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thread_local_alloc.c
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thread_local_alloc.c
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/*
* Copyright (c) 2000-2005 by Hewlett-Packard Company. All rights reserved.
* Copyright (c) 2008-2022 Ivan Maidanski
*
* THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
* OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
*
* Permission is hereby granted to use or copy this program
* for any purpose, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*/
#include "private/gc_priv.h"
#if defined(THREAD_LOCAL_ALLOC)
#if !defined(THREADS) && !defined(CPPCHECK)
# error Invalid config - THREAD_LOCAL_ALLOC requires GC_THREADS
#endif
#include "private/thread_local_alloc.h"
#if defined(USE_COMPILER_TLS)
__thread GC_ATTR_TLS_FAST
#elif defined(USE_WIN32_COMPILER_TLS)
__declspec(thread) GC_ATTR_TLS_FAST
#endif
GC_key_t GC_thread_key;
static GC_bool keys_initialized;
/* Return a single nonempty freelist fl to the global one pointed to */
/* by gfl. */
static void return_single_freelist(void *fl, void **gfl)
{
if (*gfl == 0) {
*gfl = fl;
} else {
void *q, **qptr;
GC_ASSERT(GC_size(fl) == GC_size(*gfl));
/* Concatenate: */
qptr = &(obj_link(fl));
while ((word)(q = *qptr) >= HBLKSIZE)
qptr = &(obj_link(q));
GC_ASSERT(0 == q);
*qptr = *gfl;
*gfl = fl;
}
}
/* Recover the contents of the freelist array fl into the global one gfl. */
static void return_freelists(void **fl, void **gfl)
{
int i;
for (i = 1; i < GC_TINY_FREELISTS; ++i) {
if ((word)(fl[i]) >= HBLKSIZE) {
return_single_freelist(fl[i], &gfl[i]);
}
/* Clear fl[i], since the thread structure may hang around. */
/* Do it in a way that is likely to trap if we access it. */
fl[i] = (ptr_t)HBLKSIZE;
}
/* The 0 granule freelist really contains 1 granule objects. */
if ((word)fl[0] >= HBLKSIZE
# ifdef GC_GCJ_SUPPORT
&& fl[0] != ERROR_FL
# endif
) {
return_single_freelist(fl[0], &gfl[1]);
}
}
#ifdef USE_PTHREAD_SPECIFIC
/* Re-set the TLS value on thread cleanup to allow thread-local */
/* allocations to happen in the TLS destructors. */
/* GC_unregister_my_thread (and similar routines) will finally set */
/* the GC_thread_key to NULL preventing this destructor from being */
/* called repeatedly. */
static void reset_thread_key(void* v) {
pthread_setspecific(GC_thread_key, v);
}
#else
# define reset_thread_key 0
#endif
/* Each thread structure must be initialized. */
/* This call must be made from the new thread. */
GC_INNER void GC_init_thread_local(GC_tlfs p)
{
int i, j, res;
GC_ASSERT(I_HOLD_LOCK());
if (!EXPECT(keys_initialized, TRUE)) {
# ifdef USE_CUSTOM_SPECIFIC
/* Ensure proper alignment of a "pushed" GC symbol. */
GC_ASSERT((word)(&GC_thread_key) % sizeof(word) == 0);
# endif
res = GC_key_create(&GC_thread_key, reset_thread_key);
if (COVERT_DATAFLOW(res) != 0) {
ABORT("Failed to create key for local allocator");
}
keys_initialized = TRUE;
}
res = GC_setspecific(GC_thread_key, p);
if (COVERT_DATAFLOW(res) != 0) {
ABORT("Failed to set thread specific allocation pointers");
}
for (j = 0; j < GC_TINY_FREELISTS; ++j) {
for (i = 0; i < THREAD_FREELISTS_KINDS; ++i) {
p -> _freelists[i][j] = (void *)(word)1;
}
# ifdef GC_GCJ_SUPPORT
p -> gcj_freelists[j] = (void *)(word)1;
# endif
}
/* The size 0 free lists are handled like the regular free lists, */
/* to ensure that the explicit deallocation works. However, */
/* allocation of a size 0 "gcj" object is always an error. */
# ifdef GC_GCJ_SUPPORT
p -> gcj_freelists[0] = ERROR_FL;
# endif
}
GC_INNER void GC_destroy_thread_local(GC_tlfs p)
{
int k;
GC_ASSERT(I_HOLD_LOCK());
GC_ASSERT(GC_getspecific(GC_thread_key) == p);
/* We currently only do this from the thread itself. */
GC_STATIC_ASSERT(THREAD_FREELISTS_KINDS <= MAXOBJKINDS);
for (k = 0; k < THREAD_FREELISTS_KINDS; ++k) {
if (k == (int)GC_n_kinds)
break; /* kind is not created */
return_freelists(p -> _freelists[k], GC_obj_kinds[k].ok_freelist);
}
# ifdef GC_GCJ_SUPPORT
return_freelists(p -> gcj_freelists, (void **)GC_gcjobjfreelist);
# endif
}
STATIC void *GC_get_tlfs(void)
{
# if !defined(USE_PTHREAD_SPECIFIC) && !defined(USE_WIN32_SPECIFIC)
GC_key_t k = GC_thread_key;
if (EXPECT(0 == k, FALSE)) {
/* We have not yet run GC_init_parallel. That means we also */
/* are not locking, so GC_malloc_kind_global is fairly cheap. */
return NULL;
}
return GC_getspecific(k);
# else
if (EXPECT(!keys_initialized, FALSE)) return NULL;
return GC_getspecific(GC_thread_key);
# endif
}
GC_API GC_ATTR_MALLOC void * GC_CALL GC_malloc_kind(size_t bytes, int kind)
{
size_t granules;
void *tsd;
void *result;
# if MAXOBJKINDS > THREAD_FREELISTS_KINDS
if (EXPECT(kind >= THREAD_FREELISTS_KINDS, FALSE)) {
return GC_malloc_kind_global(bytes, kind);
}
# endif
tsd = GC_get_tlfs();
if (EXPECT(NULL == tsd, FALSE)) {
return GC_malloc_kind_global(bytes, kind);
}
GC_ASSERT(GC_is_initialized);
GC_ASSERT(GC_is_thread_tsd_valid(tsd));
granules = ALLOC_REQUEST_GRANS(bytes);
# if defined(CPPCHECK)
# define MALLOC_KIND_PTRFREE_INIT (void*)1
# else
# define MALLOC_KIND_PTRFREE_INIT NULL
# endif
GC_FAST_MALLOC_GRANS(result, granules,
((GC_tlfs)tsd) -> _freelists[kind], DIRECT_GRANULES,
kind, GC_malloc_kind_global(bytes, kind),
(void)(kind == PTRFREE ? MALLOC_KIND_PTRFREE_INIT
: (obj_link(result) = 0)));
# ifdef LOG_ALLOCS
GC_log_printf("GC_malloc_kind(%lu, %d) returned %p, recent GC #%lu\n",
(unsigned long)bytes, kind, result,
(unsigned long)GC_gc_no);
# endif
return result;
}
#ifdef GC_GCJ_SUPPORT
# include "gc/gc_gcj.h"
/* Gcj-style allocation without locks is extremely tricky. The */
/* fundamental issue is that we may end up marking a free list, which */
/* has freelist links instead of "vtable" pointers. That is usually */
/* OK, since the next object on the free list will be cleared, and */
/* will thus be interpreted as containing a zero descriptor. That's */
/* fine if the object has not yet been initialized. But there are */
/* interesting potential races. */
/* In the case of incremental collection, this seems hopeless, since */
/* the marker may run asynchronously, and may pick up the pointer to */
/* the next freelist entry (which it thinks is a vtable pointer), get */
/* suspended for a while, and then see an allocated object instead */
/* of the vtable. This may be avoidable with either a handshake with */
/* the collector or, probably more easily, by moving the free list */
/* links to the second word of each object. The latter isn't a */
/* universal win, since on architecture like Itanium, nonzero offsets */
/* are not necessarily free. And there may be cache fill order issues. */
/* For now, we punt with incremental GC. This probably means that */
/* incremental GC should be enabled before we fork a second thread. */
/* Unlike the other thread local allocation calls, we assume that the */
/* collector has been explicitly initialized. */
GC_API GC_ATTR_MALLOC void * GC_CALL GC_gcj_malloc(size_t bytes,
void * ptr_to_struct_containing_descr)
{
if (EXPECT(GC_incremental, FALSE)) {
return GC_core_gcj_malloc(bytes, ptr_to_struct_containing_descr, 0);
} else {
size_t granules = ALLOC_REQUEST_GRANS(bytes);
void *result;
void **tiny_fl;
GC_ASSERT(GC_gcjobjfreelist != NULL);
tiny_fl = ((GC_tlfs)GC_getspecific(GC_thread_key))->gcj_freelists;
GC_FAST_MALLOC_GRANS(result, granules, tiny_fl, DIRECT_GRANULES,
GC_gcj_kind,
GC_core_gcj_malloc(bytes,
ptr_to_struct_containing_descr,
0 /* flags */),
{AO_compiler_barrier();
*(void **)result = ptr_to_struct_containing_descr;});
/* This forces the initialization of the "method ptr". */
/* This is necessary to ensure some very subtle properties */
/* required if a GC is run in the middle of such an allocation. */
/* Here we implicitly also assume atomicity for the free list. */
/* and method pointer assignments. */
/* We must update the freelist before we store the pointer. */
/* Otherwise a GC at this point would see a corrupted */
/* free list. */
/* A real memory barrier is not needed, since the */
/* action of stopping this thread will cause prior writes */
/* to complete. */
/* We assert that any concurrent marker will stop us. */
/* Thus it is impossible for a mark procedure to see the */
/* allocation of the next object, but to see this object */
/* still containing a free list pointer. Otherwise the */
/* marker, by misinterpreting the freelist link as a vtable */
/* pointer, might find a random "mark descriptor" in the next */
/* object. */
return result;
}
}
#endif /* GC_GCJ_SUPPORT */
/* The thread support layer must arrange to mark thread-local */
/* free lists explicitly, since the link field is often */
/* invisible to the marker. It knows how to find all threads; */
/* we take care of an individual thread freelist structure. */
GC_INNER void GC_mark_thread_local_fls_for(GC_tlfs p)
{
ptr_t q;
int i, j;
for (j = 0; j < GC_TINY_FREELISTS; ++j) {
for (i = 0; i < THREAD_FREELISTS_KINDS; ++i) {
/* Load the pointer atomically as it might be updated */
/* concurrently by GC_FAST_MALLOC_GRANS. */
q = (ptr_t)AO_load((volatile AO_t *)&p->_freelists[i][j]);
if ((word)q > HBLKSIZE)
GC_set_fl_marks(q);
}
# ifdef GC_GCJ_SUPPORT
if (EXPECT(j > 0, TRUE)) {
q = (ptr_t)AO_load((volatile AO_t *)&p->gcj_freelists[j]);
if ((word)q > HBLKSIZE)
GC_set_fl_marks(q);
}
# endif
}
}
#if defined(GC_ASSERTIONS)
/* Check that all thread-local free-lists in p are completely marked. */
void GC_check_tls_for(GC_tlfs p)
{
int i, j;
for (j = 1; j < GC_TINY_FREELISTS; ++j) {
for (i = 0; i < THREAD_FREELISTS_KINDS; ++i) {
GC_check_fl_marks(&p->_freelists[i][j]);
}
# ifdef GC_GCJ_SUPPORT
GC_check_fl_marks(&p->gcj_freelists[j]);
# endif
}
}
#endif /* GC_ASSERTIONS */
#endif /* THREAD_LOCAL_ALLOC */