src/quarantine.c - platform/external/jemalloc - Gitiles

 #define	JEMALLOC_QUARANTINE_C_
 #include "jemalloc/internal/jemalloc_internal.h"

 /*
  * quarantine pointers close to NULL are used to encode state information that
  * is used for cleaning up during thread shutdown.
  */
 #define	QUARANTINE_STATE_REINCARNATED	((quarantine_t *)(uintptr_t)1)
 #define	QUARANTINE_STATE_PURGATORY	((quarantine_t *)(uintptr_t)2)
 #define	QUARANTINE_STATE_MAX		QUARANTINE_STATE_PURGATORY

 /******************************************************************************/
 /* Data. */

 malloc_tsd_data(, quarantine, quarantine_t *, NULL)

 /******************************************************************************/
 /* Function prototypes for non-inline static functions. */

 static quarantine_t	*quarantine_grow(quarantine_t *quarantine);
 static void	quarantine_drain_one(quarantine_t *quarantine);
 static void	quarantine_drain(quarantine_t *quarantine, size_t upper_bound);

 /******************************************************************************/

 quarantine_t *
 quarantine_init(size_t lg_maxobjs)
 {
 	quarantine_t *quarantine;

 	quarantine = (quarantine_t *)imalloc(offsetof(quarantine_t, objs) +
 	    ((ZU(1) << lg_maxobjs) * sizeof(quarantine_obj_t)));
 	if (quarantine == NULL)
 		return (NULL);
 	quarantine->curbytes = 0;
 	quarantine->curobjs = 0;
 	quarantine->first = 0;
 	quarantine->lg_maxobjs = lg_maxobjs;

 	quarantine_tsd_set(&quarantine);

 	return (quarantine);
 }

 static quarantine_t *
 quarantine_grow(quarantine_t *quarantine)
 {
 	quarantine_t *ret;

 	ret = quarantine_init(quarantine->lg_maxobjs + 1);
 	if (ret == NULL) {
 		quarantine_drain_one(quarantine);
 		return (quarantine);
 	}

 	ret->curbytes = quarantine->curbytes;
 	ret->curobjs = quarantine->curobjs;
 	if (quarantine->first + quarantine->curobjs <= (ZU(1) <<
 	    quarantine->lg_maxobjs)) {
 		/* objs ring buffer data are contiguous. */
 		memcpy(ret->objs, &quarantine->objs[quarantine->first],
 		    quarantine->curobjs * sizeof(quarantine_obj_t));
 	} else {
 		/* objs ring buffer data wrap around. */
 		size_t ncopy_a = (ZU(1) << quarantine->lg_maxobjs) -
 		    quarantine->first;
 		size_t ncopy_b = quarantine->curobjs - ncopy_a;

 		memcpy(ret->objs, &quarantine->objs[quarantine->first], ncopy_a
 		    * sizeof(quarantine_obj_t));
 		memcpy(&ret->objs[ncopy_a], quarantine->objs, ncopy_b *
 		    sizeof(quarantine_obj_t));
 	}
 	idalloc(quarantine);

 	return (ret);
 }

 static void
 quarantine_drain_one(quarantine_t *quarantine)
 {
 	quarantine_obj_t *obj = &quarantine->objs[quarantine->first];
 	assert(obj->usize == isalloc(obj->ptr, config_prof));
 	idalloc(obj->ptr);
 	quarantine->curbytes -= obj->usize;
 	quarantine->curobjs--;
 	quarantine->first = (quarantine->first + 1) & ((ZU(1) <<
 	    quarantine->lg_maxobjs) - 1);
 }

 static void
 quarantine_drain(quarantine_t *quarantine, size_t upper_bound)
 {

 	while (quarantine->curbytes > upper_bound && quarantine->curobjs > 0)
 		quarantine_drain_one(quarantine);
 }

 void
 quarantine(void *ptr)
 {
 	quarantine_t *quarantine;
 	size_t usize = isalloc(ptr, config_prof);

 	cassert(config_fill);
 	assert(opt_quarantine);

 	quarantine = *quarantine_tsd_get();
 	if ((uintptr_t)quarantine <= (uintptr_t)QUARANTINE_STATE_MAX) {
 		if (quarantine == QUARANTINE_STATE_PURGATORY) {
 			/*
 			 * Make a note that quarantine() was called after
 			 * quarantine_cleanup() was called.
 			 */
 			quarantine = QUARANTINE_STATE_REINCARNATED;
 			quarantine_tsd_set(&quarantine);
 		}
 		idalloc(ptr);
 		return;
 	}
 	/*
 	 * Drain one or more objects if the quarantine size limit would be
 	 * exceeded by appending ptr.
 	 */
 	if (quarantine->curbytes + usize > opt_quarantine) {
 		size_t upper_bound = (opt_quarantine >= usize) ? opt_quarantine
 		    - usize : 0;
 		quarantine_drain(quarantine, upper_bound);
 	}
 	/* Grow the quarantine ring buffer if it's full. */
 	if (quarantine->curobjs == (ZU(1) << quarantine->lg_maxobjs))
 		quarantine = quarantine_grow(quarantine);
 	/* quarantine_grow() must free a slot if it fails to grow. */
 	assert(quarantine->curobjs < (ZU(1) << quarantine->lg_maxobjs));
 	/* Append ptr if its size doesn't exceed the quarantine size. */
 	if (quarantine->curbytes + usize <= opt_quarantine) {
 		size_t offset = (quarantine->first + quarantine->curobjs) &
 		    ((ZU(1) << quarantine->lg_maxobjs) - 1);
 		quarantine_obj_t *obj = &quarantine->objs[offset];
 		obj->ptr = ptr;
 		obj->usize = usize;
 		quarantine->curbytes += usize;
 		quarantine->curobjs++;
 		if (config_fill && opt_junk) {
 			/*
 			 * Only do redzone validation if Valgrind isn't in
 			 * operation.
 			 */
 			if ((config_valgrind == false || in_valgrind == false)
 			    && usize <= SMALL_MAXCLASS)
 				arena_quarantine_junk_small(ptr, usize);
 			else
 				memset(ptr, 0x5a, usize);
 		}
 	} else {
 		assert(quarantine->curbytes == 0);
 		idalloc(ptr);
 	}
 }

 void
 quarantine_cleanup(void *arg)
 {
 	quarantine_t *quarantine = *(quarantine_t **)arg;

 	if (quarantine == QUARANTINE_STATE_REINCARNATED) {
 		/*
 		 * Another destructor deallocated memory after this destructor
 		 * was called.  Reset quarantine to QUARANTINE_STATE_PURGATORY
 		 * in order to receive another callback.
 		 */
 		quarantine = QUARANTINE_STATE_PURGATORY;
 		quarantine_tsd_set(&quarantine);
 	} else if (quarantine == QUARANTINE_STATE_PURGATORY) {
 		/*
 		 * The previous time this destructor was called, we set the key
 		 * to QUARANTINE_STATE_PURGATORY so that other destructors
 		 * wouldn't cause re-creation of the quarantine.  This time, do
 		 * nothing, so that the destructor will not be called again.
 		 */
 	} else if (quarantine != NULL) {
 		quarantine_drain(quarantine, 0);
 		idalloc(quarantine);
 		quarantine = QUARANTINE_STATE_PURGATORY;
 		quarantine_tsd_set(&quarantine);
 	}
 }

 bool
 quarantine_boot(void)
 {

 	cassert(config_fill);

 	if (quarantine_tsd_boot())
 		return (true);

 	return (false);
 }
	#define JEMALLOC_QUARANTINE_C_
	#include "jemalloc/internal/jemalloc_internal.h"

	/*
	* quarantine pointers close to NULL are used to encode state information that
	* is used for cleaning up during thread shutdown.
	*/
	#define QUARANTINE_STATE_REINCARNATED ((quarantine_t *)(uintptr_t)1)
	#define QUARANTINE_STATE_PURGATORY ((quarantine_t *)(uintptr_t)2)
	#define QUARANTINE_STATE_MAX QUARANTINE_STATE_PURGATORY

	/******************************************************************************/
	/* Data. */

	malloc_tsd_data(, quarantine, quarantine_t *, NULL)

	/******************************************************************************/
	/* Function prototypes for non-inline static functions. */

	static quarantine_t quarantine_grow(quarantine_t quarantine);
	static void quarantine_drain_one(quarantine_t *quarantine);
	static void quarantine_drain(quarantine_t *quarantine, size_t upper_bound);

	/******************************************************************************/

	quarantine_t *
	quarantine_init(size_t lg_maxobjs)
	{
	quarantine_t *quarantine;

	quarantine = (quarantine_t *)imalloc(offsetof(quarantine_t, objs) +
	((ZU(1) << lg_maxobjs) * sizeof(quarantine_obj_t)));
	if (quarantine == NULL)
	return (NULL);
	quarantine->curbytes = 0;
	quarantine->curobjs = 0;
	quarantine->first = 0;
	quarantine->lg_maxobjs = lg_maxobjs;

	quarantine_tsd_set(&quarantine);

	return (quarantine);
	}

	static quarantine_t *
	quarantine_grow(quarantine_t *quarantine)
	{
	quarantine_t *ret;

	ret = quarantine_init(quarantine->lg_maxobjs + 1);
	if (ret == NULL) {
	quarantine_drain_one(quarantine);
	return (quarantine);
	}

	ret->curbytes = quarantine->curbytes;
	ret->curobjs = quarantine->curobjs;
	if (quarantine->first + quarantine->curobjs <= (ZU(1) <<
	quarantine->lg_maxobjs)) {
	/* objs ring buffer data are contiguous. */
	memcpy(ret->objs, &quarantine->objs[quarantine->first],
	quarantine->curobjs * sizeof(quarantine_obj_t));
	} else {
	/* objs ring buffer data wrap around. */
	size_t ncopy_a = (ZU(1) << quarantine->lg_maxobjs) -
	quarantine->first;
	size_t ncopy_b = quarantine->curobjs - ncopy_a;

	memcpy(ret->objs, &quarantine->objs[quarantine->first], ncopy_a
	* sizeof(quarantine_obj_t));
	memcpy(&ret->objs[ncopy_a], quarantine->objs, ncopy_b *
	sizeof(quarantine_obj_t));
	}
	idalloc(quarantine);

	return (ret);
	}

	static void
	quarantine_drain_one(quarantine_t *quarantine)
	{
	quarantine_obj_t *obj = &quarantine->objs[quarantine->first];
	assert(obj->usize == isalloc(obj->ptr, config_prof));
	idalloc(obj->ptr);
	quarantine->curbytes -= obj->usize;
	quarantine->curobjs--;
	quarantine->first = (quarantine->first + 1) & ((ZU(1) <<
	quarantine->lg_maxobjs) - 1);
	}

	static void
	quarantine_drain(quarantine_t *quarantine, size_t upper_bound)
	{

	while (quarantine->curbytes > upper_bound && quarantine->curobjs > 0)
	quarantine_drain_one(quarantine);
	}

	void
	quarantine(void *ptr)
	{
	quarantine_t *quarantine;
	size_t usize = isalloc(ptr, config_prof);

	cassert(config_fill);
	assert(opt_quarantine);

	quarantine = *quarantine_tsd_get();
	if ((uintptr_t)quarantine <= (uintptr_t)QUARANTINE_STATE_MAX) {
	if (quarantine == QUARANTINE_STATE_PURGATORY) {
	/*
	* Make a note that quarantine() was called after
	* quarantine_cleanup() was called.
	*/
	quarantine = QUARANTINE_STATE_REINCARNATED;
	quarantine_tsd_set(&quarantine);
	}
	idalloc(ptr);
	return;
	}
	/*
	* Drain one or more objects if the quarantine size limit would be
	* exceeded by appending ptr.
	*/
	if (quarantine->curbytes + usize > opt_quarantine) {
	size_t upper_bound = (opt_quarantine >= usize) ? opt_quarantine
	- usize : 0;
	quarantine_drain(quarantine, upper_bound);
	}
	/* Grow the quarantine ring buffer if it's full. */
	if (quarantine->curobjs == (ZU(1) << quarantine->lg_maxobjs))
	quarantine = quarantine_grow(quarantine);
	/* quarantine_grow() must free a slot if it fails to grow. */
	assert(quarantine->curobjs < (ZU(1) << quarantine->lg_maxobjs));
	/* Append ptr if its size doesn't exceed the quarantine size. */
	if (quarantine->curbytes + usize <= opt_quarantine) {
	size_t offset = (quarantine->first + quarantine->curobjs) &
	((ZU(1) << quarantine->lg_maxobjs) - 1);
	quarantine_obj_t *obj = &quarantine->objs[offset];
	obj->ptr = ptr;
	obj->usize = usize;
	quarantine->curbytes += usize;
	quarantine->curobjs++;
	if (config_fill && opt_junk) {
	/*
	* Only do redzone validation if Valgrind isn't in
	* operation.
	*/
	if ((config_valgrind == false \|\| in_valgrind == false)
	&& usize <= SMALL_MAXCLASS)
	arena_quarantine_junk_small(ptr, usize);
	else
	memset(ptr, 0x5a, usize);
	}
	} else {
	assert(quarantine->curbytes == 0);
	idalloc(ptr);
	}
	}

	void
	quarantine_cleanup(void *arg)
	{
	quarantine_t quarantine = (quarantine_t **)arg;

	if (quarantine == QUARANTINE_STATE_REINCARNATED) {
	/*
	* Another destructor deallocated memory after this destructor
	* was called. Reset quarantine to QUARANTINE_STATE_PURGATORY
	* in order to receive another callback.
	*/
	quarantine = QUARANTINE_STATE_PURGATORY;
	quarantine_tsd_set(&quarantine);
	} else if (quarantine == QUARANTINE_STATE_PURGATORY) {
	/*
	* The previous time this destructor was called, we set the key
	* to QUARANTINE_STATE_PURGATORY so that other destructors
	* wouldn't cause re-creation of the quarantine. This time, do
	* nothing, so that the destructor will not be called again.
	*/
	} else if (quarantine != NULL) {
	quarantine_drain(quarantine, 0);
	idalloc(quarantine);
	quarantine = QUARANTINE_STATE_PURGATORY;
	quarantine_tsd_set(&quarantine);
	}
	}

	bool
	quarantine_boot(void)
	{

	cassert(config_fill);

	if (quarantine_tsd_boot())
	return (true);

	return (false);
	}