@SuppressWarnings("unchecked")
@Override
public void allocate(Allocation allocInfo) throws Exception {
RestrictedTypes.allocateNamedUnitlessResources(
allocInfo.getAllocationTokens().size(),
allocInfo.getVmType().allocator(),
(Predicate) Predicates.alwaysTrue());
}
@Override
public boolean apply(Allocation allocInfo)
throws MetadataException, AuthException, VerificationException {
RunInstancesType msg = allocInfo.getRequest();
String imageId = msg.getImageId();
VmType vmType = allocInfo.getVmType();
try {
BootableSet bootSet = Emis.newBootableSet(imageId);
allocInfo.setBootableSet(bootSet);
// Add (1024L * 1024L * 10) to handle NTFS min requirements.
if (!bootSet.isBlockStorage()) {
if (Platform.windows.equals(bootSet.getMachine().getPlatform())
&& bootSet.getMachine().getImageSizeBytes()
> ((1024L * 1024L * 1024L * vmType.getDisk()) + (1024L * 1024L * 10))) {
throw new ImageInstanceTypeVerificationException(
"Unable to run instance "
+ bootSet.getMachine().getDisplayName()
+ " in which the size "
+ bootSet.getMachine().getImageSizeBytes()
+ " bytes of the instance is greater than the vmType "
+ vmType.getDisplayName()
+ " size "
+ vmType.getDisk()
+ " GB.");
} else if (bootSet.getMachine().getImageSizeBytes()
> ((1024L * 1024L * 1024L * vmType.getDisk()))) {
throw new ImageInstanceTypeVerificationException(
"Unable to run instance "
+ bootSet.getMachine().getDisplayName()
+ " in which the size "
+ bootSet.getMachine().getImageSizeBytes()
+ " bytes of the instance is greater than the vmType "
+ vmType.getDisplayName()
+ " size "
+ vmType.getDisk()
+ " GB.");
}
}
} catch (VerificationException e) {
throw e;
} catch (MetadataException ex) {
LOG.error(ex);
throw ex;
} catch (RuntimeException ex) {
LOG.error(ex);
throw new VerificationException(
"Failed to verify references for request: "
+ msg.toSimpleString()
+ " because of: "
+ ex.getMessage(),
ex);
}
return true;
}
@Override
public void allocate(Allocation allocInfo) throws Exception {
Partition reqPartition = allocInfo.getPartition();
String zoneName = reqPartition.getName();
String vmTypeName = allocInfo.getVmType().getName();
/* Validate min and max amount */
final int minAmount = allocInfo.getMinCount();
final int maxAmount = allocInfo.getMaxCount();
if (minAmount > maxAmount)
throw new RuntimeException(
"Maximum instance count must not be smaller than minimum instance count");
/* Retrieve our context and list of clusters associated with this zone */
List<Cluster> authorizedClusters = this.doPrivilegedLookup(zoneName, vmTypeName);
int remaining = maxAmount;
int allocated = 0;
int available;
LOG.info(
"Found authorized clusters: "
+ Iterables.transform(authorizedClusters, HasName.GET_NAME));
/* Do we have any VM available throughout our clusters? */
if ((available = checkAvailability(vmTypeName, authorizedClusters)) < minAmount) {
throw new NotEnoughResourcesException(
"Not enough resources ("
+ available
+ " in "
+ zoneName
+ " < "
+ minAmount
+ "): vm instances.");
} else {
for (Cluster cluster : authorizedClusters) {
if (remaining <= 0) {
break;
} else {
ResourceState state = cluster.getNodeState();
Partition partition = cluster.getConfiguration().lookupPartition();
/* Has a partition been set if the AZ was not specified? */
if (allocInfo.getPartition().equals(Partition.DEFAULT)) {
/*
* Ok, do we have enough slots in this partition to support our request? We should have at least
* the minimum. The list is sorted in order of resource availability from the cluster with the most
* available to the cluster with the least amount available. This is why we don't check against the
* maxAmount value since its a best effort at this point. If we select the partition here and we
* can't fit maxAmount, based on the sorting order, the next partition will not fit maxAmount anyway.
*/
int zoneAvailable = checkZoneAvailability(vmTypeName, partition, authorizedClusters);
if (zoneAvailable < minAmount) continue;
/* Lets use this partition */
allocInfo.setPartition(partition);
} else if (!allocInfo.getPartition().equals(partition)) {
/* We should only pick clusters that are part of the selected AZ */
continue;
}
if (allocInfo.getBootSet().getMachine() instanceof BlockStorageImageInfo) {
try {
Topology.lookup(Storage.class, partition);
} catch (Exception ex) {
allocInfo.abort();
allocInfo.setPartition(reqPartition);
throw new NotEnoughResourcesException(
"Not enough resources: Cannot run EBS instances in partition w/o a storage controller: "
+ ex.getMessage(),
ex);
}
}
try {
int tryAmount =
(remaining > state.getAvailability(vmTypeName).getAvailable())
? state.getAvailability(vmTypeName).getAvailable()
: remaining;
List<ResourceToken> tokens =
this.requestResourceToken(allocInfo, tryAmount, maxAmount);
remaining -= tokens.size();
allocated += tokens.size();
} catch (Exception t) {
LOG.error(t);
Logs.extreme().error(t, t);
allocInfo.abort();
allocInfo.setPartition(reqPartition);
/* if we still have some allocation remaining AND no more resources are available */
if (((available = checkZoneAvailability(vmTypeName, partition, authorizedClusters))
< remaining)
&& (remaining > 0)) {
throw new NotEnoughResourcesException(
"Not enough resources ("
+ available
+ " in "
+ zoneName
+ " < "
+ minAmount
+ "): vm instances.",
t);
} else {
throw new NotEnoughResourcesException(t.getMessage(), t);
}
}
}
}
/* Were we able to meet our minimum requirements? */
if ((allocated < minAmount) && (remaining > 0)) {
allocInfo.abort();
allocInfo.setPartition(reqPartition);
if (reqPartition.equals(Partition.DEFAULT)) {
throw new NotEnoughResourcesException(
"Not enough resources available in all zone for " + minAmount + "): vm instances.");
} else {
available = checkZoneAvailability(vmTypeName, reqPartition, authorizedClusters);
throw new NotEnoughResourcesException(
"Not enough resources ("
+ available
+ " in "
+ zoneName
+ " < "
+ minAmount
+ "): vm instances.");
}
}
}
}
private List<ResourceToken> requestResourceToken(
final Allocation allocInfo, final int tryAmount, final int maxAmount) throws Exception {
ServiceConfiguration config =
Topology.lookup(ClusterController.class, allocInfo.getPartition());
Cluster cluster = Clusters.lookup(config);
/**
* TODO:GRZE: this is the call path which needs to trigger gating.
* It shouldn't be handled directly here, but instead be handled in {@link ResourceState#requestResourceAllocation().
*
*/
if (cluster.getGateLock().readLock().tryLock(60, TimeUnit.SECONDS)) {
try {
final ResourceState state = cluster.getNodeState();
/**
* NOTE: If the defined instance type has an ordering conflict w/ some other type then it
* isn't safe to service TWO requests which use differing types during the same resource
* refresh duty cycle. This determines whether or not an asynchronous allocation is safe
* to do for the request instance type or whether a synchronous resource availability
* refresh is needed.
*/
boolean unorderedType = VmTypes.isUnorderedType(allocInfo.getVmType());
boolean forceResourceRefresh = state.hasUnorderedTokens() || unorderedType;
/**
* GRZE: if the vm type is not "nicely" ordered then we force a refresh of the actual
* cluster state. Note: we already hold the cluster gating lock here so this update will
* be mutual exclusive wrt both resource allocations and cluster state updates.
*/
if (forceResourceRefresh) {
cluster.refreshResources();
}
final List<ResourceToken> tokens =
state.requestResourceAllocation(allocInfo, tryAmount, maxAmount);
final Iterator<ResourceToken> tokenIterator = tokens.iterator();
try {
final Supplier<ResourceToken> allocator =
new Supplier<ResourceToken>() {
@Override
public ResourceToken get() {
final ResourceToken ret = tokenIterator.next();
allocInfo.getAllocationTokens().add(ret);
return ret;
}
};
RestrictedTypes.allocateUnitlessResources(tokens.size(), allocator);
} finally {
// release any tokens that were not allocated
Iterators.all(
tokenIterator,
new Predicate<ResourceToken>() {
@Override
public boolean apply(final ResourceToken resourceToken) {
state.releaseToken(resourceToken);
return true;
}
});
}
return allocInfo.getAllocationTokens();
} finally {
cluster.getGateLock().readLock().unlock();
}
} else {
throw new ServiceStateException(
"Failed to allocate resources in the zone "
+ cluster.getPartition()
+ ", it is currently locked for maintenance.");
}
}