server-skynet-source-3rd-je.../jemalloc/src/jemalloc_chunk_swap.c

#define	JEMALLOC_CHUNK_SWAP_C_
#include "internal/jemalloc_internal.h"
#ifdef JEMALLOC_SWAP
/******************************************************************************/
/* Data. */

malloc_mutex_t	swap_mtx;
bool		swap_enabled;
#ifdef JEMALLOC_STATS
size_t		swap_avail;
#endif

static bool	swap_prezeroed;

/* Base address of the mmap()ed file(s). */
static void	*swap_base;
/* Current end of the space in use (<= swap_max). */
static void	*swap_end;
/* Absolute upper limit on file-backed addresses. */
static void	*swap_max;

/*
 * Trees of chunks that were previously allocated (trees differ only in node
 * ordering).  These are used when allocating chunks, in an attempt to re-use
 * address space.  Depending on function, different tree orderings are needed,
 * which is why there are two trees with the same contents.
 */
static extent_tree_t	swap_chunks_szad;
static extent_tree_t	swap_chunks_ad;

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

static void	*chunk_recycle_swap(size_t size, bool *zero);
static extent_node_t *chunk_dealloc_swap_record(void *chunk, size_t size);

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

static void *
chunk_recycle_swap(size_t size, bool *zero)
{
	extent_node_t *node, key;

	key.addr = NULL;
	key.size = size;
	malloc_mutex_lock(&swap_mtx);
	node = extent_tree_szad_nsearch(&swap_chunks_szad, &key);
	if (node != NULL) {
		void *ret = node->addr;

		/* Remove node from the tree. */
		extent_tree_szad_remove(&swap_chunks_szad, node);
		if (node->size == size) {
			extent_tree_ad_remove(&swap_chunks_ad, node);
			base_node_dealloc(node);
		} else {
			/*
			 * Insert the remainder of node's address range as a
			 * smaller chunk.  Its position within swap_chunks_ad
			 * does not change.
			 */
			assert(node->size > size);
			node->addr = (void *)((uintptr_t)node->addr + size);
			node->size -= size;
			extent_tree_szad_insert(&swap_chunks_szad, node);
		}
#ifdef JEMALLOC_STATS
		swap_avail -= size;
#endif
		malloc_mutex_unlock(&swap_mtx);

		if (*zero)
			memset(ret, 0, size);
		return (ret);
	}
	malloc_mutex_unlock(&swap_mtx);

	return (NULL);
}

void *
chunk_alloc_swap(size_t size, bool *zero)
{
	void *ret;

	assert(swap_enabled);

	ret = chunk_recycle_swap(size, zero);
	if (ret != NULL)
		return (ret);

	malloc_mutex_lock(&swap_mtx);
	if ((uintptr_t)swap_end + size <= (uintptr_t)swap_max) {
		ret = swap_end;
		swap_end = (void *)((uintptr_t)swap_end + size);
#ifdef JEMALLOC_STATS
		swap_avail -= size;
#endif
		malloc_mutex_unlock(&swap_mtx);

		if (swap_prezeroed)
			*zero = true;
		else if (*zero)
			memset(ret, 0, size);
	} else {
		malloc_mutex_unlock(&swap_mtx);
		return (NULL);
	}

	return (ret);
}

static extent_node_t *
chunk_dealloc_swap_record(void *chunk, size_t size)
{
	extent_node_t *xnode, *node, *prev, key;

	xnode = NULL;
	while (true) {
		key.addr = (void *)((uintptr_t)chunk + size);
		node = extent_tree_ad_nsearch(&swap_chunks_ad, &key);
		/* Try to coalesce forward. */
		if (node != NULL && node->addr == key.addr) {
			/*
			 * Coalesce chunk with the following address range.
			 * This does not change the position within
			 * swap_chunks_ad, so only remove/insert from/into
			 * swap_chunks_szad.
			 */
			extent_tree_szad_remove(&swap_chunks_szad, node);
			node->addr = chunk;
			node->size += size;
			extent_tree_szad_insert(&swap_chunks_szad, node);
			break;
		} else if (xnode == NULL) {
			/*
			 * It is possible that base_node_alloc() will cause a
			 * new base chunk to be allocated, so take care not to
			 * deadlock on swap_mtx, and recover if another thread
			 * deallocates an adjacent chunk while this one is busy
			 * allocating xnode.
			 */
			malloc_mutex_unlock(&swap_mtx);
			xnode = base_node_alloc();
			malloc_mutex_lock(&swap_mtx);
			if (xnode == NULL)
				return (NULL);
		} else {
			/* Coalescing forward failed, so insert a new node. */
			node = xnode;
			xnode = NULL;
			node->addr = chunk;
			node->size = size;
			extent_tree_ad_insert(&swap_chunks_ad, node);
			extent_tree_szad_insert(&swap_chunks_szad, node);
			break;
		}
	}
	/* Discard xnode if it ended up unused do to a race. */
	if (xnode != NULL)
		base_node_dealloc(xnode);

	/* Try to coalesce backward. */
	prev = extent_tree_ad_prev(&swap_chunks_ad, node);
	if (prev != NULL && (void *)((uintptr_t)prev->addr + prev->size) ==
	    chunk) {
		/*
		 * Coalesce chunk with the previous address range.  This does
		 * not change the position within swap_chunks_ad, so only
		 * remove/insert node from/into swap_chunks_szad.
		 */
		extent_tree_szad_remove(&swap_chunks_szad, prev);
		extent_tree_ad_remove(&swap_chunks_ad, prev);

		extent_tree_szad_remove(&swap_chunks_szad, node);
		node->addr = prev->addr;
		node->size += prev->size;
		extent_tree_szad_insert(&swap_chunks_szad, node);

		base_node_dealloc(prev);
	}

	return (node);
}

bool
chunk_dealloc_swap(void *chunk, size_t size)
{
	bool ret;

	assert(swap_enabled);

	malloc_mutex_lock(&swap_mtx);
	if ((uintptr_t)chunk >= (uintptr_t)swap_base
	    && (uintptr_t)chunk < (uintptr_t)swap_max) {
		extent_node_t *node;

		/* Try to coalesce with other unused chunks. */
		node = chunk_dealloc_swap_record(chunk, size);
		if (node != NULL) {
			chunk = node->addr;
			size = node->size;
		}

		/*
		 * Try to shrink the in-use memory if this chunk is at the end
		 * of the in-use memory.
		 */
		if ((void *)((uintptr_t)chunk + size) == swap_end) {
			swap_end = (void *)((uintptr_t)swap_end - size);

			if (node != NULL) {
				extent_tree_szad_remove(&swap_chunks_szad,
				    node);
				extent_tree_ad_remove(&swap_chunks_ad, node);
				base_node_dealloc(node);
			}
		} else
			madvise(chunk, size, MADV_DONTNEED);

		ret = false;
		goto RETURN;
	}

	ret = true;
RETURN:
#ifdef JEMALLOC_STATS
	swap_avail += size;
#endif
	malloc_mutex_unlock(&swap_mtx);
	return (ret);
}

bool
chunk_swap_enable(const int *fds, unsigned nfds, bool prezeroed)
{
	bool ret;
	unsigned i;
	off_t off;
	void *vaddr;
	size_t cumsize, voff;
	size_t sizes[nfds];

	malloc_mutex_lock(&swap_mtx);

	/* Get file sizes. */
	for (i = 0, cumsize = 0; i < nfds; i++) {
		off = lseek(fds[i], 0, SEEK_END);
		if (off == ((off_t)-1)) {
			ret = true;
			goto RETURN;
		}
		if (PAGE_CEILING(off) != off) {
			/* Truncate to a multiple of the page size. */
			off &= ~PAGE_MASK;
			if (ftruncate(fds[i], off) != 0) {
				ret = true;
				goto RETURN;
			}
		}
		sizes[i] = off;
		if (cumsize + off < cumsize) {
			/*
			 * Cumulative file size is greater than the total
			 * address space.  Bail out while it's still obvious
			 * what the problem is.
			 */
			ret = true;
			goto RETURN;
		}
		cumsize += off;
	}

	/* Round down to a multiple of the chunk size. */
	cumsize &= ~chunksize_mask;
	if (cumsize == 0) {
		ret = true;
		goto RETURN;
	}

	/*
	 * Allocate a chunk-aligned region of anonymous memory, which will
	 * be the final location for the memory-mapped files.
	 */
	vaddr = chunk_alloc_mmap(cumsize);
	if (vaddr == NULL) {
		ret = true;
		goto RETURN;
	}

	/* Overlay the files onto the anonymous mapping. */
	for (i = 0, voff = 0; i < nfds; i++) {
		void *addr = mmap((void *)((uintptr_t)vaddr + voff), sizes[i],
		    PROT_READ | PROT_WRITE, MAP_SHARED | MAP_FIXED, fds[i], 0);
		if (addr == MAP_FAILED) {
			char buf[STRERROR_BUF];

			strerror_r(errno, buf, sizeof(buf));
			malloc_write4("<jemalloc>",
			    ": Error in mmap(..., MAP_FIXED, ...): ",
			    buf, "\n");
			if (opt_abort)
				abort();
			if (munmap(vaddr, voff) == -1) {
				strerror_r(errno, buf, sizeof(buf));
				malloc_write4("<jemalloc>",
				    ": Error in munmap(): ", buf, "\n");
			}
			ret = true;
			goto RETURN;
		}
		assert(addr == (void *)((uintptr_t)vaddr + voff));
		voff += sizes[i];
	}

	swap_prezeroed = prezeroed;
	swap_base = vaddr;
	swap_end = swap_base;
	swap_max = (void *)((uintptr_t)vaddr + cumsize);

	swap_enabled = true;

#ifdef JEMALLOC_STATS
	swap_avail = cumsize;
#endif

	ret = false;
RETURN:
	malloc_mutex_unlock(&swap_mtx);
	return (ret);
}

bool
chunk_swap_boot(void)
{

	if (malloc_mutex_init(&swap_mtx))
		return (true);

	swap_enabled = false;
#ifdef JEMALLOC_STATS
	swap_avail = 0;
#endif
	swap_prezeroed = false;
	swap_base = NULL;
	swap_end = NULL;
	swap_max = NULL;

	extent_tree_szad_new(&swap_chunks_szad);
	extent_tree_ad_new(&swap_chunks_ad);

	return (false);
}

/******************************************************************************/
#endif /* JEMALLOC_SWAP */
Add the --enable-swap configure option. Add malloc_swap_enable(). Add the O/o JEMALLOC_OPTIONS flags, which control memory overcommit. Fix mapped memory stats reporting for arenas. 2010-01-24 18:53:40 +08:00			`#define JEMALLOC_CHUNK_SWAP_C_`
			`#include "internal/jemalloc_internal.h"`
			`#ifdef JEMALLOC_SWAP`
			`/******************************************************************************/`
			`/* Data. */`

			`malloc_mutex_t swap_mtx;`
			`bool swap_enabled;`
			`#ifdef JEMALLOC_STATS`
			`size_t swap_avail;`
			`#endif`

			`static bool swap_prezeroed;`

			`/* Base address of the mmap()ed file(s). */`
			`static void *swap_base;`
			`/* Current end of the space in use (<= swap_max). */`
			`static void *swap_end;`
			`/* Absolute upper limit on file-backed addresses. */`
			`static void *swap_max;`

			`/*`
			`* Trees of chunks that were previously allocated (trees differ only in node`
			`* ordering). These are used when allocating chunks, in an attempt to re-use`
			`* address space. Depending on function, different tree orderings are needed,`
			`* which is why there are two trees with the same contents.`
			`*/`
			`static extent_tree_t swap_chunks_szad;`
			`static extent_tree_t swap_chunks_ad;`

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

Modify chunk_alloc() to support optional zeroing. Use optional zeroing in arena_chunk_alloc() to avoid needless zeroing of chunks. This is particularly important in the context of swapfile and DSS allocation, since a long-lived application may commonly recycle chunks. 2010-01-25 09:13:07 +08:00			`static void chunk_recycle_swap(size_t size, bool zero);`
Add the --enable-swap configure option. Add malloc_swap_enable(). Add the O/o JEMALLOC_OPTIONS flags, which control memory overcommit. Fix mapped memory stats reporting for arenas. 2010-01-24 18:53:40 +08:00			`static extent_node_t chunk_dealloc_swap_record(void chunk, size_t size);`

			`/******************************************************************************/`

			`static void *`
Modify chunk_alloc() to support optional zeroing. Use optional zeroing in arena_chunk_alloc() to avoid needless zeroing of chunks. This is particularly important in the context of swapfile and DSS allocation, since a long-lived application may commonly recycle chunks. 2010-01-25 09:13:07 +08:00			`chunk_recycle_swap(size_t size, bool *zero)`
Add the --enable-swap configure option. Add malloc_swap_enable(). Add the O/o JEMALLOC_OPTIONS flags, which control memory overcommit. Fix mapped memory stats reporting for arenas. 2010-01-24 18:53:40 +08:00			`{`
			`extent_node_t *node, key;`

			`key.addr = NULL;`
			`key.size = size;`
			`malloc_mutex_lock(&swap_mtx);`
			`node = extent_tree_szad_nsearch(&swap_chunks_szad, &key);`
			`if (node != NULL) {`
			`void *ret = node->addr;`

			`/* Remove node from the tree. */`
			`extent_tree_szad_remove(&swap_chunks_szad, node);`
			`if (node->size == size) {`
			`extent_tree_ad_remove(&swap_chunks_ad, node);`
			`base_node_dealloc(node);`
			`} else {`
			`/*`
			`* Insert the remainder of node's address range as a`
			`* smaller chunk. Its position within swap_chunks_ad`
			`* does not change.`
			`*/`
			`assert(node->size > size);`
			`node->addr = (void *)((uintptr_t)node->addr + size);`
			`node->size -= size;`
			`extent_tree_szad_insert(&swap_chunks_szad, node);`
			`}`
			`#ifdef JEMALLOC_STATS`
			`swap_avail -= size;`
			`#endif`
			`malloc_mutex_unlock(&swap_mtx);`

Modify chunk_alloc() to support optional zeroing. Use optional zeroing in arena_chunk_alloc() to avoid needless zeroing of chunks. This is particularly important in the context of swapfile and DSS allocation, since a long-lived application may commonly recycle chunks. 2010-01-25 09:13:07 +08:00			`if (*zero)`
Add the --enable-swap configure option. Add malloc_swap_enable(). Add the O/o JEMALLOC_OPTIONS flags, which control memory overcommit. Fix mapped memory stats reporting for arenas. 2010-01-24 18:53:40 +08:00			`memset(ret, 0, size);`
			`return (ret);`
			`}`
			`malloc_mutex_unlock(&swap_mtx);`

			`return (NULL);`
			`}`

			`void *`
Modify chunk_alloc() to support optional zeroing. Use optional zeroing in arena_chunk_alloc() to avoid needless zeroing of chunks. This is particularly important in the context of swapfile and DSS allocation, since a long-lived application may commonly recycle chunks. 2010-01-25 09:13:07 +08:00			`chunk_alloc_swap(size_t size, bool *zero)`
Add the --enable-swap configure option. Add malloc_swap_enable(). Add the O/o JEMALLOC_OPTIONS flags, which control memory overcommit. Fix mapped memory stats reporting for arenas. 2010-01-24 18:53:40 +08:00			`{`
			`void *ret;`

			`assert(swap_enabled);`

			`ret = chunk_recycle_swap(size, zero);`
			`if (ret != NULL)`
			`return (ret);`

			`malloc_mutex_lock(&swap_mtx);`
			`if ((uintptr_t)swap_end + size <= (uintptr_t)swap_max) {`
			`ret = swap_end;`
			`swap_end = (void *)((uintptr_t)swap_end + size);`
			`#ifdef JEMALLOC_STATS`
			`swap_avail -= size;`
			`#endif`
			`malloc_mutex_unlock(&swap_mtx);`

Modify chunk_alloc() to support optional zeroing. Use optional zeroing in arena_chunk_alloc() to avoid needless zeroing of chunks. This is particularly important in the context of swapfile and DSS allocation, since a long-lived application may commonly recycle chunks. 2010-01-25 09:13:07 +08:00			`if (swap_prezeroed)`
			`*zero = true;`
			`else if (*zero)`
Add the --enable-swap configure option. Add malloc_swap_enable(). Add the O/o JEMALLOC_OPTIONS flags, which control memory overcommit. Fix mapped memory stats reporting for arenas. 2010-01-24 18:53:40 +08:00			`memset(ret, 0, size);`
			`} else {`
			`malloc_mutex_unlock(&swap_mtx);`
			`return (NULL);`
			`}`

			`return (ret);`
			`}`

			`static extent_node_t *`
			`chunk_dealloc_swap_record(void *chunk, size_t size)`
			`{`
			`extent_node_t xnode, node, *prev, key;`

			`xnode = NULL;`
			`while (true) {`
			`key.addr = (void *)((uintptr_t)chunk + size);`
			`node = extent_tree_ad_nsearch(&swap_chunks_ad, &key);`
			`/* Try to coalesce forward. */`
			`if (node != NULL && node->addr == key.addr) {`
			`/*`
			`* Coalesce chunk with the following address range.`
			`* This does not change the position within`
			`* swap_chunks_ad, so only remove/insert from/into`
			`* swap_chunks_szad.`
			`*/`
			`extent_tree_szad_remove(&swap_chunks_szad, node);`
			`node->addr = chunk;`
			`node->size += size;`
			`extent_tree_szad_insert(&swap_chunks_szad, node);`
			`break;`
			`} else if (xnode == NULL) {`
			`/*`
			`* It is possible that base_node_alloc() will cause a`
			`* new base chunk to be allocated, so take care not to`
			`* deadlock on swap_mtx, and recover if another thread`
			`* deallocates an adjacent chunk while this one is busy`
			`* allocating xnode.`
			`*/`
			`malloc_mutex_unlock(&swap_mtx);`
			`xnode = base_node_alloc();`
			`malloc_mutex_lock(&swap_mtx);`
			`if (xnode == NULL)`
			`return (NULL);`
			`} else {`
			`/* Coalescing forward failed, so insert a new node. */`
			`node = xnode;`
			`xnode = NULL;`
			`node->addr = chunk;`
			`node->size = size;`
			`extent_tree_ad_insert(&swap_chunks_ad, node);`
			`extent_tree_szad_insert(&swap_chunks_szad, node);`
			`break;`
			`}`
			`}`
			`/* Discard xnode if it ended up unused do to a race. */`
			`if (xnode != NULL)`
			`base_node_dealloc(xnode);`

			`/* Try to coalesce backward. */`
			`prev = extent_tree_ad_prev(&swap_chunks_ad, node);`
			`if (prev != NULL && (void *)((uintptr_t)prev->addr + prev->size) ==`
			`chunk) {`
			`/*`
			`* Coalesce chunk with the previous address range. This does`
			`* not change the position within swap_chunks_ad, so only`
			`* remove/insert node from/into swap_chunks_szad.`
			`*/`
			`extent_tree_szad_remove(&swap_chunks_szad, prev);`
			`extent_tree_ad_remove(&swap_chunks_ad, prev);`

			`extent_tree_szad_remove(&swap_chunks_szad, node);`
			`node->addr = prev->addr;`
			`node->size += prev->size;`
			`extent_tree_szad_insert(&swap_chunks_szad, node);`

			`base_node_dealloc(prev);`
			`}`

			`return (node);`
			`}`

			`bool`
			`chunk_dealloc_swap(void *chunk, size_t size)`
			`{`
			`bool ret;`

			`assert(swap_enabled);`

			`malloc_mutex_lock(&swap_mtx);`
			`if ((uintptr_t)chunk >= (uintptr_t)swap_base`
			`&& (uintptr_t)chunk < (uintptr_t)swap_max) {`
			`extent_node_t *node;`

			`/* Try to coalesce with other unused chunks. */`
			`node = chunk_dealloc_swap_record(chunk, size);`
			`if (node != NULL) {`
			`chunk = node->addr;`
			`size = node->size;`
			`}`

			`/*`
			`* Try to shrink the in-use memory if this chunk is at the end`
			`* of the in-use memory.`
			`*/`
			`if ((void *)((uintptr_t)chunk + size) == swap_end) {`
			`swap_end = (void *)((uintptr_t)swap_end - size);`

			`if (node != NULL) {`
			`extent_tree_szad_remove(&swap_chunks_szad,`
			`node);`
			`extent_tree_ad_remove(&swap_chunks_ad, node);`
			`base_node_dealloc(node);`
			`}`
			`} else`
			`madvise(chunk, size, MADV_DONTNEED);`

			`ret = false;`
			`goto RETURN;`
			`}`

			`ret = true;`
			`RETURN:`
			`#ifdef JEMALLOC_STATS`
			`swap_avail += size;`
			`#endif`
			`malloc_mutex_unlock(&swap_mtx);`
			`return (ret);`
			`}`

			`bool`
			`chunk_swap_enable(const int *fds, unsigned nfds, bool prezeroed)`
			`{`
			`bool ret;`
			`unsigned i;`
			`off_t off;`
			`void *vaddr;`
			`size_t cumsize, voff;`
			`size_t sizes[nfds];`

			`malloc_mutex_lock(&swap_mtx);`

			`/* Get file sizes. */`
			`for (i = 0, cumsize = 0; i < nfds; i++) {`
			`off = lseek(fds[i], 0, SEEK_END);`
			`if (off == ((off_t)-1)) {`
			`ret = true;`
			`goto RETURN;`
			`}`
			`if (PAGE_CEILING(off) != off) {`
			`/* Truncate to a multiple of the page size. */`
			`off &= ~PAGE_MASK;`
			`if (ftruncate(fds[i], off) != 0) {`
			`ret = true;`
			`goto RETURN;`
			`}`
			`}`
			`sizes[i] = off;`
			`if (cumsize + off < cumsize) {`
			`/*`
			`* Cumulative file size is greater than the total`
			`* address space. Bail out while it's still obvious`
			`* what the problem is.`
			`*/`
			`ret = true;`
			`goto RETURN;`
			`}`
			`cumsize += off;`
			`}`

			`/* Round down to a multiple of the chunk size. */`
			`cumsize &= ~chunksize_mask;`
			`if (cumsize == 0) {`
			`ret = true;`
			`goto RETURN;`
			`}`

			`/*`
			`* Allocate a chunk-aligned region of anonymous memory, which will`
			`* be the final location for the memory-mapped files.`
			`*/`
			`vaddr = chunk_alloc_mmap(cumsize);`
			`if (vaddr == NULL) {`
			`ret = true;`
			`goto RETURN;`
			`}`

			`/* Overlay the files onto the anonymous mapping. */`
			`for (i = 0, voff = 0; i < nfds; i++) {`
			`void addr = mmap((void )((uintptr_t)vaddr + voff), sizes[i],`
			`PROT_READ \| PROT_WRITE, MAP_SHARED \| MAP_FIXED, fds[i], 0);`
			`if (addr == MAP_FAILED) {`
			`char buf[STRERROR_BUF];`

			`strerror_r(errno, buf, sizeof(buf));`
			`malloc_write4("<jemalloc>",`
			`": Error in mmap(..., MAP_FIXED, ...): ",`
			`buf, "\n");`
			`if (opt_abort)`
			`abort();`
			`if (munmap(vaddr, voff) == -1) {`
			`strerror_r(errno, buf, sizeof(buf));`
			`malloc_write4("<jemalloc>",`
			`": Error in munmap(): ", buf, "\n");`
			`}`
			`ret = true;`
			`goto RETURN;`
			`}`
			`assert(addr == (void *)((uintptr_t)vaddr + voff));`
			`voff += sizes[i];`
			`}`

			`swap_prezeroed = prezeroed;`
			`swap_base = vaddr;`
			`swap_end = swap_base;`
			`swap_max = (void *)((uintptr_t)vaddr + cumsize);`

			`swap_enabled = true;`

			`#ifdef JEMALLOC_STATS`
			`swap_avail = cumsize;`
			`#endif`

			`ret = false;`
			`RETURN:`
			`malloc_mutex_unlock(&swap_mtx);`
			`return (ret);`
			`}`

			`bool`
			`chunk_swap_boot(void)`
			`{`

			`if (malloc_mutex_init(&swap_mtx))`
			`return (true);`

			`swap_enabled = false;`
			`#ifdef JEMALLOC_STATS`
			`swap_avail = 0;`
			`#endif`
			`swap_prezeroed = false;`
			`swap_base = NULL;`
			`swap_end = NULL;`
			`swap_max = NULL;`

			`extent_tree_szad_new(&swap_chunks_szad);`
			`extent_tree_ad_new(&swap_chunks_ad);`

			`return (false);`
			`}`

			`/******************************************************************************/`
			`#endif /* JEMALLOC_SWAP */`