add == true) {
- flowEntrylist.add(flowEntries);
+ if (add) {
+ nodeIndeces.add(flowEntries);
} else {
- flowEntrylist.remove(flowEntries);
+ nodeIndeces.remove(flowEntries);
}
- if (flowEntrylist.isEmpty()) {
+ // Update cache across cluster
+ if (nodeIndeces.isEmpty()) {
this.nodeFlows.remove(node);
} else {
- this.nodeFlows.put(node, flowEntrylist);
+ this.nodeFlows.put(node, nodeIndeces);
}
}
* Update the group name mapped flows database
*/
private void updateGroupFlowsDB(FlowEntryInstall flowEntries, boolean add) {
- Set<FlowEntryInstall> flowList;
- FlowEntryInstall exists = null;
- String flowName = flowEntries.getFlowName();
String groupName = flowEntries.getGroupName();
- if (this.groupFlows == null) {
- return;
- }
-
// Flow may not be part of a group
if (groupName == null) {
return;
}
- if (this.groupFlows.containsKey(groupName)) {
- flowList = this.groupFlows.get(groupName);
- } else {
- if (add == false) {
+ List<FlowEntryInstall> indices = this.groupFlows.get(groupName);
+ if (indices == null) {
+ if (!add) {
return;
} else {
- flowList = new HashSet<FlowEntryInstall>();
- }
- }
-
- for (FlowEntryInstall flow : flowList) {
- if (flow.equalsByNodeAndName(flowEntries.getNode(), flowName)) {
- exists = flow;
- break;
+ indices = new ArrayList<FlowEntryInstall>();
}
}
- if (exists == null && add == false) {
- return;
- }
-
- if (exists != null) {
- flowList.remove(exists);
- }
-
- if (add == true) {
- flowList.add(flowEntries);
+ if (add) {
+ indices.add(flowEntries);
+ } else {
+ indices.remove(flowEntries);
}
- if (flowList.isEmpty()) {
+ // Update cache across cluster
+ if (indices.isEmpty()) {
this.groupFlows.remove(groupName);
} else {
- this.groupFlows.put(groupName, flowList);
+ this.groupFlows.put(groupName, indices);
}
}
FlowEntryInstall target = null;
// Find in database
- for (FlowEntryInstall entry : this.nodeFlows.get(node)) {
+ for (FlowEntryInstall entry : installedSwView.values()) {
if (entry.equalsByNodeAndName(node, flowName)) {
target = entry;
break;
}
// Remove from node
- Status status = programmer.removeFlow(target.getNode(), target
- .getInstall().getFlow());
+ Status status = programmer.removeFlow(target.getNode(), target.getInstall().getFlow());
// Update DB
if (status.isSuccess()) {
updateLocalDatabase(target, false);
} else {
// log the error
- log.warn(
- "SDN Plugin failed to remove the flow: {}. The failure is: {}",
- target.getInstall(), status.getDescription());
+ log.warn("SDN Plugin failed to remove the flow: {}. The failure is: {}", target.getInstall(),
+ status.getDescription());
}
return status;
}
return status;
}
-
+
@Override
- public Status modifyFlowEntry(FlowEntry currentFlowEntry,
- FlowEntry newFlowEntry) {
+ public Status modifyFlowEntry(FlowEntry currentFlowEntry, FlowEntry newFlowEntry) {
Status status = null;
if (inContainerMode) {
String msg = "Controller in container mode: Modify Refused";
@Override
public Status modifyOrAddFlowEntry(FlowEntry newFlowEntry) {
/*
- * Run a loose check on the installed entries to decide whether to go
- * with a add or modify method. A loose check means only check against
- * the original flow entry requests and not against the installed flow
+ * Run a check on the original entries to decide whether to go with a
+ * add or modify method. A loose check means only check against the
+ * original flow entry requests and not against the installed flow
* entries which are the result of the original entry merged with the
* container flow(s) (if any). The modifyFlowEntry method in presence of
* conflicts with the Container flows (if any) would revert back to a
* delete + add pattern
*/
- FlowEntryInstall currentFlowEntries = findMatch(newFlowEntry, true);
+ FlowEntry currentFlowEntry = originalSwView.get(newFlowEntry);
- if (currentFlowEntries != null) {
- return modifyFlowEntry(currentFlowEntries.getOriginal(),
- newFlowEntry);
+ if (currentFlowEntry != null) {
+ return modifyFlowEntry(currentFlowEntry, newFlowEntry);
} else {
return installFlowEntry(newFlowEntry);
}
}
@Override
- public Status modifyOrAddFlowEntryAsync(FlowEntry newone) {
+ public Status modifyOrAddFlowEntryAsync(FlowEntry newFlowEntry) {
/*
- * Run a loose check on the installed entries to decide whether to go
- * with a add or modify method. A loose check means only check against
- * the original flow entry requests and not against the installed flow
+ * Run a check on the original entries to decide whether to go with a
+ * add or modify method. A loose check means only check against the
+ * original flow entry requests and not against the installed flow
* entries which are the result of the original entry merged with the
* container flow(s) (if any). The modifyFlowEntry method in presence of
* conflicts with the Container flows (if any) would revert back to a
* delete + add pattern
*/
- FlowEntryInstall currentFlowEntries = findMatch(newone, true);
+ FlowEntry currentFlowEntry = originalSwView.get(newFlowEntry);
- if (currentFlowEntries != null) {
- return modifyFlowEntryAsync(currentFlowEntries.getOriginal(),
- newone);
+ if (currentFlowEntry != null) {
+ return modifyFlowEntryAsync(currentFlowEntry, newFlowEntry);
} else {
- return installFlowEntry(newone);
+ return installFlowEntryAsync(newFlowEntry);
}
}
-
- /**
- * Try to find in the database if a Flow with the same Match and priority of
- * the passed one already exists for the specified network node. Flow,
- * priority and network node are all specified in the FlowEntry If found,
- * the respective FlowEntryInstall Object is returned
- *
- * @param flowEntry
- * the FlowEntry to be tested against the ones installed
- * @param looseCheck
- * if true, the function will run the check against the original
- * flow entry portion of the installed entries
- * @return null if not found, otherwise the FlowEntryInstall which contains
- * the existing flow entry
- */
- private FlowEntryInstall findMatch(FlowEntry flowEntry, boolean looseCheck) {
- Flow flow = flowEntry.getFlow();
- Match match = flow.getMatch();
- short priority = flow.getPriority();
- Set<FlowEntryInstall> thisNodeList = nodeFlows.get(flowEntry.getNode());
-
- if (thisNodeList != null) {
- for (FlowEntryInstall flowEntries : thisNodeList) {
- flow = (looseCheck == false) ? flowEntries.getInstall()
- .getFlow() : flowEntries.getOriginal().getFlow();
- if (flow.getMatch().equals(match)
- && flow.getPriority() == priority) {
- return flowEntries;
+ @Override
+ public Status uninstallFlowEntryGroup(String groupName) {
+ if (groupName == null || groupName.isEmpty()) {
+ return new Status(StatusCode.BADREQUEST, "Invalid group name");
+ }
+ if (groupName.equals(FlowConfig.internalStaticFlowsGroup)) {
+ return new Status(StatusCode.BADREQUEST, "Static flows group cannot be deleted through this api");
+ }
+ if (inContainerMode) {
+ String msg = "Controller in container mode: Group Uninstall Refused";
+ String logMsg = msg + ": {}";
+ log.warn(logMsg, groupName);
+ return new Status(StatusCode.NOTACCEPTABLE, msg);
+ }
+ int toBeRemoved = groupFlows.get(groupName).size();
+ String error = "";
+ if (groupFlows.containsKey(groupName)) {
+ List<FlowEntryInstall> list = new ArrayList<FlowEntryInstall>(groupFlows.get(groupName));
+ for (FlowEntryInstall entry : list) {
+ Status status = this.removeEntry(entry.getOriginal(), false);
+ if (status.isSuccess()) {
+ toBeRemoved -= 1;
+ } else {
+ error = status.getDescription();
}
}
}
- return null;
+ return (toBeRemoved == 0) ? new Status(StatusCode.SUCCESS) : new Status(StatusCode.INTERNALERROR,
+ "Not all the flows were removed: " + error);
+ }
+
+ @Override
+ public Status uninstallFlowEntryGroupAsync(String groupName) {
+ if (groupName == null || groupName.isEmpty()) {
+ return new Status(StatusCode.BADREQUEST, "Invalid group name");
+ }
+ if (groupName.equals(FlowConfig.internalStaticFlowsGroup)) {
+ return new Status(StatusCode.BADREQUEST, "Static flows group cannot be deleted through this api");
+ }
+ if (inContainerMode) {
+ String msg = "Controller in container mode: Group Uninstall Refused";
+ String logMsg = msg + ": {}";
+ log.warn(logMsg, groupName);
+ return new Status(StatusCode.NOTACCEPTABLE, msg);
+ }
+ if (groupFlows.containsKey(groupName)) {
+ List<FlowEntryInstall> list = new ArrayList<FlowEntryInstall>(groupFlows.get(groupName));
+ for (FlowEntryInstall entry : list) {
+ this.removeEntry(entry.getOriginal(), true);
+ }
+ }
+ return new Status(StatusCode.SUCCESS);
}
+ @Override
public boolean checkFlowEntryConflict(FlowEntry flowEntry) {
return entryConflictsWithContainerFlows(flowEntry);
}
* on the network node
*/
private void updateFlowsContainerFlow() {
- List<FlowEntryInstall> oldCouples = new ArrayList<FlowEntryInstall>();
- List<FlowEntry> toReinstall = new ArrayList<FlowEntry>();
- for (Entry<Node, Set<FlowEntryInstall>> entry : this.nodeFlows
- .entrySet()) {
- oldCouples.clear();
- toReinstall.clear();
- if (entry.getValue() == null) {
- continue;
- }
- // Create a set of old entries and one of original entries to be
- // reinstalled
- for (FlowEntryInstall oldCouple : entry.getValue()) {
- oldCouples.add(oldCouple);
- toReinstall.add(oldCouple.getOriginal());
- }
+ for (ConcurrentMap.Entry<FlowEntryInstall, FlowEntryInstall> entry : installedSwView.entrySet()) {
+ FlowEntryInstall current = entry.getValue();
+ FlowEntry reInstall = current.getOriginal();
// Remove the old couples. No validity checks to be run, use the
// internal remove
- for (FlowEntryInstall oldCouple : oldCouples) {
- this.removeEntryInternal(oldCouple, false);
- }
+ this.removeEntryInternal(current, false);
+
// Reinstall the original flow entries, via the regular path: new
// cFlow merge + validations
- for (FlowEntry flowEntry : toReinstall) {
- this.installFlowEntry(flowEntry);
- }
+ this.installFlowEntry(reInstall);
}
}
public void nonClusterObjectCreate() {
- nodeFlows = new ConcurrentHashMap<Node, Set<FlowEntryInstall>>();
+ originalSwView = new ConcurrentHashMap<FlowEntry, FlowEntry>();
+ installedSwView = new ConcurrentHashMap<FlowEntryInstall, FlowEntryInstall>();
+ nodeFlows = new ConcurrentHashMap<Node, List<FlowEntryInstall>>();
+ groupFlows = new ConcurrentHashMap<String, List<FlowEntryInstall>>();
TSPolicies = new ConcurrentHashMap<String, Object>();
- groupFlows = new ConcurrentHashMap<String, Set<FlowEntryInstall>>();
staticFlowsOrdinal = new ConcurrentHashMap<Integer, Integer>();
portGroupConfigs = new ConcurrentHashMap<String, PortGroupConfig>();
portGroupData = new ConcurrentHashMap<PortGroupConfig, Map<Node, PortGroup>>();
}
private void registerWithOSGIConsole() {
- BundleContext bundleContext = FrameworkUtil.getBundle(this.getClass())
- .getBundleContext();
- bundleContext.registerService(CommandProvider.class.getName(), this,
- null);
+ BundleContext bundleContext = FrameworkUtil.getBundle(this.getClass()).getBundleContext();
+ bundleContext.registerService(CommandProvider.class.getName(), this, null);
}
@Override
@Override
public List<FlowEntry> getFlowEntriesForGroup(String policyName) {
- List<FlowEntry> list = null;
- if (this.groupFlows != null && this.groupFlows.containsKey(policyName)) {
- list = new ArrayList<FlowEntry>();
- for (FlowEntryInstall entries : groupFlows.get(policyName)) {
- list.add(entries.getOriginal());
+ List<FlowEntry> list = new ArrayList<FlowEntry>();
+ if (policyName != null && !policyName.trim().isEmpty()) {
+ for (Map.Entry<FlowEntry, FlowEntry> entry : this.originalSwView.entrySet()) {
+ if (policyName.equals(entry.getKey().getGroupName())) {
+ list.add(entry.getKey().clone());
+ }
}
- return new ArrayList<FlowEntry>();
}
return list;
}
@Override
- public void addOutputPort(Node node, String flowName,
- List<NodeConnector> portList) {
+ public void addOutputPort(Node node, String flowName, List<NodeConnector> portList) {
- Set<FlowEntryInstall> flowEntryList = this.nodeFlows.get(node);
-
- for (FlowEntryInstall flow : flowEntryList) {
+ for (FlowEntryInstall flow : this.nodeFlows.get(node)) {
if (flow.getFlowName().equals(flowName)) {
FlowEntry currentFlowEntry = flow.getOriginal();
FlowEntry newFlowEntry = currentFlowEntry.clone();
}
Status error = modifyEntry(currentFlowEntry, newFlowEntry, false);
if (error.isSuccess()) {
- log.info("Ports {} added to FlowEntry {}", portList,
- flowName);
+ log.info("Ports {} added to FlowEntry {}", portList, flowName);
} else {
- log.warn(
- "Failed to add ports {} to Flow entry {}. The failure is: {}",
- portList, currentFlowEntry.toString(),
- error.getDescription());
+ log.warn("Failed to add ports {} to Flow entry {}. The failure is: {}", portList,
+ currentFlowEntry.toString(), error.getDescription());
}
return;
}
}
- log.warn("Failed to add ports to Flow {} on Node {}: Entry Not Found",
- flowName, node);
+ log.warn("Failed to add ports to Flow {} on Node {}: Entry Not Found", flowName, node);
}
@Override
- public void removeOutputPort(Node node, String flowName,
- List<NodeConnector> portList) {
-
- Set<FlowEntryInstall> flowEntryList = this.nodeFlows.get(node);
-
- for (FlowEntryInstall flow : flowEntryList) {
+ public void removeOutputPort(Node node, String flowName, List<NodeConnector> portList) {
+ for (FlowEntryInstall index : this.nodeFlows.get(node)) {
+ FlowEntryInstall flow = this.installedSwView.get(index);
if (flow.getFlowName().equals(flowName)) {
FlowEntry currentFlowEntry = flow.getOriginal();
FlowEntry newFlowEntry = currentFlowEntry.clone();
}
Status status = modifyEntry(currentFlowEntry, newFlowEntry, false);
if (status.isSuccess()) {
- log.info("Ports {} removed from FlowEntry {}", portList,
- flowName);
+ log.info("Ports {} removed from FlowEntry {}", portList, flowName);
} else {
- log.warn(
- "Failed to remove ports {} from Flow entry {}. The failure is: {}",
- portList, currentFlowEntry.toString(),
- status.getDescription());
+ log.warn("Failed to remove ports {} from Flow entry {}. The failure is: {}", portList,
+ currentFlowEntry.toString(), status.getDescription());
}
return;
}
}
- log.warn(
- "Failed to remove ports from Flow {} on Node {}: Entry Not Found",
- flowName, node);
+ log.warn("Failed to remove ports from Flow {} on Node {}: Entry Not Found", flowName, node);
}
/*
* This function assumes the target flow has only one output port
*/
@Override
- public void replaceOutputPort(Node node, String flowName,
- NodeConnector outPort) {
+ public void replaceOutputPort(Node node, String flowName, NodeConnector outPort) {
FlowEntry currentFlowEntry = null;
FlowEntry newFlowEntry = null;
- Set<FlowEntryInstall> flowEntryList = this.nodeFlows.get(node);
// Find the flow
- for (FlowEntryInstall flow : flowEntryList) {
+ for (FlowEntryInstall index : this.nodeFlows.get(node)) {
+ FlowEntryInstall flow = this.installedSwView.get(index);
if (flow.getFlowName().equals(flowName)) {
currentFlowEntry = flow.getOriginal();
break;
}
}
if (currentFlowEntry == null) {
- log.warn(
- "Failed to replace output port for flow {} on node {}: Entry Not Found",
- flowName, node);
+ log.warn("Failed to replace output port for flow {} on node {}: Entry Not Found", flowName, node);
return;
}
Status status = modifyEntry(currentFlowEntry, newFlowEntry, false);
if (status.isSuccess()) {
- log.info("Output port replaced with {} for flow {} on node {}",
- outPort, flowName, node);
+ log.info("Output port replaced with {} for flow {} on node {}", outPort, flowName, node);
} else {
- log.warn(
- "Failed to replace output port for flow {} on node {}. The failure is: {}",
- flowName, node, status.getDescription());
+ log.warn("Failed to replace output port for flow {} on node {}. The failure is: {}", flowName, node,
+ status.getDescription());
}
return;
}
@Override
public NodeConnector getOutputPort(Node node, String flowName) {
- Set<FlowEntryInstall> flowEntryList = this.nodeFlows.get(node);
-
- for (FlowEntryInstall flow : flowEntryList) {
+ for (FlowEntryInstall index : this.nodeFlows.get(node)) {
+ FlowEntryInstall flow = this.installedSwView.get(index);
if (flow.getFlowName().equals(flowName)) {
for (Action action : flow.getOriginal().getFlow().getActions()) {
if (action.getType() == ActionType.OUTPUT) {
}
}
}
-
return null;
}
log.debug("FRM allocateCaches for Container {}", container);
try {
+ clusterContainerService.createCache("frm.originalSwView",
+ EnumSet.of(IClusterServices.cacheMode.NON_TRANSACTIONAL));
+
+ clusterContainerService.createCache("frm.installedSwView",
+ EnumSet.of(IClusterServices.cacheMode.NON_TRANSACTIONAL));
+
clusterContainerService.createCache("frm.nodeFlows",
EnumSet.of(IClusterServices.cacheMode.NON_TRANSACTIONAL));
EnumSet.of(IClusterServices.cacheMode.NON_TRANSACTIONAL));
} catch (CacheConfigException cce) {
- log.error("FRM CacheConfigException", cce);
+ log.error("FRM CacheConfigException");
} catch (CacheExistException cce) {
- log.error("FRM CacheExistException", cce);
+ log.error("FRM CacheExistException");
}
}
log.debug("FRM retrieveCaches for Container {}", container);
+ map = clusterContainerService.getCache("frm.originalSwView");
+ if (map != null) {
+ originalSwView = (ConcurrentMap<FlowEntry, FlowEntry>) map;
+ } else {
+ log.error("FRM Cache frm.originalSwView allocation failed for Container {}", container.getName());
+ }
+
+ map = clusterContainerService.getCache("frm.installedSwView");
+ if (map != null) {
+ installedSwView = (ConcurrentMap<FlowEntryInstall, FlowEntryInstall>) map;
+ } else {
+ log.error("FRM Cache frm.installedSwView allocation failed for Container {}", container.getName());
+ }
+
map = clusterContainerService.getCache("frm.nodeFlows");
if (map != null) {
- nodeFlows = (ConcurrentMap<Node, Set<FlowEntryInstall>>) map;
+ nodeFlows = (ConcurrentMap<Node, List<FlowEntryInstall>>) map;
} else {
- log.error(
- "FRM Cache frm.nodeFlows allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.nodeFlows allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.groupFlows");
if (map != null) {
- groupFlows = (ConcurrentMap<String, Set<FlowEntryInstall>>) map;
+ groupFlows = (ConcurrentMap<String, List<FlowEntryInstall>>) map;
} else {
- log.error(
- "FRM Cache frm.groupFlows allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.groupFlows allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.staticFlows");
if (map != null) {
staticFlows = (ConcurrentMap<Integer, FlowConfig>) map;
} else {
- log.error(
- "FRM Cache frm.staticFlows allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.staticFlows allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.flowsSaveEvent");
if (map != null) {
flowsSaveEvent = (ConcurrentMap<Long, String>) map;
} else {
- log.error(
- "FRM Cache frm.flowsSaveEvent allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.flowsSaveEvent allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.staticFlowsOrdinal");
if (map != null) {
staticFlowsOrdinal = (ConcurrentMap<Integer, Integer>) map;
} else {
- log.error(
- "FRM Cache frm.staticFlowsOrdinal allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.staticFlowsOrdinal allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.portGroupConfigs");
if (map != null) {
portGroupConfigs = (ConcurrentMap<String, PortGroupConfig>) map;
} else {
- log.error(
- "FRM Cache frm.portGroupConfigs allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.portGroupConfigs allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.portGroupData");
if (map != null) {
portGroupData = (ConcurrentMap<PortGroupConfig, Map<Node, PortGroup>>) map;
} else {
- log.error(
- "FRM Cache frm.portGroupData allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.portGroupData allocation failed for Container {}", container.getName());
}
map = clusterContainerService.getCache("frm.TSPolicies");
if (map != null) {
TSPolicies = (ConcurrentMap<String, Object>) map;
} else {
- log.error(
- "FRM Cache frm.TSPolicies allocation failed for Container {}",
- container);
+ log.error("FRM Cache frm.TSPolicies allocation failed for Container {}", container.getName());
}
}
- @SuppressWarnings("deprecation")
- private void destroyCaches() {
- if (this.clusterContainerService == null) {
- log.warn("Un-initialized clusterContainerService, can't destroy cache");
- return;
- }
-
- log.debug("FRM destroyCaches for Container {}", container);
- clusterContainerService.destroyCache("frm.nodeFlows");
- clusterContainerService.destroyCache("frm.TSPolicies");
- clusterContainerService.destroyCache("frm.groupFlows");
- clusterContainerService.destroyCache("frm.staticFlows");
- clusterContainerService.destroyCache("frm.flowsSaveEvent");
- clusterContainerService.destroyCache("frm.staticFlowsOrdinal");
- clusterContainerService.destroyCache("frm.portGroupData");
- clusterContainerService.destroyCache("frm.portGroupConfigs");
- nonClusterObjectCreate();
- }
-
private boolean flowConfigExists(FlowConfig config) {
- // As per customer requirement, flow name has to be unique on per node
- // id basis
- for (FlowConfig fc : staticFlows.values()) {
- if (fc.isByNameAndNodeIdEqual(config)) {
+ // Flow name has to be unique on per node id basis
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ if (entry.getValue().isByNameAndNodeIdEqual(config)) {
return true;
}
}
@Override
public Status addStaticFlow(FlowConfig config, boolean restore) {
- StringBuffer resultStr = new StringBuffer();
boolean multipleFlowPush = false;
String error;
Status status;
- config.setStatus(StatusCode.SUCCESS.toString());
+ config.setStatus(SUCCESS);
+
+ // Skip validation check if we are trying to restore a saved config
+ if (!restore && !(status = config.validate(container)).isSuccess()) {
+ log.warn("Invalid Configuration for flow {}. The failure is {}", config, status.getDescription());
+ error = "Invalid Configuration (" + status.getDescription() + ")";
+ config.setStatus(error);
+ return new Status(StatusCode.BADREQUEST, error);
+ }
// Presence check
if (flowConfigExists(config)) {
error = "Entry with this name on specified switch already exists";
- log.warn(
- "Entry with this name on specified switch already exists: {}",
- config);
+ log.warn("Entry with this name on specified switch already exists: {}", config);
config.setStatus(error);
return new Status(StatusCode.CONFLICT, error);
}
- // Skip validation check if we are trying to restore a saved config
- if (!restore && !config.isValid(container, resultStr)) {
- log.warn("Invalid Configuration for flow {}. The failure is {}",
- config, resultStr.toString());
- error = "Invalid Configuration (" + resultStr.toString() + ")";
- config.setStatus(error);
- return new Status(StatusCode.BADREQUEST, error);
- }
-
if ((config.getIngressPort() == null) && config.getPortGroup() != null) {
for (String portGroupName : portGroupConfigs.keySet()) {
if (portGroupName.equalsIgnoreCase(config.getPortGroup())) {
}
}
if (!multipleFlowPush) {
- log.warn(
- "Invalid Configuration(Invalid PortGroup Name) for flow {}",
- config);
+ log.warn("Invalid Configuration(Invalid PortGroup Name) for flow {}", config);
error = "Invalid Configuration (Invalid PortGroup Name)";
config.setStatus(error);
return new Status(StatusCode.BADREQUEST, error);
// Program hw
if (config.installInHw()) {
FlowEntry entry = config.getFlowEntry();
- status = this.addEntry(entry, false);
+ status = this.installFlowEntry(entry);
if (!status.isSuccess()) {
config.setStatus(status.getDescription());
if (!restore) {
* multiple entry configuration (PortGroup) and hardware installation is
* NOT done directly on this event. 3. The User prefers to retain the
* configuration in Controller and skip hardware installation.
- *
+ *
* Hence it is safe to update the StaticFlow DB at this point.
- *
+ *
* Note : For the case of PortGrouping, it is essential to have this DB
* populated before the PortGroupListeners can query for the DB
* triggered using portGroupChanged event...
staticFlows.put(ordinal, config);
if (multipleFlowPush) {
- PortGroupConfig pgconfig = portGroupConfigs.get(config
- .getPortGroup());
+ PortGroupConfig pgconfig = portGroupConfigs.get(config.getPortGroup());
Map<Node, PortGroup> existingData = portGroupData.get(pgconfig);
if (existingData != null) {
portGroupChanged(pgconfig, existingData, true);
}
private void addStaticFlowsToSwitch(Node node) {
- for (FlowConfig config : staticFlows.values()) {
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ FlowConfig config = entry.getValue();
if (config.isPortGroupEnabled()) {
continue;
}
if (config.getNode().equals(node)) {
- if (config.installInHw()
- && !config.getStatus().equals(
- StatusCode.SUCCESS.toString())) {
- Status status = this.addEntry(config.getFlowEntry(), false);
+ if (config.installInHw() && !config.getStatus().equals(SUCCESS)) {
+ Status status = this.installFlowEntryAsync(config.getFlowEntry());
config.setStatus(status.getDescription());
}
}
}
+ // Update cluster cache
+ refreshClusterStaticFlowsStatus(node);
}
private void updateStaticFlowConfigsOnNodeDown(Node node) {
for (Integer index : toRemove) {
staticFlows.remove(index);
}
+ // Update cluster cache
+ refreshClusterStaticFlowsStatus(node);
+
}
private void updateStaticFlowConfigsOnContainerModeChange(UpdateType update) {
- log.trace("Updating Static Flow configs on container mode change: {}",
- update);
+ log.trace("Updating Static Flow configs on container mode change: {}", update);
- for (FlowConfig config : staticFlows.values()) {
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ FlowConfig config = entry.getValue();
if (config.isPortGroupEnabled()) {
continue;
}
- if (config.installInHw()) {
+ if (config.installInHw() && !config.isInternalFlow()) {
switch (update) {
case ADDED:
config.setStatus("Removed from node because in container mode");
break;
case REMOVED:
- config.setStatus(StatusCode.SUCCESS.toString());
+ config.setStatus(SUCCESS);
break;
default:
}
}
}
+ // Update cluster cache
+ refreshClusterStaticFlowsStatus(null);
}
+ @Override
public Status removeStaticFlow(FlowConfig config) {
/*
* No config.isInternal() check as NB does not take this path and GUI
* reactive, so that we can remove the internal generated LLDP and ARP
* punt flows
*/
- for (Map.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+
+ // Look for the target configuration entry
+ Integer key = 0;
+ FlowConfig target = null;
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
if (entry.getValue().isByNameAndNodeIdEqual(config)) {
- // Program the network node
- Status status = this.removeEntry(config.getFlowEntry(), false);
- // Update configuration database if programming was successful
- if (status.isSuccess()) {
- staticFlows.remove(entry.getKey());
- return status;
- } else {
- entry.getValue().setStatus(status.getDescription());
- return status;
- }
+ key = entry.getKey();
+ target = entry.getValue();
+ break;
}
}
- return new Status(StatusCode.NOTFOUND, "Entry Not Present");
+ if (target == null) {
+ return new Status(StatusCode.NOTFOUND, "Entry Not Present");
+ }
+
+ // Program the network node
+ Status status = this.uninstallFlowEntry(config.getFlowEntry());
+
+ // Update configuration database if programming was successful
+ if (status.isSuccess()) {
+ staticFlows.remove(key);
+ }
+
+ return status;
}
@Override
public Status removeStaticFlow(String name, Node node) {
- for (Map.Entry<Integer, FlowConfig> mapEntry : staticFlows.entrySet()) {
- FlowConfig entry = mapEntry.getValue();
- Status status = new Status(null, null);
- if (entry.isByNameAndNodeIdEqual(name, node)) {
- // Validity check for api3 entry point
- if (entry.isInternalFlow()) {
- String msg = "Invalid operation: Controller generated "
- + "flow cannot be deleted";
- String logMsg = msg + ": {}";
- log.warn(logMsg, name);
- return new Status(StatusCode.NOTACCEPTABLE, msg);
- }
- if (!entry.isPortGroupEnabled()) {
- // Program the network node
- status = this.removeEntry(entry.getFlowEntry(), false);
- }
- // Update configuration database if programming was successful
- if (status.isSuccess()) {
- staticFlows.remove(mapEntry.getKey());
- return status;
- } else {
- entry.setStatus(status.getDescription());
- return status;
- }
+ // Look for the target configuration entry
+ Integer key = 0;
+ FlowConfig target = null;
+ for (ConcurrentMap.Entry<Integer, FlowConfig> mapEntry : staticFlows.entrySet()) {
+ if (mapEntry.getValue().isByNameAndNodeIdEqual(name, node)) {
+ key = mapEntry.getKey();
+ target = mapEntry.getValue();
+ break;
}
}
- return new Status(StatusCode.NOTFOUND, "Entry Not Present");
+ if (target == null) {
+ return new Status(StatusCode.NOTFOUND, "Entry Not Present");
+ }
+
+ // Validity check for api3 entry point
+ if (target.isInternalFlow()) {
+ String msg = "Invalid operation: Controller generated flow cannot be deleted";
+ String logMsg = msg + ": {}";
+ log.warn(logMsg, name);
+ return new Status(StatusCode.NOTACCEPTABLE, msg);
+ }
+
+ if (target.isPortGroupEnabled()) {
+ String msg = "Invalid operation: Port Group flows cannot be deleted through this API";
+ String logMsg = msg + ": {}";
+ log.warn(logMsg, name);
+ return new Status(StatusCode.NOTACCEPTABLE, msg);
+ }
+
+ // Program the network node
+ Status status = this.removeEntry(target.getFlowEntry(), false);
+
+ // Update configuration database if programming was successful
+ if (status.isSuccess()) {
+ staticFlows.remove(key);
+ }
+
+ return status;
}
+ @Override
public Status modifyStaticFlow(FlowConfig newFlowConfig) {
// Validity check for api3 entry point
if (newFlowConfig.isInternalFlow()) {
- String msg = "Invalid operation: Controller generated flow "
- + "cannot be modified";
+ String msg = "Invalid operation: Controller generated flow cannot be modified";
String logMsg = msg + ": {}";
log.warn(logMsg, newFlowConfig);
return new Status(StatusCode.NOTACCEPTABLE, msg);
}
// Validity Check
- StringBuffer resultStr = new StringBuffer();
- if (!newFlowConfig.isValid(container, resultStr)) {
- String msg = "Invalid Configuration (" + resultStr.toString() + ")";
+ Status status = newFlowConfig.validate(container);
+ if (!status.isSuccess()) {
+ String msg = "Invalid Configuration (" + status.getDescription() + ")";
newFlowConfig.setStatus(msg);
- log.warn("Invalid Configuration for flow {}. The failure is {}",
- newFlowConfig, resultStr.toString());
+ log.warn("Invalid Configuration for flow {}. The failure is {}", newFlowConfig, status.getDescription());
return new Status(StatusCode.BADREQUEST, msg);
}
FlowConfig oldFlowConfig = null;
Integer index = null;
- for (Map.Entry<Integer, FlowConfig> mapEntry : staticFlows.entrySet()) {
+ for (ConcurrentMap.Entry<Integer, FlowConfig> mapEntry : staticFlows.entrySet()) {
FlowConfig entry = mapEntry.getValue();
- if (entry.isByNameAndNodeIdEqual(newFlowConfig.getName(),
- newFlowConfig.getNode())) {
+ if (entry.isByNameAndNodeIdEqual(newFlowConfig.getName(), newFlowConfig.getNode())) {
oldFlowConfig = entry;
index = mapEntry.getKey();
break;
// Do not attempt to reinstall the flow, warn user
if (newFlowConfig.equals(oldFlowConfig)) {
String msg = "No modification detected";
- log.info(
- "Static flow modification skipped. New flow and old flow are the same: {}",
- newFlowConfig);
+ log.info("Static flow modification skipped. New flow and old flow are the same: {}", newFlowConfig);
return new Status(StatusCode.SUCCESS, msg);
}
// If flow is installed, program the network node
- Status status = new Status(StatusCode.SUCCESS, "Saved in config");
+ status = new Status(StatusCode.SUCCESS, "Saved in config");
if (oldFlowConfig.installInHw()) {
- status = this.modifyEntry(oldFlowConfig.getFlowEntry(),
- newFlowConfig.getFlowEntry(), false);
+ status = this.modifyFlowEntry(oldFlowConfig.getFlowEntry(), newFlowConfig.getFlowEntry());
}
// Update configuration database if programming was successful
}
// Validity check for api3 entry point
if (config.isInternalFlow()) {
- String msg = "Invalid operation: Controller generated flow "
- + "cannot be modified";
+ String msg = "Invalid operation: Controller generated flow cannot be modified";
String logMsg = msg + ": {}";
log.warn(logMsg, config);
return new Status(StatusCode.NOTACCEPTABLE, msg);
}
+ // Find the config entry
+ Integer key = 0;
+ FlowConfig target = null;
for (Map.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
FlowConfig conf = entry.getValue();
if (conf.isByNameAndNodeIdEqual(config)) {
- // Program the network node
- Status status = new Status(StatusCode.SUCCESS);
- if (conf.installInHw()) {
- status = this.removeEntry(conf.getFlowEntry(), false);
- } else {
- status = this.addEntry(conf.getFlowEntry(), false);
- }
- if (!status.isSuccess()) {
- conf.setStatus(status.getDescription());
- return status;
- }
-
+ key = entry.getKey();
+ target = conf;
+ break;
+ }
+ }
+ if (target != null) {
+ // Program the network node
+ Status status = (target.installInHw()) ? this.uninstallFlowEntry(target.getFlowEntry()) : this
+ .installFlowEntry(target.getFlowEntry());
+ if (status.isSuccess()) {
// Update Configuration database
- conf.setStatus(StatusCode.SUCCESS.toString());
- conf.toggleStatus();
- return status;
+ target.setStatus(SUCCESS);
+ target.toggleInstallation();
+ staticFlows.put(key, target);
}
+ return status;
}
- return new Status(StatusCode.NOTFOUND,
- "Unable to locate the entry. Failed to toggle status");
+
+ return new Status(StatusCode.NOTFOUND, "Unable to locate the entry. Failed to toggle status");
}
/**
- * Uninstall all the Flow Entries present in the software view A copy of
- * each entry is stored in the inactive list so that it can be re-applied
- * when needed This function is called on the default container instance of
- * FRM only when the first container is created
+ * Reinsert all static flows entries in the cache to force cache updates in
+ * the cluster. This is useful when only some parameters were changed in the
+ * entries, like the status.
+ *
+ * @param node
+ * The node for which the static flow configurations have to be
+ * refreshed. If null, all nodes static flows will be refreshed.
+ */
+ private void refreshClusterStaticFlowsStatus(Node node) {
+ // Refresh cluster cache
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ if (node == null || entry.getValue().getNode().equals(node)) {
+ staticFlows.put(entry.getKey(), entry.getValue());
+ }
+ }
+ }
+
+ /**
+ * Uninstall all the non-internal Flow Entries present in the software view.
+ * A copy of each entry is stored in the inactive list so that it can be
+ * re-applied when needed. This function is called on the global instance of
+ * FRM only, when the first container is created
*/
private void uninstallAllFlowEntries() {
- log.info("Uninstalling all flows");
+ log.info("Uninstalling all non-internal flows");
// Store entries / create target list
- for (ConcurrentMap.Entry<Node, Set<FlowEntryInstall>> mapEntry : nodeFlows
- .entrySet()) {
- for (FlowEntryInstall flowEntries : mapEntry.getValue()) {
+ for (ConcurrentMap.Entry<FlowEntryInstall, FlowEntryInstall> mapEntry : installedSwView.entrySet()) {
+ FlowEntryInstall flowEntries = mapEntry.getValue();
+ // Skip internal generated static flows
+ if (!flowEntries.isInternal()) {
inactiveFlows.add(flowEntries.getOriginal());
}
}
for (FlowEntry flowEntry : inactiveFlows) {
Status status = this.removeEntry(flowEntry, false);
if (!status.isSuccess()) {
- log.warn("Failed to remove entry: {}. The failure is: {}",
- flowEntry, status.getDescription());
+ log.warn("Failed to remove entry: {}. The failure is: {}", flowEntry, status.getDescription());
}
}
}
log.info("Reinstalling all inactive flows");
for (FlowEntry flowEntry : this.inactiveFlows) {
- Status status = this.addEntry(flowEntry, false);
- if (!status.isSuccess()) {
- log.warn("Failed to install entry: {}. The failure is: {}",
- flowEntry, status.getDescription());
- }
+ this.addEntry(flowEntry, false);
}
// Empty inactive list in any case
inactiveFlows.clear();
}
+ @Override
public List<FlowConfig> getStaticFlows() {
- return getStaticFlowsOrderedList(staticFlows, staticFlowsOrdinal.get(0)
- .intValue());
+ return getStaticFlowsOrderedList(staticFlows, staticFlowsOrdinal.get(0).intValue());
}
- // TODO: need to come out with a better algorithm for mantaining the order
+ // TODO: need to come out with a better algorithm for maintaining the order
// of the configuration entries
// with actual one, index associated to deleted entries cannot be reused and
// map grows...
- private List<FlowConfig> getStaticFlowsOrderedList(
- ConcurrentMap<Integer, FlowConfig> flowMap, int maxKey) {
+ private List<FlowConfig> getStaticFlowsOrderedList(ConcurrentMap<Integer, FlowConfig> flowMap, int maxKey) {
List<FlowConfig> orderedList = new ArrayList<FlowConfig>();
for (int i = 0; i <= maxKey; i++) {
FlowConfig entry = flowMap.get(i);
@Override
public FlowConfig getStaticFlow(String name, Node node) {
- for (FlowConfig config : staticFlows.values()) {
- if (config.isByNameAndNodeIdEqual(name, node)) {
- return config;
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ if (entry.getValue().isByNameAndNodeIdEqual(name, node)) {
+ return entry.getValue();
}
}
return null;
@Override
public List<FlowConfig> getStaticFlows(Node node) {
List<FlowConfig> list = new ArrayList<FlowConfig>();
- for (FlowConfig config : staticFlows.values()) {
- if (config.onNode(node)) {
- list.add(config);
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ if (entry.getValue().onNode(node)) {
+ list.add(entry.getValue());
}
}
return list;
@Override
public List<String> getStaticFlowNamesForNode(Node node) {
List<String> list = new ArrayList<String>();
- for (FlowConfig config : staticFlows.values()) {
- if (config.onNode(node)) {
- list.add(config.getName());
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ if (entry.getValue().onNode(node)) {
+ list.add(entry.getValue().getName());
}
}
return list;
@Override
public List<Node> getListNodeWithConfiguredFlows() {
Set<Node> set = new HashSet<Node>();
- for (FlowConfig config : staticFlows.values()) {
- set.add(config.getNode());
+ for (ConcurrentMap.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
+ set.add(entry.getValue().getNode());
}
return new ArrayList<Node>(set);
}
@SuppressWarnings("unchecked")
private void loadFlowConfiguration() {
ObjectReader objReader = new ObjectReader();
- ConcurrentMap<Integer, FlowConfig> confList = (ConcurrentMap<Integer, FlowConfig>) objReader
- .read(this, frmFileName);
+ ConcurrentMap<Integer, FlowConfig> confList = (ConcurrentMap<Integer, FlowConfig>) objReader.read(this,
+ frmFileName);
- ConcurrentMap<String, PortGroupConfig> pgConfig = (ConcurrentMap<String, PortGroupConfig>) objReader
- .read(this, portGroupFileName);
+ ConcurrentMap<String, PortGroupConfig> pgConfig = (ConcurrentMap<String, PortGroupConfig>) objReader.read(this,
+ portGroupFileName);
if (pgConfig != null) {
- for (Map.Entry<String, PortGroupConfig> entry : pgConfig.entrySet()) {
- addPortGroupConfig(entry.getKey(), entry.getValue()
- .getMatchString(), true);
+ for (ConcurrentMap.Entry<String, PortGroupConfig> entry : pgConfig.entrySet()) {
+ addPortGroupConfig(entry.getKey(), entry.getValue().getMatchString(), true);
}
}
int maxKey = 0;
for (Integer key : confList.keySet()) {
- if (key.intValue() > maxKey)
+ if (key.intValue() > maxKey) {
maxKey = key.intValue();
+ }
}
for (FlowConfig conf : getStaticFlowsOrderedList(confList, maxKey)) {
}
@Override
- public Object readObject(ObjectInputStream ois)
- throws FileNotFoundException, IOException, ClassNotFoundException {
+ public Object readObject(ObjectInputStream ois) throws FileNotFoundException, IOException, ClassNotFoundException {
return ois.readObject();
}
+ @Override
public Status saveConfig() {
// Publish the save config event to the cluster nodes
flowsSaveEvent.put(new Date().getTime(), SAVE);
private Status saveConfigInternal() {
ObjectWriter objWriter = new ObjectWriter();
- ConcurrentHashMap<Integer, FlowConfig> nonDynamicFlows = new ConcurrentHashMap<Integer, FlowConfig>();
+ ConcurrentMap<Integer, FlowConfig> nonDynamicFlows = new ConcurrentHashMap<Integer, FlowConfig>();
for (Integer ordinal : staticFlows.keySet()) {
FlowConfig config = staticFlows.get(ordinal);
// Do not save dynamic and controller generated static flows
nonDynamicFlows.put(ordinal, config);
}
objWriter.write(nonDynamicFlows, frmFileName);
- objWriter.write(new ConcurrentHashMap<String, PortGroupConfig>(
- portGroupConfigs), portGroupFileName);
+ objWriter.write(new ConcurrentHashMap<String, PortGroupConfig>(portGroupConfigs), portGroupFileName);
return new Status(StatusCode.SUCCESS, null);
}
}
@Override
- public void entryUpdated(Long key, String new_value, String cacheName,
- boolean originLocal) {
+ public void entryUpdated(Long key, String new_value, String cacheName, boolean originLocal) {
saveConfigInternal();
}
allowARP.setName("**Punt ARP Reply");
allowARP.setPriority("500");
allowARP.setNode(node);
- allowARP.setEtherType("0x"
- + Integer.toHexString(EtherTypes.ARP.intValue()).toUpperCase());
- allowARP.setDstMac(HexEncode.bytesToHexString(switchManager
- .getControllerMAC()));
+ allowARP.setEtherType("0x" + Integer.toHexString(EtherTypes.ARP.intValue()).toUpperCase());
+ allowARP.setDstMac(HexEncode.bytesToHexString(switchManager.getControllerMAC()));
allowARP.setActions(puntAction);
addStaticFlow(allowARP, false);
}
allowARP.setName("**Punt ARP");
allowARP.setPriority("1");
allowARP.setNode(node);
- allowARP.setEtherType("0x"
- + Integer.toHexString(EtherTypes.ARP.intValue()).toUpperCase());
+ allowARP.setEtherType("0x" + Integer.toHexString(EtherTypes.ARP.intValue()).toUpperCase());
allowARP.setActions(puntAction);
defaultConfigs.add(allowARP);
allowLLDP.setName("**Punt LLDP");
allowLLDP.setPriority("1");
allowLLDP.setNode(node);
- allowLLDP
- .setEtherType("0x"
- + Integer.toHexString(EtherTypes.LLDP.intValue())
- .toUpperCase());
+ allowLLDP.setEtherType("0x" + Integer.toHexString(EtherTypes.LLDP.intValue()).toUpperCase());
allowLLDP.setActions(puntAction);
defaultConfigs.add(allowLLDP);
}
}
- log.info("Set Switch {} Mode to {}", node, proactive);
+ log.info("Set Switch {} Mode to {}", node, (proactive ? "proactive" : "reactive"));
}
/**
* Remove from the databases all the flows installed on the node
- *
+ *
* @param node
*/
- private synchronized void cleanDatabaseForNode(Node node) {
- log.info("Cleaning Flow database for Node {}", node.toString());
-
- // Find out which groups the node's flows are part of
- Set<String> affectedGroups = new HashSet<String>();
- Set<FlowEntryInstall> flowEntryList = nodeFlows.get(node);
- if (flowEntryList != null) {
- for (FlowEntryInstall entry : flowEntryList) {
- String groupName = entry.getGroupName();
- if (groupName != null) {
- affectedGroups.add(groupName);
- }
- }
- }
+ private void cleanDatabaseForNode(Node node) {
+ log.info("Cleaning Flow database for Node {}", node);
+ if (nodeFlows.containsKey(node)) {
+ List<FlowEntryInstall> toRemove = new ArrayList<FlowEntryInstall>(nodeFlows.get(node));
- // Remove the node's flows from the group indexed flow database
- if (!affectedGroups.isEmpty()) {
- for (String group : affectedGroups) {
- Set<FlowEntryInstall> flowList = groupFlows.get(group);
- Set<FlowEntryInstall> toRemove = new HashSet<FlowEntryInstall>();
- for (FlowEntryInstall entry : flowList) {
- if (node.equals(entry.getNode())) {
- toRemove.add(entry);
- }
- }
- flowList.removeAll(toRemove);
- if (flowList.isEmpty()) {
- groupFlows.remove(group);
- }
+ for (FlowEntryInstall entry : toRemove) {
+ updateLocalDatabase(entry, false);
}
}
-
- // Remove the node's flows from the node indexed flow database
- nodeFlows.remove(node);
}
@Override
- public void notifyNode(Node node, UpdateType type,
- Map<String, Property> propMap) {
- switch (type) {
- case ADDED:
- addStaticFlowsToSwitch(node);
- break;
- case REMOVED:
- cleanDatabaseForNode(node);
- updateStaticFlowConfigsOnNodeDown(node);
- break;
- default:
- break;
- }
+ public void notifyNode(Node node, UpdateType type, Map<String, Property> propMap) {
+ this.pendingEvents.offer(new NodeUpdateEvent(type, node));
}
@Override
- public void notifyNodeConnector(NodeConnector nodeConnector,
- UpdateType type, Map<String, Property> propMap) {
+ public void notifyNodeConnector(NodeConnector nodeConnector, UpdateType type, Map<String, Property> propMap) {
+
}
- private FlowConfig getDerivedFlowConfig(FlowConfig original,
- String configName, Short port) {
+ private FlowConfig getDerivedFlowConfig(FlowConfig original, String configName, Short port) {
FlowConfig derivedFlow = new FlowConfig(original);
derivedFlow.setDynamic(true);
derivedFlow.setPortGroup(null);
return derivedFlow;
}
- private void addPortGroupFlows(PortGroupConfig config, Node node,
- PortGroup data) {
- for (Iterator<FlowConfig> it = staticFlows.values().iterator(); it
- .hasNext();) {
- FlowConfig staticFlow = it.next();
+ private void addPortGroupFlows(PortGroupConfig config, Node node, PortGroup data) {
+ for (FlowConfig staticFlow : staticFlows.values()) {
if (staticFlow.getPortGroup() == null) {
continue;
}
- if ((staticFlow.getNode().equals(node))
- && (staticFlow.getPortGroup().equals(config.getName()))) {
+ if ((staticFlow.getNode().equals(node)) && (staticFlow.getPortGroup().equals(config.getName()))) {
for (Short port : data.getPorts()) {
- FlowConfig derivedFlow = getDerivedFlowConfig(staticFlow,
- config.getName(), port);
+ FlowConfig derivedFlow = getDerivedFlowConfig(staticFlow, config.getName(), port);
addStaticFlow(derivedFlow, false);
}
}
}
}
- private void removePortGroupFlows(PortGroupConfig config, Node node,
- PortGroup data) {
- for (Iterator<FlowConfig> it = staticFlows.values().iterator(); it
- .hasNext();) {
- FlowConfig staticFlow = it.next();
+ private void removePortGroupFlows(PortGroupConfig config, Node node, PortGroup data) {
+ for (FlowConfig staticFlow : staticFlows.values()) {
if (staticFlow.getPortGroup() == null) {
continue;
}
- if ((staticFlow.getNode().equals(node))
- && (staticFlow.getPortGroup().equals(config.getName()))) {
+ if (staticFlow.getNode().equals(node) && staticFlow.getPortGroup().equals(config.getName())) {
for (Short port : data.getPorts()) {
- FlowConfig derivedFlow = getDerivedFlowConfig(staticFlow,
- config.getName(), port);
+ FlowConfig derivedFlow = getDerivedFlowConfig(staticFlow, config.getName(), port);
removeStaticFlow(derivedFlow);
}
}
}
@Override
- public void portGroupChanged(PortGroupConfig config,
- Map<Node, PortGroup> data, boolean add) {
+ public void portGroupChanged(PortGroupConfig config, Map<Node, PortGroup> data, boolean add) {
log.info("PortGroup Changed for: {} Data: {}", config, portGroupData);
Map<Node, PortGroup> existingData = portGroupData.get(config);
if (existingData != null) {
if (existingPortGroup == null) {
if (add) {
existingData.put(entry.getKey(), entry.getValue());
- addPortGroupFlows(config, entry.getKey(),
- entry.getValue());
+ addPortGroupFlows(config, entry.getKey(), entry.getValue());
}
} else {
if (add) {
- existingPortGroup.getPorts().addAll(
- entry.getValue().getPorts());
- addPortGroupFlows(config, entry.getKey(),
- entry.getValue());
+ existingPortGroup.getPorts().addAll(entry.getValue().getPorts());
+ addPortGroupFlows(config, entry.getKey(), entry.getValue());
} else {
- existingPortGroup.getPorts().removeAll(
- entry.getValue().getPorts());
- removePortGroupFlows(config, entry.getKey(),
- entry.getValue());
+ existingPortGroup.getPorts().removeAll(entry.getValue().getPorts());
+ removePortGroupFlows(config, entry.getKey(), entry.getValue());
}
}
}
}
}
+ @Override
public boolean addPortGroupConfig(String name, String regex, boolean restore) {
PortGroupConfig config = portGroupConfigs.get(name);
- if (config != null)
+ if (config != null) {
return false;
+ }
if ((portGroupProvider == null) && !restore) {
return false;
}
- if ((portGroupProvider != null)
- && (!portGroupProvider.isMatchCriteriaSupported(regex))) {
+ if ((portGroupProvider != null) && (!portGroupProvider.isMatchCriteriaSupported(regex))) {
return false;
}
return true;
}
+ @Override
public boolean delPortGroupConfig(String name) {
PortGroupConfig config = portGroupConfigs.get(name);
if (config == null) {
return;
}
if (portGroupProvider != null) {
- Map<Node, PortGroup> data = portGroupProvider
- .getPortGroupData(config);
+ Map<Node, PortGroup> data = portGroupProvider.getPortGroupData(config);
portGroupData.put(config, data);
}
}
return true;
}
- // Fir PortGroupProvider to use regular Dependency Manager
- /* @SuppressWarnings("rawtypes") */
- /* public void bind(Object arg0, Map arg1) throws Exception { */
- /* if (arg0 instanceof PortGroupProvider) { */
- /* setPortGroupProvider((PortGroupProvider)arg0); */
- /* } */
- /* } */
-
- /* @SuppressWarnings("rawtypes") */
- /* @Override */
- /* public void unbind(Object arg0, Map arg1) throws Exception { */
- /* if (arg0 instanceof PortGroupProvider) { */
- /* portGroupProvider = null; */
- /* } */
- /* } */
-
public void setIContainer(IContainer s) {
this.container = s;
}
}
}
+ @Override
public PortGroupProvider getPortGroupProvider() {
return portGroupProvider;
}
/**
* Function called by the dependency manager when all the required
* dependencies are satisfied
- *
+ *
*/
void init() {
- frmAware = Collections
- .synchronizedSet(new HashSet<IForwardingRulesManagerAware>());
- frmFileName = GlobalConstants.STARTUPHOME.toString()
- + "frm_staticflows_" + this.getContainerName() + ".conf";
- portGroupFileName = GlobalConstants.STARTUPHOME.toString()
- + "portgroup_" + this.getContainerName() + ".conf";
+ frmAware = Collections.synchronizedSet(new HashSet<IForwardingRulesManagerAware>());
+ frmFileName = GlobalConstants.STARTUPHOME.toString() + "frm_staticflows_" + this.getContainerName() + ".conf";
+ portGroupFileName = GlobalConstants.STARTUPHOME.toString() + "portgroup_" + this.getContainerName() + ".conf";
inContainerMode = false;
if (staticFlowsOrdinal.size() == 0) {
staticFlowsOrdinal.put(0, Integer.valueOf(0));
}
+
+ pendingEvents = new LinkedBlockingQueue<FRMEvent>();
+
+ // Initialize the event handler thread
+ frmEventHandler = new Thread(new Runnable() {
+ @Override
+ public void run() {
+ while (!stopping) {
+ try {
+ FRMEvent event = pendingEvents.take();
+ if (event == null) {
+ log.warn("Dequeued null event");
+ continue;
+ }
+ if (event instanceof NodeUpdateEvent) {
+ NodeUpdateEvent update = (NodeUpdateEvent) event;
+ Node node = update.getNode();
+ switch (update.getUpdateType()) {
+ case ADDED:
+ addStaticFlowsToSwitch(node);
+ break;
+ case REMOVED:
+ cleanDatabaseForNode(node);
+ updateStaticFlowConfigsOnNodeDown(node);
+ break;
+ default:
+ }
+ } else if (event instanceof ErrorReportedEvent) {
+ ErrorReportedEvent errEvent = (ErrorReportedEvent) event;
+ processErrorEvent(errEvent);
+ } else {
+ log.warn("Dequeued unknown event {}", event.getClass().getSimpleName());
+ }
+ } catch (InterruptedException e) {
+ log.warn("FRM EventHandler thread interrupted", e);
+ }
+ }
+ }
+ }, "FRM EventHandler Collector");
}
/**
* 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() {
- destroyCaches();
}
/**
* 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() {
+ // Initialize graceful stop flag
+ stopping = false;
+
+ // Start event handler thread
+ frmEventHandler.start();
+
/*
* Read startup and build database if we have not already gotten the
* configurations synced from another node
* 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() {
+ stopping = true;
+ uninstallAllFlowEntries();
}
public void setFlowProgrammerService(IFlowProgrammerService service) {
}
@Override
- public void tagUpdated(String containerName, Node n, short oldTag,
- short newTag, UpdateType t) {
+ public void tagUpdated(String containerName, Node n, short oldTag, short newTag, UpdateType t) {
}
@Override
- public void containerFlowUpdated(String containerName,
- ContainerFlow previousFlow, ContainerFlow currentFlow, UpdateType t) {
+ public void containerFlowUpdated(String containerName, ContainerFlow previousFlow, ContainerFlow currentFlow,
+ UpdateType t) {
/*
* Whether it is an addition or removal, we have to recompute the merged
* flows entries taking into account all the current container flows
}
@Override
- public void nodeConnectorUpdated(String containerName, NodeConnector p,
- UpdateType t) {
+ public void nodeConnectorUpdated(String containerName, NodeConnector p, UpdateType t) {
// No action
}
updateStaticFlowConfigsOnContainerModeChange(update);
}
+ protected abstract class FRMEvent {
+
+ }
+
+ private class NodeUpdateEvent extends FRMEvent {
+ private final Node node;
+ private final UpdateType update;
+
+ public NodeUpdateEvent(UpdateType update, Node node) {
+ this.update = update;
+ this.node = node;
+ }
+
+ public UpdateType getUpdateType() {
+ return update;
+ }
+
+ public Node getNode() {
+ return node;
+ }
+ }
+
+ private class ErrorReportedEvent extends FRMEvent {
+ private final long rid;
+ private final Node node;
+ private final Object error;
+
+ public ErrorReportedEvent(long rid, Node node, Object error) {
+ this.rid = rid;
+ this.node = node;
+ this.error = error;
+ }
+
+ public long getRequestId() {
+ return rid;
+ }
+
+ public Object getError() {
+ return error;
+ }
+
+ public Node getNode() {
+ return node;
+ }
+ }
+
/*
* OSGI COMMANDS
*/
ci.println(this.programmer.addFlow(node, getSampleFlow(node)));
}
- public void _frmremoveflow(CommandInterpreter ci)
- throws UnknownHostException {
+ public void _frmremoveflow(CommandInterpreter ci) throws UnknownHostException {
Node node = null;
String nodeId = ci.nextArgument();
if (nodeId == null) {
}
private Flow getSampleFlow(Node node) throws UnknownHostException {
- NodeConnector port = NodeConnectorCreator.createOFNodeConnector(
- (short) 24, node);
- NodeConnector oport = NodeConnectorCreator.createOFNodeConnector(
- (short) 30, node);
- byte srcMac[] = { (byte) 0x12, (byte) 0x34, (byte) 0x56, (byte) 0x78,
- (byte) 0x9a, (byte) 0xbc };
- byte dstMac[] = { (byte) 0x1a, (byte) 0x2b, (byte) 0x3c, (byte) 0x4d,
- (byte) 0x5e, (byte) 0x6f };
+ NodeConnector port = NodeConnectorCreator.createOFNodeConnector((short) 24, node);
+ NodeConnector oport = NodeConnectorCreator.createOFNodeConnector((short) 30, node);
+ byte srcMac[] = { (byte) 0x12, (byte) 0x34, (byte) 0x56, (byte) 0x78, (byte) 0x9a, (byte) 0xbc };
+ byte dstMac[] = { (byte) 0x1a, (byte) 0x2b, (byte) 0x3c, (byte) 0x4d, (byte) 0x5e, (byte) 0x6f };
InetAddress srcIP = InetAddress.getByName("172.28.30.50");
InetAddress dstIP = InetAddress.getByName("171.71.9.52");
InetAddress ipMask = InetAddress.getByName("255.255.255.0");
}
public void _frmNodeFlows(CommandInterpreter ci) {
+ String nodeId = ci.nextArgument();
+ Node node = Node.fromString(nodeId);
+ if (node == null) {
+ ci.println("frmNodeFlows <node> [verbose]");
+ return;
+ }
boolean verbose = false;
String verboseCheck = ci.nextArgument();
if (verboseCheck != null) {
verbose = verboseCheck.equals("true");
}
+ if (!nodeFlows.containsKey(node)) {
+ return;
+ }
// Dump per node database
- for (Entry<Node, Set<FlowEntryInstall>> entry : this.nodeFlows
- .entrySet()) {
- Node node = entry.getKey();
- for (FlowEntryInstall flow : entry.getValue()) {
- if (!verbose) {
- ci.println(node + " " + flow.getFlowName());
- } else {
- ci.println(node + " " + flow.toString());
- }
+ for (FlowEntryInstall entry : nodeFlows.get(node)) {
+ if (!verbose) {
+ ci.println(node + " " + installedSwView.get(entry).getFlowName());
+ } else {
+ ci.println(node + " " + installedSwView.get(entry).toString());
}
}
}
public void _frmGroupFlows(CommandInterpreter ci) {
+ String group = ci.nextArgument();
+ if (group == null) {
+ ci.println("frmGroupFlows <group> [verbose]");
+ return;
+ }
boolean verbose = false;
String verboseCheck = ci.nextArgument();
if (verboseCheck != null) {
verbose = verboseCheck.equalsIgnoreCase("true");
}
+ if (!groupFlows.containsKey(group)) {
+ return;
+ }
// Dump per node database
- for (Entry<String, Set<FlowEntryInstall>> entry : this.groupFlows
- .entrySet()) {
- String group = entry.getKey();
- ci.println("Group " + group + ":");
- for (FlowEntryInstall flow : entry.getValue()) {
- if (!verbose) {
- ci.println(flow.getNode() + " " + flow.getFlowName());
- } else {
- ci.println(flow.getNode() + " " + flow.toString());
- }
+ ci.println("Group " + group + ":\n");
+ for (FlowEntryInstall flowEntry : groupFlows.get(group)) {
+ if (!verbose) {
+ ci.println(flowEntry.getNode() + " " + flowEntry.getFlowName());
+ } else {
+ ci.println(flowEntry.getNode() + " " + flowEntry.toString());
}
}
}
@Override
public void flowRemoved(Node node, Flow flow) {
log.trace("Received flow removed notification on {} for {}", node, flow);
- // For flow entry identification, only match and priority matter
- FlowEntry toFind = new FlowEntry("any", "any", flow, node);
- FlowEntryInstall installedEntry = this.findMatch(toFind, false);
+
+ // For flow entry identification, only node, match and priority matter
+ FlowEntryInstall test = new FlowEntryInstall(new FlowEntry("","",flow, node), null);
+ FlowEntryInstall installedEntry = this.installedSwView.get(test);
if (installedEntry == null) {
- log.trace("Entry is not know to us");
+ log.trace("Entry is not known to us");
return;
}
// Update Static flow status
+ Integer key = 0;
+ FlowConfig target = null;
for (Map.Entry<Integer, FlowConfig> entry : staticFlows.entrySet()) {
FlowConfig conf = entry.getValue();
if (conf.isByNameAndNodeIdEqual(installedEntry.getFlowName(), node)) {
- // Update Configuration database
- conf.toggleStatus();
+ key = entry.getKey();
+ target = conf;
break;
}
}
+ if (target != null) {
+ // Update Configuration database
+ target.toggleInstallation();
+ target.setStatus(SUCCESS);
+ staticFlows.put(key, target);
+ }
+
// Update software views
this.updateLocalDatabase(installedEntry, false);
}
@Override
public void flowErrorReported(Node node, long rid, Object err) {
- log.trace("Got error {} for message rid {} from node {}",
- new Object[] {err, rid, node });
+ log.trace("Got error {} for message rid {} from node {}", new Object[] { err, rid, node });
+ pendingEvents.offer(new ErrorReportedEvent(rid, node, err));
+ }
+
+ private void processErrorEvent(ErrorReportedEvent event) {
+ Node node = event.getNode();
+ long rid = event.getRequestId();
+ Object error = event.getError();
+ String errorString = (error == null) ? "Not provided" : error.toString();
/*
- * If this was for a flow install, remove the corresponding entry
- * from the software view. If it was a Looking for the rid going through the
- * software database.
- * TODO: A more efficient rid <-> FlowEntryInstall mapping will
- * have to be added in future
+ * If this was for a flow install, remove the corresponding entry from
+ * the software view. If it was a Looking for the rid going through the
+ * software database. TODO: A more efficient rid <-> FlowEntryInstall
+ * mapping will have to be added in future
*/
- Set<FlowEntryInstall> entries = nodeFlows.get(node);
- if (entries != null) {
- FlowEntryInstall target = null;
- for (FlowEntryInstall entry : entries) {
- if (entry.getRequestId() == rid) {
- target = entry;
- break;
- }
- }
- if (target != null) {
- // This was a flow install, update database
- this.updateLocalDatabase(target, false);
+ FlowEntryInstall target = null;
+ for (FlowEntryInstall index : nodeFlows.get(node)) {
+ FlowEntryInstall entry = installedSwView.get(index);
+ if (entry.getRequestId() == rid) {
+ target = entry;
+ break;
}
}
-
+ if (target != null) {
+ // This was a flow install, update database
+ this.updateLocalDatabase(target, false);
+ }
+
// Notify listeners
if (frmAware != null) {
synchronized (frmAware) {
for (IForwardingRulesManagerAware frma : frmAware) {
try {
- frma.requestFailed(rid, err.toString());
+ frma.requestFailed(rid, errorString);
} catch (Exception e) {
log.warn("Failed to notify {}", frma);
}
}
}
}
-
+
@Override
- public void solicitStatusResponse(Node node) {
+ public Status solicitStatusResponse(Node node, boolean blocking) {
+ Status rv = new Status(StatusCode.INTERNALERROR);
+
if (this.programmer != null) {
- programmer.sendBarrierMessage(node);
- }
- }
+ if (blocking) {
+ rv = programmer.syncSendBarrierMessage(node);
+ } else {
+ rv = programmer.asyncSendBarrierMessage(node);
+ }
+ }
+ return rv;
+ }
}