According to the Java API class {{The Wiki Markup java.lang.ThreadLocal<T>
}} documentation \[[API 06|AA. Java References#API 06]\]:
...
class provides thread-local variables. According to the Java API [API 2014]:
These variables differ from their normal counterparts in that each thread that accesses one (via its
get
orset
method) has its own, independently initialized copy of the variable.ThreadLocal
instances are typically private static fields in classes that wish to associate state with a thread (e.g., a user ID or Transaction transaction ID).
...
The use of {{ThreadLocal
}} objects requires care in classes whose objects are required to be executed by multiple threads in a thread pool. The technique of thread pooling allows threads to be reused when to reduce thread creation overhead is too expensive or creating an unbounded number of threads can affect the reliability of the system. Every thread that enters the pool expects to see an object in its initial, default state. However, when {{ThreadLocal}} objects are modified from a thread which is subsequently made available for reuse, the reused thread sees the state of the {{ThreadLocal}} object as set by the previous thread instead of the expected default state \[[JPL 06|AA. Java References#JPL 06]\]or when creating an unbounded number of threads can diminish the reliability of the system. Each task that enters the pool expects to see ThreadLocal
objects in their initial, default state. However, when ThreadLocal
objects are modified on a thread that is subsequently made available for reuse, the next task executing on the reused thread sees the state of the ThreadLocal
objects as modified by the previous task that executed on that thread [JPL 2006].
Programs must ensure that each task that executes on a thread from a thread pool sees only correctly initialized instances of ThreadLocal
objects.
Noncompliant Code Example
This noncompliant code example consists of an enumeration of days (Day
) and two classes (Diary
and DiaryPool
). The Diary
class Diary
uses a ThreadLocal
variable to store thread-specific information, such as each threadtask's current day. The initial value of the current day is Monday; this it can be changed later by invoking the setDay()
method. The class also contains a threadSpecificTask()
instance method that performs a thread-specific task.
The DiaryPool
class DiaryPool
consists of two methods the doSomething1()
and doSomething2()
methods that each start a thread. The doSomething1()
method changes the initial (default) value of the day in the diary to Friday and invokes threadSpecificTask()
. On the other handHowever, doSomething2()
relies on the initial value of the day (Monday) in the diary and invokes threadSpecificTask()
. The main()
method creates one thread using doSomething1()
and two more using doSomething2()
.
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public enum Day { MONDAY, TUESDAY, WEDNESDAY, THURSDAY, FRIDAY, SATURDAY, SUNDAY; } public final class Diary { private static final ThreadLocal<Day> days = new ThreadLocal<Day>() { // Initialize to Monday protected Day initialValue() { return Day.MONDAY; } }; private static Day currentDay() { return days.get(); } public static void setDay(Day newDay) { days.set(newDay); } // Performs some thread-specific task public void threadSpecificTask() { // Do task ... } } public final class DiaryPool { final int NoOfThreadsnumOfThreads = 2; // Maximum number of threads allowed in pool final Executor exec; final Diary diary; DiaryPool() { exec = (Executor) Executors.newFixedThreadPool(NoOfThreadsnumOfThreads); diary = new Diary(); } public void doSomething1() { exec.execute(new Runnable() { @Override public void run() { Diary diary.setDay(Day.FRIDAY); diary.threadSpecificTask(); } }); } public void doSomething2() { exec.execute(new Runnable() { @Override public void run() { diary.threadSpecificTask(); } }); } public static void main(String[] args) { DiaryPool dp = new DiaryPool(); dp.doSomething1(); // Thread 1, requires current day as Friday dp.doSomething2(); // Thread 2, requires current day as Monday dp.doSomething2(); // Thread 3, requires current day as Monday } } |
The DiaryPool
class creates a thread pool that reuses a fixed number of threads operating off a shared, unbounded queue. At any point, at most NoOfThreadsthreads
will be active no more than numOfThreads
threads are actively processing tasks. If additional tasks are submitted when all threads are active, they will wait in the queue until a thread is available. When a thread is recycled in this manner, the The thread-local state of the thread persists when a thread is recycled.
The following table shows a possible execution order:
Time | Task | Pool Thread | Submitted By by Method | Day |
---|---|---|---|---|
1 | t1 | 1 |
| Friday |
2 | t2 | 2 |
| Monday |
3 | t3 | 1 |
| Friday |
In this execution order, it is expected that the two tasks (t2 and t3) started using from doSomething2()
will would observe the current day as Monday, however. However, because pool thread 1 is reused, t3 observes the day to be Friday.
Noncompliant Code Example (Increase Thread Pool Size)
This noncompliant code example increases the size of the thread pool from two to three in an attempt to mitigate the issue.:
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public final class DiaryPool { final int NoOfThreadsnumOfthreads = 3; // ... } |
Although this produces the required results increasing the size of the thread pool resolves the problem for this example, it is not a scalable solution fails to scale because changing the thread pool size is inadequate when more insufficient if additional tasks can be submitted to the pool.
Compliant Solution (try-finally
Clause)
This compliant solution adds the removeDay()
method to the Diary
class and wraps the statements in the doSomething1()
method of class DiaryPool
in a try-finally
block. The finally
block restores the initial state of the thread-local days
object days
by removing the current thread's value from it.
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public final class Diary { // ... public static void removeDay() { days.remove(); } } public final class DiaryPool { // ... public void doSomething1() { exec.execute(new Runnable() { @Override public void run() { try { Diary.setDay(Day.FRIDAY); diary.threadSpecificTask(); } finally { Diary.removeDay(); // Diary.setDay(Day.MONDAY) // can also be used } } }); } // ... } |
If the thread-local variable is read by the same thread again, it is reinitialized using {{the Wiki Markup initialValue()
}} method unless the thread explicitly sets the value before this happens \[[API 06|AA. Java References#API 06]\]. This solution transfers the burden of maintainability to the client ({{DiaryPool}}) but is a good option when the {{Diary}} class cannot be the task has already set the variable's value explicitly [API 2014]. This solution transfers the responsibility for maintenance to the client (DiaryPool
) but is a good option when the Diary
class cannot be modified.
Compliant Solution (beforeExecute()
)
This compliant solution uses a custom ThreadPoolExecutor
that extends ThreadPoolExecutor
and overrides the beforeExecute()
method. This The beforeExecute()
method is invoked before the Runnable
task is executed in the specified thread. It is used to reinitialize The method reinitializes the thread-local variable before task r
is executed by thread t
.
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class CustomThreadPoolExecutor extends ThreadPoolExecutor { public CustomThreadPoolExecutor(int corePoolSize, int maximumPoolSize, long keepAliveTime, long keepAliveTime, TimeUnit unit, BlockingQueue<Runnable> workQueue) { super(corePoolSize, maximumPoolSize, keepAliveTime, unit, workQueue); } @Override public void beforeExecute(Thread t, Runnable r) { if (t == null || r == null) { throw new NullPointerException(); } Diary.setDay(Day.MONDAY); super.beforeExecute(t, r); } } public final class DiaryPool { // ... DiaryPool() { exec = new CustomThreadPoolExecutor(NoOfThreadsNumOfthreads, NoOfThreadsNumOfthreads, 10, TimeUnit.SECONDS, new ArrayBlockingQueue<Runnable>(10)); diary = new Diary(); } // ... } |
Exceptions
CON33TPS04-J-EX1: If the state of the EX0: It is unnecessary to reinitialize a ThreadLocal
object that does not change state after initialization, it is safe to use a thread pool. For example, there may be only one type of database connection represented by the initial value of the ThreadLocal
object.
Risk Assessment
When objects of classes that use Objects using ThreadLocal
data are and executed by different tasks in a thread pool by different threads without reinitialization , the objects might acquire stale values, resulting in corrupt statemight be in an unexpected state when reused.
Rule | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
CON33TPS04-J | medium Medium | probable Probable | high High | P4 | L3 |
Automated Detection
TODO
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
References
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Bibliography
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[ |
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Section 14.13 |
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, " |
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Variables" |
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CON28-J. Do not publish partially initialized objects 11. Concurrency (CON) VOID CON28-J. Prevent partially initialized objects from being used