序
本文主要研究一下flink的slot.request.timeout配置
JobManagerOptions
flink-release-1.7.2/flink-core/src/main/java/org/apache/flink/configuration/JobManagerOptions.java
@PublicEvolving
public class JobManagerOptions {
//......
/**
* The timeout in milliseconds for requesting a slot from Slot Pool.
*/
public static final ConfigOption<Long> SLOT_REQUEST_TIMEOUT =
key("slot.request.timeout")
.defaultValue(5L * 60L * 1000L)
.withDescription("The timeout in milliseconds for requesting a slot from Slot Pool.");
//......
}
- slot.request.timeout默认为5分钟
SlotManagerConfiguration
flink-release-1.7.2/flink-runtime/src/main/java/org/apache/flink/runtime/resourcemanager/slotmanager/SlotManagerConfiguration.java
public class SlotManagerConfiguration {
private static final Logger LOGGER = LoggerFactory.getLogger(SlotManagerConfiguration.class);
private final Time taskManagerRequestTimeout;
private final Time slotRequestTimeout;
private final Time taskManagerTimeout;
public SlotManagerConfiguration(
Time taskManagerRequestTimeout,
Time slotRequestTimeout,
Time taskManagerTimeout) {
this.taskManagerRequestTimeout = Preconditions.checkNotNull(taskManagerRequestTimeout);
this.slotRequestTimeout = Preconditions.checkNotNull(slotRequestTimeout);
this.taskManagerTimeout = Preconditions.checkNotNull(taskManagerTimeout);
}
public Time getTaskManagerRequestTimeout() {
return taskManagerRequestTimeout;
}
public Time getSlotRequestTimeout() {
return slotRequestTimeout;
}
public Time getTaskManagerTimeout() {
return taskManagerTimeout;
}
public static SlotManagerConfiguration fromConfiguration(Configuration configuration) throws ConfigurationException {
final String strTimeout = configuration.getString(AkkaOptions.ASK_TIMEOUT);
final Time rpcTimeout;
try {
rpcTimeout = Time.milliseconds(Duration.apply(strTimeout).toMillis());
} catch (NumberFormatException e) {
throw new ConfigurationException("Could not parse the resource manager's timeout " +
"value " + AkkaOptions.ASK_TIMEOUT + '.', e);
}
final Time slotRequestTimeout = getSlotRequestTimeout(configuration);
final Time taskManagerTimeout = Time.milliseconds(
configuration.getLong(ResourceManagerOptions.TASK_MANAGER_TIMEOUT));
return new SlotManagerConfiguration(rpcTimeout, slotRequestTimeout, taskManagerTimeout);
}
private static Time getSlotRequestTimeout(final Configuration configuration) {
final long slotRequestTimeoutMs;
if (configuration.contains(ResourceManagerOptions.SLOT_REQUEST_TIMEOUT)) {
LOGGER.warn("Config key {} is deprecated; use {} instead.",
ResourceManagerOptions.SLOT_REQUEST_TIMEOUT,
JobManagerOptions.SLOT_REQUEST_TIMEOUT);
slotRequestTimeoutMs = configuration.getLong(ResourceManagerOptions.SLOT_REQUEST_TIMEOUT);
} else {
slotRequestTimeoutMs = configuration.getLong(JobManagerOptions.SLOT_REQUEST_TIMEOUT);
}
return Time.milliseconds(slotRequestTimeoutMs);
}
}
- SlotManagerConfiguration的getSlotRequestTimeout方法会从配置文件读取JobManagerOptions.SLOT_REQUEST_TIMEOUT
SlotManager
flink-release-1.7.2/flink-runtime/src/main/java/org/apache/flink/runtime/resourcemanager/slotmanager/SlotManager.java
public class SlotManager implements AutoCloseable {
private static final Logger LOG = LoggerFactory.getLogger(SlotManager.class);
/** Scheduled executor for timeouts. */
private final ScheduledExecutor scheduledExecutor;
/** Timeout for slot requests to the task manager. */
private final Time taskManagerRequestTimeout;
/** Timeout after which an allocation is discarded. */
private final Time slotRequestTimeout;
/** Timeout after which an unused TaskManager is released. */
private final Time taskManagerTimeout;
/** Map for all registered slots. */
private final HashMap<SlotID, TaskManagerSlot> slots;
/** Index of all currently free slots. */
private final LinkedHashMap<SlotID, TaskManagerSlot> freeSlots;
/** All currently registered task managers. */
private final HashMap<InstanceID, TaskManagerRegistration> taskManagerRegistrations;
/** Map of fulfilled and active allocations for request deduplication purposes. */
private final HashMap<AllocationID, SlotID> fulfilledSlotRequests;
/** Map of pending/unfulfilled slot allocation requests. */
private final HashMap<AllocationID, PendingSlotRequest> pendingSlotRequests;
private final HashMap<TaskManagerSlotId, PendingTaskManagerSlot> pendingSlots;
/** ResourceManager's id. */
private ResourceManagerId resourceManagerId;
/** Executor for future callbacks which have to be "synchronized". */
private Executor mainThreadExecutor;
/** Callbacks for resource (de-)allocations. */
private ResourceActions resourceActions;
private ScheduledFuture<?> taskManagerTimeoutCheck;
private ScheduledFuture<?> slotRequestTimeoutCheck;
/** True iff the component has been started. */
private boolean started;
public SlotManager(
ScheduledExecutor scheduledExecutor,
Time taskManagerRequestTimeout,
Time slotRequestTimeout,
Time taskManagerTimeout) {
this.scheduledExecutor = Preconditions.checkNotNull(scheduledExecutor);
this.taskManagerRequestTimeout = Preconditions.checkNotNull(taskManagerRequestTimeout);
this.slotRequestTimeout = Preconditions.checkNotNull(slotRequestTimeout);
this.taskManagerTimeout = Preconditions.checkNotNull(taskManagerTimeout);
slots = new HashMap<>(16);
freeSlots = new LinkedHashMap<>(16);
taskManagerRegistrations = new HashMap<>(4);
fulfilledSlotRequests = new HashMap<>(16);
pendingSlotRequests = new HashMap<>(16);
pendingSlots = new HashMap<>(16);
resourceManagerId = null;
resourceActions = null;
mainThreadExecutor = null;
taskManagerTimeoutCheck = null;
slotRequestTimeoutCheck = null;
started = false;
}
public void start(ResourceManagerId newResourceManagerId, Executor newMainThreadExecutor, ResourceActions newResourceActions) {
LOG.info("Starting the SlotManager.");
this.resourceManagerId = Preconditions.checkNotNull(newResourceManagerId);
mainThreadExecutor = Preconditions.checkNotNull(newMainThreadExecutor);
resourceActions = Preconditions.checkNotNull(newResourceActions);
started = true;
taskManagerTimeoutCheck = scheduledExecutor.scheduleWithFixedDelay(
() -> mainThreadExecutor.execute(
() -> checkTaskManagerTimeouts()),
0L,
taskManagerTimeout.toMilliseconds(),
TimeUnit.MILLISECONDS);
slotRequestTimeoutCheck = scheduledExecutor.scheduleWithFixedDelay(
() -> mainThreadExecutor.execute(
() -> checkSlotRequestTimeouts()),
0L,
slotRequestTimeout.toMilliseconds(),
TimeUnit.MILLISECONDS);
}
/**
* Suspends the component. This clears the internal state of the slot manager.
*/
public void suspend() {
LOG.info("Suspending the SlotManager.");
// stop the timeout checks for the TaskManagers and the SlotRequests
if (taskManagerTimeoutCheck != null) {
taskManagerTimeoutCheck.cancel(false);
taskManagerTimeoutCheck = null;
}
if (slotRequestTimeoutCheck != null) {
slotRequestTimeoutCheck.cancel(false);
slotRequestTimeoutCheck = null;
}
for (PendingSlotRequest pendingSlotRequest : pendingSlotRequests.values()) {
cancelPendingSlotRequest(pendingSlotRequest);
}
pendingSlotRequests.clear();
ArrayList<InstanceID> registeredTaskManagers = new ArrayList<>(taskManagerRegistrations.keySet());
for (InstanceID registeredTaskManager : registeredTaskManagers) {
unregisterTaskManager(registeredTaskManager);
}
resourceManagerId = null;
resourceActions = null;
started = false;
}
public boolean registerSlotRequest(SlotRequest slotRequest) throws SlotManagerException {
checkInit();
if (checkDuplicateRequest(slotRequest.getAllocationId())) {
LOG.debug("Ignoring a duplicate slot request with allocation id {}.", slotRequest.getAllocationId());
return false;
} else {
PendingSlotRequest pendingSlotRequest = new PendingSlotRequest(slotRequest);
pendingSlotRequests.put(slotRequest.getAllocationId(), pendingSlotRequest);
try {
internalRequestSlot(pendingSlotRequest);
} catch (ResourceManagerException e) {
// requesting the slot failed --> remove pending slot request
pendingSlotRequests.remove(slotRequest.getAllocationId());
throw new SlotManagerException("Could not fulfill slot request " + slotRequest.getAllocationId() + '.', e);
}
return true;
}
}
private void checkSlotRequestTimeouts() {
if (!pendingSlotRequests.isEmpty()) {
long currentTime = System.currentTimeMillis();
Iterator<Map.Entry<AllocationID, PendingSlotRequest>> slotRequestIterator = pendingSlotRequests.entrySet().iterator();
while (slotRequestIterator.hasNext()) {
PendingSlotRequest slotRequest = slotRequestIterator.next().getValue();
if (currentTime - slotRequest.getCreationTimestamp() >= slotRequestTimeout.toMilliseconds()) {
slotRequestIterator.remove();
if (slotRequest.isAssigned()) {
cancelPendingSlotRequest(slotRequest);
}
resourceActions.notifyAllocationFailure(
slotRequest.getJobId(),
slotRequest.getAllocationId(),
new TimeoutException("The allocation could not be fulfilled in time."));
}
}
}
}
//......
}
- SlotManager的构造器接收slotRequestTimeout参数;它维护了pendingSlotRequests的map;start方法会注册slotRequestTimeoutCheck,每隔slotRequestTimeout的时间调度一次,执行的是checkSlotRequestTimeouts方法;suspend方法会cancel这些pendingSlotRequest,然后情况pendingSlotRequests的map
- registerSlotRequest方法会先执行checkDuplicateRequest判断是否有重复,没有重复的话,则将该slotRequest维护到pendingSlotRequests,然后调用internalRequestSlot进行分配,如果出现异常则从pendingSlotRequests中异常,然后抛出SlotManagerException
- checkSlotRequestTimeouts则会遍历pendingSlotRequests,然后根据slotRequest.getCreationTimestamp()及当前时间判断时间差是否大于等于slotRequestTimeout,已经超时的话,则会从pendingSlotRequests中移除该slotRequest,然后进行cancel,同时触发resourceActions.notifyAllocationFailure
小结
- SlotManagerConfiguration的getSlotRequestTimeout方法会从配置文件读取JobManagerOptions.SLOT_REQUEST_TIMEOUT;slot.request.timeout默认为5分钟
- SlotManager的构造器接收slotRequestTimeout参数;它维护了pendingSlotRequests的map;start方法会注册slotRequestTimeoutCheck,每隔slotRequestTimeout的时间调度一次,执行的是checkSlotRequestTimeouts方法;suspend方法会cancel这些pendingSlotRequest,然后情况pendingSlotRequests的map
- registerSlotRequest方法会先执行checkDuplicateRequest判断是否有重复,没有重复的话,则将该slotRequest维护到pendingSlotRequests,然后调用internalRequestSlot进行分配,如果出现异常则从pendingSlotRequests中异常,然后抛出SlotManagerException;checkSlotRequestTimeouts则会遍历pendingSlotRequests,然后根据slotRequest.getCreationTimestamp()及当前时间判断时间差是否大于等于slotRequestTimeout,已经超时的话,则会从pendingSlotRequests中移除该slotRequest,然后进行cancel,同时触发resourceActions.notifyAllocationFailure
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