/* * boehm-gc.c: GC implementation using either the installed or included Boehm GC. * * Copyright 2001-2003 Ximian, Inc (http://www.ximian.com) * Copyright 2004-2011 Novell, Inc (http://www.novell.com) * Copyright 2011-2012 Xamarin, Inc (http://www.xamarin.com) */ #include "config.h" #include #define GC_I_HIDE_POINTERS #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_BOEHM_GC #ifdef USE_INCLUDED_LIBGC #undef TRUE #undef FALSE #define THREAD_LOCAL_ALLOC 1 #include "private/pthread_support.h" #endif #if defined(PLATFORM_MACOSX) && defined(HAVE_PTHREAD_GET_STACKADDR_NP) void *pthread_get_stackaddr_np(pthread_t); #endif #define GC_NO_DESCRIPTOR ((gpointer)(0 | GC_DS_LENGTH)) /*Boehm max heap cannot be smaller than 16MB*/ #define MIN_BOEHM_MAX_HEAP_SIZE_IN_MB 16 #define MIN_BOEHM_MAX_HEAP_SIZE (MIN_BOEHM_MAX_HEAP_SIZE_IN_MB << 20) static gboolean gc_initialized = FALSE; static mono_mutex_t mono_gc_lock; static void* boehm_thread_register (MonoThreadInfo* info, void *baseptr); static void mono_gc_warning (char *msg, GC_word arg) { mono_trace (G_LOG_LEVEL_WARNING, MONO_TRACE_GC, msg, (unsigned long)arg); } void mono_gc_base_init (void) { MonoThreadInfoCallbacks cb; const char *env; if (gc_initialized) return; /* * Handle the case when we are called from a thread different from the main thread, * confusing libgc. * FIXME: Move this to libgc where it belongs. * * we used to do this only when running on valgrind, * but it happens also in other setups. */ #if defined(HAVE_PTHREAD_GETATTR_NP) && defined(HAVE_PTHREAD_ATTR_GETSTACK) && !defined(__native_client__) { size_t size; void *sstart; pthread_attr_t attr; pthread_getattr_np (pthread_self (), &attr); pthread_attr_getstack (&attr, &sstart, &size); pthread_attr_destroy (&attr); /*g_print ("stackbottom pth is: %p\n", (char*)sstart + size);*/ #ifdef __ia64__ /* * The calculation above doesn't seem to work on ia64, also we need to set * GC_register_stackbottom as well, but don't know how. */ #else /* apparently with some linuxthreads implementations sstart can be NULL, * fallback to the more imprecise method (bug# 78096). */ if (sstart) { GC_stackbottom = (char*)sstart + size; } else { int dummy; gsize stack_bottom = (gsize)&dummy; stack_bottom += 4095; stack_bottom &= ~4095; GC_stackbottom = (char*)stack_bottom; } #endif } #elif defined(HAVE_PTHREAD_GET_STACKSIZE_NP) && defined(HAVE_PTHREAD_GET_STACKADDR_NP) GC_stackbottom = (char*)pthread_get_stackaddr_np (pthread_self ()); #elif defined(__OpenBSD__) # include { stack_t ss; int rslt; rslt = pthread_stackseg_np(pthread_self(), &ss); g_assert (rslt == 0); GC_stackbottom = (char*)ss.ss_sp; } #elif defined(__native_client__) /* Do nothing, GC_stackbottom is set correctly in libgc */ #else { int dummy; gsize stack_bottom = (gsize)&dummy; stack_bottom += 4095; stack_bottom &= ~4095; /*g_print ("stackbottom is: %p\n", (char*)stack_bottom);*/ GC_stackbottom = (char*)stack_bottom; } #endif #if !defined(PLATFORM_ANDROID) /* If GC_no_dls is set to true, GC_find_limit is not called. This causes a seg fault on Android. */ GC_no_dls = TRUE; #endif GC_init (); GC_oom_fn = mono_gc_out_of_memory; GC_set_warn_proc (mono_gc_warning); GC_finalize_on_demand = 1; GC_finalizer_notifier = mono_gc_finalize_notify; #ifdef HAVE_GC_GCJ_MALLOC GC_init_gcj_malloc (5, NULL); #endif #ifdef HAVE_GC_ALLOW_REGISTER_THREADS GC_allow_register_threads(); #endif if ((env = g_getenv ("MONO_GC_PARAMS"))) { char **ptr, **opts = g_strsplit (env, ",", -1); for (ptr = opts; *ptr; ++ptr) { char *opt = *ptr; if (g_str_has_prefix (opt, "max-heap-size=")) { glong max_heap; opt = strchr (opt, '=') + 1; if (*opt && mono_gc_parse_environment_string_extract_number (opt, &max_heap)) { if (max_heap < MIN_BOEHM_MAX_HEAP_SIZE) { fprintf (stderr, "max-heap-size must be at least %dMb.\n", MIN_BOEHM_MAX_HEAP_SIZE_IN_MB); exit (1); } GC_set_max_heap_size (max_heap); } else { fprintf (stderr, "max-heap-size must be an integer.\n"); exit (1); } continue; } else { /* Could be a parameter for sgen */ /* fprintf (stderr, "MONO_GC_PARAMS must be a comma-delimited list of one or more of the following:\n"); fprintf (stderr, " max-heap-size=N (where N is an integer, possibly with a k, m or a g suffix)\n"); exit (1); */ } } g_strfreev (opts); } memset (&cb, 0, sizeof (cb)); cb.thread_register = boehm_thread_register; cb.mono_method_is_critical = (gpointer)mono_runtime_is_critical_method; #ifndef HOST_WIN32 cb.mono_gc_pthread_create = (gpointer)mono_gc_pthread_create; #endif mono_threads_init (&cb, sizeof (MonoThreadInfo)); mono_mutex_init (&mono_gc_lock); mono_gc_enable_events (); gc_initialized = TRUE; } /** * mono_gc_collect: * @generation: GC generation identifier * * Perform a garbage collection for the given generation, higher numbers * mean usually older objects. Collecting a high-numbered generation * implies collecting also the lower-numbered generations. * The maximum value for @generation can be retrieved with a call to * mono_gc_max_generation(), so this function is usually called as: * * mono_gc_collect (mono_gc_max_generation ()); */ void mono_gc_collect (int generation) { #ifndef DISABLE_PERFCOUNTERS mono_perfcounters->gc_induced++; #endif GC_gcollect (); } /** * mono_gc_max_generation: * * Get the maximum generation number used by the current garbage * collector. The value will be 0 for the Boehm collector, 1 or more * for the generational collectors. * * Returns: the maximum generation number. */ int mono_gc_max_generation (void) { return 0; } /** * mono_gc_get_generation: * @object: a managed object * * Get the garbage collector's generation that @object belongs to. * Use this has a hint only. * * Returns: a garbage collector generation number */ int mono_gc_get_generation (MonoObject *object) { return 0; } /** * mono_gc_collection_count: * @generation: a GC generation number * * Get how many times a garbage collection has been performed * for the given @generation number. * * Returns: the number of garbage collections */ int mono_gc_collection_count (int generation) { return GC_gc_no; } /** * mono_gc_add_memory_pressure: * @value: amount of bytes * * Adjust the garbage collector's view of how many bytes of memory * are indirectly referenced by managed objects (for example unmanaged * memory holding image or other binary data). * This is a hint only to the garbage collector algorithm. * Note that negative amounts of @value will decrease the memory * pressure. */ void mono_gc_add_memory_pressure (gint64 value) { } /** * mono_gc_get_used_size: * * Get the approximate amount of memory used by managed objects. * * Returns: the amount of memory used in bytes */ int64_t mono_gc_get_used_size (void) { return GC_get_heap_size () - GC_get_free_bytes (); } /** * mono_gc_get_heap_size: * * Get the amount of memory used by the garbage collector. * * Returns: the size of the heap in bytes */ int64_t mono_gc_get_heap_size (void) { return GC_get_heap_size (); } gboolean mono_gc_is_gc_thread (void) { #if GC_VERSION_MAJOR >= 7 return TRUE; #elif defined(USE_INCLUDED_LIBGC) return GC_thread_is_registered (); #else return TRUE; #endif } extern int GC_thread_register_foreign (void *base_addr); gboolean mono_gc_register_thread (void *baseptr) { return mono_thread_info_attach (baseptr) != NULL; } static void* boehm_thread_register (MonoThreadInfo* info, void *baseptr) { #if GC_VERSION_MAJOR >= 7 struct GC_stack_base sb; int res; res = GC_get_stack_base (&sb); if (res != GC_SUCCESS) { sb.mem_base = baseptr; #ifdef __ia64__ /* Can't determine the register stack bounds */ g_error ("mono_gc_register_thread failed ().\n"); #endif } res = GC_register_my_thread (&sb); if ((res != GC_SUCCESS) && (res != GC_DUPLICATE)) { g_warning ("GC_register_my_thread () failed.\n"); return NULL; } return info; #else if (mono_gc_is_gc_thread()) return info; #if defined(USE_INCLUDED_LIBGC) && !defined(HOST_WIN32) return GC_thread_register_foreign (baseptr) ? info : NULL; #else return NULL; #endif #endif } gboolean mono_object_is_alive (MonoObject* o) { #ifdef USE_INCLUDED_LIBGC return GC_is_marked ((gpointer)o); #else return TRUE; #endif } int mono_gc_walk_heap (int flags, MonoGCReferences callback, void *data) { return 1; } #ifdef USE_INCLUDED_LIBGC static gint64 gc_start_time; static void on_gc_notification (GCEventType event) { MonoGCEvent e = (MonoGCEvent)event; switch (e) { case MONO_GC_EVENT_PRE_STOP_WORLD: MONO_GC_WORLD_STOP_BEGIN (); mono_thread_info_suspend_lock (); break; case MONO_GC_EVENT_POST_STOP_WORLD: MONO_GC_WORLD_STOP_END (); break; case MONO_GC_EVENT_PRE_START_WORLD: MONO_GC_WORLD_RESTART_BEGIN (1); break; case MONO_GC_EVENT_POST_START_WORLD: MONO_GC_WORLD_RESTART_END (1); mono_thread_info_suspend_unlock (); break; case MONO_GC_EVENT_START: MONO_GC_BEGIN (1); #ifndef DISABLE_PERFCOUNTERS if (mono_perfcounters) mono_perfcounters->gc_collections0++; #endif gc_stats.major_gc_count ++; gc_start_time = mono_100ns_ticks (); break; case MONO_GC_EVENT_END: MONO_GC_END (1); #if defined(ENABLE_DTRACE) && defined(__sun__) /* This works around a dtrace -G problem on Solaris. Limit its actual use to when the probe is enabled. */ if (MONO_GC_END_ENABLED ()) sleep(0); #endif #ifndef DISABLE_PERFCOUNTERS if (mono_perfcounters) { guint64 heap_size = GC_get_heap_size (); guint64 used_size = heap_size - GC_get_free_bytes (); mono_perfcounters->gc_total_bytes = used_size; mono_perfcounters->gc_committed_bytes = heap_size; mono_perfcounters->gc_reserved_bytes = heap_size; mono_perfcounters->gc_gen0size = heap_size; } #endif gc_stats.major_gc_time_usecs += (mono_100ns_ticks () - gc_start_time) / 10; mono_trace_message (MONO_TRACE_GC, "gc took %d usecs", (mono_100ns_ticks () - gc_start_time) / 10); break; } mono_profiler_gc_event (e, 0); } static void on_gc_heap_resize (size_t new_size) { guint64 heap_size = GC_get_heap_size (); #ifndef DISABLE_PERFCOUNTERS if (mono_perfcounters) { mono_perfcounters->gc_committed_bytes = heap_size; mono_perfcounters->gc_reserved_bytes = heap_size; mono_perfcounters->gc_gen0size = heap_size; } #endif mono_profiler_gc_heap_resize (new_size); } void mono_gc_enable_events (void) { GC_notify_event = on_gc_notification; GC_on_heap_resize = on_gc_heap_resize; } #else void mono_gc_enable_events (void) { } #endif int mono_gc_register_root (char *start, size_t size, void *descr) { /* for some strange reason, they want one extra byte on the end */ GC_add_roots (start, start + size + 1); return TRUE; } void mono_gc_deregister_root (char* addr) { #ifndef HOST_WIN32 /* FIXME: libgc doesn't define this work win32 for some reason */ /* FIXME: No size info */ GC_remove_roots (addr, addr + sizeof (gpointer) + 1); #endif } void mono_gc_weak_link_add (void **link_addr, MonoObject *obj, gboolean track) { /* libgc requires that we use HIDE_POINTER... */ *link_addr = (void*)HIDE_POINTER (obj); if (track) GC_REGISTER_LONG_LINK (link_addr, obj); else GC_GENERAL_REGISTER_DISAPPEARING_LINK (link_addr, obj); } void mono_gc_weak_link_remove (void **link_addr, gboolean track) { if (track) GC_unregister_long_link (link_addr); else GC_unregister_disappearing_link (link_addr); *link_addr = NULL; } static gpointer reveal_link (gpointer link_addr) { void **link_a = link_addr; return REVEAL_POINTER (*link_a); } MonoObject* mono_gc_weak_link_get (void **link_addr) { MonoObject *obj = GC_call_with_alloc_lock (reveal_link, link_addr); if (obj == (MonoObject *) -1) return NULL; return obj; } void* mono_gc_make_descr_for_string (gsize *bitmap, int numbits) { return mono_gc_make_descr_from_bitmap (bitmap, numbits); } void* mono_gc_make_descr_for_object (gsize *bitmap, int numbits, size_t obj_size) { return mono_gc_make_descr_from_bitmap (bitmap, numbits); } void* mono_gc_make_descr_for_array (int vector, gsize *elem_bitmap, int numbits, size_t elem_size) { /* libgc has no usable support for arrays... */ return GC_NO_DESCRIPTOR; } void* mono_gc_make_descr_from_bitmap (gsize *bitmap, int numbits) { #ifdef HAVE_GC_GCJ_MALLOC /* It seems there are issues when the bitmap doesn't fit: play it safe */ if (numbits >= 30) return GC_NO_DESCRIPTOR; else return (gpointer)GC_make_descriptor ((GC_bitmap)bitmap, numbits); #else return NULL; #endif } void* mono_gc_make_root_descr_all_refs (int numbits) { return NULL; } void* mono_gc_alloc_fixed (size_t size, void *descr) { /* To help track down typed allocation bugs */ /* static int count; count ++; if (count == atoi (g_getenv ("COUNT2"))) printf ("HIT!\n"); if (count > atoi (g_getenv ("COUNT2"))) return GC_MALLOC (size); */ if (descr) return GC_MALLOC_EXPLICITLY_TYPED (size, (GC_descr)descr); else return GC_MALLOC (size); } void mono_gc_free_fixed (void* addr) { } int mono_gc_invoke_finalizers (void) { /* There is a bug in GC_invoke_finalizer () in versions <= 6.2alpha4: * the 'mem_freed' variable is not initialized when there are no * objects to finalize, which leads to strange behavior later on. * The check is necessary to work around that bug. */ if (GC_should_invoke_finalizers ()) return GC_invoke_finalizers (); return 0; } gboolean mono_gc_pending_finalizers (void) { return GC_should_invoke_finalizers (); } void mono_gc_wbarrier_set_field (MonoObject *obj, gpointer field_ptr, MonoObject* value) { *(void**)field_ptr = value; } void mono_gc_wbarrier_set_arrayref (MonoArray *arr, gpointer slot_ptr, MonoObject* value) { *(void**)slot_ptr = value; } void mono_gc_wbarrier_arrayref_copy (gpointer dest_ptr, gpointer src_ptr, int count) { mono_gc_memmove_aligned (dest_ptr, src_ptr, count * sizeof (gpointer)); } void mono_gc_wbarrier_generic_store (gpointer ptr, MonoObject* value) { *(void**)ptr = value; } void mono_gc_wbarrier_generic_store_atomic (gpointer ptr, MonoObject *value) { InterlockedWritePointer (ptr, value); } void mono_gc_wbarrier_generic_nostore (gpointer ptr) { } void mono_gc_wbarrier_value_copy (gpointer dest, gpointer src, int count, MonoClass *klass) { mono_gc_memmove_atomic (dest, src, count * mono_class_value_size (klass, NULL)); } void mono_gc_wbarrier_object_copy (MonoObject* obj, MonoObject *src) { /* do not copy the sync state */ mono_gc_memmove_aligned ((char*)obj + sizeof (MonoObject), (char*)src + sizeof (MonoObject), mono_object_class (obj)->instance_size - sizeof (MonoObject)); } void mono_gc_clear_domain (MonoDomain *domain) { } int mono_gc_get_suspend_signal (void) { #ifdef USE_INCLUDED_GC return GC_get_suspend_signal (); #else return -1; #endif } #if defined(USE_INCLUDED_LIBGC) && defined(USE_COMPILER_TLS) && defined(__linux__) && (defined(__i386__) || defined(__x86_64__)) extern __thread MONO_TLS_FAST void* GC_thread_tls; #include "metadata-internals.h" static int shift_amount (int v) { int i = 0; while (!(v & (1 << i))) i++; return i; } enum { ATYPE_FREEPTR, ATYPE_FREEPTR_FOR_BOX, ATYPE_NORMAL, ATYPE_GCJ, ATYPE_STRING, ATYPE_NUM }; static MonoMethod* create_allocator (int atype, int tls_key) { int index_var, bytes_var, my_fl_var, my_entry_var; guint32 no_freelist_branch, not_small_enough_branch = 0; guint32 size_overflow_branch = 0; MonoMethodBuilder *mb; MonoMethod *res; MonoMethodSignature *csig; AllocatorWrapperInfo *info; if (atype == ATYPE_STRING) { csig = mono_metadata_signature_alloc (mono_defaults.corlib, 2); csig->ret = &mono_defaults.string_class->byval_arg; csig->params [0] = &mono_defaults.int_class->byval_arg; csig->params [1] = &mono_defaults.int32_class->byval_arg; } else { csig = mono_metadata_signature_alloc (mono_defaults.corlib, 1); csig->ret = &mono_defaults.object_class->byval_arg; csig->params [0] = &mono_defaults.int_class->byval_arg; } mb = mono_mb_new (mono_defaults.object_class, "Alloc", MONO_WRAPPER_ALLOC); bytes_var = mono_mb_add_local (mb, &mono_defaults.int32_class->byval_arg); if (atype == ATYPE_STRING) { /* a string alloator method takes the args: (vtable, len) */ /* bytes = (sizeof (MonoString) + ((len + 1) * 2)); */ mono_mb_emit_ldarg (mb, 1); mono_mb_emit_icon (mb, 1); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_icon (mb, 1); mono_mb_emit_byte (mb, MONO_CEE_SHL); // sizeof (MonoString) might include padding mono_mb_emit_icon (mb, G_STRUCT_OFFSET (MonoString, chars)); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_stloc (mb, bytes_var); } else { /* bytes = vtable->klass->instance_size */ mono_mb_emit_ldarg (mb, 0); mono_mb_emit_icon (mb, G_STRUCT_OFFSET (MonoVTable, klass)); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_byte (mb, MONO_CEE_LDIND_I); mono_mb_emit_icon (mb, G_STRUCT_OFFSET (MonoClass, instance_size)); mono_mb_emit_byte (mb, MONO_CEE_ADD); /* FIXME: assert instance_size stays a 4 byte integer */ mono_mb_emit_byte (mb, MONO_CEE_LDIND_U4); mono_mb_emit_stloc (mb, bytes_var); } /* this is needed for strings/arrays only as the other big types are never allocated with this method */ if (atype == ATYPE_STRING) { /* check for size */ /* if (!SMALL_ENOUGH (bytes)) jump slow_path;*/ mono_mb_emit_ldloc (mb, bytes_var); mono_mb_emit_icon (mb, (NFREELISTS-1) * GRANULARITY); not_small_enough_branch = mono_mb_emit_short_branch (mb, MONO_CEE_BGT_UN_S); /* check for overflow */ mono_mb_emit_ldloc (mb, bytes_var); mono_mb_emit_icon (mb, sizeof (MonoString)); size_overflow_branch = mono_mb_emit_short_branch (mb, MONO_CEE_BLE_UN_S); } /* int index = INDEX_FROM_BYTES(bytes); */ index_var = mono_mb_add_local (mb, &mono_defaults.int32_class->byval_arg); mono_mb_emit_ldloc (mb, bytes_var); mono_mb_emit_icon (mb, GRANULARITY - 1); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_icon (mb, shift_amount (GRANULARITY)); mono_mb_emit_byte (mb, MONO_CEE_SHR_UN); mono_mb_emit_icon (mb, shift_amount (sizeof (gpointer))); mono_mb_emit_byte (mb, MONO_CEE_SHL); /* index var is already adjusted into bytes */ mono_mb_emit_stloc (mb, index_var); my_fl_var = mono_mb_add_local (mb, &mono_defaults.int_class->byval_arg); my_entry_var = mono_mb_add_local (mb, &mono_defaults.int_class->byval_arg); /* my_fl = ((GC_thread)tsd) -> ptrfree_freelists + index; */ mono_mb_emit_byte (mb, MONO_CUSTOM_PREFIX); mono_mb_emit_byte (mb, 0x0D); /* CEE_MONO_TLS */ mono_mb_emit_i4 (mb, tls_key); if (atype == ATYPE_FREEPTR || atype == ATYPE_FREEPTR_FOR_BOX || atype == ATYPE_STRING) mono_mb_emit_icon (mb, G_STRUCT_OFFSET (struct GC_Thread_Rep, ptrfree_freelists)); else if (atype == ATYPE_NORMAL) mono_mb_emit_icon (mb, G_STRUCT_OFFSET (struct GC_Thread_Rep, normal_freelists)); else if (atype == ATYPE_GCJ) mono_mb_emit_icon (mb, G_STRUCT_OFFSET (struct GC_Thread_Rep, gcj_freelists)); else g_assert_not_reached (); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_ldloc (mb, index_var); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_stloc (mb, my_fl_var); /* my_entry = *my_fl; */ mono_mb_emit_ldloc (mb, my_fl_var); mono_mb_emit_byte (mb, MONO_CEE_LDIND_I); mono_mb_emit_stloc (mb, my_entry_var); /* if (EXPECT((word)my_entry >= HBLKSIZE, 1)) { */ mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_icon (mb, HBLKSIZE); no_freelist_branch = mono_mb_emit_short_branch (mb, MONO_CEE_BLT_UN_S); /* ptr_t next = obj_link(my_entry); *my_fl = next; */ mono_mb_emit_ldloc (mb, my_fl_var); mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_byte (mb, MONO_CEE_LDIND_I); mono_mb_emit_byte (mb, MONO_CEE_STIND_I); /* set the vtable and clear the words in the object */ mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_ldarg (mb, 0); mono_mb_emit_byte (mb, MONO_CEE_STIND_I); if (atype == ATYPE_FREEPTR) { int start_var, end_var, start_loop; /* end = my_entry + bytes; start = my_entry + sizeof (gpointer); */ start_var = mono_mb_add_local (mb, &mono_defaults.int_class->byval_arg); end_var = mono_mb_add_local (mb, &mono_defaults.int_class->byval_arg); mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_ldloc (mb, bytes_var); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_stloc (mb, end_var); mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_icon (mb, G_STRUCT_OFFSET (MonoObject, synchronisation)); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_stloc (mb, start_var); /* * do { * *start++ = NULL; * } while (start < end); */ start_loop = mono_mb_get_label (mb); mono_mb_emit_ldloc (mb, start_var); mono_mb_emit_icon (mb, 0); mono_mb_emit_byte (mb, MONO_CEE_STIND_I); mono_mb_emit_ldloc (mb, start_var); mono_mb_emit_icon (mb, sizeof (gpointer)); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_stloc (mb, start_var); mono_mb_emit_ldloc (mb, start_var); mono_mb_emit_ldloc (mb, end_var); mono_mb_emit_byte (mb, MONO_CEE_BLT_UN_S); mono_mb_emit_byte (mb, start_loop - (mono_mb_get_label (mb) + 1)); } else if (atype == ATYPE_FREEPTR_FOR_BOX || atype == ATYPE_STRING) { /* need to clear just the sync pointer */ mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_icon (mb, G_STRUCT_OFFSET (MonoObject, synchronisation)); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_icon (mb, 0); mono_mb_emit_byte (mb, MONO_CEE_STIND_I); } if (atype == ATYPE_STRING) { /* need to set length and clear the last char */ /* s->length = len; */ mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_icon (mb, G_STRUCT_OFFSET (MonoString, length)); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_ldarg (mb, 1); mono_mb_emit_byte (mb, MONO_CEE_STIND_I4); /* s->chars [len] = 0; */ mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_ldloc (mb, bytes_var); mono_mb_emit_icon (mb, 2); mono_mb_emit_byte (mb, MONO_CEE_SUB); mono_mb_emit_byte (mb, MONO_CEE_ADD); mono_mb_emit_icon (mb, 0); mono_mb_emit_byte (mb, MONO_CEE_STIND_I2); } /* return my_entry; */ mono_mb_emit_ldloc (mb, my_entry_var); mono_mb_emit_byte (mb, MONO_CEE_RET); mono_mb_patch_short_branch (mb, no_freelist_branch); if (not_small_enough_branch > 0) mono_mb_patch_short_branch (mb, not_small_enough_branch); if (size_overflow_branch > 0) mono_mb_patch_short_branch (mb, size_overflow_branch); /* the slow path: we just call back into the runtime */ if (atype == ATYPE_STRING) { mono_mb_emit_ldarg (mb, 1); mono_mb_emit_icall (mb, mono_string_alloc); } else { mono_mb_emit_ldarg (mb, 0); mono_mb_emit_icall (mb, mono_object_new_specific); } mono_mb_emit_byte (mb, MONO_CEE_RET); res = mono_mb_create_method (mb, csig, 8); mono_mb_free (mb); mono_method_get_header (res)->init_locals = FALSE; info = mono_image_alloc0 (mono_defaults.corlib, sizeof (AllocatorWrapperInfo)); info->gc_name = "boehm"; info->alloc_type = atype; mono_marshal_set_wrapper_info (res, info); return res; } static MonoMethod* alloc_method_cache [ATYPE_NUM]; static G_GNUC_UNUSED gboolean mono_gc_is_critical_method (MonoMethod *method) { int i; for (i = 0; i < ATYPE_NUM; ++i) if (method == alloc_method_cache [i]) return TRUE; return FALSE; } /* * If possible, generate a managed method that can quickly allocate objects in class * @klass. The method will typically have an thread-local inline allocation sequence. * The signature of the called method is: * object allocate (MonoVTable *vtable) * Some of the logic here is similar to mono_class_get_allocation_ftn () i object.c, * keep in sync. * The thread local alloc logic is taken from libgc/pthread_support.c. */ MonoMethod* mono_gc_get_managed_allocator (MonoClass *klass, gboolean for_box) { int offset = -1; int atype; MONO_THREAD_VAR_OFFSET (GC_thread_tls, offset); /*g_print ("thread tls: %d\n", offset);*/ if (offset == -1) return NULL; if (!SMALL_ENOUGH (klass->instance_size)) return NULL; if (mono_class_has_finalizer (klass) || mono_class_is_marshalbyref (klass) || (mono_profiler_get_events () & MONO_PROFILE_ALLOCATIONS)) return NULL; if (klass->rank) return NULL; if (mono_class_is_open_constructed_type (&klass->byval_arg)) return NULL; if (klass->byval_arg.type == MONO_TYPE_STRING) { atype = ATYPE_STRING; } else if (!klass->has_references) { if (for_box) atype = ATYPE_FREEPTR_FOR_BOX; else atype = ATYPE_FREEPTR; } else { return NULL; /* * disabled because we currently do a runtime choice anyway, to * deal with multiple appdomains. if (vtable->gc_descr != GC_NO_DESCRIPTOR) atype = ATYPE_GCJ; else atype = ATYPE_NORMAL; */ } return mono_gc_get_managed_allocator_by_type (atype); } MonoMethod* mono_gc_get_managed_array_allocator (MonoClass *klass) { return NULL; } /** * mono_gc_get_managed_allocator_by_type: * * Return a managed allocator method corresponding to allocator type ATYPE. */ MonoMethod* mono_gc_get_managed_allocator_by_type (int atype) { int offset = -1; MonoMethod *res; MONO_THREAD_VAR_OFFSET (GC_thread_tls, offset); mono_tls_key_set_offset (TLS_KEY_BOEHM_GC_THREAD, offset); res = alloc_method_cache [atype]; if (res) return res; res = create_allocator (atype, TLS_KEY_BOEHM_GC_THREAD); mono_mutex_lock (&mono_gc_lock); if (alloc_method_cache [atype]) { mono_free_method (res); res = alloc_method_cache [atype]; } else { mono_memory_barrier (); alloc_method_cache [atype] = res; } mono_mutex_unlock (&mono_gc_lock); return res; } guint32 mono_gc_get_managed_allocator_types (void) { return ATYPE_NUM; } MonoMethod* mono_gc_get_write_barrier (void) { g_assert_not_reached (); return NULL; } #else static G_GNUC_UNUSED gboolean mono_gc_is_critical_method (MonoMethod *method) { return FALSE; } MonoMethod* mono_gc_get_managed_allocator (MonoClass *klass, gboolean for_box) { return NULL; } MonoMethod* mono_gc_get_managed_array_allocator (MonoClass *klass) { return NULL; } MonoMethod* mono_gc_get_managed_allocator_by_type (int atype) { return NULL; } guint32 mono_gc_get_managed_allocator_types (void) { return 0; } MonoMethod* mono_gc_get_write_barrier (void) { g_assert_not_reached (); return NULL; } #endif const char * mono_gc_get_gc_name (void) { return "boehm"; } void* mono_gc_invoke_with_gc_lock (MonoGCLockedCallbackFunc func, void *data) { return GC_call_with_alloc_lock (func, data); } char* mono_gc_get_description (void) { return g_strdup (DEFAULT_GC_NAME); } void mono_gc_set_desktop_mode (void) { GC_dont_expand = 1; } gboolean mono_gc_is_moving (void) { return FALSE; } gboolean mono_gc_is_disabled (void) { if (GC_dont_gc || g_getenv ("GC_DONT_GC")) return TRUE; else return FALSE; } void mono_gc_wbarrier_value_copy_bitmap (gpointer _dest, gpointer _src, int size, unsigned bitmap) { g_assert_not_reached (); } guint8* mono_gc_get_card_table (int *shift_bits, gpointer *card_mask) { g_assert_not_reached (); return NULL; } gboolean mono_gc_card_table_nursery_check (void) { g_assert_not_reached (); return TRUE; } void* mono_gc_get_nursery (int *shift_bits, size_t *size) { return NULL; } void mono_gc_set_current_thread_appdomain (MonoDomain *domain) { } gboolean mono_gc_precise_stack_mark_enabled (void) { return FALSE; } FILE * mono_gc_get_logfile (void) { return NULL; } void mono_gc_conservatively_scan_area (void *start, void *end) { g_assert_not_reached (); } void * mono_gc_scan_object (void *obj) { g_assert_not_reached (); return NULL; } gsize* mono_gc_get_bitmap_for_descr (void *descr, int *numbits) { g_assert_not_reached (); return NULL; } void mono_gc_set_gc_callbacks (MonoGCCallbacks *callbacks) { } void mono_gc_set_stack_end (void *stack_end) { } void mono_gc_set_skip_thread (gboolean value) { } void mono_gc_register_for_finalization (MonoObject *obj, void *user_data) { guint offset = 0; #ifndef GC_DEBUG /* This assertion is not valid when GC_DEBUG is defined */ g_assert (GC_base (obj) == (char*)obj - offset); #endif GC_REGISTER_FINALIZER_NO_ORDER ((char*)obj - offset, user_data, GUINT_TO_POINTER (offset), NULL, NULL); } /* * These will call the redefined versions in libgc. */ #ifndef HOST_WIN32 int mono_gc_pthread_create (pthread_t *new_thread, const pthread_attr_t *attr, void *(*start_routine)(void *), void *arg) { return pthread_create (new_thread, attr, start_routine, arg); } int mono_gc_pthread_join (pthread_t thread, void **retval) { return pthread_join (thread, retval); } int mono_gc_pthread_detach (pthread_t thread) { return pthread_detach (thread); } void mono_gc_pthread_exit (void *retval) { pthread_exit (retval); } #endif #ifdef HOST_WIN32 BOOL APIENTRY mono_gc_dllmain (HMODULE module_handle, DWORD reason, LPVOID reserved) { #ifdef USE_INCLUDED_LIBGC return GC_DllMain (module_handle, reason, reserved); #else return TRUE; #endif } #endif guint mono_gc_get_vtable_bits (MonoClass *class) { return 0; } /* * mono_gc_register_altstack: * * Register the dimensions of the normal stack and altstack with the collector. * Currently, STACK/STACK_SIZE is only used when the thread is suspended while it is on an altstack. */ void mono_gc_register_altstack (gpointer stack, gint32 stack_size, gpointer altstack, gint32 altstack_size) { #ifdef USE_INCLUDED_LIBGC GC_register_altstack (stack, stack_size, altstack, altstack_size); #endif } int mono_gc_get_los_limit (void) { return G_MAXINT; } gboolean mono_gc_user_markers_supported (void) { return FALSE; } void * mono_gc_make_root_descr_user (MonoGCRootMarkFunc marker) { g_assert_not_reached (); return NULL; } gboolean mono_gc_set_allow_synchronous_major (gboolean flag) { return flag; } #endif /* no Boehm GC */