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Backout changeset 242bbbe83dda (bug 694896) for build failures on OS X; a=khuey

This commit is contained in:
Ed Morley 2011-11-03 17:39:39 +00:00
Родитель 11f74d484d
Коммит 2a36d34066
1 изменённых файлов: 162 добавлений и 195 удалений
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357
memory/jemalloc/jemalloc.c
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@ -197,12 +197,14 @@
*/
/* #define MALLOC_BALANCE */
/*
* MALLOC_PAGEFILE causes all mmap()ed memory to be backed by temporary
* files, so that if a chunk is mapped, it is guaranteed to be swappable.
* This avoids asynchronous OOM failures that are due to VM over-commit.
*/
/* #define MALLOC_PAGEFILE */
#if (!defined(MOZ_MEMORY_WINDOWS) && !defined(MOZ_MEMORY_DARWIN))
/*
* MALLOC_PAGEFILE causes all mmap()ed memory to be backed by temporary
* files, so that if a chunk is mapped, it is guaranteed to be swappable.
* This avoids asynchronous OOM failures that are due to VM over-commit.
*/
#define MALLOC_PAGEFILE
#endif
#ifdef MALLOC_PAGEFILE
/* Write size when initializing a page file. */
@ -1389,12 +1391,21 @@ static void _malloc_postfork(void);
static bool osx_use_jemalloc = false;
static lion_malloc_zone l_szone;
/*
* Avoid lots of casts below by allowing access to l_jemalloc_zone through a
* malloc_zone_t pointer.
*/
static lion_malloc_zone l_jemalloc_zone, l_szone;
static malloc_zone_t * const jemalloc_zone = (malloc_zone_t*)(&l_jemalloc_zone);
static malloc_zone_t * szone = (malloc_zone_t*)(&l_szone);
static lion_malloc_introspection l_ozone_introspect;
/* Likewise for l_zone_introspect. */
static lion_malloc_introspection l_zone_introspect, l_ozone_introspect;
static malloc_introspection_t * const zone_introspect =
(malloc_introspection_t*)(&l_zone_introspect);
static malloc_introspection_t * const ozone_introspect =
(malloc_introspection_t*)(&l_ozone_introspect);
static malloc_zone_t *create_zone(unsigned version);
static void szone2ozone(malloc_zone_t *zone, size_t size);
static size_t zone_version_size(int version);
#endif
@ -2300,9 +2311,8 @@ pages_map(void *addr, size_t size, int pfd)
}
assert(ret != NULL);
if (ret == MAP_FAILED) {
if (ret == MAP_FAILED)
ret = NULL;
}
#if defined(__ia64__)
/*
* If the allocated memory doesn't have its upper 17 bits clear, consider it
@ -2516,10 +2526,6 @@ malloc_rtree_set(malloc_rtree_t *rtree, uintptr_t key, void *val)
}
#endif
#if defined(MOZ_MEMORY_WINDOWS) || defined(JEMALLOC_USES_MAP_ALIGN) || defined(MALLOC_PAGEFILE)
/* Allocate an aligned chunk while maintaining a 1:1 correspondence between
* mmap and unmap calls. This is important on Windows, but not elsewhere. */
static void *
chunk_alloc_mmap(size_t size, bool pagefile)
{
@ -2538,6 +2544,16 @@ chunk_alloc_mmap(size_t size, bool pagefile)
#endif
pfd = -1;
/*
* Windows requires that there be a 1:1 mapping between VM
* allocation/deallocation operations. Therefore, take care here to
* acquire the final result via one mapping operation. This means
* unmapping any preliminary result that is not correctly aligned.
*
* The MALLOC_PAGEFILE code also benefits from this mapping algorithm,
* since it reduces the number of page files.
*/
#ifdef JEMALLOC_USES_MAP_ALIGN
ret = pages_map_align(size, pfd, chunksize);
#else
@ -2590,143 +2606,6 @@ RETURN:
return (ret);
}
#else /* ! (defined(MOZ_MEMORY_WINDOWS) || defined(JEMALLOC_USES_MAP_ALIGN) || defined(MALLOC_PAGEFILE)) */
/*
* Used by chunk_alloc_mmap() to decide whether to attempt the fast path and
* potentially avoid some system calls.
*/
#ifndef NO_TLS
static __thread bool mmap_unaligned_tls __attribute__((tls_model("initial-exec")));
#define MMAP_UNALIGNED_GET() mmap_unaligned_tls
#define MMAP_UNALIGNED_SET(v) do { \
mmap_unaligned_tls = (v); \
} while (0)
#else
#define NEEDS_PTHREAD_MMAP_UNALIGNED_TSD
static pthread_key_t mmap_unaligned_tsd;
#define MMAP_UNALIGNED_GET() ((bool)pthread_getspecific(mmap_unaligned_tsd))
#define MMAP_UNALIGNED_SET(v) do { \
pthread_setspecific(mmap_unaligned_tsd, (void *)(v)); \
} while (0)
#endif
/* chunk_alloc_mmap_slow and chunk_alloc_mmap were cherry-picked from upstream
* jemalloc 2.2.3 to fix Mozilla bug 694896, enable jemalloc on Mac 10.7. */
static void *
chunk_alloc_mmap_slow(size_t size, bool unaligned)
{
void *ret;
size_t offset;
/* Beware size_t wrap-around. */
if (size + chunksize <= size)
return (NULL);
ret = pages_map(NULL, size + chunksize, -1);
if (ret == NULL)
return (NULL);
/* Clean up unneeded leading/trailing space. */
offset = CHUNK_ADDR2OFFSET(ret);
if (offset != 0) {
/* Note that mmap() returned an unaligned mapping. */
unaligned = true;
/* Leading space. */
pages_unmap(ret, chunksize - offset);
ret = (void *)((uintptr_t)ret +
(chunksize - offset));
/* Trailing space. */
pages_unmap((void *)((uintptr_t)ret + size),
offset);
} else {
/* Trailing space only. */
pages_unmap((void *)((uintptr_t)ret + size),
chunksize);
}
/*
* If mmap() returned an aligned mapping, reset mmap_unaligned so that
* the next chunk_alloc_mmap() execution tries the fast allocation
* method.
*/
if (unaligned == false)
MMAP_UNALIGNED_SET(false);
return (ret);
}
static void *
chunk_alloc_mmap(size_t size, bool pagefile)
{
void *ret;
/*
* Ideally, there would be a way to specify alignment to mmap() (like
* NetBSD has), but in the absence of such a feature, we have to work
* hard to efficiently create aligned mappings. The reliable, but
* slow method is to create a mapping that is over-sized, then trim the
* excess. However, that always results in at least one call to
* pages_unmap().
*
* A more optimistic approach is to try mapping precisely the right
* amount, then try to append another mapping if alignment is off. In
* practice, this works out well as long as the application is not
* interleaving mappings via direct mmap() calls. If we do run into a
* situation where there is an interleaved mapping and we are unable to
* extend an unaligned mapping, our best option is to switch to the
* slow method until mmap() returns another aligned mapping. This will
* tend to leave a gap in the memory map that is too small to cause
* later problems for the optimistic method.
*
* Another possible confounding factor is address space layout
* randomization (ASLR), which causes mmap(2) to disregard the
* requested address. mmap_unaligned tracks whether the previous
* chunk_alloc_mmap() execution received any unaligned or relocated
* mappings, and if so, the current execution will immediately fall
* back to the slow method. However, we keep track of whether the fast
* method would have succeeded, and if so, we make a note to try the
* fast method next time.
*/
if (MMAP_UNALIGNED_GET() == false) {
size_t offset;
ret = pages_map(NULL, size, -1);
if (ret == NULL)
return (NULL);
offset = CHUNK_ADDR2OFFSET(ret);
if (offset != 0) {
MMAP_UNALIGNED_SET(true);
/* Try to extend chunk boundary. */
if (pages_map((void *)((uintptr_t)ret + size),
chunksize - offset, -1) == NULL) {
/*
* Extension failed. Clean up, then revert to
* the reliable-but-expensive method.
*/
pages_unmap(ret, size);
ret = chunk_alloc_mmap_slow(size, true);
} else {
/* Clean up unneeded leading space. */
pages_unmap(ret, chunksize - offset);
ret = (void *)((uintptr_t)ret + (chunksize -
offset));
}
}
} else
ret = chunk_alloc_mmap_slow(size, false);
return (ret);
}
#endif /* defined(MOZ_MEMORY_WINDOWS) || defined(JEMALLOC_USES_MAP_ALIGN) || defined(MALLOC_PAGEFILE) */
#ifdef MALLOC_PAGEFILE
static int
pagefile_init(size_t size)
@ -6050,49 +5929,43 @@ MALLOC_OUT:
malloc_initialized = true;
#if defined(NEEDS_PTHREAD_MMAP_UNALIGNED_TSD)
if (pthread_key_create(&mmap_unaligned_tsd, NULL) != 0) {
malloc_printf("<jemalloc>: Error in pthread_key_create()\n");
}
#endif
#ifdef MOZ_MEMORY_DARWIN
/*
* Overwrite the default memory allocator to use jemalloc everywhere.
*/
default_zone = malloc_default_zone();
/*
* Overwrite the default memory allocator to use jemalloc everywhere.
*/
default_zone = malloc_default_zone();
/*
* We only use jemalloc with versions of MacOS we've seen (10.5, 10.6, and
* 10.7). We'll have to update our code to work with newer versions,
* because the malloc zone layout is likely to change.
*/
/*
* We only use jemalloc with the 10.6 SDK:
* - With the 10.5 SDK, madvise doesn't work, leading to a 20% memory
* usage regression (bug 670492).
* - With the 10.7 SDK, jemalloc causes the browser to hang (bug 670175).
*/
osx_use_jemalloc = (default_zone->version == LEOPARD_MALLOC_ZONE_T_VERSION ||
default_zone->version == SNOW_LEOPARD_MALLOC_ZONE_T_VERSION ||
default_zone->version == LION_MALLOC_ZONE_T_VERSION);
osx_use_jemalloc = (default_zone->version == LEOPARD_MALLOC_ZONE_T_VERSION ||
default_zone->version == SNOW_LEOPARD_MALLOC_ZONE_T_VERSION);
/* Allow us dynamically turn off jemalloc for testing. */
/* Allow us dynamically turn off jemalloc for testing. */
if (getenv("NO_MAC_JEMALLOC"))
osx_use_jemalloc = false;
osx_use_jemalloc = false;
if (osx_use_jemalloc) {
size_t size;
if (osx_use_jemalloc) {
size_t size;
/* Register the custom zone. */
malloc_zone_register(create_zone(default_zone->version));
/* Register the custom zone. */
malloc_zone_register(create_zone(default_zone->version));
/*
* Convert the default szone to an "overlay zone" that is capable
* of deallocating szone-allocated objects, but allocating new
* objects from jemalloc.
*/
size = zone_version_size(default_zone->version);
szone2ozone(default_zone, size);
}
else {
szone = default_zone;
}
/*
* Convert the default szone to an "overlay zone" that is capable
* of deallocating szone-allocated objects, but allocating new
* objects from jemalloc.
*/
size = zone_version_size(default_zone->version);
szone2ozone(default_zone, size);
}
else {
szone = default_zone;
}
#endif
#ifndef MOZ_MEMORY_WINDOWS
@ -6792,6 +6665,22 @@ _malloc_postfork(void)
#ifdef MOZ_MEMORY_DARWIN
static size_t
zone_size(malloc_zone_t *zone, void *ptr)
{
/*
* There appear to be places within Darwin (such as setenv(3)) that
* cause calls to this function with pointers that *no* zone owns. If
* we knew that all pointers were owned by *some* zone, we could split
* our zone into two parts, and use one as the default allocator and
* the other as the default deallocator/reallocator. Since that will
* not work in practice, we must check all pointers to assure that they
* reside within a mapped chunk before determining size.
*/
return (isalloc_validate(ptr));
}
static void *
zone_malloc(malloc_zone_t *zone, size_t size)
{
@ -6816,12 +6705,33 @@ zone_valloc(malloc_zone_t *zone, size_t size)
return (ret);
}
static void
zone_free(malloc_zone_t *zone, void *ptr)
{
free(ptr);
}
static void *
zone_realloc(malloc_zone_t *zone, void *ptr, size_t size)
{
return (realloc(ptr, size));
}
static void *
zone_memalign(malloc_zone_t *zone, size_t alignment, size_t size)
{
return (memalign(alignment, size));
}
static void
zone_free_definite_size(malloc_zone_t *zone, void *ptr, size_t size)
{
assert(isalloc_validate(ptr) == size);
free(ptr);
}
static void *
zone_destroy(malloc_zone_t *zone)
{
@ -6841,8 +6751,6 @@ zone_good_size(malloc_zone_t *zone, size_t size)
* Actually create an object of the appropriate size, then find out
* how large it could have been without moving up to the next size
* class.
*
* I sure hope this doesn't get called often.
*/
p = malloc(size);
if (p != NULL) {
@ -6854,6 +6762,67 @@ zone_good_size(malloc_zone_t *zone, size_t size)
return (ret);
}
static void
zone_force_lock(malloc_zone_t *zone)
{
_malloc_prefork();
}
static void
zone_force_unlock(malloc_zone_t *zone)
{
_malloc_postfork();
}
static malloc_zone_t *
create_zone(unsigned version)
{
assert(malloc_initialized);
jemalloc_zone->size = (void *)zone_size;
jemalloc_zone->malloc = (void *)zone_malloc;
jemalloc_zone->calloc = (void *)zone_calloc;
jemalloc_zone->valloc = (void *)zone_valloc;
jemalloc_zone->free = (void *)zone_free;
jemalloc_zone->realloc = (void *)zone_realloc;
jemalloc_zone->destroy = (void *)zone_destroy;
jemalloc_zone->zone_name = "jemalloc_zone";
jemalloc_zone->version = version;
jemalloc_zone->batch_malloc = NULL;
jemalloc_zone->batch_free = NULL;
jemalloc_zone->introspect = zone_introspect;
zone_introspect->enumerator = NULL;
zone_introspect->good_size = (void *)zone_good_size;
zone_introspect->check = NULL;
zone_introspect->print = NULL;
zone_introspect->log = NULL;
zone_introspect->force_lock = (void *)zone_force_lock;
zone_introspect->force_unlock = (void *)zone_force_unlock;
zone_introspect->statistics = NULL;
/*
* For these fields, see the comment labelled
* MALLOC_ZONE_T_NOTE, above.
*/
/* Only used in 10.6 */
l_jemalloc_zone.m15 = (void (*)())zone_memalign;
l_jemalloc_zone.m16 = (void (*)())zone_free_definite_size;
l_zone_introspect.m9 = NULL;
/* Only used in 10.7 */
l_jemalloc_zone.m17 = NULL;
l_zone_introspect.m10 = NULL;
l_zone_introspect.m11 = NULL;
l_zone_introspect.m12 = NULL;
l_zone_introspect.m13 = NULL;
return jemalloc_zone;
}
static size_t
ozone_size(malloc_zone_t *zone, void *ptr)
{
@ -6975,10 +6944,10 @@ szone2ozone(malloc_zone_t *default_zone, size_t size)
/*
* Stash a copy of the original szone so that we can call its
* functions as needed. Note that internally, the szone stores its
* bookkeeping data structures immediately following the malloc_zone_t
* header, so when calling szone functions, we need to pass a pointer to
* the original zone structure.
* functions as needed. Note that internally, the szone stores its
* bookkeeping data structures immediately following the malloc_zone_t
* header, so when calling szone functions, we need to pass a pointer to
* the original zone structure.
*/
memcpy(szone, default_zone, size);
@ -6995,13 +6964,11 @@ szone2ozone(malloc_zone_t *default_zone, size_t size)
default_zone->free = (void *)ozone_free;
default_zone->realloc = (void *)ozone_realloc;
default_zone->destroy = (void *)zone_destroy;
default_zone->zone_name = "jemalloc_ozone";
default_zone->batch_malloc = NULL;
default_zone->batch_free = ozone_batch_free;
default_zone->introspect = ozone_introspect;
/* Don't modify default_zone->zone_name; Mac libc may rely on the name
* being unchanged. See Mozilla bug 694896. */
ozone_introspect->enumerator = NULL;
ozone_introspect->good_size = (void *)zone_good_size;
ozone_introspect->check = NULL;