Abandoning a Process

ISO/IEC JTC1 SC22 WG21 N2383 = 07-0243 - 2007-08-05

Lawrence Crowl, crowl@google.com, Lawrence@Crowl.org

This document is a revision of a portion of N2325 = 07-0185 - 2007-06-22.

Introduction

The primary problem with destruction of static-duration objects is access to static-duration objects after their destructors have executed, thus resulting in undefined behavior. To prevent this problem, N2382 Dynamic Initialization and Destruction with Concurrency requires that all user threads finish before destruction begins (via a call to exit or return from main).

In many applications, finishing a thread requires canceling the thread from the outside. See N2320 Multi-threading Library for Standard C++ and its successors for proposed mechanisms to canceling threads. For various reasons, this cancellation needs to be cooperative.

Problem

In essence, the problem is that applications may not be able to cooperatively cancel. There are a number of reasons for this problem.

In summary, relying on only cooperative cancellation to terminate processes will not meet the needs of many applications.

Solution

If cooperative cancellation is not possible, it would be better to never execute static destructors. The Committee has clearly stated that it wishes to preserve execution of static destructors in normal applications. So, we need a mechanism to abandon an application process without cooperatively canceling all threads and without executing the static destructors.

Such a mechanism already exists in the _exit function. Unfortunately, that function has no mechanism to enable applications to flush critical information to stable storage. In short, _exit is too drastic.

The existing standard has a facility (atexit) to register functions that must execute when the program exits (via a return from main or an explicit call to exit). That function, though, implies execution of the static destructors, and thus does not solve the problem.

The solution lies between _exit and exit, a function that executes registered functions, but does not execute static destructors. Threads my continue to run while registered functions execute, and static-duration variables are still live for both the threads and the registered functions.

We considered using the existing atexit function registration facility, but ultimately decided against it because programs often use atexit for destructor-like actions, and because existing compilers often use atexit to register static destructors. Thus a new registration facility is needed.

The burden of converting to the new registration facility is not large, programmers need simply find all calls to atexit and, after verifying that the register function is appropriate, also call the new registration facility. The number of calls to atexit is not large.

For the new facility, we have chosen quick_exit and at_quick_exit. Other logical choices, like _Exit already seem to be in use, while there are no occurances of quick_exit in a Google code search.

Changes to the Standard

Only one section of the standard need change to support this proposal.

18.4 Start and termination [lib.support.start.term]

In paragraph 1, table 20, edit

Functions: abort atexit at_quick_exit exit quick_exit

After the existing final paragraph 9, add a new function entry:

extern "C" int at_quick_exit(void (*f)(void))
extern "C++" int at_quick_exit(void (*f)(void))

Add a new paragraph 10,

Effects: The at_quick_exit() functions register the function pointed to by f, to be called without arguments when quick_exit is called.

Add a new paragraph 11,

For the execution of a function registered with at_quick_exit(), if control leaves the function because it provides no handler for a thrown exception, terminate() is called (18.7.3.3).

Add a new paragraph 12,

Implementation limits: The implementation shall support the registration of at least 32 functions.

Add a new paragraph 13,

Returns: The at_quick_exit() function returns zero if the registration succeeds, nozero if it fails.

After the new paragraph 13, add a new function entry:

quick_exit(int status)

Add a new paragraph 14,

Effects: Functions registered by calling at_quick_exit are called. Objects are not destroyed as a result of calling quick_exit(). Functions with at_quick_exit registration are called in the reverse order of their registration, except that a function is called after any previously registered functions that had already been called at the time it was registered.

Add a new paragraph 15,

Returns: The at_quick_exit() function does not return.