I am writing an XS module. I allocate some resource (e.g. malloc() or SvREFCNT_inc()) then do some operations involving the Perl API, then free the resource. This is fine in normal C because C has no exceptions, but code using the Perl API may croak(), thus preventing normal cleanup and leaking the resources. It therefore seems impossible to write correct XS code except for fairly simple cases.

When I croak() myself I can clean up any resources allocated so far, but I may be calling functions that croak() directly which would sidestep any cleanup code I write.

Pseudo-code to illustrate my concern:

static void some_other_function(pTHX_ Data* d) {
  ...
  if (perhaps) croak("Could not frobnicate the data");
}

MODULE = Example  PACKAGE = Example

void
xs(UV n)
  CODE:
  {
    /* Allocate resources needed for this function */
    Data* object_graph;
    Newx(object_graph, 1, Data);
    Data_init(object_graph, n);

    /* Call functions which use the Perl API */
    some_other_function(aTHX_ object_graph);

    /* Clean up before returning.
     * Not run if above code croak()s!
     * Can this be put into the XS equivalent of a  "try...finally" block?
     */
    Data_destroy(object_graph);
    Safefree(object_graph);
  }

So how do I safely clean up resources in XS code? How can I register some destructor that is run when exceptions are thrown, or when I return from XS code back to Perl code?

My ideas and findings so far:

  • I can create a class that runs necessary cleanup in the destructor, then create a mortal SV containing an instance of this class. At some point in the future Perl will free that SV and run my destructor. However, this seems rather backwards, and there has to be a better way.

  • XSAWYERX's XS Fun booklet seems to discuss DESTROY methods at great length, but not the handling of exceptions that originate within XS code.

  • LEONT's Scope::OnExit module features XS code using SAVEDESTRUCTOR() and SAVEDESTRUCTOR_X() macros. These do not seem to be documented.

  • The Perl API lists save_destructor() and save_destructor_x() functions as public but undocumented.

  • Perl's scope.h header (included by perl.h) declares SAVEDESTRUCTOR(f,p) and SAVEDESTRUCTOR_X(f,p) macros, without any further explanation. Judging from context and the Scope::OnExit code, f is a function pointer and p a void pointer that will be passed to f. The _X version is for functions that are declared with the pTHX_ macro parameter.

Am I on the right track with this? Should I use these macros as appropriate? In which Perl version were they introduced? Is there any further guidance available on their use? When precisely are the destructors triggered? Presumably at a point related to the FREETMPS or LEAVE macros?

  • 1
    Great question by the way... – stevieb Aug 20 '17 at 18:28
  • 2
    The Perl API typically only croaks on invalid input. If you call the Perl API in a way that could croak, simply check the arguments for validity yourself. The only exception is calling into Perl code where you can use the G_EVAL flag. – nwellnhof Aug 20 '17 at 20:05
  • 1
    @nwellnhof, You forgot about fatal warnings (which I mentioned above). It's not practical to check if you actually got a number instead of using SvIV. But that can warn (uninitialized, or not numeric), which can die. – ikegami Aug 20 '17 at 22:56
  • 1
    @ikegami I'm allocating temporary data structures (buffers, queues, graphs) that are needed during the execution of the XS function. They will not be returned as an SV. They are not bounded by some constant so can't be stack-allocated. I've added a piece of pseudo-code to illustrate the structure of my problem. – amon Aug 21 '17 at 8:07
  • 1
    I didn't know about SAVEDESTRUCTOR and it seems like a bulletproof way to run cleanup code. I wouldn't use Perl exceptions to handle errors in my own internal C functions, though. Instead, I'd prefer to return error codes and make the XSUB throw after releasing all resources. This should be good enough for many typical cases, like extracting data from an AV or HV. Even if there's a way that users of your library can sneak in some weird data that makes a Perl API function throw an exception and cause a memory leak, I wouldn't be too worried unless it's absolutely mission critical code. – nwellnhof Aug 21 '17 at 22:38
up vote 5 down vote accepted

Upon further research, it turns out that SAVEDESTRUCTOR is in fact documented – in perlguts rather than perlapi. The exact semantics are documented there.

I therefore assume that SAVEDESTRUCTOR is supposed to be used as a "finally" block for cleanup, and is sufficiently safe and stable.

Excerpt from Localizing changes in perlguts, which discusses the equivalent to { local $foo; ... } blocks:

There is a way to achieve a similar task from C via Perl API: create a pseudo-block, and arrange for some changes to be automatically undone at the end of it, either explicit, or via a non-local exit (via die()). A block-like construct is created by a pair of ENTER/LEAVE macros (see Returning a Scalar in perlcall). Such a construct may be created specially for some important localized task, or an existing one (like boundaries of enclosing Perl subroutine/block, or an existing pair for freeing TMPs) may be used. (In the second case the overhead of additional localization must be almost negligible.) Note that any XSUB is automatically enclosed in an ENTER/LEAVE pair.

Inside such a pseudo-block the following service is available:

  • […]

  • SAVEDESTRUCTOR(DESTRUCTORFUNC_NOCONTEXT_t f, void *p)

    At the end of pseudo-block the function f is called with the only argument p.

  • SAVEDESTRUCTOR_X(DESTRUCTORFUNC_t f, void *p)

    At the end of pseudo-block the function f is called with the implicit context argument (if any), and p.

The section also lists a couple of specialized destructors, like SAVEFREESV(SV *sv) and SAVEMORTALIZESV(SV *sv) that may be more correct than a premature sv_2mortal() in some cases.

These macros have basically been available since effectively forever, at least Perl 5.6 or older.

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.