#define mono_domain_finalizers_lock(domain) EnterCriticalSection (&(domain)->finalizable_objects_hash_lock);
#define mono_domain_finalizers_unlock(domain) LeaveCriticalSection (&(domain)->finalizable_objects_hash_lock);
+/* Register a memory area as a conservatively scanned GC root */
#define MONO_GC_REGISTER_ROOT(x) mono_gc_register_root ((char*)&(x), sizeof(x), NULL)
#define MONO_GC_UNREGISTER_ROOT(x) mono_gc_deregister_root ((char*)&(x))
+/*
+ * Register a memory location as a root pointing to memory allocated using
+ * mono_gc_alloc_fixed (). This includes MonoGHashTable.
+ */
+#ifdef HAVE_SGEN_GC
+/* The result of alloc_fixed () is not GC tracked memory */
+#define MONO_GC_REGISTER_ROOT_FIXED(x)
+#else
+#define MONO_GC_REGISTER_ROOT_FIXED(x) MONO_GC_REGISTER_ROOT ((x))
+#endif
+
+/*
+ * Return a GC descriptor for an array containing N pointers to memory allocated
+ * by mono_gc_alloc_fixed ().
+ */
+#ifdef HAVE_SGEN_GC
+/* The result of alloc_fixed () is not GC tracked memory */
+#define MONO_GC_ROOT_DESCR_FOR_FIXED(n) mono_gc_make_root_descr_all_refs (0)
+#else
+/* The result of alloc_fixed () is GC tracked memory */
+#define MONO_GC_ROOT_DESCR_FOR_FIXED(n) NULL
+#endif
+
+/* Register a memory location holding a single object reference as a GC root */
+#define MONO_GC_REGISTER_ROOT_SINGLE(x) do { \
+ g_assert (sizeof (x) == sizeof (MonoObject*)); \
+ mono_gc_register_root ((char*)&(x), sizeof(MonoObject*), mono_gc_make_root_descr_all_refs (1)); \
+ } while (0)
+
+/*
+ * This is used for fields which point to objects which are kept alive by other references
+ * when using Boehm.
+ */
+#ifdef HAVE_SGEN_GC
+#define MONO_GC_REGISTER_ROOT_IF_MOVING(x) do { \
+ MONO_GC_REGISTER_ROOT_SINGLE(x); \
+} while (0)
+
+#define MONO_GC_UNREGISTER_ROOT_IF_MOVING(x) do { \
+ MONO_GC_UNREGISTER_ROOT (x); \
+} while (0)
+#else
+#define MONO_GC_REGISTER_ROOT_IF_MOVING(x)
+#define MONO_GC_UNREGISTER_ROOT_IF_MOVING(x)
+#endif
+
+/* useful until we keep track of gc-references in corlib etc. */
+#ifdef HAVE_SGEN_GC
+#define IS_GC_REFERENCE(t) FALSE
+#else
+#define IS_GC_REFERENCE(t) ((t)->type == MONO_TYPE_U && class->image == mono_defaults.corlib)
+#endif
+
void mono_object_register_finalizer (MonoObject *obj) MONO_INTERNAL;
void ves_icall_System_GC_InternalCollect (int generation) MONO_INTERNAL;
gint64 ves_icall_System_GC_GetTotalMemory (MonoBoolean forceCollection) MONO_INTERNAL;
guint32 ves_icall_System_GCHandle_GetTargetHandle (MonoObject *obj, guint32 handle, gint32 type) MONO_INTERNAL;
void ves_icall_System_GCHandle_FreeHandle (guint32 handle) MONO_INTERNAL;
gpointer ves_icall_System_GCHandle_GetAddrOfPinnedObject (guint32 handle) MONO_INTERNAL;
+void ves_icall_System_GC_register_ephemeron_array (MonoObject *array) MONO_INTERNAL;
+MonoObject *ves_icall_System_GC_get_ephemeron_tombstone (void) MONO_INTERNAL;
extern void mono_gc_init (void) MONO_INTERNAL;
extern void mono_gc_base_init (void) MONO_INTERNAL;
extern gboolean mono_gc_is_finalizer_internal_thread (MonoInternalThread *thread) MONO_INTERNAL;
+extern void mono_gc_set_stack_end (void *stack_end) MONO_INTERNAL;
+
/* only valid after the RECLAIM_START GC event and before RECLAIM_END
* Not exported in public headers, but can be linked to (unsupported).
*/
GSList* mono_gc_remove_weak_track_object (MonoDomain *domain, MonoObject *obj) MONO_INTERNAL;
#endif
+/*Ephemeron functionality. Sgen only*/
+gboolean mono_gc_ephemeron_array_add (MonoObject *obj) MONO_INTERNAL;
+
+
MonoBoolean
GCHandle_CheckCurrentDomain (guint32 gchandle) MONO_INTERNAL;
/* simple interface for data structures needed in the runtime */
void* mono_gc_make_descr_from_bitmap (gsize *bitmap, int numbits) MONO_INTERNAL;
+/* Return a root descriptor for a root with all refs */
+void* mono_gc_make_root_descr_all_refs (int numbits) MONO_INTERNAL;
+
/* User defined marking function */
/* It should work like this:
* foreach (ref in GC references in the are structure pointed to by ADDR)
- * *ref = mark_func (*ref)
+ * mark_func (ref)
*/
-typedef void *(*MonoGCCopyFunc) (void *addr);
-typedef void (*MonoGCMarkFunc) (void *addr, MonoGCCopyFunc mark_func);
+typedef void (*MonoGCMarkFunc) (void **addr);
+typedef void (*MonoGCRootMarkFunc) (void *addr, MonoGCMarkFunc mark_func);
/* Create a descriptor with a user defined marking function */
-void *mono_gc_make_root_descr_user (MonoGCMarkFunc marker);
+void *mono_gc_make_root_descr_user (MonoGCRootMarkFunc marker);
/* desc is the result from mono_gc_make_descr*. A NULL value means
* all the words might contain GC pointers.
* The memory is non-moving and it will be explicitly deallocated.
* size bytes will be available from the returned address (ie, descr
* must not be stored in the returned memory)
+ * NOTE: Under Boehm, this returns memory allocated using GC_malloc, so the result should
+ * be stored into a location registered using MONO_GC_REGISTER_ROOT_FIXED ().
*/
void* mono_gc_alloc_fixed (size_t size, void *descr) MONO_INTERNAL;
void mono_gc_free_fixed (void* addr) MONO_INTERNAL;
int mono_gc_finalizers_for_domain (MonoDomain *domain, MonoObject **out_array, int out_size) MONO_INTERNAL;
void mono_gc_run_finalize (void *obj, void *data) MONO_INTERNAL;
void mono_gc_clear_domain (MonoDomain * domain) MONO_INTERNAL;
+void* mono_gc_alloc_mature (MonoVTable *vtable) MONO_INTERNAL;
/*
* Register a root which can only be written using a write barrier.
/* Accessible using mono_marshal_wrapper_info_from_wrapper () */
typedef struct {
+ const char *gc_name;
int alloc_type;
} AllocatorWrapperInfo;
guint32 mono_gc_get_managed_allocator_types (void) MONO_INTERNAL;
+/* Return a short string identifying the GC, indented to be saved in AOT images */
+const char *mono_gc_get_gc_name (void) MONO_INTERNAL;
+
/* Fast write barriers */
MonoMethod* mono_gc_get_write_barrier (void) MONO_INTERNAL;
+/* Fast valuetype copy */
+void mono_gc_wbarrier_value_copy_bitmap (gpointer dest, gpointer src, int size, unsigned bitmap) MONO_INTERNAL;
+
/* helper for the managed alloc support */
MonoString *mono_string_alloc (int length) MONO_INTERNAL;
* needed by the other functions.
*/
gpointer (*thread_attach_func) (void);
- /* FIXME: Add a cleanup function too */
+ /*
+ * Function called during thread deatch to free the data allocated by
+ * thread_attach_func.
+ */
+ void (*thread_detach_func) (gpointer user_data);
/*
* Function called from every thread when suspending for GC. It can save
* data needed for marking from thread stacks. user_data is the data returned
/* Set the callback functions callable by the GC */
void mono_gc_set_gc_callbacks (MonoGCCallbacks *callbacks) MONO_INTERNAL;
+MonoGCCallbacks *mono_gc_get_gc_callbacks (void) MONO_INTERNAL;
/* Functions callable from the thread mark func */
or -1 if not applicable. */
int mono_gc_get_suspend_signal (void) MONO_INTERNAL;
+/*
+ * Return a human readable description of the GC in malloc-ed memory.
+ */
+char* mono_gc_get_description (void) MONO_INTERNAL;
+
+/*
+ * Configure the GC to desktop mode
+ */
+void mono_gc_set_desktop_mode (void) MONO_INTERNAL;
+
+/*
+ * Return whenever this GC can move objects
+ */
+gboolean mono_gc_is_moving (void) MONO_INTERNAL;
+
typedef void* (*MonoGCLockedCallbackFunc) (void *data);
void* mono_gc_invoke_with_gc_lock (MonoGCLockedCallbackFunc func, void *data) MONO_INTERNAL;
-#ifdef HAVE_SGEN_GC
int mono_gc_get_los_limit (void) MONO_INTERNAL;
+
+guint8* mono_gc_get_card_table (int *shift_bits, gpointer *card_mask) MONO_INTERNAL;
+
+void* mono_gc_get_nursery (int *shift_bits, size_t *size) MONO_INTERNAL;
+
+void mono_gc_set_current_thread_appdomain (MonoDomain *domain) MONO_INTERNAL;
+
+void mono_gc_set_skip_thread (gboolean skip) MONO_INTERNAL;
+
+/*
+ * Return whenever GC is disabled
+ */
+gboolean mono_gc_is_disabled (void) MONO_INTERNAL;
+
+#if defined(__MACH__)
+void mono_gc_register_mach_exception_thread (pthread_t thread) MONO_INTERNAL;
+pthread_t mono_gc_get_mach_exception_thread (void) MONO_INTERNAL;
+#endif
+
+gboolean mono_gc_parse_environment_string_extract_number (const char *str, glong *out) MONO_INTERNAL;
+
+gboolean mono_gc_precise_stack_mark_enabled (void) MONO_INTERNAL;
+
+FILE *mono_gc_get_logfile (void) MONO_INTERNAL;
+
+typedef void (*mono_reference_queue_callback) (void *user_data);
+
+typedef struct _MonoReferenceQueue MonoReferenceQueue;
+typedef struct _RefQueueEntry RefQueueEntry;
+
+struct _RefQueueEntry {
+#ifdef HAVE_SGEN_GC
+ void *dis_link;
+#else
+ guint32 gchandle;
+#endif
+ void *user_data;
+ RefQueueEntry *next;
+};
+
+struct _MonoReferenceQueue {
+ RefQueueEntry *queue;
+ mono_reference_queue_callback callback;
+ MonoReferenceQueue *next;
+ gboolean should_be_deleted;
+};
+
+MonoReferenceQueue* mono_gc_reference_queue_new (mono_reference_queue_callback callback) MONO_INTERNAL;
+void mono_gc_reference_queue_free (MonoReferenceQueue *queue) MONO_INTERNAL;
+gboolean mono_gc_reference_queue_add (MonoReferenceQueue *queue, MonoObject *obj, void *user_data) MONO_INTERNAL;
+
+#ifdef HOST_WIN32
+BOOL APIENTRY mono_gc_dllmain (HMODULE module_handle, DWORD reason, LPVOID reserved) MONO_INTERNAL;
#endif
+void mono_gc_bzero (void *dest, size_t size) MONO_INTERNAL;
+void mono_gc_memmove (void *dest, const void *src, size_t size) MONO_INTERNAL;
+
+guint mono_gc_get_vtable_bits (MonoClass *class) MONO_INTERNAL;
#endif /* __MONO_METADATA_GC_INTERNAL_H__ */