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

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

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

 static malloc_mutex_t	base_mtx;
 static extent_tree_t	base_avail_szad;
 static extent_node_t	*base_nodes;
 static size_t		base_allocated;
 static size_t		base_resident;
 static size_t		base_mapped;

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

 /* base_mtx must be held. */
 static extent_node_t *
 base_node_try_alloc(void)
 {
 	extent_node_t *node;

 	if (base_nodes == NULL)
 		return (NULL);
 	node = base_nodes;
 	base_nodes = *(extent_node_t **)node;
 	JEMALLOC_VALGRIND_MAKE_MEM_UNDEFINED(node, sizeof(extent_node_t));
 	return (node);
 }

 /* base_mtx must be held. */
 static void
 base_node_dalloc(extent_node_t *node)
 {

 	JEMALLOC_VALGRIND_MAKE_MEM_UNDEFINED(node, sizeof(extent_node_t));
 	*(extent_node_t **)node = base_nodes;
 	base_nodes = node;
 }

 /* base_mtx must be held. */
 static extent_node_t *
 base_chunk_alloc(size_t minsize)
 {
 	extent_node_t *node;
 	size_t csize, nsize;
 	void *addr;

 	assert(minsize != 0);
 	node = base_node_try_alloc();
 	/* Allocate enough space to also carve a node out if necessary. */
 	nsize = (node == NULL) ? CACHELINE_CEILING(sizeof(extent_node_t)) : 0;
 	csize = CHUNK_CEILING(minsize + nsize);
 	addr = chunk_alloc_base(csize);
 	if (addr == NULL) {
 		if (node != NULL)
 			base_node_dalloc(node);
 		return (NULL);
 	}
 	base_mapped += csize;
 	if (node == NULL) {
 		node = (extent_node_t *)addr;
 		addr = (void *)((uintptr_t)addr + nsize);
 		csize -= nsize;
 		if (config_stats) {
 			base_allocated += nsize;
 			base_resident += PAGE_CEILING(nsize);
 		}
 	}
 	extent_node_init(node, NULL, addr, csize, true, true);
 	return (node);
 }

 /*
  * base_alloc() guarantees demand-zeroed memory, in order to make multi-page
  * sparse data structures such as radix tree nodes efficient with respect to
  * physical memory usage.
  */
 void *
 base_alloc(size_t size)
 {
 	void *ret;
 	size_t csize, usize;
 	extent_node_t *node;
 	extent_node_t key;

 	/*
 	 * Round size up to nearest multiple of the cacheline size, so that
 	 * there is no chance of false cache line sharing.
 	 */
 	csize = CACHELINE_CEILING(size);

 	usize = s2u(csize);
 	extent_node_init(&key, NULL, NULL, usize, false, false);
 	malloc_mutex_lock(&base_mtx);
 	node = extent_tree_szad_nsearch(&base_avail_szad, &key);
 	if (node != NULL) {
 		/* Use existing space. */
 		extent_tree_szad_remove(&base_avail_szad, node);
 	} else {
 		/* Try to allocate more space. */
 		node = base_chunk_alloc(csize);
 	}
 	if (node == NULL) {
 		ret = NULL;
 		goto label_return;
 	}

 	ret = extent_node_addr_get(node);
 	if (extent_node_size_get(node) > csize) {
 		extent_node_addr_set(node, (void *)((uintptr_t)ret + csize));
 		extent_node_size_set(node, extent_node_size_get(node) - csize);
 		extent_tree_szad_insert(&base_avail_szad, node);
 	} else
 		base_node_dalloc(node);
 	if (config_stats) {
 		base_allocated += csize;
 		/*
 		 * Add one PAGE to base_resident for every page boundary that is
 		 * crossed by the new allocation.
 		 */
 		base_resident += PAGE_CEILING((uintptr_t)ret + csize) -
 		    PAGE_CEILING((uintptr_t)ret);
 	}
 	JEMALLOC_VALGRIND_MAKE_MEM_DEFINED(ret, csize);
 label_return:
 	malloc_mutex_unlock(&base_mtx);
 	return (ret);
 }

 void
 base_stats_get(size_t *allocated, size_t *resident, size_t *mapped)
 {

 	malloc_mutex_lock(&base_mtx);
 	assert(base_allocated <= base_resident);
 	assert(base_resident <= base_mapped);
 	*allocated = base_allocated;
 	*resident = base_resident;
 	*mapped = base_mapped;
 	malloc_mutex_unlock(&base_mtx);
 }

 bool
 base_boot(void)
 {

 	if (malloc_mutex_init(&base_mtx))
 		return (true);
 	extent_tree_szad_new(&base_avail_szad);
 	base_nodes = NULL;

 	return (false);
 }

 void
 base_prefork(void)
 {

 	malloc_mutex_prefork(&base_mtx);
 }

 void
 base_postfork_parent(void)
 {

 	malloc_mutex_postfork_parent(&base_mtx);
 }

 void
 base_postfork_child(void)
 {

 	malloc_mutex_postfork_child(&base_mtx);
 }
	#define JEMALLOC_BASE_C_
	#include "jemalloc/internal/jemalloc_internal.h"

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

	static malloc_mutex_t base_mtx;
	static extent_tree_t base_avail_szad;
	static extent_node_t *base_nodes;
	static size_t base_allocated;
	static size_t base_resident;
	static size_t base_mapped;

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

	/* base_mtx must be held. */
	static extent_node_t *
	base_node_try_alloc(void)
	{
	extent_node_t *node;

	if (base_nodes == NULL)
	return (NULL);
	node = base_nodes;
	base_nodes = (extent_node_t *)node;
	JEMALLOC_VALGRIND_MAKE_MEM_UNDEFINED(node, sizeof(extent_node_t));
	return (node);
	}

	/* base_mtx must be held. */
	static void
	base_node_dalloc(extent_node_t *node)
	{

	JEMALLOC_VALGRIND_MAKE_MEM_UNDEFINED(node, sizeof(extent_node_t));
	(extent_node_t *)node = base_nodes;
	base_nodes = node;
	}

	/* base_mtx must be held. */
	static extent_node_t *
	base_chunk_alloc(size_t minsize)
	{
	extent_node_t *node;
	size_t csize, nsize;
	void *addr;

	assert(minsize != 0);
	node = base_node_try_alloc();
	/* Allocate enough space to also carve a node out if necessary. */
	nsize = (node == NULL) ? CACHELINE_CEILING(sizeof(extent_node_t)) : 0;
	csize = CHUNK_CEILING(minsize + nsize);
	addr = chunk_alloc_base(csize);
	if (addr == NULL) {
	if (node != NULL)
	base_node_dalloc(node);
	return (NULL);
	}
	base_mapped += csize;
	if (node == NULL) {
	node = (extent_node_t *)addr;
	addr = (void *)((uintptr_t)addr + nsize);
	csize -= nsize;
	if (config_stats) {
	base_allocated += nsize;
	base_resident += PAGE_CEILING(nsize);
	}
	}
	extent_node_init(node, NULL, addr, csize, true, true);
	return (node);
	}

	/*
	* base_alloc() guarantees demand-zeroed memory, in order to make multi-page
	* sparse data structures such as radix tree nodes efficient with respect to
	* physical memory usage.
	*/
	void *
	base_alloc(size_t size)
	{
	void *ret;
	size_t csize, usize;
	extent_node_t *node;
	extent_node_t key;

	/*
	* Round size up to nearest multiple of the cacheline size, so that
	* there is no chance of false cache line sharing.
	*/
	csize = CACHELINE_CEILING(size);

	usize = s2u(csize);
	extent_node_init(&key, NULL, NULL, usize, false, false);
	malloc_mutex_lock(&base_mtx);
	node = extent_tree_szad_nsearch(&base_avail_szad, &key);
	if (node != NULL) {
	/* Use existing space. */
	extent_tree_szad_remove(&base_avail_szad, node);
	} else {
	/* Try to allocate more space. */
	node = base_chunk_alloc(csize);
	}
	if (node == NULL) {
	ret = NULL;
	goto label_return;
	}

	ret = extent_node_addr_get(node);
	if (extent_node_size_get(node) > csize) {
	extent_node_addr_set(node, (void *)((uintptr_t)ret + csize));
	extent_node_size_set(node, extent_node_size_get(node) - csize);
	extent_tree_szad_insert(&base_avail_szad, node);
	} else
	base_node_dalloc(node);
	if (config_stats) {
	base_allocated += csize;
	/*
	* Add one PAGE to base_resident for every page boundary that is
	* crossed by the new allocation.
	*/
	base_resident += PAGE_CEILING((uintptr_t)ret + csize) -
	PAGE_CEILING((uintptr_t)ret);
	}
	JEMALLOC_VALGRIND_MAKE_MEM_DEFINED(ret, csize);
	label_return:
	malloc_mutex_unlock(&base_mtx);
	return (ret);
	}

	void
	base_stats_get(size_t allocated, size_t resident, size_t *mapped)
	{

	malloc_mutex_lock(&base_mtx);
	assert(base_allocated <= base_resident);
	assert(base_resident <= base_mapped);
	*allocated = base_allocated;
	*resident = base_resident;
	*mapped = base_mapped;
	malloc_mutex_unlock(&base_mtx);
	}

	bool
	base_boot(void)
	{

	if (malloc_mutex_init(&base_mtx))
	return (true);
	extent_tree_szad_new(&base_avail_szad);
	base_nodes = NULL;

	return (false);
	}

	void
	base_prefork(void)
	{

	malloc_mutex_prefork(&base_mtx);
	}

	void
	base_postfork_parent(void)
	{

	malloc_mutex_postfork_parent(&base_mtx);
	}

	void
	base_postfork_child(void)
	{

	malloc_mutex_postfork_child(&base_mtx);
	}