2 * sgen-gc.c: Simple generational GC.
4 * Copyright 2001-2003 Ximian, Inc
5 * Copyright 2003-2010 Novell, Inc.
6 * Copyright 2011 Xamarin Inc (http://www.xamarin.com)
7 * Copyright (C) 2012 Xamarin Inc
9 * This library is free software; you can redistribute it and/or
10 * modify it under the terms of the GNU Library General Public
11 * License 2.0 as published by the Free Software Foundation;
13 * This library is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 * Library General Public License for more details.
18 * You should have received a copy of the GNU Library General Public
19 * License 2.0 along with this library; if not, write to the Free
20 * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
22 #ifndef __MONO_SGENGC_H__
23 #define __MONO_SGENGC_H__
30 typedef struct _SgenThreadInfo SgenThreadInfo;
31 #undef THREAD_INFO_TYPE
32 #define THREAD_INFO_TYPE SgenThreadInfo
38 #include <mono/utils/mono-compiler.h>
39 #include <mono/utils/mono-threads.h>
40 #include <mono/utils/dtrace.h>
41 #include <mono/utils/mono-logger-internal.h>
42 #include <mono/utils/atomic.h>
43 #include <mono/utils/mono-mutex.h>
44 #include <mono/metadata/class-internals.h>
45 #include <mono/metadata/object-internals.h>
46 #include <mono/metadata/sgen-conf.h>
47 #include <mono/metadata/sgen-archdep.h>
48 #include <mono/metadata/sgen-descriptor.h>
49 #include <mono/metadata/sgen-gray.h>
50 #include <mono/metadata/sgen-hash-table.h>
51 #include <mono/metadata/sgen-bridge.h>
52 #include <mono/metadata/sgen-protocol.h>
54 /* The method used to clear the nursery */
55 /* Clearing at nursery collections is the safest, but has bad interactions with caches.
56 * Clearing at TLAB creation is much faster, but more complex and it might expose hard
61 CLEAR_AT_TLAB_CREATION,
62 CLEAR_AT_TLAB_CREATION_DEBUG
65 NurseryClearPolicy sgen_get_nursery_clear_policy (void);
67 #define SGEN_TV_DECLARE(name) gint64 name
68 #define SGEN_TV_GETTIME(tv) tv = mono_100ns_ticks ()
69 #define SGEN_TV_ELAPSED(start,end) (int)((end-start))
71 #if !defined(__MACH__) && !MONO_MACH_ARCH_SUPPORTED && defined(HAVE_PTHREAD_KILL)
72 #define SGEN_POSIX_STW 1
75 /* eventually share with MonoThread? */
77 * This structure extends the MonoThreadInfo structure.
79 struct _SgenThreadInfo {
82 This is set to TRUE when STW fails to suspend a thread, most probably because the
83 underlying thread is dead.
85 gboolean skip, suspend_done;
86 volatile int in_critical_region;
89 This is set the argument of mono_gc_set_skip_thread.
91 A thread that knowingly holds no managed state can call this
92 function around blocking loops to reduce the GC burden by not
98 void *stack_start_limit;
99 char **tlab_next_addr;
100 char **tlab_start_addr;
101 char **tlab_temp_end_addr;
102 char **tlab_real_end_addr;
103 gpointer runtime_data;
105 #ifdef SGEN_POSIX_STW
106 /* This is -1 until the first suspend. */
108 /* FIXME: kill this, we only use signals on systems that have rt-posix, which doesn't have issues with duplicates. */
109 unsigned int stop_count; /* to catch duplicate signals. */
112 gpointer stopped_ip; /* only valid if the thread is stopped */
113 MonoDomain *stopped_domain; /* dsto */
115 /*FIXME pretty please finish killing ARCH_NUM_REGS */
117 MonoContext ctx; /* ditto */
119 gpointer regs[ARCH_NUM_REGS]; /* ditto */
122 #ifndef HAVE_KW_THREAD
131 * The nursery section uses this struct.
133 typedef struct _GCMemSection GCMemSection;
134 struct _GCMemSection {
137 /* pointer where more data could be allocated if it fits */
141 * scan starts is an array of pointers to objects equally spaced in the allocation area
142 * They let use quickly find pinned objects from pinning pointers.
145 /* in major collections indexes in the pin_queue for objects that pin this section */
146 size_t pin_queue_first_entry;
147 size_t pin_queue_last_entry;
148 size_t num_scan_start;
152 * Recursion is not allowed for the thread lock.
154 #define LOCK_DECLARE(name) mono_mutex_t name
155 /* if changing LOCK_INIT to something that isn't idempotent, look at
156 its use in mono_gc_base_init in sgen-gc.c */
157 #define LOCK_INIT(name) mono_mutex_init (&(name))
158 #define LOCK_GC do { \
160 mono_mutex_lock (&gc_mutex); \
162 MONO_FINISH_TRY_BLOCKING \
164 #define UNLOCK_GC do { sgen_gc_unlock (); } while (0)
166 extern LOCK_DECLARE (sgen_interruption_mutex);
168 #define LOCK_INTERRUPTION mono_mutex_lock (&sgen_interruption_mutex)
169 #define UNLOCK_INTERRUPTION mono_mutex_unlock (&sgen_interruption_mutex)
171 /* FIXME: Use InterlockedAdd & InterlockedAdd64 to reduce the CAS cost. */
172 #define SGEN_CAS InterlockedCompareExchange
173 #define SGEN_CAS_PTR InterlockedCompareExchangePointer
174 #define SGEN_ATOMIC_ADD(x,i) do { \
178 } while (InterlockedCompareExchange (&(x), __old_x + (i), __old_x) != __old_x); \
180 #define SGEN_ATOMIC_ADD_P(x,i) do { \
184 } while (InterlockedCompareExchangePointer ((void**)&(x), (void*)(__old_x + (i)), (void*)__old_x) != (void*)__old_x); \
189 /* we intercept pthread_create calls to know which threads exist */
190 #define USE_PTHREAD_INTERCEPT 1
193 #ifdef HEAVY_STATISTICS
194 extern guint64 stat_objects_alloced_degraded;
195 extern guint64 stat_bytes_alloced_degraded;
196 extern guint64 stat_copy_object_called_major;
197 extern guint64 stat_objects_copied_major;
200 #define SGEN_ASSERT(level, a, ...) do { \
201 if (G_UNLIKELY ((level) <= SGEN_MAX_ASSERT_LEVEL && !(a))) { \
202 g_error (__VA_ARGS__); \
206 #define SGEN_LOG(level, format, ...) do { \
207 if (G_UNLIKELY ((level) <= SGEN_MAX_DEBUG_LEVEL && (level) <= gc_debug_level)) { \
208 mono_gc_printf (gc_debug_file, format, ##__VA_ARGS__); \
211 #define SGEN_COND_LOG(level, cond, format, ...) do { \
212 if (G_UNLIKELY ((level) <= SGEN_MAX_DEBUG_LEVEL && (level) <= gc_debug_level)) { \
214 mono_gc_printf (gc_debug_file, format, ##__VA_ARGS__); \
217 extern int gc_debug_level;
218 extern FILE* gc_debug_file;
220 extern int current_collection_generation;
222 extern unsigned int sgen_global_stop_count;
224 extern gboolean bridge_processing_in_progress;
225 extern MonoGCBridgeCallbacks bridge_callbacks;
227 extern int num_ready_finalizers;
229 #define SGEN_ALLOC_ALIGN 8
230 #define SGEN_ALLOC_ALIGN_BITS 3
232 /* s must be non-negative */
233 #define SGEN_CAN_ALIGN_UP(s) ((s) <= SIZE_MAX - (SGEN_ALLOC_ALIGN - 1))
234 #define SGEN_ALIGN_UP(s) (((s)+(SGEN_ALLOC_ALIGN-1)) & ~(SGEN_ALLOC_ALIGN-1))
236 #if SIZEOF_VOID_P == 4
243 * The link pointer is hidden by negating each bit. We use the lowest
244 * bit of the link (before negation) to store whether it needs
245 * resurrection tracking.
247 #define HIDE_POINTER(p,t) ((gpointer)(~((size_t)(p)|((t)?1:0))))
248 #define REVEAL_POINTER(p) ((gpointer)((~(size_t)(p))&~3L))
250 #define SGEN_PTR_IN_NURSERY(p,bits,start,end) (((mword)(p) & ~((1 << (bits)) - 1)) == (mword)(start))
254 /* good sizes are 512KB-1MB: larger ones increase a lot memzeroing time */
255 #define DEFAULT_NURSERY_SIZE (sgen_nursery_size)
256 extern size_t sgen_nursery_size;
257 /* The number of trailing 0 bits in DEFAULT_NURSERY_SIZE */
258 #define DEFAULT_NURSERY_BITS (sgen_nursery_bits)
259 extern int sgen_nursery_bits;
263 #define DEFAULT_NURSERY_SIZE (4*1024*1024)
264 #define DEFAULT_NURSERY_BITS 22
268 extern char *sgen_nursery_start;
269 extern char *sgen_nursery_end;
271 static inline MONO_ALWAYS_INLINE gboolean
272 sgen_ptr_in_nursery (void *p)
274 return SGEN_PTR_IN_NURSERY ((p), DEFAULT_NURSERY_BITS, sgen_nursery_start, sgen_nursery_end);
277 static inline MONO_ALWAYS_INLINE char*
278 sgen_get_nursery_start (void)
280 return sgen_nursery_start;
283 static inline MONO_ALWAYS_INLINE char*
284 sgen_get_nursery_end (void)
286 return sgen_nursery_end;
289 /* Structure that corresponds to a MonoVTable: desc is a mword so requires
290 * no cast from a pointer to an integer
298 * We use the lowest three bits in the vtable pointer of objects to tag whether they're
299 * forwarded, pinned, and/or cemented. These are the valid states:
302 * |------------------+------+
304 * | forwarded | 001 |
306 * | pinned, cemented | 110 |
308 * We store them in the vtable slot because the bits are used in the sync block for other
309 * purposes: if we merge them and alloc the sync blocks aligned to 8 bytes, we can change
310 * this and use bit 3 in the syncblock (with the lower two bits both set for forwarded, that
311 * would be an invalid combination for the monitor and hash code).
314 #include "sgen-tagged-pointer.h"
316 #define SGEN_VTABLE_BITS_MASK SGEN_TAGGED_POINTER_MASK
318 #define SGEN_POINTER_IS_TAGGED_FORWARDED(p) SGEN_POINTER_IS_TAGGED_1((p))
319 #define SGEN_POINTER_TAG_FORWARDED(p) SGEN_POINTER_TAG_1((p))
321 #define SGEN_POINTER_IS_TAGGED_PINNED(p) SGEN_POINTER_IS_TAGGED_2((p))
322 #define SGEN_POINTER_TAG_PINNED(p) SGEN_POINTER_TAG_2((p))
324 #define SGEN_POINTER_IS_TAGGED_CEMENTED(p) SGEN_POINTER_IS_TAGGED_4((p))
325 #define SGEN_POINTER_TAG_CEMENTED(p) SGEN_POINTER_TAG_4((p))
327 #define SGEN_POINTER_UNTAG_VTABLE(p) SGEN_POINTER_UNTAG_ALL((p))
329 /* returns NULL if not forwarded, or the forwarded address */
330 #define SGEN_VTABLE_IS_FORWARDED(vtable) (SGEN_POINTER_IS_TAGGED_FORWARDED ((vtable)) ? SGEN_POINTER_UNTAG_VTABLE ((vtable)) : NULL)
331 #define SGEN_OBJECT_IS_FORWARDED(obj) (SGEN_VTABLE_IS_FORWARDED (((mword*)(obj))[0]))
333 #define SGEN_VTABLE_IS_PINNED(vtable) SGEN_POINTER_IS_TAGGED_PINNED ((vtable))
334 #define SGEN_OBJECT_IS_PINNED(obj) (SGEN_VTABLE_IS_PINNED (((mword*)(obj))[0]))
336 #define SGEN_OBJECT_IS_CEMENTED(obj) (SGEN_POINTER_IS_TAGGED_CEMENTED (((mword*)(obj))[0]))
338 /* set the forwarded address fw_addr for object obj */
339 #define SGEN_FORWARD_OBJECT(obj,fw_addr) do { \
340 *(void**)(obj) = SGEN_POINTER_TAG_FORWARDED ((fw_addr)); \
342 #define SGEN_PIN_OBJECT(obj) do { \
343 *(void**)(obj) = SGEN_POINTER_TAG_PINNED (*(void**)(obj)); \
345 #define SGEN_CEMENT_OBJECT(obj) do { \
346 *(void**)(obj) = SGEN_POINTER_TAG_CEMENTED (*(void**)(obj)); \
348 /* Unpins and uncements */
349 #define SGEN_UNPIN_OBJECT(obj) do { \
350 *(void**)(obj) = SGEN_POINTER_UNTAG_VTABLE (*(void**)(obj)); \
354 * Since we set bits in the vtable, use the macro to load it from the pointer to
355 * an object that is potentially pinned.
357 #define SGEN_LOAD_VTABLE(addr) SGEN_POINTER_UNTAG_ALL (*(void**)(addr))
360 List of what each bit on of the vtable gc bits means.
363 SGEN_GC_BIT_BRIDGE_OBJECT = 1,
364 SGEN_GC_BIT_BRIDGE_OPAQUE_OBJECT = 2,
365 SGEN_GC_BIT_FINALIZER_AWARE = 4,
368 /* the runtime can register areas of memory as roots: we keep two lists of roots,
369 * a pinned root set for conservatively scanned roots and a normal one for
370 * precisely scanned roots (currently implemented as a single list).
372 typedef struct _RootRecord RootRecord;
379 ROOT_TYPE_NORMAL = 0, /* "normal" roots */
380 ROOT_TYPE_PINNED = 1, /* roots without a GC descriptor */
381 ROOT_TYPE_WBARRIER = 2, /* roots with a write barrier */
385 extern SgenHashTable roots_hash [ROOT_TYPE_NUM];
387 typedef void (*IterateObjectCallbackFunc) (char*, size_t, void*);
389 int sgen_thread_handshake (BOOL suspend);
390 gboolean sgen_suspend_thread (SgenThreadInfo *info);
391 gboolean sgen_resume_thread (SgenThreadInfo *info);
392 void sgen_wait_for_suspend_ack (int count);
393 void sgen_os_init (void);
395 void sgen_update_heap_boundaries (mword low, mword high);
397 void sgen_scan_area_with_callback (char *start, char *end, IterateObjectCallbackFunc callback, void *data, gboolean allow_flags);
398 void sgen_check_section_scan_starts (GCMemSection *section);
400 /* Keep in sync with description_for_type() in sgen-internal.c! */
402 INTERNAL_MEM_PIN_QUEUE,
403 INTERNAL_MEM_FRAGMENT,
404 INTERNAL_MEM_SECTION,
405 INTERNAL_MEM_SCAN_STARTS,
406 INTERNAL_MEM_FIN_TABLE,
407 INTERNAL_MEM_FINALIZE_ENTRY,
408 INTERNAL_MEM_FINALIZE_READY_ENTRY,
409 INTERNAL_MEM_DISLINK_TABLE,
410 INTERNAL_MEM_DISLINK,
411 INTERNAL_MEM_ROOTS_TABLE,
412 INTERNAL_MEM_ROOT_RECORD,
413 INTERNAL_MEM_STATISTICS,
414 INTERNAL_MEM_STAT_PINNED_CLASS,
415 INTERNAL_MEM_STAT_REMSET_CLASS,
416 INTERNAL_MEM_GRAY_QUEUE,
417 INTERNAL_MEM_MS_TABLES,
418 INTERNAL_MEM_MS_BLOCK_INFO,
419 INTERNAL_MEM_MS_BLOCK_INFO_SORT,
420 INTERNAL_MEM_EPHEMERON_LINK,
421 INTERNAL_MEM_WORKER_DATA,
422 INTERNAL_MEM_THREAD_POOL_JOB,
423 INTERNAL_MEM_BRIDGE_DATA,
424 INTERNAL_MEM_OLD_BRIDGE_HASH_TABLE,
425 INTERNAL_MEM_OLD_BRIDGE_HASH_TABLE_ENTRY,
426 INTERNAL_MEM_BRIDGE_HASH_TABLE,
427 INTERNAL_MEM_BRIDGE_HASH_TABLE_ENTRY,
428 INTERNAL_MEM_BRIDGE_ALIVE_HASH_TABLE,
429 INTERNAL_MEM_BRIDGE_ALIVE_HASH_TABLE_ENTRY,
430 INTERNAL_MEM_TARJAN_BRIDGE_HASH_TABLE,
431 INTERNAL_MEM_TARJAN_BRIDGE_HASH_TABLE_ENTRY,
432 INTERNAL_MEM_TARJAN_OBJ_BUCKET,
433 INTERNAL_MEM_BRIDGE_DEBUG,
434 INTERNAL_MEM_TOGGLEREF_DATA,
435 INTERNAL_MEM_CARDTABLE_MOD_UNION,
436 INTERNAL_MEM_BINARY_PROTOCOL,
437 INTERNAL_MEM_TEMPORARY,
447 #ifdef SGEN_HEAVY_BINARY_PROTOCOL
448 #define BINARY_PROTOCOL_ARG(x) ,x
450 #define BINARY_PROTOCOL_ARG(x)
453 void sgen_init_internal_allocator (void);
455 typedef struct _ObjectList ObjectList;
461 typedef void (*CopyOrMarkObjectFunc) (void**, SgenGrayQueue*);
462 typedef void (*ScanObjectFunc) (char *obj, mword desc, SgenGrayQueue*);
463 typedef void (*ScanVTypeFunc) (char *full_object, char *start, mword desc, SgenGrayQueue* BINARY_PROTOCOL_ARG (size_t size));
466 CopyOrMarkObjectFunc copy_or_mark_object;
467 ScanObjectFunc scan_object;
468 ScanVTypeFunc scan_vtype;
469 /*FIXME add allocation function? */
470 } SgenObjectOperations;
474 SgenObjectOperations *ops;
475 SgenGrayQueue *queue;
478 #define CONTEXT_FROM_OBJECT_OPERATIONS(ops, queue) ((ScanCopyContext) { (ops), (queue) })
480 void sgen_report_internal_mem_usage (void);
481 void sgen_dump_internal_mem_usage (FILE *heap_dump_file);
482 void sgen_dump_section (GCMemSection *section, const char *type);
483 void sgen_dump_occupied (char *start, char *end, char *section_start);
485 void sgen_register_moved_object (void *obj, void *destination);
487 void sgen_register_fixed_internal_mem_type (int type, size_t size);
489 void* sgen_alloc_internal (int type);
490 void sgen_free_internal (void *addr, int type);
492 void* sgen_alloc_internal_dynamic (size_t size, int type, gboolean assert_on_failure);
493 void sgen_free_internal_dynamic (void *addr, size_t size, int type);
495 void sgen_pin_stats_register_object (char *obj, size_t size);
496 void sgen_pin_stats_register_global_remset (char *obj);
497 void sgen_pin_stats_print_class_stats (void);
499 void sgen_sort_addresses (void **array, size_t size);
500 void sgen_add_to_global_remset (gpointer ptr, gpointer obj);
502 int sgen_get_current_collection_generation (void);
503 gboolean sgen_collection_is_concurrent (void);
504 gboolean sgen_concurrent_collection_in_progress (void);
506 typedef struct _SgenFragment SgenFragment;
508 struct _SgenFragment {
510 char *fragment_start;
511 char *fragment_next; /* the current soft limit for allocation */
513 SgenFragment *next_in_order; /* We use a different entry for all active fragments so we can avoid SMR. */
517 SgenFragment *alloc_head; /* List head to be used when allocating memory. Walk with fragment_next. */
518 SgenFragment *region_head; /* List head of the region used by this allocator. Walk with next_in_order. */
519 } SgenFragmentAllocator;
521 void sgen_fragment_allocator_add (SgenFragmentAllocator *allocator, char *start, char *end);
522 void sgen_fragment_allocator_release (SgenFragmentAllocator *allocator);
523 void* sgen_fragment_allocator_serial_alloc (SgenFragmentAllocator *allocator, size_t size);
524 void* sgen_fragment_allocator_par_alloc (SgenFragmentAllocator *allocator, size_t size);
525 void* sgen_fragment_allocator_serial_range_alloc (SgenFragmentAllocator *allocator, size_t desired_size, size_t minimum_size, size_t *out_alloc_size);
526 void* sgen_fragment_allocator_par_range_alloc (SgenFragmentAllocator *allocator, size_t desired_size, size_t minimum_size, size_t *out_alloc_size);
527 SgenFragment* sgen_fragment_allocator_alloc (void);
528 void sgen_clear_allocator_fragments (SgenFragmentAllocator *allocator);
529 void sgen_clear_range (char *start, char *end);
533 This is a space/speed compromise as we need to make sure the from/to space check is both O(1)
534 and only hit cache hot memory. On a 4Mb nursery it requires 1024 bytes, or 3% of your average
535 L1 cache. On small configs with a 512kb nursery, this goes to 0.4%.
537 Experimental results on how much space we waste with a 4Mb nursery:
539 Note that the wastage applies to the half nursery, or 2Mb:
541 Test 1 (compiling corlib):
546 #define SGEN_TO_SPACE_GRANULE_BITS 9
547 #define SGEN_TO_SPACE_GRANULE_IN_BYTES (1 << SGEN_TO_SPACE_GRANULE_BITS)
549 extern char *sgen_space_bitmap;
550 extern size_t sgen_space_bitmap_size;
552 static inline gboolean
553 sgen_nursery_is_to_space (char *object)
555 size_t idx = (object - sgen_nursery_start) >> SGEN_TO_SPACE_GRANULE_BITS;
556 size_t byte = idx >> 3;
557 size_t bit = idx & 0x7;
559 SGEN_ASSERT (4, sgen_ptr_in_nursery (object), "object %p is not in nursery [%p - %p]", object, sgen_get_nursery_start (), sgen_get_nursery_end ());
560 SGEN_ASSERT (4, byte < sgen_space_bitmap_size, "byte index %d out of range", byte, sgen_space_bitmap_size);
562 return (sgen_space_bitmap [byte] & (1 << bit)) != 0;
565 static inline gboolean
566 sgen_nursery_is_from_space (char *object)
568 return !sgen_nursery_is_to_space (object);
571 static inline gboolean
572 sgen_nursery_is_object_alive (char *obj)
574 /* FIXME put this asserts under a non default level */
575 g_assert (sgen_ptr_in_nursery (obj));
577 if (sgen_nursery_is_to_space (obj))
580 if (SGEN_OBJECT_IS_PINNED (obj) || SGEN_OBJECT_IS_FORWARDED (obj))
589 char* (*alloc_for_promotion) (MonoVTable *vtable, char *obj, size_t objsize, gboolean has_references);
591 SgenObjectOperations serial_ops;
593 void (*prepare_to_space) (char *to_space_bitmap, size_t space_bitmap_size);
594 void (*clear_fragments) (void);
595 SgenFragment* (*build_fragments_get_exclude_head) (void);
596 void (*build_fragments_release_exclude_head) (void);
597 void (*build_fragments_finish) (SgenFragmentAllocator *allocator);
598 void (*init_nursery) (SgenFragmentAllocator *allocator, char *start, char *end);
600 gboolean (*handle_gc_param) (const char *opt); /* Optional */
601 void (*print_gc_param_usage) (void); /* Optional */
602 } SgenMinorCollector;
604 extern SgenMinorCollector sgen_minor_collector;
606 void sgen_simple_nursery_init (SgenMinorCollector *collector);
607 void sgen_split_nursery_init (SgenMinorCollector *collector);
609 /* Updating references */
611 #ifdef SGEN_CHECK_UPDATE_REFERENCE
612 gboolean sgen_thread_pool_is_thread_pool_thread (MonoNativeThreadId some_thread) MONO_INTERNAL;
614 sgen_update_reference (void **p, void *o, gboolean allow_null)
617 SGEN_ASSERT (0, o, "Cannot update a reference with a NULL pointer");
618 SGEN_ASSERT (0, !sgen_thread_pool_is_thread_pool_thread (mono_native_thread_id_get ()), "Can't update a reference in the worker thread");
622 #define SGEN_UPDATE_REFERENCE_ALLOW_NULL(p,o) sgen_update_reference ((void**)(p), (void*)(o), TRUE)
623 #define SGEN_UPDATE_REFERENCE(p,o) sgen_update_reference ((void**)(p), (void*)(o), FALSE)
625 #define SGEN_UPDATE_REFERENCE_ALLOW_NULL(p,o) (*(void**)(p) = (void*)(o))
626 #define SGEN_UPDATE_REFERENCE(p,o) SGEN_UPDATE_REFERENCE_ALLOW_NULL ((p), (o))
629 /* Major collector */
631 typedef void (*sgen_cardtable_block_callback) (mword start, mword size);
632 void sgen_major_collector_iterate_live_block_ranges (sgen_cardtable_block_callback callback);
635 ITERATE_OBJECTS_SWEEP = 1,
636 ITERATE_OBJECTS_NON_PINNED = 2,
637 ITERATE_OBJECTS_PINNED = 4,
638 ITERATE_OBJECTS_ALL = ITERATE_OBJECTS_NON_PINNED | ITERATE_OBJECTS_PINNED,
639 ITERATE_OBJECTS_SWEEP_NON_PINNED = ITERATE_OBJECTS_SWEEP | ITERATE_OBJECTS_NON_PINNED,
640 ITERATE_OBJECTS_SWEEP_PINNED = ITERATE_OBJECTS_SWEEP | ITERATE_OBJECTS_PINNED,
641 ITERATE_OBJECTS_SWEEP_ALL = ITERATE_OBJECTS_SWEEP | ITERATE_OBJECTS_NON_PINNED | ITERATE_OBJECTS_PINNED
642 } IterateObjectsFlags;
646 size_t num_scanned_objects;
647 size_t num_unique_scanned_objects;
648 } ScannedObjectCounts;
650 typedef struct _SgenMajorCollector SgenMajorCollector;
651 struct _SgenMajorCollector {
653 gboolean is_concurrent;
654 gboolean needs_thread_pool;
655 gboolean supports_cardtable;
656 gboolean sweeps_lazily;
659 * This is set to TRUE by the sweep if the next major
660 * collection should be synchronous (for evacuation). For
661 * non-concurrent collectors, this should be NULL.
663 gboolean *want_synchronous_collection;
665 void* (*alloc_heap) (mword nursery_size, mword nursery_align, int nursery_bits);
666 gboolean (*is_object_live) (char *obj);
667 void* (*alloc_small_pinned_obj) (MonoVTable *vtable, size_t size, gboolean has_references);
668 void* (*alloc_degraded) (MonoVTable *vtable, size_t size);
670 SgenObjectOperations major_ops_serial;
671 SgenObjectOperations major_ops_concurrent_start;
672 SgenObjectOperations major_ops_concurrent;
673 SgenObjectOperations major_ops_concurrent_finish;
675 void* (*alloc_object) (MonoVTable *vtable, size_t size, gboolean has_references);
676 void (*free_pinned_object) (char *obj, size_t size);
679 * This is used for domain unloading, heap walking from the logging profiler, and
680 * debugging. Can assume the world is stopped.
682 void (*iterate_objects) (IterateObjectsFlags flags, IterateObjectCallbackFunc callback, void *data);
684 void (*free_non_pinned_object) (char *obj, size_t size);
685 void (*pin_objects) (SgenGrayQueue *queue);
686 void (*pin_major_object) (char *obj, SgenGrayQueue *queue);
687 void (*scan_card_table) (gboolean mod_union, ScanCopyContext ctx);
688 void (*iterate_live_block_ranges) (sgen_cardtable_block_callback callback);
689 void (*update_cardtable_mod_union) (void);
690 void (*init_to_space) (void);
691 void (*sweep) (void);
692 gboolean (*have_swept) (void);
693 void (*finish_sweeping) (void);
694 void (*free_swept_blocks) (size_t allowance);
695 void (*check_scan_starts) (void);
696 void (*dump_heap) (FILE *heap_dump_file);
697 gint64 (*get_used_size) (void);
698 void (*start_nursery_collection) (void);
699 void (*finish_nursery_collection) (void);
700 void (*start_major_collection) (void);
701 void (*finish_major_collection) (ScannedObjectCounts *counts);
702 gboolean (*drain_gray_stack) (ScanCopyContext ctx);
703 gboolean (*ptr_is_in_non_pinned_space) (char *ptr, char **start);
704 gboolean (*obj_is_from_pinned_alloc) (char *obj);
705 void (*report_pinned_memory_usage) (void);
706 size_t (*get_num_major_sections) (void);
707 size_t (*get_bytes_survived_last_sweep) (void);
708 gboolean (*handle_gc_param) (const char *opt);
709 void (*print_gc_param_usage) (void);
710 void (*post_param_init) (SgenMajorCollector *collector);
711 gboolean (*is_valid_object) (char *object);
712 MonoVTable* (*describe_pointer) (char *pointer);
713 guint8* (*get_cardtable_mod_union_for_object) (char *object);
714 long long (*get_and_reset_num_major_objects_marked) (void);
715 void (*count_cards) (long long *num_total_cards, long long *num_marked_cards);
718 extern SgenMajorCollector major_collector;
720 void sgen_marksweep_init (SgenMajorCollector *collector);
721 void sgen_marksweep_fixed_init (SgenMajorCollector *collector);
722 void sgen_marksweep_par_init (SgenMajorCollector *collector);
723 void sgen_marksweep_fixed_par_init (SgenMajorCollector *collector);
724 void sgen_marksweep_conc_init (SgenMajorCollector *collector);
725 SgenMajorCollector* sgen_get_major_collector (void);
728 typedef struct _SgenRememberedSet {
729 void (*wbarrier_set_field) (MonoObject *obj, gpointer field_ptr, MonoObject* value);
730 void (*wbarrier_set_arrayref) (MonoArray *arr, gpointer slot_ptr, MonoObject* value);
731 void (*wbarrier_arrayref_copy) (gpointer dest_ptr, gpointer src_ptr, int count);
732 void (*wbarrier_value_copy) (gpointer dest, gpointer src, int count, MonoClass *klass);
733 void (*wbarrier_object_copy) (MonoObject* obj, MonoObject *src);
734 void (*wbarrier_generic_nostore) (gpointer ptr);
735 void (*record_pointer) (gpointer ptr);
737 void (*scan_remsets) (ScanCopyContext ctx);
739 void (*clear_cards) (void);
741 void (*finish_minor_collection) (void);
742 gboolean (*find_address) (char *addr);
743 gboolean (*find_address_with_cards) (char *cards_start, guint8 *cards, char *addr);
746 SgenRememberedSet *sgen_get_remset (void);
748 static mword /*__attribute__((noinline)) not sure if this hint is a good idea*/
749 slow_object_get_size (MonoVTable *vtable, MonoObject* o)
751 MonoClass *klass = vtable->klass;
754 * We depend on mono_string_length_fast and
755 * mono_array_length_fast not using the object's vtable.
757 if (klass == mono_defaults.string_class) {
758 return G_STRUCT_OFFSET (MonoString, chars) + 2 * mono_string_length_fast ((MonoString*) o) + 2;
759 } else if (klass->rank) {
760 MonoArray *array = (MonoArray*)o;
761 size_t size = sizeof (MonoArray) + klass->sizes.element_size * mono_array_length_fast (array);
762 if (G_UNLIKELY (array->bounds)) {
763 size += sizeof (mono_array_size_t) - 1;
764 size &= ~(sizeof (mono_array_size_t) - 1);
765 size += sizeof (MonoArrayBounds) * klass->rank;
769 /* from a created object: the class must be inited already */
770 return klass->instance_size;
775 sgen_vtable_get_descriptor (MonoVTable *vtable)
777 return (mword)vtable->gc_descr;
781 sgen_obj_get_descriptor (char *obj)
783 MonoVTable *vtable = ((MonoObject*)obj)->vtable;
784 SGEN_ASSERT (9, !SGEN_POINTER_IS_TAGGED_ANY (vtable), "Object can't be tagged");
785 return sgen_vtable_get_descriptor (vtable);
789 sgen_obj_get_descriptor_safe (char *obj)
791 MonoVTable *vtable = (MonoVTable*)SGEN_LOAD_VTABLE (obj);
792 return sgen_vtable_get_descriptor (vtable);
796 * This function can be called on an object whose first word, the
797 * vtable field, is not intact. This is necessary for the parallel
800 static MONO_NEVER_INLINE mword
801 sgen_par_object_get_size (MonoVTable *vtable, MonoObject* o)
803 mword descr = (mword)vtable->gc_descr;
804 mword type = descr & DESC_TYPE_MASK;
806 if (type == DESC_TYPE_RUN_LENGTH || type == DESC_TYPE_SMALL_PTRFREE) {
807 mword size = descr & 0xfff8;
808 SGEN_ASSERT (9, size >= sizeof (MonoObject), "Run length object size to small");
810 } else if (descr == SGEN_DESC_STRING) {
811 return G_STRUCT_OFFSET (MonoString, chars) + 2 * mono_string_length_fast ((MonoString*) o) + 2;
812 } else if (type == DESC_TYPE_VECTOR) {
813 int element_size = ((descr) >> VECTOR_ELSIZE_SHIFT) & MAX_ELEMENT_SIZE;
814 MonoArray *array = (MonoArray*)o;
815 size_t size = sizeof (MonoArray) + element_size * mono_array_length_fast (array);
818 * Non-vector arrays with a single dimension whose lower bound is zero are
819 * allocated without bounds.
821 if ((descr & VECTOR_KIND_ARRAY) && array->bounds) {
822 size += sizeof (mono_array_size_t) - 1;
823 size &= ~(sizeof (mono_array_size_t) - 1);
824 size += sizeof (MonoArrayBounds) * vtable->klass->rank;
829 return slow_object_get_size (vtable, o);
833 sgen_safe_object_get_size (MonoObject *obj)
837 if ((forwarded = SGEN_OBJECT_IS_FORWARDED (obj)))
838 obj = (MonoObject*)forwarded;
840 return sgen_par_object_get_size ((MonoVTable*)SGEN_LOAD_VTABLE (obj), obj);
843 static inline gboolean
844 sgen_safe_object_is_small (MonoObject *obj, int type)
846 if (type <= DESC_TYPE_MAX_SMALL_OBJ)
848 return SGEN_ALIGN_UP (sgen_safe_object_get_size ((MonoObject*)obj)) <= SGEN_MAX_SMALL_OBJ_SIZE;
852 * This variant guarantees to return the exact size of the object
853 * before alignment. Needed for canary support.
856 sgen_safe_object_get_size_unaligned (MonoObject *obj)
860 if ((forwarded = SGEN_OBJECT_IS_FORWARDED (obj))) {
861 obj = (MonoObject*)forwarded;
864 return slow_object_get_size ((MonoVTable*)SGEN_LOAD_VTABLE (obj), obj);
867 const char* sgen_safe_name (void* obj);
869 gboolean sgen_object_is_live (void *obj);
871 void sgen_init_fin_weak_hash (void);
873 gboolean sgen_need_bridge_processing (void);
874 void sgen_bridge_reset_data (void);
875 void sgen_bridge_processing_stw_step (void);
876 void sgen_bridge_processing_finish (int generation);
877 void sgen_register_test_bridge_callbacks (const char *bridge_class_name);
878 gboolean sgen_is_bridge_object (MonoObject *obj);
879 MonoGCBridgeObjectKind sgen_bridge_class_kind (MonoClass *klass);
880 void sgen_mark_bridge_object (MonoObject *obj);
881 void sgen_bridge_register_finalized_object (MonoObject *object);
882 void sgen_bridge_describe_pointer (MonoObject *object);
884 void sgen_mark_togglerefs (char *start, char *end, ScanCopyContext ctx);
885 void sgen_clear_togglerefs (char *start, char *end, ScanCopyContext ctx);
887 void sgen_process_togglerefs (void);
888 void sgen_register_test_toggleref_callback (void);
890 gboolean sgen_is_bridge_object (MonoObject *obj);
891 void sgen_mark_bridge_object (MonoObject *obj);
893 gboolean sgen_bridge_handle_gc_debug (const char *opt);
894 void sgen_bridge_print_gc_debug_usage (void);
897 void (*reset_data) (void);
898 void (*processing_stw_step) (void);
899 void (*processing_build_callback_data) (int generation);
900 void (*processing_after_callback) (int generation);
901 MonoGCBridgeObjectKind (*class_kind) (MonoClass *class);
902 void (*register_finalized_object) (MonoObject *object);
903 void (*describe_pointer) (MonoObject *object);
904 void (*enable_accounting) (void);
905 void (*set_dump_prefix) (const char *prefix);
908 * These are set by processing_build_callback_data().
911 MonoGCBridgeSCC **api_sccs;
914 MonoGCBridgeXRef *api_xrefs;
915 } SgenBridgeProcessor;
917 void sgen_old_bridge_init (SgenBridgeProcessor *collector);
918 void sgen_new_bridge_init (SgenBridgeProcessor *collector);
919 void sgen_tarjan_bridge_init (SgenBridgeProcessor *collector);
920 void sgen_set_bridge_implementation (const char *name);
921 void sgen_bridge_set_dump_prefix (const char *prefix);
923 gboolean sgen_compare_bridge_processor_results (SgenBridgeProcessor *a, SgenBridgeProcessor *b);
925 typedef mono_bool (*WeakLinkAlivePredicateFunc) (MonoObject*, void*);
927 void sgen_null_links_with_predicate (int generation, WeakLinkAlivePredicateFunc predicate, void *data);
929 gboolean sgen_gc_is_object_ready_for_finalization (void *object);
930 void sgen_gc_lock (void);
931 void sgen_gc_unlock (void);
932 void sgen_gc_event_moves (void);
934 void sgen_queue_finalization_entry (MonoObject *obj);
935 const char* sgen_generation_name (int generation);
937 void sgen_collect_bridge_objects (int generation, ScanCopyContext ctx);
938 void sgen_finalize_in_range (int generation, ScanCopyContext ctx);
939 void sgen_null_link_in_range (int generation, gboolean before_finalization, ScanCopyContext ctx);
940 void sgen_null_links_for_domain (MonoDomain *domain, int generation);
941 void sgen_remove_finalizers_for_domain (MonoDomain *domain, int generation);
942 void sgen_process_fin_stage_entries (void);
943 void sgen_process_dislink_stage_entries (void);
944 void sgen_register_disappearing_link (MonoObject *obj, void **link, gboolean track, gboolean in_gc);
946 gboolean sgen_drain_gray_stack (int max_objs, ScanCopyContext ctx);
954 void sgen_pin_object (void *object, SgenGrayQueue *queue);
955 void sgen_set_pinned_from_failed_allocation (mword objsize);
957 void sgen_ensure_free_space (size_t size);
958 void sgen_perform_collection (size_t requested_size, int generation_to_collect, const char *reason, gboolean wait_to_finish);
959 gboolean sgen_has_critical_method (void);
960 gboolean sgen_is_critical_method (MonoMethod *method);
967 gboolean is_overflow;
968 SGEN_TV_DECLARE (total_time);
969 SGEN_TV_DECLARE (stw_time);
970 SGEN_TV_DECLARE (bridge_time);
973 int sgen_stop_world (int generation);
974 int sgen_restart_world (int generation, GGTimingInfo *timing);
975 gboolean sgen_is_world_stopped (void);
976 void sgen_init_stw (void);
980 typedef struct _LOSObject LOSObject;
983 mword size; /* this is the object size, lowest bit used for pin/mark */
984 guint8 * volatile cardtable_mod_union; /* only used by the concurrent collector */
985 #if SIZEOF_VOID_P < 8
986 mword dummy; /* to align object to sizeof (double) */
988 char data [MONO_ZERO_LEN_ARRAY];
991 extern LOSObject *los_object_list;
992 extern mword los_memory_usage;
994 void sgen_los_free_object (LOSObject *obj);
995 void* sgen_los_alloc_large_inner (MonoVTable *vtable, size_t size);
996 void sgen_los_sweep (void);
997 gboolean sgen_ptr_is_in_los (char *ptr, char **start);
998 void sgen_los_iterate_objects (IterateObjectCallbackFunc cb, void *user_data);
999 void sgen_los_iterate_live_block_ranges (sgen_cardtable_block_callback callback);
1000 void sgen_los_scan_card_table (gboolean mod_union, ScanCopyContext ctx);
1001 void sgen_los_update_cardtable_mod_union (void);
1002 void sgen_los_count_cards (long long *num_total_cards, long long *num_marked_cards);
1003 gboolean sgen_los_is_valid_object (char *object);
1004 gboolean mono_sgen_los_describe_pointer (char *ptr);
1005 LOSObject* sgen_los_header_for_object (char *data);
1006 mword sgen_los_object_size (LOSObject *obj);
1007 void sgen_los_pin_object (char *obj);
1008 gboolean sgen_los_object_is_pinned (char *obj);
1009 void sgen_los_mark_mod_union_card (MonoObject *mono_obj, void **ptr);
1012 /* nursery allocator */
1014 void sgen_clear_nursery_fragments (void);
1015 void sgen_nursery_allocator_prepare_for_pinning (void);
1016 void sgen_nursery_allocator_set_nursery_bounds (char *nursery_start, char *nursery_end);
1017 mword sgen_build_nursery_fragments (GCMemSection *nursery_section, SgenGrayQueue *unpin_queue);
1018 void sgen_init_nursery_allocator (void);
1019 void sgen_nursery_allocator_init_heavy_stats (void);
1020 void sgen_alloc_init_heavy_stats (void);
1021 char* sgen_nursery_alloc_get_upper_alloc_bound (void);
1022 void* sgen_nursery_alloc (size_t size);
1023 void* sgen_nursery_alloc_range (size_t size, size_t min_size, size_t *out_alloc_size);
1024 MonoVTable* sgen_get_array_fill_vtable (void);
1025 gboolean sgen_can_alloc_size (size_t size);
1026 void sgen_nursery_retire_region (void *address, ptrdiff_t size);
1028 void sgen_nursery_alloc_prepare_for_minor (void);
1029 void sgen_nursery_alloc_prepare_for_major (void);
1031 char* sgen_alloc_for_promotion (char *obj, size_t objsize, gboolean has_references);
1035 extern MonoNativeTlsKey thread_info_key;
1037 #ifdef HAVE_KW_THREAD
1038 extern __thread SgenThreadInfo *sgen_thread_info;
1039 extern __thread char *stack_end;
1042 #ifdef HAVE_KW_THREAD
1043 #define TLAB_ACCESS_INIT
1044 #define IN_CRITICAL_REGION sgen_thread_info->in_critical_region
1046 #define TLAB_ACCESS_INIT SgenThreadInfo *__thread_info__ = mono_native_tls_get_value (thread_info_key)
1047 #define IN_CRITICAL_REGION (__thread_info__->in_critical_region)
1050 #ifndef DISABLE_CRITICAL_REGION
1052 #ifdef HAVE_KW_THREAD
1053 #define IN_CRITICAL_REGION sgen_thread_info->in_critical_region
1055 #define IN_CRITICAL_REGION (__thread_info__->in_critical_region)
1058 /* Enter must be visible before anything is done in the critical region. */
1059 #define ENTER_CRITICAL_REGION do { mono_atomic_store_acquire (&IN_CRITICAL_REGION, 1); } while (0)
1061 /* Exit must make sure all critical regions stores are visible before it signal the end of the region.
1062 * We don't need to emit a full barrier since we
1064 #define EXIT_CRITICAL_REGION do { mono_atomic_store_release (&IN_CRITICAL_REGION, 0); } while (0)
1068 #ifdef HAVE_KW_THREAD
1070 #define EMIT_TLS_ACCESS_NEXT_ADDR(mb) do { \
1071 mono_mb_emit_byte ((mb), MONO_CUSTOM_PREFIX); \
1072 mono_mb_emit_byte ((mb), CEE_MONO_TLS); \
1073 mono_mb_emit_i4 ((mb), TLS_KEY_SGEN_TLAB_NEXT_ADDR); \
1076 #define EMIT_TLS_ACCESS_TEMP_END(mb) do { \
1077 mono_mb_emit_byte ((mb), MONO_CUSTOM_PREFIX); \
1078 mono_mb_emit_byte ((mb), CEE_MONO_TLS); \
1079 mono_mb_emit_i4 ((mb), TLS_KEY_SGEN_TLAB_TEMP_END); \
1084 #if defined(__APPLE__) || defined (HOST_WIN32)
1085 #define EMIT_TLS_ACCESS_NEXT_ADDR(mb) do { \
1086 mono_mb_emit_byte ((mb), MONO_CUSTOM_PREFIX); \
1087 mono_mb_emit_byte ((mb), CEE_MONO_TLS); \
1088 mono_mb_emit_i4 ((mb), TLS_KEY_SGEN_THREAD_INFO); \
1089 mono_mb_emit_icon ((mb), MONO_STRUCT_OFFSET (SgenThreadInfo, tlab_next_addr)); \
1090 mono_mb_emit_byte ((mb), CEE_ADD); \
1091 mono_mb_emit_byte ((mb), CEE_LDIND_I); \
1094 #define EMIT_TLS_ACCESS_TEMP_END(mb) do { \
1095 mono_mb_emit_byte ((mb), MONO_CUSTOM_PREFIX); \
1096 mono_mb_emit_byte ((mb), CEE_MONO_TLS); \
1097 mono_mb_emit_i4 ((mb), TLS_KEY_SGEN_THREAD_INFO); \
1098 mono_mb_emit_icon ((mb), MONO_STRUCT_OFFSET (SgenThreadInfo, tlab_temp_end)); \
1099 mono_mb_emit_byte ((mb), CEE_ADD); \
1100 mono_mb_emit_byte ((mb), CEE_LDIND_I); \
1104 #define EMIT_TLS_ACCESS_NEXT_ADDR(mb) do { g_error ("sgen is not supported when using --with-tls=pthread.\n"); } while (0)
1105 #define EMIT_TLS_ACCESS_TEMP_END(mb) do { g_error ("sgen is not supported when using --with-tls=pthread.\n"); } while (0)
1112 extern GCMemSection *nursery_section;
1113 extern guint32 collect_before_allocs;
1114 extern guint32 verify_before_allocs;
1115 extern gboolean has_per_allocation_action;
1116 extern size_t degraded_mode;
1117 extern int default_nursery_size;
1118 extern guint32 tlab_size;
1119 extern NurseryClearPolicy nursery_clear_policy;
1120 extern gboolean sgen_try_free_some_memory;
1122 extern LOCK_DECLARE (gc_mutex);
1124 extern int do_pin_stats;
1126 /* Nursery helpers. */
1129 sgen_set_nursery_scan_start (char *p)
1131 size_t idx = (p - (char*)nursery_section->data) / SGEN_SCAN_START_SIZE;
1132 char *old = nursery_section->scan_starts [idx];
1133 if (!old || old > p)
1134 nursery_section->scan_starts [idx] = p;
1138 /* Object Allocation */
1146 } SgenAllocatorType;
1148 void sgen_init_tlab_info (SgenThreadInfo* info);
1149 void sgen_clear_tlabs (void);
1150 void sgen_set_use_managed_allocator (gboolean flag);
1151 gboolean sgen_is_managed_allocator (MonoMethod *method);
1152 gboolean sgen_has_managed_allocator (void);
1156 void sgen_check_consistency (void);
1157 void sgen_check_mod_union_consistency (void);
1158 void sgen_check_major_refs (void);
1159 void sgen_check_whole_heap (gboolean allow_missing_pinning);
1160 void sgen_check_whole_heap_stw (void);
1161 void sgen_check_objref (char *obj);
1162 void sgen_check_heap_marked (gboolean nursery_must_be_pinned);
1163 void sgen_check_nursery_objects_pinned (gboolean pinned);
1164 void sgen_scan_for_registered_roots_in_domain (MonoDomain *domain, int root_type);
1165 void sgen_check_for_xdomain_refs (void);
1166 char* sgen_find_object_for_ptr (char *ptr);
1168 void mono_gc_scan_for_specific_ref (MonoObject *key, gboolean precise);
1170 /* Write barrier support */
1173 * This causes the compile to extend the liveness of 'v' till the call to dummy_use
1176 sgen_dummy_use (gpointer v) {
1177 #if defined(__GNUC__)
1178 __asm__ volatile ("" : "=r"(v) : "r"(v));
1179 #elif defined(_MSC_VER)
1180 static volatile gpointer ptr;
1183 #error "Implement sgen_dummy_use for your compiler"
1187 /* Environment variable parsing */
1189 #define MONO_GC_PARAMS_NAME "MONO_GC_PARAMS"
1190 #define MONO_GC_DEBUG_NAME "MONO_GC_DEBUG"
1192 gboolean sgen_parse_environment_string_extract_number (const char *str, size_t *out);
1193 void sgen_env_var_error (const char *env_var, const char *fallback, const char *description_format, ...);
1197 void sgen_qsort (void *base, size_t nel, size_t width, int (*compar) (const void*, const void*));
1198 gint64 sgen_timestamp (void);
1201 * Canary (guard word) support
1203 * - CANARY_SIZE must be multiple of word size in bytes
1204 * - Canary space is not included on checks against SGEN_MAX_SMALL_OBJ_SIZE
1207 gboolean nursery_canaries_enabled (void);
1209 #define CANARY_SIZE 8
1210 #define CANARY_STRING "koupepia"
1212 #define CANARIFY_SIZE(size) if (nursery_canaries_enabled ()) { \
1213 size = size + CANARY_SIZE; \
1216 #define CANARIFY_ALLOC(addr,size) if (nursery_canaries_enabled ()) { \
1217 memcpy ((char*) (addr) + (size), CANARY_STRING, CANARY_SIZE); \
1220 #define CANARY_VALID(addr) (strncmp ((char*) (addr), CANARY_STRING, CANARY_SIZE) == 0)
1222 #define CHECK_CANARY_FOR_OBJECT(addr) if (nursery_canaries_enabled ()) { \
1223 char* canary_ptr = (char*) (addr) + sgen_safe_object_get_size_unaligned ((MonoObject *) (addr)); \
1224 if (!CANARY_VALID(canary_ptr)) { \
1225 char canary_copy[CANARY_SIZE +1]; \
1226 strncpy (canary_copy, canary_ptr, CANARY_SIZE); \
1227 canary_copy[CANARY_SIZE] = 0; \
1228 g_error ("CORRUPT CANARY:\naddr->%p\ntype->%s\nexcepted->'%s'\nfound->'%s'\n", (char*) addr, ((MonoObject*)addr)->vtable->klass->name, CANARY_STRING, canary_copy); \
1231 #endif /* HAVE_SGEN_GC */
1233 #endif /* __MONO_SGENGC_H__ */