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The Object.wait() method is used to temporarily cede possession of a lock so that another thread that is requesting the lock can proceed. It must always be used inside a synchronized block or method. To make the waiting thread resume, the requesting thread must notify() it. Furthermore, the wait() method should be invoked in a loop that checks if a condition predicate holds. Note that a condition predicate is not the same as the condition expression in the loop. For example, the condition predicate for removing an element from a vector is !isEmpty() whereas the condition expression for the while loop condition is isEmpty(). The correct way to invoke wait() when the vector is empty is shown below.

public void consumeElement() {
  synchronized (vector) {
    while (vector.isEmpty()) {
      vector.wait(); 
    }

    // Consume when condition holds
  }
}

The notification mechanism notifies the waiting thread and lets it check its condition predicate. The invocation of notify() or notifyAll() in another thread cannot precisely determine which waiting thread will be resumed. A condition predicate statement is provided so that only the correct thread will resume upon receiving the notification. A condition predicate also helps when a thread is required to block until a condition becomes true, for instance, when it should not proceed without reading some data from an input stream.

When using the wait/notify mechanism, two properties come into the picture:

  • Safety: Its main goal is to ensure that all objects maintain consistent states in a multi-threaded environment. [[Lea 00]]

  • Liveness: Every operation or method invocation must execute to completion without interruptions, even if it goes against safety.

To guarantee liveness, the while loop condition should be tested before invoking the wait() method. This is because the condition predicate might have already been made true by some other thread with a good chance that the same thread also sent out a notify signal. Invoking the wait() method after the notify signal has been sent is futile and results in an indefinite blocking.

To guarantee safety, the while loop condition must be tested even after invoking wait(). While wait() is meant to block indefinitely until a notification is received, it should still be encased within a loop [[Bloch 01]], to prevent the following vulnerabilities:

  • Thread in the middle: A third thread can acquire the lock on the shared object during the interval between a notification being sent and the receiving thread resuming execution. This thread can change the state of the object, leaving it inconsistent. This is a time of check, time of use (TOCTOU) condition.
  • Malicious notification: There is no guarantee that a random notification will not be received when the condition predicate is false. This means that the invocation of wait() may be nullified by the notification.
  • Mis-delivered notification: Sometimes on receipt of a notifyAll() signal, an unrelated thread can start executing and it is possible for its condition predicate to be true. Consequently, it may resume execution whilst it was required to remain dormant.
  • Spurious wakeups: Certain JVM implementations are vulnerable to spurious wakeups that result in waiting threads waking up even without a notification [[API 06]].

Because of these reasons, it is indispensable to check the condition predicate after wait() is invoked. A while loop is the best choice for checking the condition predicate before and after invoking wait().

Similarly, the await() method of interface Condition must also be invoked inside a loop. According to the Java API [[API 06]], Interface Condition:

When waiting upon a Condition, a "spurious wakeup" is permitted to occur, in general, as a concession to the underlying platform semantics. This has little practical impact on most application programs as a Condition should always be waited upon in a loop, testing the state predicate that is being waited for. An implementation is free to remove the possibility of spurious wakeups but it is recommended that applications programmers always assume that they can occur and so always wait in a loop.

Newer code should use the java.util.concurrent concurrency utilities as opposed to the wait/notify mechanism, however, legacy code may require the wait/notify mechanism.

Noncompliant Code Example

This noncompliant code example invokes the wait() method inside a traditional if block and fails to check the post condition after the notification (accidental or malicious) is received. This means that the thread can wake up when it is not supposed to do so.

synchronized (object) {
  if (<condition does not hold>) {
    object.wait();
  }
  // Proceed when condition holds
}

Compliant Solution

This compliant solution encloses the wait() method in a while loop and as a result checks the condition during both pre and post wait() invocation times.

synchronized (object) {
  while (<condition does not hold>) {
    object.wait(); 
  }
  // Proceed when condition holds
}

Similarly, invocations of the await() method of the java.util.concurrent.locks.Condition interface should always be enclosed in a loop.

Risk Assessment

To guarantee liveness and safety, the wait() and await() methods should always be invoked inside a while loop.

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

CON18- J

low

unlikely

medium

P2

L3

Automated Detection

TODO

Related Vulnerabilities

Search for vulnerabilities resulting from the violation of this rule on the CERT website.

References

[[API 06]] Class Object
[[Bloch 01]] Item 50: Never invoke wait outside a loop
[[Lea 00]] 3.2.2 Monitor Mechanics, 1.3.2 Liveness
[[Goetz 06]] Section 14.2, Using Condition Queues


CON17-J. Avoid using ThreadGroup APIs      11. Concurrency (CON)      CON19-J. Notify all waiting threads instead of a single thread

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