2 * generic-sharing.c: Support functions for generic sharing.
5 * Mark Probst (mark.probst@gmail.com)
7 * Copyright 2007-2011 Novell, Inc (http://www.novell.com)
8 * Copyright 2011 Xamarin, Inc (http://www.xamarin.com)
13 #include <mono/metadata/class.h>
14 #include <mono/utils/mono-counters.h>
18 #define ALLOW_PARTIAL_SHARING TRUE
19 //#define ALLOW_PARTIAL_SHARING FALSE
22 #define DEBUG(...) __VA_ARGS__
28 mono_class_unregister_image_generic_subclasses (MonoImage *image, gpointer user_data);
30 static gboolean partial_supported = FALSE;
32 static inline gboolean
33 partial_sharing_supported (void)
35 if (!ALLOW_PARTIAL_SHARING)
37 /* Enable this when AOT compiling or running in full-aot mode */
40 if (partial_supported)
46 type_check_context_used (MonoType *type, gboolean recursive)
48 switch (mono_type_get_type (type)) {
50 return MONO_GENERIC_CONTEXT_USED_CLASS;
52 return MONO_GENERIC_CONTEXT_USED_METHOD;
53 case MONO_TYPE_SZARRAY:
54 return mono_class_check_context_used (mono_type_get_class (type));
56 return mono_class_check_context_used (mono_type_get_array_type (type)->eklass);
59 return mono_class_check_context_used (mono_type_get_class (type));
62 case MONO_TYPE_GENERICINST:
64 MonoGenericClass *gclass = type->data.generic_class;
66 g_assert (gclass->container_class->generic_container);
67 return mono_generic_context_check_used (&gclass->context);
77 inst_check_context_used (MonoGenericInst *inst)
85 for (i = 0; i < inst->type_argc; ++i)
86 context_used |= type_check_context_used (inst->type_argv [i], TRUE);
92 * mono_generic_context_check_used:
93 * @context: a generic context
95 * Checks whether the context uses a type variable. Returns an int
96 * with the bit MONO_GENERIC_CONTEXT_USED_CLASS set to reflect whether
97 * the context's class instantiation uses type variables.
100 mono_generic_context_check_used (MonoGenericContext *context)
102 int context_used = 0;
104 context_used |= inst_check_context_used (context->class_inst);
105 context_used |= inst_check_context_used (context->method_inst);
111 * mono_class_check_context_used:
114 * Checks whether the class's generic context uses a type variable.
115 * Returns an int with the bit MONO_GENERIC_CONTEXT_USED_CLASS set to
116 * reflect whether the context's class instantiation uses type
120 mono_class_check_context_used (MonoClass *klass)
122 int context_used = 0;
124 context_used |= type_check_context_used (&klass->this_arg, FALSE);
125 context_used |= type_check_context_used (&klass->byval_arg, FALSE);
127 if (klass->generic_class)
128 context_used |= mono_generic_context_check_used (&klass->generic_class->context);
129 else if (klass->generic_container)
130 context_used |= mono_generic_context_check_used (&klass->generic_container->context);
136 * LOCKING: loader lock
138 static MonoRuntimeGenericContextInfoTemplate*
139 get_info_templates (MonoRuntimeGenericContextTemplate *template, int type_argc)
141 g_assert (type_argc >= 0);
143 return template->infos;
144 return g_slist_nth_data (template->method_templates, type_argc - 1);
148 * LOCKING: loader lock
151 set_info_templates (MonoImage *image, MonoRuntimeGenericContextTemplate *template, int type_argc,
152 MonoRuntimeGenericContextInfoTemplate *oti)
154 g_assert (type_argc >= 0);
156 template->infos = oti;
158 int length = g_slist_length (template->method_templates);
161 /* FIXME: quadratic! */
162 while (length < type_argc) {
163 template->method_templates = g_slist_append_image (image, template->method_templates, NULL);
167 list = g_slist_nth (template->method_templates, type_argc - 1);
174 * LOCKING: loader lock
177 template_get_max_argc (MonoRuntimeGenericContextTemplate *template)
179 return g_slist_length (template->method_templates);
183 * LOCKING: loader lock
185 static MonoRuntimeGenericContextInfoTemplate*
186 rgctx_template_get_other_slot (MonoRuntimeGenericContextTemplate *template, int type_argc, int slot)
189 MonoRuntimeGenericContextInfoTemplate *oti;
191 g_assert (slot >= 0);
193 for (oti = get_info_templates (template, type_argc), i = 0; i < slot; oti = oti->next, ++i) {
202 * LOCKING: loader lock
205 rgctx_template_num_infos (MonoRuntimeGenericContextTemplate *template, int type_argc)
207 MonoRuntimeGenericContextInfoTemplate *oti;
210 for (i = 0, oti = get_info_templates (template, type_argc); oti; ++i, oti = oti->next)
216 /* Maps from uninstantiated generic classes to GList's of
217 * uninstantiated generic classes whose parent is the key class or an
218 * instance of the key class.
220 * LOCKING: loader lock
222 static GHashTable *generic_subclass_hash;
225 * LOCKING: templates lock
228 class_set_rgctx_template (MonoClass *klass, MonoRuntimeGenericContextTemplate *rgctx_template)
230 if (!klass->image->rgctx_template_hash)
231 klass->image->rgctx_template_hash = g_hash_table_new (mono_aligned_addr_hash, NULL);
233 g_hash_table_insert (klass->image->rgctx_template_hash, klass, rgctx_template);
237 * LOCKING: loader lock
239 static MonoRuntimeGenericContextTemplate*
240 class_lookup_rgctx_template (MonoClass *klass)
242 MonoRuntimeGenericContextTemplate *template;
244 if (!klass->image->rgctx_template_hash)
247 template = g_hash_table_lookup (klass->image->rgctx_template_hash, klass);
253 * LOCKING: loader lock
256 register_generic_subclass (MonoClass *klass)
258 MonoClass *parent = klass->parent;
260 MonoRuntimeGenericContextTemplate *rgctx_template = class_lookup_rgctx_template (klass);
262 g_assert (rgctx_template);
264 if (parent->generic_class)
265 parent = parent->generic_class->container_class;
267 if (!generic_subclass_hash)
268 generic_subclass_hash = g_hash_table_new (mono_aligned_addr_hash, NULL);
270 subclass = g_hash_table_lookup (generic_subclass_hash, parent);
271 rgctx_template->next_subclass = subclass;
272 g_hash_table_insert (generic_subclass_hash, parent, klass);
276 move_subclasses_not_in_image_foreach_func (MonoClass *klass, MonoClass *subclass, MonoImage *image)
280 if (klass->image == image) {
281 /* The parent class itself is in the image, so all the
282 subclasses must be in the image, too. If not,
283 we're removing an image containing a class which
284 still has a subclass in another image. */
287 g_assert (subclass->image == image);
288 subclass = class_lookup_rgctx_template (subclass)->next_subclass;
296 MonoRuntimeGenericContextTemplate *subclass_template = class_lookup_rgctx_template (subclass);
297 MonoClass *next = subclass_template->next_subclass;
299 if (subclass->image != image) {
300 subclass_template->next_subclass = new_list;
308 g_hash_table_insert (generic_subclass_hash, klass, new_list);
312 * mono_class_unregister_image_generic_subclasses:
315 * Removes all classes of the image from the generic subclass hash.
316 * Must be called when an image is unloaded.
319 mono_class_unregister_image_generic_subclasses (MonoImage *image, gpointer user_data)
321 GHashTable *old_hash;
323 //g_print ("unregistering image %s\n", image->name);
325 if (!generic_subclass_hash)
330 old_hash = generic_subclass_hash;
331 generic_subclass_hash = g_hash_table_new (mono_aligned_addr_hash, NULL);
333 g_hash_table_foreach (old_hash, (GHFunc)move_subclasses_not_in_image_foreach_func, image);
335 mono_loader_unlock ();
337 g_hash_table_destroy (old_hash);
340 static MonoRuntimeGenericContextTemplate*
341 alloc_template (MonoClass *klass)
343 static gboolean inited = FALSE;
344 static int num_allocted = 0;
345 static int num_bytes = 0;
347 int size = sizeof (MonoRuntimeGenericContextTemplate);
350 mono_counters_register ("RGCTX template num allocted", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_allocted);
351 mono_counters_register ("RGCTX template bytes allocted", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_bytes);
358 return mono_image_alloc0 (klass->image, size);
361 static MonoRuntimeGenericContextInfoTemplate*
362 alloc_oti (MonoImage *image)
364 static gboolean inited = FALSE;
365 static int num_allocted = 0;
366 static int num_bytes = 0;
368 int size = sizeof (MonoRuntimeGenericContextInfoTemplate);
371 mono_counters_register ("RGCTX oti num allocted", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_allocted);
372 mono_counters_register ("RGCTX oti bytes allocted", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_bytes);
379 return mono_image_alloc0 (image, size);
382 #define MONO_RGCTX_SLOT_USED_MARKER ((gpointer)&mono_defaults.object_class->byval_arg)
385 * Return true if this info type has the notion of identify.
387 * Some info types expect that each insert results in a new slot been assigned.
390 info_has_identity (MonoRgctxInfoType info_type)
392 return info_type != MONO_RGCTX_INFO_CAST_CACHE;
396 * LOCKING: loader lock
399 rgctx_template_set_slot (MonoImage *image, MonoRuntimeGenericContextTemplate *template, int type_argc,
400 int slot, gpointer data, MonoRgctxInfoType info_type)
402 static gboolean inited = FALSE;
403 static int num_markers = 0;
404 static int num_data = 0;
407 MonoRuntimeGenericContextInfoTemplate *list = get_info_templates (template, type_argc);
408 MonoRuntimeGenericContextInfoTemplate **oti = &list;
411 mono_counters_register ("RGCTX oti num markers", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_markers);
412 mono_counters_register ("RGCTX oti num data", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_data);
416 g_assert (slot >= 0);
424 *oti = alloc_oti (image);
428 g_assert (!(*oti)->data);
430 (*oti)->info_type = info_type;
432 set_info_templates (image, template, type_argc, list);
434 if (data == MONO_RGCTX_SLOT_USED_MARKER)
441 * mono_method_get_declaring_generic_method:
442 * @method: an inflated method
444 * Returns an inflated method's declaring method.
447 mono_method_get_declaring_generic_method (MonoMethod *method)
449 MonoMethodInflated *inflated;
451 g_assert (method->is_inflated);
453 inflated = (MonoMethodInflated*)method;
455 return inflated->declaring;
459 * mono_class_get_method_generic:
463 * Given a class and a generic method, which has to be of an
464 * instantiation of the same class that klass is an instantiation of,
465 * returns the corresponding method in klass. Example:
467 * klass is Gen<string>
468 * method is Gen<object>.work<int>
470 * returns: Gen<string>.work<int>
473 mono_class_get_method_generic (MonoClass *klass, MonoMethod *method)
475 MonoMethod *declaring, *m;
478 if (method->is_inflated)
479 declaring = mono_method_get_declaring_generic_method (method);
484 if (klass->generic_class)
485 m = mono_class_get_inflated_method (klass, declaring);
488 mono_class_setup_methods (klass);
489 if (klass->exception_type)
491 for (i = 0; i < klass->method.count; ++i) {
492 m = klass->methods [i];
495 if (m->is_inflated && mono_method_get_declaring_generic_method (m) == declaring)
498 if (i >= klass->method.count)
502 if (method != declaring) {
504 MonoGenericContext context;
506 context.class_inst = NULL;
507 context.method_inst = mono_method_get_context (method)->method_inst;
509 m = mono_class_inflate_generic_method_checked (m, &context, &error);
510 g_assert (mono_error_ok (&error)); /* FIXME don't swallow the error */
517 inflate_info (MonoRuntimeGenericContextInfoTemplate *oti, MonoGenericContext *context, MonoClass *klass, gboolean temporary)
519 gpointer data = oti->data;
520 MonoRgctxInfoType info_type = oti->info_type;
525 if (data == MONO_RGCTX_SLOT_USED_MARKER)
526 return MONO_RGCTX_SLOT_USED_MARKER;
530 case MONO_RGCTX_INFO_STATIC_DATA:
531 case MONO_RGCTX_INFO_KLASS:
532 case MONO_RGCTX_INFO_ELEMENT_KLASS:
533 case MONO_RGCTX_INFO_VTABLE:
534 case MONO_RGCTX_INFO_TYPE:
535 case MONO_RGCTX_INFO_REFLECTION_TYPE:
536 case MONO_RGCTX_INFO_CAST_CACHE:
537 case MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE:
538 case MONO_RGCTX_INFO_VALUE_SIZE:
539 case MONO_RGCTX_INFO_CLASS_BOX_TYPE:
540 case MONO_RGCTX_INFO_MEMCPY:
541 case MONO_RGCTX_INFO_BZERO:
542 case MONO_RGCTX_INFO_LOCAL_OFFSET:
543 case MONO_RGCTX_INFO_NULLABLE_CLASS_BOX:
544 case MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX: {
545 gpointer result = mono_class_inflate_generic_type_with_mempool (temporary ? NULL : klass->image,
546 data, context, &error);
547 g_assert (mono_error_ok (&error)); /*FIXME proper error handling*/
551 case MONO_RGCTX_INFO_METHOD:
552 case MONO_RGCTX_INFO_GENERIC_METHOD_CODE:
553 case MONO_RGCTX_INFO_METHOD_RGCTX:
554 case MONO_RGCTX_INFO_METHOD_CONTEXT:
555 case MONO_RGCTX_INFO_REMOTING_INVOKE_WITH_CHECK:
556 case MONO_RGCTX_INFO_METHOD_DELEGATE_CODE: {
557 MonoMethod *method = data;
558 MonoMethod *inflated_method;
559 MonoType *inflated_type = mono_class_inflate_generic_type (&method->klass->byval_arg, context);
560 MonoClass *inflated_class = mono_class_from_mono_type (inflated_type);
562 mono_metadata_free_type (inflated_type);
564 mono_class_init (inflated_class);
566 g_assert (!method->wrapper_type);
568 if (inflated_class->byval_arg.type == MONO_TYPE_ARRAY ||
569 inflated_class->byval_arg.type == MONO_TYPE_SZARRAY) {
570 inflated_method = mono_method_search_in_array_class (inflated_class,
571 method->name, method->signature);
574 inflated_method = mono_class_inflate_generic_method_checked (method, context, &error);
575 g_assert (mono_error_ok (&error)); /* FIXME don't swallow the error */
577 mono_class_init (inflated_method->klass);
578 g_assert (inflated_method->klass == inflated_class);
579 return inflated_method;
581 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_INFO: {
582 MonoGSharedVtMethodInfo *oinfo = data;
583 MonoGSharedVtMethodInfo *res;
584 MonoDomain *domain = mono_domain_get ();
587 res = mono_domain_alloc0 (domain, sizeof (MonoGSharedVtMethodInfo));
589 res->nlocals = info->nlocals;
590 res->locals_types = g_new0 (MonoType*, info->nlocals);
591 for (i = 0; i < info->nlocals; ++i)
592 res->locals_types [i] = mono_class_inflate_generic_type (info->locals_types [i], context);
594 res->num_entries = oinfo->num_entries;
595 res->entries = mono_domain_alloc0 (domain, sizeof (MonoRuntimeGenericContextInfoTemplate) * oinfo->num_entries);
596 for (i = 0; i < oinfo->num_entries; ++i) {
597 MonoRuntimeGenericContextInfoTemplate *otemplate = &oinfo->entries [i];
598 MonoRuntimeGenericContextInfoTemplate *template = &res->entries [i];
600 memcpy (template, otemplate, sizeof (MonoRuntimeGenericContextInfoTemplate));
601 template->data = inflate_info (template, context, klass, FALSE);
605 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE:
606 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT: {
607 MonoJumpInfoGSharedVtCall *info = data;
608 MonoMethod *method = info->method;
609 MonoMethod *inflated_method;
610 MonoType *inflated_type = mono_class_inflate_generic_type (&method->klass->byval_arg, context);
611 MonoClass *inflated_class = mono_class_from_mono_type (inflated_type);
612 MonoJumpInfoGSharedVtCall *res;
613 MonoDomain *domain = mono_domain_get ();
615 res = mono_domain_alloc0 (domain, sizeof (MonoJumpInfoGSharedVtCall));
616 /* Keep the original signature */
617 res->sig = info->sig;
619 mono_metadata_free_type (inflated_type);
621 mono_class_init (inflated_class);
623 g_assert (!method->wrapper_type);
625 if (inflated_class->byval_arg.type == MONO_TYPE_ARRAY ||
626 inflated_class->byval_arg.type == MONO_TYPE_SZARRAY) {
627 inflated_method = mono_method_search_in_array_class (inflated_class,
628 method->name, method->signature);
631 inflated_method = mono_class_inflate_generic_method_checked (method, context, &error);
632 g_assert (mono_error_ok (&error)); /* FIXME don't swallow the error */
634 mono_class_init (inflated_method->klass);
635 g_assert (inflated_method->klass == inflated_class);
636 res->method = inflated_method;
641 case MONO_RGCTX_INFO_CLASS_FIELD:
642 case MONO_RGCTX_INFO_FIELD_OFFSET: {
643 MonoClassField *field = data;
644 MonoType *inflated_type = mono_class_inflate_generic_type (&field->parent->byval_arg, context);
645 MonoClass *inflated_class = mono_class_from_mono_type (inflated_type);
646 int i = field - field->parent->fields;
647 gpointer dummy = NULL;
649 mono_metadata_free_type (inflated_type);
651 mono_class_get_fields (inflated_class, &dummy);
652 g_assert (inflated_class->fields);
654 return &inflated_class->fields [i];
656 case MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI: {
657 MonoMethodSignature *sig = data;
658 MonoMethodSignature *isig;
661 isig = mono_inflate_generic_signature (sig, context, &error);
662 g_assert (mono_error_ok (&error));
665 case MONO_RGCTX_INFO_VIRT_METHOD_CODE:
666 case MONO_RGCTX_INFO_VIRT_METHOD_BOX_TYPE: {
667 MonoJumpInfoVirtMethod *info = data;
668 MonoJumpInfoVirtMethod *res;
670 MonoDomain *domain = mono_domain_get ();
674 res = mono_domain_alloc0 (domain, sizeof (MonoJumpInfoVirtMethod));
675 t = mono_class_inflate_generic_type (&info->klass->byval_arg, context);
676 res->klass = mono_class_from_mono_type (t);
677 mono_metadata_free_type (t);
679 res->method = mono_class_inflate_generic_method_checked (info->method, context, &error);
680 g_assert (mono_error_ok (&error)); /* FIXME don't swallow the error */
685 g_assert_not_reached ();
687 /* Not reached, quiet compiler */
692 free_inflated_info (MonoRgctxInfoType info_type, gpointer info)
698 case MONO_RGCTX_INFO_STATIC_DATA:
699 case MONO_RGCTX_INFO_KLASS:
700 case MONO_RGCTX_INFO_ELEMENT_KLASS:
701 case MONO_RGCTX_INFO_VTABLE:
702 case MONO_RGCTX_INFO_TYPE:
703 case MONO_RGCTX_INFO_REFLECTION_TYPE:
704 case MONO_RGCTX_INFO_CAST_CACHE:
705 mono_metadata_free_type (info);
712 static MonoRuntimeGenericContextInfoTemplate
713 class_get_rgctx_template_oti (MonoClass *klass, int type_argc, guint32 slot, gboolean temporary, gboolean shared, gboolean *do_free);
716 class_uninstantiated (MonoClass *klass)
718 if (klass->generic_class)
719 return klass->generic_class->container_class;
726 * Return the class used to store information when using generic sharing.
729 get_shared_class (MonoClass *klass)
731 return class_uninstantiated (klass);
735 * mono_class_get_runtime_generic_context_template:
738 * Looks up or constructs, if necessary, the runtime generic context template for class.
739 * The template is the same for all instantiations of a class.
741 static MonoRuntimeGenericContextTemplate*
742 mono_class_get_runtime_generic_context_template (MonoClass *klass)
744 MonoRuntimeGenericContextTemplate *parent_template, *template;
747 klass = get_shared_class (klass);
750 template = class_lookup_rgctx_template (klass);
751 mono_loader_unlock ();
756 //g_assert (get_shared_class (class) == class);
758 template = alloc_template (klass);
764 int max_argc, type_argc;
766 parent_template = mono_class_get_runtime_generic_context_template (klass->parent);
767 max_argc = template_get_max_argc (parent_template);
769 for (type_argc = 0; type_argc <= max_argc; ++type_argc) {
770 num_entries = rgctx_template_num_infos (parent_template, type_argc);
772 /* FIXME: quadratic! */
773 for (i = 0; i < num_entries; ++i) {
774 MonoRuntimeGenericContextInfoTemplate oti;
776 oti = class_get_rgctx_template_oti (klass->parent, type_argc, i, FALSE, FALSE, NULL);
777 if (oti.data && oti.data != MONO_RGCTX_SLOT_USED_MARKER) {
778 rgctx_template_set_slot (klass->image, template, type_argc, i,
779 oti.data, oti.info_type);
785 if (class_lookup_rgctx_template (klass)) {
786 /* some other thread already set the template */
787 template = class_lookup_rgctx_template (klass);
789 class_set_rgctx_template (klass, template);
792 register_generic_subclass (klass);
795 mono_loader_unlock ();
801 * class_get_rgctx_template_oti:
803 * Return the info template of CLASS numbered TYPE_ARGC/SLOT.
804 * temporary signifies whether the inflated info (oti.data) will be
805 * used temporarily, in which case it might be heap-allocated, or
806 * permanently, in which case it will be mempool-allocated. If
807 * temporary is set then *do_free will return whether the returned
808 * data must be freed.
810 * LOCKING: loader lock
812 static MonoRuntimeGenericContextInfoTemplate
813 class_get_rgctx_template_oti (MonoClass *klass, int type_argc, guint32 slot, gboolean temporary, gboolean shared, gboolean *do_free)
815 g_assert ((temporary && do_free) || (!temporary && !do_free));
817 DEBUG (printf ("get slot: %s %d\n", mono_type_full_name (&class->byval_arg), slot));
819 if (klass->generic_class && !shared) {
820 MonoRuntimeGenericContextInfoTemplate oti;
821 gboolean tmp_do_free;
823 oti = class_get_rgctx_template_oti (klass->generic_class->container_class,
824 type_argc, slot, TRUE, FALSE, &tmp_do_free);
826 gpointer info = oti.data;
827 oti.data = inflate_info (&oti, &klass->generic_class->context, klass, temporary);
829 free_inflated_info (oti.info_type, info);
836 MonoRuntimeGenericContextTemplate *template;
837 MonoRuntimeGenericContextInfoTemplate *oti;
839 template = mono_class_get_runtime_generic_context_template (klass);
840 oti = rgctx_template_get_other_slot (template, type_argc, slot);
851 class_type_info (MonoDomain *domain, MonoClass *klass, MonoRgctxInfoType info_type)
854 case MONO_RGCTX_INFO_STATIC_DATA: {
855 MonoVTable *vtable = mono_class_vtable (domain, klass);
857 mono_raise_exception (mono_class_get_exception_for_failure (klass));
858 return mono_vtable_get_static_field_data (vtable);
860 case MONO_RGCTX_INFO_KLASS:
862 case MONO_RGCTX_INFO_ELEMENT_KLASS:
863 return klass->element_class;
864 case MONO_RGCTX_INFO_VTABLE: {
865 MonoVTable *vtable = mono_class_vtable (domain, klass);
867 mono_raise_exception (mono_class_get_exception_for_failure (klass));
870 case MONO_RGCTX_INFO_CAST_CACHE: {
871 /*First slot is the cache itself, the second the vtable.*/
872 gpointer **cache_data = mono_domain_alloc0 (domain, sizeof (gpointer) * 2);
873 cache_data [1] = (gpointer)klass;
876 case MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE:
877 return GUINT_TO_POINTER (mono_class_array_element_size (klass));
878 case MONO_RGCTX_INFO_VALUE_SIZE:
879 if (MONO_TYPE_IS_REFERENCE (&klass->byval_arg))
880 return GUINT_TO_POINTER (sizeof (gpointer));
882 return GUINT_TO_POINTER (mono_class_value_size (klass, NULL));
883 case MONO_RGCTX_INFO_CLASS_BOX_TYPE:
884 if (MONO_TYPE_IS_REFERENCE (&klass->byval_arg))
885 return GUINT_TO_POINTER (1);
886 else if (mono_class_is_nullable (klass))
887 return GUINT_TO_POINTER (2);
889 return GUINT_TO_POINTER (0);
890 case MONO_RGCTX_INFO_MEMCPY:
891 case MONO_RGCTX_INFO_BZERO: {
892 static MonoMethod *memcpy_method [17];
893 static MonoMethod *bzero_method [17];
894 MonoJitDomainInfo *domain_info;
898 domain_info = domain_jit_info (domain);
900 if (MONO_TYPE_IS_REFERENCE (&klass->byval_arg)) {
901 size = sizeof (gpointer);
902 align = sizeof (gpointer);
904 size = mono_class_value_size (klass, &align);
907 if (size != 1 && size != 2 && size != 4 && size != 8)
912 if (info_type == MONO_RGCTX_INFO_MEMCPY) {
913 if (!memcpy_method [size]) {
918 sprintf (name, "memcpy");
920 sprintf (name, "memcpy_aligned_%d", size);
921 m = mono_class_get_method_from_name (mono_defaults.string_class, name, 3);
923 mono_memory_barrier ();
924 memcpy_method [size] = m;
926 if (!domain_info->memcpy_addr [size]) {
927 gpointer addr = mono_compile_method (memcpy_method [size]);
928 mono_memory_barrier ();
929 domain_info->memcpy_addr [size] = addr;
931 return domain_info->memcpy_addr [size];
933 if (!bzero_method [size]) {
938 sprintf (name, "bzero");
940 sprintf (name, "bzero_aligned_%d", size);
941 m = mono_class_get_method_from_name (mono_defaults.string_class, name, 2);
943 mono_memory_barrier ();
944 bzero_method [size] = m;
946 if (!domain_info->bzero_addr [size]) {
947 gpointer addr = mono_compile_method (bzero_method [size]);
948 mono_memory_barrier ();
949 domain_info->bzero_addr [size] = addr;
951 return domain_info->bzero_addr [size];
954 case MONO_RGCTX_INFO_NULLABLE_CLASS_BOX:
955 case MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX: {
960 if (!mono_class_is_nullable (klass))
961 /* This can happen since all the entries in MonoGSharedVtMethodInfo are inflated, even those which are not used */
964 if (info_type == MONO_RGCTX_INFO_NULLABLE_CLASS_BOX)
965 method = mono_class_get_method_from_name (klass, "Box", 1);
967 method = mono_class_get_method_from_name (klass, "Unbox", 1);
969 addr = mono_compile_method (method);
970 // The caller uses the gsharedvt call signature
971 ji = mini_jit_info_table_find (mono_domain_get (), mono_get_addr_from_ftnptr (addr), NULL);
973 if (mini_jit_info_is_gsharedvt (ji))
974 return mono_create_static_rgctx_trampoline (method, addr);
976 MonoMethodSignature *sig, *gsig;
979 /* Need to add an out wrapper */
981 /* FIXME: We have no access to the gsharedvt signature/gsctx used by the caller, so have to construct it ourselves */
982 gmethod = mini_get_shared_method_full (method, FALSE, TRUE);
983 sig = mono_method_signature (method);
984 gsig = mono_method_signature (gmethod);
986 addr = mini_get_gsharedvt_wrapper (FALSE, addr, sig, gsig, -1, FALSE);
987 addr = mono_create_static_rgctx_trampoline (method, addr);
992 g_assert_not_reached ();
999 ji_is_gsharedvt (MonoJitInfo *ji)
1001 if (ji && ji->has_generic_jit_info && (mono_jit_info_get_generic_sharing_context (ji)->is_gsharedvt))
1008 * Describes the information used to construct a gsharedvt arg trampoline.
1013 gint32 vcall_offset;
1015 MonoMethodSignature *sig, *gsig;
1016 } GSharedVtTrampInfo;
1019 tramp_info_hash (gconstpointer key)
1021 GSharedVtTrampInfo *tramp = (gpointer)key;
1023 return (gsize)tramp->addr;
1027 tramp_info_equal (gconstpointer a, gconstpointer b)
1029 GSharedVtTrampInfo *tramp1 = (gpointer)a;
1030 GSharedVtTrampInfo *tramp2 = (gpointer)b;
1032 /* The signatures should be internalized */
1033 return tramp1->is_in == tramp2->is_in && tramp1->calli == tramp2->calli && tramp1->vcall_offset == tramp2->vcall_offset &&
1034 tramp1->addr == tramp2->addr && tramp1->sig == tramp2->sig && tramp1->gsig == tramp2->gsig;
1038 * mini_get_gsharedvt_wrapper:
1040 * Return a gsharedvt in/out wrapper for calling ADDR.
1043 mini_get_gsharedvt_wrapper (gboolean gsharedvt_in, gpointer addr, MonoMethodSignature *normal_sig, MonoMethodSignature *gsharedvt_sig, gint32 vcall_offset, gboolean calli)
1045 static gboolean inited = FALSE;
1046 static int num_trampolines;
1048 MonoDomain *domain = mono_domain_get ();
1049 MonoJitDomainInfo *domain_info;
1050 GSharedVtTrampInfo *tramp_info;
1051 GSharedVtTrampInfo tinfo;
1054 mono_counters_register ("GSHAREDVT arg trampolines", MONO_COUNTER_JIT | MONO_COUNTER_INT, &num_trampolines);
1058 memset (&tinfo, 0, sizeof (tinfo));
1059 tinfo.is_in = gsharedvt_in;
1060 tinfo.calli = calli;
1061 tinfo.vcall_offset = vcall_offset;
1063 tinfo.sig = normal_sig;
1064 tinfo.gsig = gsharedvt_sig;
1066 domain_info = domain_jit_info (domain);
1069 * The arg trampolines might only have a finite number in full-aot, so use a cache.
1071 mono_domain_lock (domain);
1072 if (!domain_info->gsharedvt_arg_tramp_hash)
1073 domain_info->gsharedvt_arg_tramp_hash = g_hash_table_new (tramp_info_hash, tramp_info_equal);
1074 res = g_hash_table_lookup (domain_info->gsharedvt_arg_tramp_hash, &tinfo);
1075 mono_domain_unlock (domain);
1079 info = mono_arch_get_gsharedvt_call_info (addr, normal_sig, gsharedvt_sig, gsharedvt_in, vcall_offset, calli);
1082 static gpointer tramp_addr;
1083 MonoMethod *wrapper;
1086 wrapper = mono_marshal_get_gsharedvt_in_wrapper ();
1087 addr = mono_compile_method (wrapper);
1088 mono_memory_barrier ();
1093 static gpointer tramp_addr;
1094 MonoMethod *wrapper;
1097 wrapper = mono_marshal_get_gsharedvt_out_wrapper ();
1098 addr = mono_compile_method (wrapper);
1099 mono_memory_barrier ();
1106 addr = mono_aot_get_gsharedvt_arg_trampoline (info, addr);
1108 addr = mono_arch_get_gsharedvt_arg_trampoline (mono_domain_get (), info, addr);
1113 tramp_info = mono_domain_alloc0 (domain, sizeof (GSharedVtTrampInfo));
1114 memcpy (tramp_info, &tinfo, sizeof (GSharedVtTrampInfo));
1116 mono_domain_lock (domain);
1117 /* Duplicates are not a problem */
1118 g_hash_table_insert (domain_info->gsharedvt_arg_tramp_hash, tramp_info, addr);
1119 mono_domain_unlock (domain);
1125 instantiate_info (MonoDomain *domain, MonoRuntimeGenericContextInfoTemplate *oti,
1126 MonoGenericContext *context, MonoClass *klass)
1134 switch (oti->info_type) {
1135 case MONO_RGCTX_INFO_STATIC_DATA:
1136 case MONO_RGCTX_INFO_KLASS:
1137 case MONO_RGCTX_INFO_ELEMENT_KLASS:
1138 case MONO_RGCTX_INFO_VTABLE:
1139 case MONO_RGCTX_INFO_CAST_CACHE:
1146 data = inflate_info (oti, context, klass, temporary);
1148 switch (oti->info_type) {
1149 case MONO_RGCTX_INFO_STATIC_DATA:
1150 case MONO_RGCTX_INFO_KLASS:
1151 case MONO_RGCTX_INFO_ELEMENT_KLASS:
1152 case MONO_RGCTX_INFO_VTABLE:
1153 case MONO_RGCTX_INFO_CAST_CACHE:
1154 case MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE:
1155 case MONO_RGCTX_INFO_VALUE_SIZE:
1156 case MONO_RGCTX_INFO_CLASS_BOX_TYPE:
1157 case MONO_RGCTX_INFO_MEMCPY:
1158 case MONO_RGCTX_INFO_BZERO:
1159 case MONO_RGCTX_INFO_NULLABLE_CLASS_BOX:
1160 case MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX: {
1161 MonoClass *arg_class = mono_class_from_mono_type (data);
1163 free_inflated_info (oti->info_type, data);
1164 g_assert (arg_class);
1166 /* The class might be used as an argument to
1167 mono_value_copy(), which requires that its GC
1168 descriptor has been computed. */
1169 if (oti->info_type == MONO_RGCTX_INFO_KLASS)
1170 mono_class_compute_gc_descriptor (arg_class);
1172 return class_type_info (domain, arg_class, oti->info_type);
1174 case MONO_RGCTX_INFO_TYPE:
1176 case MONO_RGCTX_INFO_REFLECTION_TYPE:
1177 return mono_type_get_object (domain, data);
1178 case MONO_RGCTX_INFO_METHOD:
1180 case MONO_RGCTX_INFO_GENERIC_METHOD_CODE: {
1183 addr = mono_compile_method (data);
1184 return mini_add_method_trampoline (data, addr, mono_method_needs_static_rgctx_invoke (data, FALSE), FALSE);
1186 case MONO_RGCTX_INFO_VIRT_METHOD_CODE: {
1187 MonoJumpInfoVirtMethod *info = data;
1188 MonoClass *iface_class = info->method->klass;
1193 mono_class_setup_vtable (info->klass);
1194 // FIXME: Check type load
1195 if (iface_class->flags & TYPE_ATTRIBUTE_INTERFACE) {
1196 ioffset = mono_class_interface_offset (info->klass, iface_class);
1197 g_assert (ioffset != -1);
1201 slot = mono_method_get_vtable_slot (info->method);
1202 g_assert (slot != -1);
1203 g_assert (info->klass->vtable);
1204 method = info->klass->vtable [ioffset + slot];
1206 addr = mono_compile_method (method);
1207 return mini_add_method_trampoline (method, addr, mono_method_needs_static_rgctx_invoke (method, FALSE), FALSE);
1209 case MONO_RGCTX_INFO_VIRT_METHOD_BOX_TYPE: {
1210 MonoJumpInfoVirtMethod *info = data;
1211 MonoClass *iface_class = info->method->klass;
1213 MonoClass *impl_class;
1216 mono_class_setup_vtable (info->klass);
1217 // FIXME: Check type load
1218 if (iface_class->flags & TYPE_ATTRIBUTE_INTERFACE) {
1219 ioffset = mono_class_interface_offset (info->klass, iface_class);
1220 g_assert (ioffset != -1);
1224 slot = mono_method_get_vtable_slot (info->method);
1225 g_assert (slot != -1);
1226 g_assert (info->klass->vtable);
1227 method = info->klass->vtable [ioffset + slot];
1229 impl_class = method->klass;
1230 if (MONO_TYPE_IS_REFERENCE (&impl_class->byval_arg))
1231 return GUINT_TO_POINTER (1);
1232 else if (mono_class_is_nullable (impl_class))
1233 return GUINT_TO_POINTER (2);
1235 return GUINT_TO_POINTER (0);
1237 #ifndef DISABLE_REMOTING
1238 case MONO_RGCTX_INFO_REMOTING_INVOKE_WITH_CHECK:
1239 return mono_compile_method (mono_marshal_get_remoting_invoke_with_check (data));
1241 case MONO_RGCTX_INFO_METHOD_DELEGATE_CODE:
1242 return mono_domain_alloc0 (domain, sizeof (gpointer));
1243 case MONO_RGCTX_INFO_CLASS_FIELD:
1245 case MONO_RGCTX_INFO_FIELD_OFFSET: {
1246 MonoClassField *field = data;
1248 if (field->parent->valuetype && !(field->type->attrs & FIELD_ATTRIBUTE_STATIC))
1249 return GUINT_TO_POINTER (field->offset - sizeof (MonoObject));
1251 return GUINT_TO_POINTER (field->offset);
1253 case MONO_RGCTX_INFO_METHOD_RGCTX: {
1254 MonoMethodInflated *method = data;
1257 g_assert (method->method.method.is_inflated);
1258 g_assert (method->context.method_inst);
1260 vtable = mono_class_vtable (domain, method->method.method.klass);
1262 mono_raise_exception (mono_class_get_exception_for_failure (method->method.method.klass));
1264 return mono_method_lookup_rgctx (vtable, method->context.method_inst);
1266 case MONO_RGCTX_INFO_METHOD_CONTEXT: {
1267 MonoMethodInflated *method = data;
1269 g_assert (method->method.method.is_inflated);
1270 g_assert (method->context.method_inst);
1272 return method->context.method_inst;
1274 case MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI: {
1275 MonoMethodSignature *gsig = oti->data;
1276 MonoMethodSignature *sig = data;
1280 * This is an indirect call to the address passed by the caller in the rgctx reg.
1282 addr = mini_get_gsharedvt_wrapper (FALSE, NULL, sig, gsig, -1, TRUE);
1285 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE:
1286 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT: {
1287 MonoJumpInfoGSharedVtCall *call_info = data;
1288 MonoMethodSignature *call_sig;
1291 MonoJitInfo *callee_ji;
1292 gboolean virtual = oti->info_type == MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT;
1293 gint32 vcall_offset;
1294 gboolean callee_gsharedvt;
1296 /* This is the original generic signature used by the caller */
1297 call_sig = call_info->sig;
1298 /* This is the instantiated method which is called */
1299 method = call_info->method;
1301 g_assert (method->is_inflated);
1304 addr = mono_compile_method (method);
1309 /* Same as in mono_emit_method_call_full () */
1310 if ((method->klass->parent == mono_defaults.multicastdelegate_class) && (!strcmp (method->name, "Invoke"))) {
1311 /* See mono_emit_method_call_full () */
1312 /* The gsharedvt trampoline will recognize this constant */
1313 vcall_offset = MONO_GSHAREDVT_DEL_INVOKE_VT_OFFSET;
1314 } else if (method->klass->flags & TYPE_ATTRIBUTE_INTERFACE) {
1315 guint32 imt_slot = mono_method_get_imt_slot (method);
1316 vcall_offset = ((gint32)imt_slot - MONO_IMT_SIZE) * SIZEOF_VOID_P;
1318 vcall_offset = G_STRUCT_OFFSET (MonoVTable, vtable) +
1319 ((mono_method_get_vtable_index (method)) * (SIZEOF_VOID_P));
1325 // FIXME: This loads information in the AOT case
1326 callee_ji = mini_jit_info_table_find (mono_domain_get (), mono_get_addr_from_ftnptr (addr), NULL);
1327 callee_gsharedvt = ji_is_gsharedvt (callee_ji);
1330 * For gsharedvt calls made out of gsharedvt methods, the callee could end up being a gsharedvt method, or a normal
1331 * non-shared method. The latter call cannot be patched, so instead of using a normal call, we make an indirect
1332 * call through the rgctx, in effect patching the rgctx entry instead of the call site.
1333 * For virtual calls, the caller might be a normal or a gsharedvt method. Since there is only one vtable slot,
1334 * this difference needs to be handed on the caller side. This is currently implemented by adding a gsharedvt-in
1335 * trampoline to all gsharedvt methods and storing this trampoline into the vtable slot. Virtual calls made from
1336 * gsharedvt methods always go through a gsharedvt-out trampoline, so the calling sequence is:
1337 * caller -> out trampoline -> in trampoline -> callee
1338 * This is not very efficient, but it is easy to implement.
1340 if (virtual || !callee_gsharedvt) {
1341 MonoMethodSignature *sig, *gsig;
1343 g_assert (method->is_inflated);
1345 sig = mono_method_signature (method);
1348 addr = mini_get_gsharedvt_wrapper (FALSE, addr, sig, gsig, vcall_offset, FALSE);
1351 printf ("OUT-VCALL: %s\n", mono_method_full_name (method, TRUE));
1353 printf ("OUT: %s\n", mono_method_full_name (method, TRUE));
1355 // } else if (!mini_is_gsharedvt_variable_signature (mono_method_signature (caller_method)) && callee_gsharedvt) {
1356 } else if (callee_gsharedvt) {
1357 MonoMethodSignature *sig, *gsig;
1360 * This is a combination of the out and in cases, since both the caller and the callee are gsharedvt methods.
1361 * The caller and the callee can use different gsharedvt signatures, so we have to add both an out and an in
1364 * public void foo<T1> (T1 t1, T t, object o) {}
1366 * class AClass : Base<long> {
1367 * public void bar<T> (T t, long time, object o) {
1371 * Here, the caller uses !!0,long, while the callee uses !!0,!0
1372 * FIXME: Optimize this.
1375 if (call_sig == mono_method_signature (method)) {
1377 sig = mono_method_signature (method);
1378 gsig = mono_method_signature (jinfo_get_method (callee_ji));
1380 addr = mini_get_gsharedvt_wrapper (TRUE, callee_ji->code_start, sig, gsig, -1, FALSE);
1382 sig = mono_method_signature (method);
1385 addr = mini_get_gsharedvt_wrapper (FALSE, addr, sig, gsig, -1, FALSE);
1387 //printf ("OUT-IN-RGCTX: %s\n", mono_method_full_name (method, TRUE));
1393 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_INFO: {
1394 MonoGSharedVtMethodInfo *info = data;
1395 MonoGSharedVtMethodRuntimeInfo *res;
1397 int i, offset, align, size;
1400 res = g_malloc0 (sizeof (MonoGSharedVtMethodRuntimeInfo) + (info->num_entries * sizeof (gpointer)));
1403 for (i = 0; i < info->num_entries; ++i) {
1404 MonoRuntimeGenericContextInfoTemplate *template = &info->entries [i];
1406 switch (template->info_type) {
1407 case MONO_RGCTX_INFO_LOCAL_OFFSET:
1410 size = mono_type_size (t, &align);
1412 if (align < sizeof (gpointer))
1413 align = sizeof (gpointer);
1414 if (MONO_TYPE_ISSTRUCT (t) && align < 2 * sizeof (gpointer))
1415 align = 2 * sizeof (gpointer);
1417 // FIXME: Do the same things as alloc_stack_slots
1418 offset += align - 1;
1419 offset &= ~(align - 1);
1420 res->entries [i] = GINT_TO_POINTER (offset);
1424 res->entries [i] = instantiate_info (domain, template, context, klass);
1428 res->locals_size = offset;
1433 g_assert_not_reached ();
1440 * LOCKING: loader lock
1443 fill_in_rgctx_template_slot (MonoClass *klass, int type_argc, int index, gpointer data, MonoRgctxInfoType info_type)
1445 MonoRuntimeGenericContextTemplate *template = mono_class_get_runtime_generic_context_template (klass);
1446 MonoClass *subclass;
1448 rgctx_template_set_slot (klass->image, template, type_argc, index, data, info_type);
1450 /* Recurse for all subclasses */
1451 if (generic_subclass_hash)
1452 subclass = g_hash_table_lookup (generic_subclass_hash, klass);
1457 MonoRuntimeGenericContextInfoTemplate subclass_oti;
1458 MonoRuntimeGenericContextTemplate *subclass_template = class_lookup_rgctx_template (subclass);
1460 g_assert (subclass_template);
1462 subclass_oti = class_get_rgctx_template_oti (subclass->parent, type_argc, index, FALSE, FALSE, NULL);
1463 g_assert (subclass_oti.data);
1465 fill_in_rgctx_template_slot (subclass, type_argc, index, subclass_oti.data, info_type);
1467 subclass = subclass_template->next_subclass;
1472 mono_rgctx_info_type_to_str (MonoRgctxInfoType type)
1475 case MONO_RGCTX_INFO_STATIC_DATA: return "STATIC_DATA";
1476 case MONO_RGCTX_INFO_KLASS: return "KLASS";
1477 case MONO_RGCTX_INFO_ELEMENT_KLASS: return "ELEMENT_KLASS";
1478 case MONO_RGCTX_INFO_VTABLE: return "VTABLE";
1479 case MONO_RGCTX_INFO_TYPE: return "TYPE";
1480 case MONO_RGCTX_INFO_REFLECTION_TYPE: return "REFLECTION_TYPE";
1481 case MONO_RGCTX_INFO_METHOD: return "METHOD";
1482 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_INFO: return "GSHAREDVT_INFO";
1483 case MONO_RGCTX_INFO_GENERIC_METHOD_CODE: return "GENERIC_METHOD_CODE";
1484 case MONO_RGCTX_INFO_CLASS_FIELD: return "CLASS_FIELD";
1485 case MONO_RGCTX_INFO_METHOD_RGCTX: return "METHOD_RGCTX";
1486 case MONO_RGCTX_INFO_METHOD_CONTEXT: return "METHOD_CONTEXT";
1487 case MONO_RGCTX_INFO_REMOTING_INVOKE_WITH_CHECK: return "REMOTING_INVOKE_WITH_CHECK";
1488 case MONO_RGCTX_INFO_METHOD_DELEGATE_CODE: return "METHOD_DELEGATE_CODE";
1489 case MONO_RGCTX_INFO_CAST_CACHE: return "CAST_CACHE";
1490 case MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE: return "ARRAY_ELEMENT_SIZE";
1491 case MONO_RGCTX_INFO_VALUE_SIZE: return "VALUE_SIZE";
1492 case MONO_RGCTX_INFO_CLASS_BOX_TYPE: return "CLASS_BOX_TYPE";
1493 case MONO_RGCTX_INFO_FIELD_OFFSET: return "FIELD_OFFSET";
1494 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE: return "METHOD_GSHAREDVT_OUT_TRAMPOLINE";
1495 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT: return "METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT";
1496 case MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI: return "SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI";
1497 case MONO_RGCTX_INFO_MEMCPY: return "MEMCPY";
1498 case MONO_RGCTX_INFO_BZERO: return "BZERO";
1499 case MONO_RGCTX_INFO_NULLABLE_CLASS_BOX: return "NULLABLE_CLASS_BOX";
1500 case MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX: return "NULLABLE_CLASS_UNBOX";
1501 case MONO_RGCTX_INFO_VIRT_METHOD_CODE: return "VIRT_METHOD_CODE";
1502 case MONO_RGCTX_INFO_VIRT_METHOD_BOX_TYPE: return "VIRT_METHOD_BOX_TYPE";
1504 return "<UNKNOWN RGCTX INFO TYPE>";
1508 G_GNUC_UNUSED static char*
1509 rgctx_info_to_str (MonoRgctxInfoType info_type, gpointer data)
1511 switch (info_type) {
1512 case MONO_RGCTX_INFO_VTABLE:
1513 return mono_type_full_name ((MonoType*)data);
1515 return g_strdup_printf ("<%p>", data);
1520 * LOCKING: loader lock
1523 register_info (MonoClass *klass, int type_argc, gpointer data, MonoRgctxInfoType info_type)
1526 MonoRuntimeGenericContextTemplate *template = mono_class_get_runtime_generic_context_template (klass);
1528 MonoRuntimeGenericContextInfoTemplate *oti;
1530 for (i = 0, oti = get_info_templates (template, type_argc); oti; ++i, oti = oti->next) {
1535 DEBUG (printf ("set slot %s, infos [%d] = %s, %s\n", mono_type_get_full_name (class), i, mono_rgctx_info_type_to_str (info_type), rgctx_info_to_str (info_type, data)));
1537 /* Mark the slot as used in all parent classes (until we find
1538 a parent class which already has it marked used). */
1539 parent = klass->parent;
1540 while (parent != NULL) {
1541 MonoRuntimeGenericContextTemplate *parent_template;
1542 MonoRuntimeGenericContextInfoTemplate *oti;
1544 if (parent->generic_class)
1545 parent = parent->generic_class->container_class;
1547 parent_template = mono_class_get_runtime_generic_context_template (parent);
1548 oti = rgctx_template_get_other_slot (parent_template, type_argc, i);
1550 if (oti && oti->data)
1553 rgctx_template_set_slot (parent->image, parent_template, type_argc, i,
1554 MONO_RGCTX_SLOT_USED_MARKER, 0);
1556 parent = parent->parent;
1559 /* Fill in the slot in this class and in all subclasses
1561 fill_in_rgctx_template_slot (klass, type_argc, i, data, info_type);
1567 info_equal (gpointer data1, gpointer data2, MonoRgctxInfoType info_type)
1569 switch (info_type) {
1570 case MONO_RGCTX_INFO_STATIC_DATA:
1571 case MONO_RGCTX_INFO_KLASS:
1572 case MONO_RGCTX_INFO_ELEMENT_KLASS:
1573 case MONO_RGCTX_INFO_VTABLE:
1574 case MONO_RGCTX_INFO_TYPE:
1575 case MONO_RGCTX_INFO_REFLECTION_TYPE:
1576 case MONO_RGCTX_INFO_CAST_CACHE:
1577 case MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE:
1578 case MONO_RGCTX_INFO_VALUE_SIZE:
1579 case MONO_RGCTX_INFO_CLASS_BOX_TYPE:
1580 case MONO_RGCTX_INFO_MEMCPY:
1581 case MONO_RGCTX_INFO_BZERO:
1582 case MONO_RGCTX_INFO_NULLABLE_CLASS_BOX:
1583 case MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX:
1584 return mono_class_from_mono_type (data1) == mono_class_from_mono_type (data2);
1585 case MONO_RGCTX_INFO_METHOD:
1586 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_INFO:
1587 case MONO_RGCTX_INFO_GENERIC_METHOD_CODE:
1588 case MONO_RGCTX_INFO_CLASS_FIELD:
1589 case MONO_RGCTX_INFO_FIELD_OFFSET:
1590 case MONO_RGCTX_INFO_METHOD_RGCTX:
1591 case MONO_RGCTX_INFO_METHOD_CONTEXT:
1592 case MONO_RGCTX_INFO_REMOTING_INVOKE_WITH_CHECK:
1593 case MONO_RGCTX_INFO_METHOD_DELEGATE_CODE:
1594 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE:
1595 case MONO_RGCTX_INFO_METHOD_GSHAREDVT_OUT_TRAMPOLINE_VIRT:
1596 case MONO_RGCTX_INFO_SIG_GSHAREDVT_OUT_TRAMPOLINE_CALLI:
1597 return data1 == data2;
1598 case MONO_RGCTX_INFO_VIRT_METHOD_CODE:
1599 case MONO_RGCTX_INFO_VIRT_METHOD_BOX_TYPE: {
1600 MonoJumpInfoVirtMethod *info1 = data1;
1601 MonoJumpInfoVirtMethod *info2 = data2;
1603 return info1->klass == info2->klass && info1->method == info2->method;
1606 g_assert_not_reached ();
1613 * mini_rgctx_info_type_to_patch_info_type:
1615 * Return the type of the runtime object referred to by INFO_TYPE.
1618 mini_rgctx_info_type_to_patch_info_type (MonoRgctxInfoType info_type)
1620 switch (info_type) {
1621 case MONO_RGCTX_INFO_STATIC_DATA:
1622 case MONO_RGCTX_INFO_KLASS:
1623 case MONO_RGCTX_INFO_ELEMENT_KLASS:
1624 case MONO_RGCTX_INFO_VTABLE:
1625 case MONO_RGCTX_INFO_TYPE:
1626 case MONO_RGCTX_INFO_REFLECTION_TYPE:
1627 case MONO_RGCTX_INFO_CAST_CACHE:
1628 case MONO_RGCTX_INFO_ARRAY_ELEMENT_SIZE:
1629 case MONO_RGCTX_INFO_VALUE_SIZE:
1630 case MONO_RGCTX_INFO_CLASS_BOX_TYPE:
1631 case MONO_RGCTX_INFO_MEMCPY:
1632 case MONO_RGCTX_INFO_BZERO:
1633 case MONO_RGCTX_INFO_NULLABLE_CLASS_BOX:
1634 case MONO_RGCTX_INFO_NULLABLE_CLASS_UNBOX:
1635 case MONO_RGCTX_INFO_LOCAL_OFFSET:
1636 return MONO_PATCH_INFO_CLASS;
1637 case MONO_RGCTX_INFO_FIELD_OFFSET:
1638 return MONO_PATCH_INFO_FIELD;
1640 g_assert_not_reached ();
1646 lookup_or_register_info (MonoClass *klass, int type_argc, gpointer data, MonoRgctxInfoType info_type,
1647 MonoGenericContext *generic_context)
1649 static gboolean inited = FALSE;
1650 static int max_slot = 0;
1652 MonoRuntimeGenericContextTemplate *rgctx_template =
1653 mono_class_get_runtime_generic_context_template (klass);
1654 MonoRuntimeGenericContextInfoTemplate *oti_list, *oti;
1657 klass = get_shared_class (klass);
1659 mono_loader_lock ();
1661 if (info_has_identity (info_type)) {
1662 oti_list = get_info_templates (rgctx_template, type_argc);
1664 for (oti = oti_list, i = 0; oti; oti = oti->next, ++i) {
1665 gpointer inflated_data;
1667 if (oti->info_type != info_type || !oti->data)
1670 inflated_data = inflate_info (oti, generic_context, klass, TRUE);
1672 if (info_equal (data, inflated_data, info_type)) {
1673 free_inflated_info (info_type, inflated_data);
1674 mono_loader_unlock ();
1677 free_inflated_info (info_type, inflated_data);
1681 /* We haven't found the info */
1682 i = register_info (klass, type_argc, data, info_type);
1684 mono_loader_unlock ();
1687 mono_counters_register ("RGCTX max slot number", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &max_slot);
1697 * mono_method_lookup_or_register_info:
1699 * @in_mrgctx: whether to put the data into the MRGCTX
1700 * @data: the info data
1701 * @info_type: the type of info to register about data
1702 * @generic_context: a generic context
1704 * Looks up and, if necessary, adds information about data/info_type in
1705 * method's or method's class runtime generic context. Returns the
1706 * encoded slot number.
1709 mono_method_lookup_or_register_info (MonoMethod *method, gboolean in_mrgctx, gpointer data,
1710 MonoRgctxInfoType info_type, MonoGenericContext *generic_context)
1712 MonoClass *klass = method->klass;
1713 int type_argc, index;
1716 MonoGenericInst *method_inst = mono_method_get_context (method)->method_inst;
1718 g_assert (method->is_inflated && method_inst);
1719 type_argc = method_inst->type_argc;
1720 g_assert (type_argc > 0);
1725 index = lookup_or_register_info (klass, type_argc, data, info_type, generic_context);
1727 //g_print ("rgctx item at index %d argc %d\n", index, type_argc);
1730 return MONO_RGCTX_SLOT_MAKE_MRGCTX (index);
1732 return MONO_RGCTX_SLOT_MAKE_RGCTX (index);
1736 * mono_class_rgctx_get_array_size:
1737 * @n: The number of the array
1738 * @mrgctx: Whether it's an MRGCTX as opposed to a RGCTX.
1740 * Returns the number of slots in the n'th array of a (M)RGCTX. That
1741 * number includes the slot for linking and - for MRGCTXs - the two
1742 * slots in the first array for additional information.
1745 mono_class_rgctx_get_array_size (int n, gboolean mrgctx)
1747 g_assert (n >= 0 && n < 30);
1756 * LOCKING: domain lock
1759 alloc_rgctx_array (MonoDomain *domain, int n, gboolean is_mrgctx)
1761 static gboolean inited = FALSE;
1762 static int rgctx_num_alloced = 0;
1763 static int rgctx_bytes_alloced = 0;
1764 static int mrgctx_num_alloced = 0;
1765 static int mrgctx_bytes_alloced = 0;
1767 int size = mono_class_rgctx_get_array_size (n, is_mrgctx) * sizeof (gpointer);
1768 gpointer array = mono_domain_alloc0 (domain, size);
1771 mono_counters_register ("RGCTX num arrays alloced", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &rgctx_num_alloced);
1772 mono_counters_register ("RGCTX bytes alloced", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &rgctx_bytes_alloced);
1773 mono_counters_register ("MRGCTX num arrays alloced", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &mrgctx_num_alloced);
1774 mono_counters_register ("MRGCTX bytes alloced", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &mrgctx_bytes_alloced);
1779 mrgctx_num_alloced++;
1780 mrgctx_bytes_alloced += size;
1782 rgctx_num_alloced++;
1783 rgctx_bytes_alloced += size;
1790 fill_runtime_generic_context (MonoVTable *class_vtable, MonoRuntimeGenericContext *rgctx, guint32 slot,
1791 MonoGenericInst *method_inst)
1794 int i, first_slot, size;
1795 MonoDomain *domain = class_vtable->domain;
1796 MonoClass *klass = class_vtable->klass;
1797 MonoGenericContext *class_context = klass->generic_class ? &klass->generic_class->context : NULL;
1798 MonoRuntimeGenericContextInfoTemplate oti;
1799 MonoGenericContext context = { class_context ? class_context->class_inst : NULL, method_inst };
1805 mono_domain_lock (domain);
1807 /* First check whether that slot isn't already instantiated.
1808 This might happen because lookup doesn't lock. Allocate
1809 arrays on the way. */
1811 size = mono_class_rgctx_get_array_size (0, method_inst != NULL);
1813 size -= MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT / sizeof (gpointer);
1814 for (i = 0; ; ++i) {
1817 if (method_inst && i == 0)
1818 offset = MONO_SIZEOF_METHOD_RUNTIME_GENERIC_CONTEXT / sizeof (gpointer);
1822 if (slot < first_slot + size - 1) {
1823 rgctx_index = slot - first_slot + 1 + offset;
1824 info = rgctx [rgctx_index];
1826 mono_domain_unlock (domain);
1831 if (!rgctx [offset + 0])
1832 rgctx [offset + 0] = alloc_rgctx_array (domain, i + 1, method_inst != NULL);
1833 rgctx = rgctx [offset + 0];
1834 first_slot += size - 1;
1835 size = mono_class_rgctx_get_array_size (i + 1, method_inst != NULL);
1838 g_assert (!rgctx [rgctx_index]);
1840 mono_domain_unlock (domain);
1842 oti = class_get_rgctx_template_oti (get_shared_class (klass),
1843 method_inst ? method_inst->type_argc : 0, slot, TRUE, TRUE, &do_free);
1844 /* This might take the loader lock */
1845 info = instantiate_info (domain, &oti, &context, klass);
1849 g_print ("filling mrgctx slot %d table %d index %d\n", slot, i, rgctx_index);
1852 /*FIXME We should use CAS here, no need to take a lock.*/
1853 mono_domain_lock (domain);
1855 /* Check whether the slot hasn't been instantiated in the
1857 if (rgctx [rgctx_index])
1858 info = rgctx [rgctx_index];
1860 rgctx [rgctx_index] = info;
1862 mono_domain_unlock (domain);
1865 free_inflated_info (oti.info_type, oti.data);
1871 * mono_class_fill_runtime_generic_context:
1872 * @class_vtable: a vtable
1873 * @slot: a slot index to be instantiated
1875 * Instantiates a slot in the RGCTX, returning its value.
1878 mono_class_fill_runtime_generic_context (MonoVTable *class_vtable, guint32 slot)
1880 static gboolean inited = FALSE;
1881 static int num_alloced = 0;
1883 MonoDomain *domain = class_vtable->domain;
1884 MonoRuntimeGenericContext *rgctx;
1887 mono_domain_lock (domain);
1890 mono_counters_register ("RGCTX num alloced", MONO_COUNTER_GENERICS | MONO_COUNTER_INT, &num_alloced);
1894 rgctx = class_vtable->runtime_generic_context;
1896 rgctx = alloc_rgctx_array (domain, 0, FALSE);
1897 class_vtable->runtime_generic_context = rgctx;
1901 mono_domain_unlock (domain);
1903 info = fill_runtime_generic_context (class_vtable, rgctx, slot, 0);
1905 DEBUG (printf ("get rgctx slot: %s %d -> %p\n", mono_type_full_name (&class_vtable->klass->byval_arg), slot, info));
1911 * mono_method_fill_runtime_generic_context:
1912 * @mrgctx: an MRGCTX
1913 * @slot: a slot index to be instantiated
1915 * Instantiates a slot in the MRGCTX.
1918 mono_method_fill_runtime_generic_context (MonoMethodRuntimeGenericContext *mrgctx, guint32 slot)
1922 info = fill_runtime_generic_context (mrgctx->class_vtable, (MonoRuntimeGenericContext*)mrgctx, slot, mrgctx->method_inst);
1928 mrgctx_hash_func (gconstpointer key)
1930 const MonoMethodRuntimeGenericContext *mrgctx = key;
1932 return mono_aligned_addr_hash (mrgctx->class_vtable) ^ mono_metadata_generic_inst_hash (mrgctx->method_inst);
1936 mrgctx_equal_func (gconstpointer a, gconstpointer b)
1938 const MonoMethodRuntimeGenericContext *mrgctx1 = a;
1939 const MonoMethodRuntimeGenericContext *mrgctx2 = b;
1941 return mrgctx1->class_vtable == mrgctx2->class_vtable &&
1942 mono_metadata_generic_inst_equal (mrgctx1->method_inst, mrgctx2->method_inst);
1946 * mono_method_lookup_rgctx:
1947 * @class_vtable: a vtable
1948 * @method_inst: the method inst of a generic method
1950 * Returns the MRGCTX for the generic method(s) with the given
1951 * method_inst of the given class_vtable.
1953 * LOCKING: Take the domain lock.
1955 MonoMethodRuntimeGenericContext*
1956 mono_method_lookup_rgctx (MonoVTable *class_vtable, MonoGenericInst *method_inst)
1958 MonoDomain *domain = class_vtable->domain;
1959 MonoMethodRuntimeGenericContext *mrgctx;
1960 MonoMethodRuntimeGenericContext key;
1962 g_assert (!class_vtable->klass->generic_container);
1963 g_assert (!method_inst->is_open);
1965 mono_domain_lock (domain);
1966 if (!domain->method_rgctx_hash)
1967 domain->method_rgctx_hash = g_hash_table_new (mrgctx_hash_func, mrgctx_equal_func);
1969 key.class_vtable = class_vtable;
1970 key.method_inst = method_inst;
1972 mrgctx = g_hash_table_lookup (domain->method_rgctx_hash, &key);
1977 mrgctx = (MonoMethodRuntimeGenericContext*)alloc_rgctx_array (domain, 0, TRUE);
1978 mrgctx->class_vtable = class_vtable;
1979 mrgctx->method_inst = method_inst;
1981 g_hash_table_insert (domain->method_rgctx_hash, mrgctx, mrgctx);
1984 g_print ("mrgctx alloced for %s <", mono_type_get_full_name (class_vtable->klass));
1985 for (i = 0; i < method_inst->type_argc; ++i)
1986 g_print ("%s, ", mono_type_full_name (method_inst->type_argv [i]));
1991 mono_domain_unlock (domain);
2000 generic_inst_is_sharable (MonoGenericInst *inst, gboolean allow_type_vars,
2001 gboolean allow_partial);
2004 type_is_sharable (MonoType *type, gboolean allow_type_vars, gboolean allow_partial)
2006 if (allow_type_vars && (type->type == MONO_TYPE_VAR || type->type == MONO_TYPE_MVAR)) {
2007 MonoType *constraint = type->data.generic_param->gshared_constraint;
2013 if (MONO_TYPE_IS_REFERENCE (type))
2016 /* Allow non ref arguments if they are primitive types or enums (partial sharing). */
2017 if (allow_partial && !type->byref && (((type->type >= MONO_TYPE_BOOLEAN) && (type->type <= MONO_TYPE_R8)) || (type->type == MONO_TYPE_I) || (type->type == MONO_TYPE_U) || (type->type == MONO_TYPE_VALUETYPE && type->data.klass->enumtype)))
2020 if (allow_partial && !type->byref && type->type == MONO_TYPE_GENERICINST && MONO_TYPE_ISSTRUCT (type)) {
2021 MonoGenericClass *gclass = type->data.generic_class;
2023 if (gclass->context.class_inst && !generic_inst_is_sharable (gclass->context.class_inst, allow_type_vars, allow_partial))
2025 if (gclass->context.method_inst && !generic_inst_is_sharable (gclass->context.method_inst, allow_type_vars, allow_partial))
2027 if (mono_class_is_nullable (mono_class_from_mono_type (type)))
2036 generic_inst_is_sharable (MonoGenericInst *inst, gboolean allow_type_vars,
2037 gboolean allow_partial)
2041 for (i = 0; i < inst->type_argc; ++i) {
2042 if (!type_is_sharable (inst->type_argv [i], allow_type_vars, allow_partial))
2050 * mono_is_partially_sharable_inst:
2052 * Return TRUE if INST has ref and non-ref type arguments.
2055 mono_is_partially_sharable_inst (MonoGenericInst *inst)
2058 gboolean has_refs = FALSE, has_non_refs = FALSE;
2060 for (i = 0; i < inst->type_argc; ++i) {
2061 if (MONO_TYPE_IS_REFERENCE (inst->type_argv [i]) || inst->type_argv [i]->type == MONO_TYPE_VAR || inst->type_argv [i]->type == MONO_TYPE_MVAR)
2064 has_non_refs = TRUE;
2067 return has_refs && has_non_refs;
2071 * mono_generic_context_is_sharable_full:
2072 * @context: a generic context
2074 * Returns whether the generic context is sharable. A generic context
2075 * is sharable iff all of its type arguments are reference type, or some of them have a
2076 * reference type, and ALLOW_PARTIAL is TRUE.
2079 mono_generic_context_is_sharable_full (MonoGenericContext *context,
2080 gboolean allow_type_vars,
2081 gboolean allow_partial)
2083 g_assert (context->class_inst || context->method_inst);
2085 if (context->class_inst && !generic_inst_is_sharable (context->class_inst, allow_type_vars, allow_partial))
2088 if (context->method_inst && !generic_inst_is_sharable (context->method_inst, allow_type_vars, allow_partial))
2095 mono_generic_context_is_sharable (MonoGenericContext *context, gboolean allow_type_vars)
2097 return mono_generic_context_is_sharable_full (context, allow_type_vars, partial_sharing_supported ());
2101 * mono_method_is_generic_impl:
2104 * Returns whether the method is either generic or part of a generic
2108 mono_method_is_generic_impl (MonoMethod *method)
2110 if (method->is_inflated)
2112 /* We don't treat wrappers as generic code, i.e., we never
2113 apply generic sharing to them. This is especially
2114 important for static rgctx invoke wrappers, which only work
2115 if not compiled with sharing. */
2116 if (method->wrapper_type != MONO_WRAPPER_NONE)
2118 if (method->klass->generic_container)
2124 has_constraints (MonoGenericContainer *container)
2130 g_assert (container->type_argc > 0);
2131 g_assert (container->type_params);
2133 for (i = 0; i < container->type_argc; ++i)
2134 if (container->type_params [i].constraints)
2141 mini_method_is_open (MonoMethod *method)
2143 if (method->is_inflated) {
2144 MonoGenericContext *ctx = mono_method_get_context (method);
2146 if (ctx->class_inst && ctx->class_inst->is_open)
2148 if (ctx->method_inst && ctx->method_inst->is_open)
2154 static G_GNUC_UNUSED gboolean
2155 is_async_state_machine_class (MonoClass *klass)
2157 static MonoClass *iclass;
2158 static gboolean iclass_set;
2163 iclass = mono_class_from_name (mono_defaults.corlib, "System.Runtime.CompilerServices", "IAsyncStateMachine");
2164 mono_memory_barrier ();
2168 if (iclass && klass->valuetype && mono_class_is_assignable_from (iclass, klass))
2173 static G_GNUC_UNUSED gboolean
2174 is_async_method (MonoMethod *method)
2176 MonoCustomAttrInfo *cattr;
2177 MonoMethodSignature *sig;
2178 gboolean res = FALSE;
2179 static MonoClass *attr_class;
2180 static gboolean attr_class_set;
2184 if (!attr_class_set) {
2185 attr_class = mono_class_from_name (mono_defaults.corlib, "System.Runtime.CompilerServices", "AsyncStateMachineAttribute");
2186 mono_memory_barrier ();
2187 attr_class_set = TRUE;
2190 /* Do less expensive checks first */
2191 sig = mono_method_signature (method);
2192 if (attr_class && sig && ((sig->ret->type == MONO_TYPE_VOID) ||
2193 (sig->ret->type == MONO_TYPE_CLASS && !strcmp (sig->ret->data.generic_class->container_class->name, "Task")) ||
2194 (sig->ret->type == MONO_TYPE_GENERICINST && !strcmp (sig->ret->data.generic_class->container_class->name, "Task`1")))) {
2195 //printf ("X: %s\n", mono_method_full_name (method, TRUE));
2196 cattr = mono_custom_attrs_from_method (method);
2198 if (mono_custom_attrs_has_attr (cattr, attr_class))
2200 mono_custom_attrs_free (cattr);
2207 * mono_method_is_generic_sharable_full:
2209 * @allow_type_vars: whether to regard type variables as reference types
2210 * @allow_partial: whether to allow partial sharing
2211 * @allow_gsharedvt: whenever to allow sharing over valuetypes
2213 * Returns TRUE iff the method is inflated or part of an inflated
2214 * class, its context is sharable and it has no constraints on its
2215 * type parameters. Otherwise returns FALSE.
2218 mono_method_is_generic_sharable_full (MonoMethod *method, gboolean allow_type_vars,
2219 gboolean allow_partial, gboolean allow_gsharedvt)
2221 if (!mono_method_is_generic_impl (method))
2225 if (!mono_debug_count ())
2226 allow_partial = FALSE;
2229 if (!partial_sharing_supported ())
2230 allow_partial = FALSE;
2232 if (mono_class_is_nullable (method->klass))
2234 allow_partial = FALSE;
2236 if (method->klass->image->dynamic)
2238 * Enabling this causes corlib test failures because the JIT encounters generic instances whose
2239 * instance_size is 0.
2241 allow_partial = FALSE;
2244 * Generic async methods have an associated state machine class which is a generic struct. This struct
2245 * is too large to be handled by gsharedvt so we make it visible to the AOT compiler by disabling sharing
2246 * of the async method and the state machine class.
2248 if (is_async_state_machine_class (method->klass))
2251 if (allow_gsharedvt && mini_is_gsharedvt_sharable_method (method)) {
2252 if (is_async_method (method))
2257 if (method->is_inflated) {
2258 MonoMethodInflated *inflated = (MonoMethodInflated*)method;
2259 MonoGenericContext *context = &inflated->context;
2261 if (!mono_generic_context_is_sharable_full (context, allow_type_vars, allow_partial))
2264 g_assert (inflated->declaring);
2266 if (inflated->declaring->is_generic) {
2267 if (has_constraints (mono_method_get_generic_container (inflated->declaring)))
2272 if (method->klass->generic_class) {
2273 if (!mono_generic_context_is_sharable_full (&method->klass->generic_class->context, allow_type_vars, allow_partial))
2276 g_assert (method->klass->generic_class->container_class &&
2277 method->klass->generic_class->container_class->generic_container);
2279 if (has_constraints (method->klass->generic_class->container_class->generic_container))
2283 if (method->klass->generic_container && !allow_type_vars)
2286 /* This does potentially expensive cattr checks, so do it at the end */
2287 if (is_async_method (method)) {
2288 if (mini_method_is_open (method))
2289 /* The JIT can't compile these without sharing */
2298 mono_method_is_generic_sharable (MonoMethod *method, gboolean allow_type_vars)
2300 return mono_method_is_generic_sharable_full (method, allow_type_vars, partial_sharing_supported (), TRUE);
2304 mono_method_needs_static_rgctx_invoke (MonoMethod *method, gboolean allow_type_vars)
2306 if (!mono_class_generic_sharing_enabled (method->klass))
2309 if (!mono_method_is_generic_sharable (method, allow_type_vars))
2312 if (method->is_inflated && mono_method_get_context (method)->method_inst)
2315 return ((method->flags & METHOD_ATTRIBUTE_STATIC) ||
2316 method->klass->valuetype) &&
2317 (method->klass->generic_class || method->klass->generic_container);
2320 static MonoGenericInst*
2321 get_object_generic_inst (int type_argc)
2323 MonoType **type_argv;
2326 type_argv = alloca (sizeof (MonoType*) * type_argc);
2328 for (i = 0; i < type_argc; ++i)
2329 type_argv [i] = &mono_defaults.object_class->byval_arg;
2331 return mono_metadata_get_generic_inst (type_argc, type_argv);
2335 * mono_method_construct_object_context:
2338 * Returns a generic context for method with all type variables for
2339 * class and method instantiated with Object.
2342 mono_method_construct_object_context (MonoMethod *method)
2344 MonoGenericContext object_context;
2346 g_assert (!method->klass->generic_class);
2347 if (method->klass->generic_container) {
2348 int type_argc = method->klass->generic_container->type_argc;
2350 object_context.class_inst = get_object_generic_inst (type_argc);
2352 object_context.class_inst = NULL;
2355 if (mono_method_get_context_general (method, TRUE)->method_inst) {
2356 int type_argc = mono_method_get_context_general (method, TRUE)->method_inst->type_argc;
2358 object_context.method_inst = get_object_generic_inst (type_argc);
2360 object_context.method_inst = NULL;
2363 g_assert (object_context.class_inst || object_context.method_inst);
2365 return object_context;
2368 static gboolean gshared_supported;
2369 static gboolean gsharedvt_supported;
2372 mono_set_generic_sharing_supported (gboolean supported)
2374 gshared_supported = supported;
2378 mono_set_generic_sharing_vt_supported (gboolean supported)
2380 gsharedvt_supported = supported;
2384 mono_set_partial_sharing_supported (gboolean supported)
2386 partial_supported = supported;
2390 * mono_class_generic_sharing_enabled:
2393 * Returns whether generic sharing is enabled for class.
2395 * This is a stop-gap measure to slowly introduce generic sharing
2396 * until we have all the issues sorted out, at which time this
2397 * function will disappear and generic sharing will always be enabled.
2400 mono_class_generic_sharing_enabled (MonoClass *klass)
2402 if (gshared_supported)
2409 mini_method_get_context (MonoMethod *method)
2411 return mono_method_get_context_general (method, TRUE);
2415 * mono_method_check_context_used:
2418 * Checks whether the method's generic context uses a type variable.
2419 * Returns an int with the bits MONO_GENERIC_CONTEXT_USED_CLASS and
2420 * MONO_GENERIC_CONTEXT_USED_METHOD set to reflect whether the
2421 * context's class or method instantiation uses type variables.
2424 mono_method_check_context_used (MonoMethod *method)
2426 MonoGenericContext *method_context = mini_method_get_context (method);
2427 int context_used = 0;
2429 if (!method_context) {
2430 /* It might be a method of an array of an open generic type */
2431 if (method->klass->rank)
2432 context_used = mono_class_check_context_used (method->klass);
2434 context_used = mono_generic_context_check_used (method_context);
2435 context_used |= mono_class_check_context_used (method->klass);
2438 return context_used;
2442 generic_inst_equal (MonoGenericInst *inst1, MonoGenericInst *inst2)
2453 if (inst1->type_argc != inst2->type_argc)
2456 for (i = 0; i < inst1->type_argc; ++i)
2457 if (!mono_metadata_type_equal (inst1->type_argv [i], inst2->type_argv [i]))
2464 * mono_generic_context_equal_deep:
2465 * @context1: a generic context
2466 * @context2: a generic context
2468 * Returns whether context1's type arguments are equal to context2's
2472 mono_generic_context_equal_deep (MonoGenericContext *context1, MonoGenericContext *context2)
2474 return generic_inst_equal (context1->class_inst, context2->class_inst) &&
2475 generic_inst_equal (context1->method_inst, context2->method_inst);
2479 * mini_class_get_container_class:
2480 * @class: a generic class
2482 * Returns the class's container class, which is the class itself if
2483 * it doesn't have generic_class set.
2486 mini_class_get_container_class (MonoClass *klass)
2488 if (klass->generic_class)
2489 return klass->generic_class->container_class;
2491 g_assert (klass->generic_container);
2496 * mini_class_get_context:
2497 * @class: a generic class
2499 * Returns the class's generic context.
2502 mini_class_get_context (MonoClass *klass)
2504 if (klass->generic_class)
2505 return &klass->generic_class->context;
2507 g_assert (klass->generic_container);
2508 return &klass->generic_container->context;
2512 * mini_get_basic_type_from_generic:
2515 * Returns a closed type corresponding to the possibly open type
2519 mini_get_basic_type_from_generic (MonoType *type)
2521 if (!type->byref && (type->type == MONO_TYPE_VAR || type->type == MONO_TYPE_MVAR) && mini_is_gsharedvt_type (type))
2523 else if (!type->byref && (type->type == MONO_TYPE_VAR || type->type == MONO_TYPE_MVAR)) {
2524 MonoType *constraint = type->data.generic_param->gshared_constraint;
2525 /* The gparam serial encodes the type this gparam can represent */
2527 return &mono_defaults.object_class->byval_arg;
2531 g_assert (constraint != &mono_defaults.int_class->parent->byval_arg);
2532 klass = mono_class_from_mono_type (constraint);
2533 return &klass->byval_arg;
2536 return mini_native_type_replace_type (mono_type_get_basic_type_from_generic (type));
2541 * mini_type_get_underlying_type:
2543 * Return the underlying type of TYPE, taking into account enums, byref, bool, char and generic
2547 mini_type_get_underlying_type (MonoType *type)
2549 type = mini_native_type_replace_type (type);
2552 return &mono_defaults.int_class->byval_arg;
2553 if (!type->byref && (type->type == MONO_TYPE_VAR || type->type == MONO_TYPE_MVAR) && mini_is_gsharedvt_type (type))
2555 type = mini_get_basic_type_from_generic (mono_type_get_underlying_type (type));
2556 switch (type->type) {
2557 case MONO_TYPE_BOOLEAN:
2558 return &mono_defaults.byte_class->byval_arg;
2559 case MONO_TYPE_CHAR:
2560 return &mono_defaults.uint16_class->byval_arg;
2567 * mini_type_stack_size:
2569 * @align: Pointer to an int for returning the alignment
2571 * Returns the type's stack size and the alignment in *align.
2574 mini_type_stack_size (MonoType *t, int *align)
2576 return mono_type_stack_size_internal (t, align, TRUE);
2580 * mini_type_stack_size_full:
2582 * Same as mini_type_stack_size, but handle pinvoke data types as well.
2585 mini_type_stack_size_full (MonoType *t, guint32 *align, gboolean pinvoke)
2589 //g_assert (!mini_is_gsharedvt_type (t));
2592 size = mono_type_native_stack_size (t, align);
2597 size = mini_type_stack_size (t, &ialign);
2600 size = mini_type_stack_size (t, NULL);
2608 * mono_generic_sharing_init:
2610 * Register the generic sharing counters.
2613 mono_generic_sharing_init (void)
2615 mono_install_image_unload_hook (mono_class_unregister_image_generic_subclasses, NULL);
2619 mono_generic_sharing_cleanup (void)
2621 mono_remove_image_unload_hook (mono_class_unregister_image_generic_subclasses, NULL);
2623 if (generic_subclass_hash)
2624 g_hash_table_destroy (generic_subclass_hash);
2628 * mini_type_var_is_vt:
2630 * Return whenever T is a type variable instantiated with a vtype.
2633 mini_type_var_is_vt (MonoType *type)
2635 if (type->type == MONO_TYPE_VAR || type->type == MONO_TYPE_MVAR) {
2636 return type->data.generic_param->gshared_constraint && type->data.generic_param->gshared_constraint->type == MONO_TYPE_VALUETYPE;
2638 g_assert_not_reached ();
2644 mini_type_is_reference (MonoType *type)
2646 type = mini_type_get_underlying_type (type);
2647 return mono_type_is_reference (type);
2651 * mini_method_get_rgctx:
2653 * Return the RGCTX which needs to be passed to M when it is called.
2656 mini_method_get_rgctx (MonoMethod *m)
2658 if (mini_method_get_context (m)->method_inst)
2659 return mono_method_lookup_rgctx (mono_class_vtable (mono_domain_get (), m->klass), mini_method_get_context (m)->method_inst);
2661 return mono_class_vtable (mono_domain_get (), m->klass);
2665 * mini_type_is_vtype:
2667 * Return whenever T is a vtype, or a type param instantiated with a vtype.
2668 * Should be used in place of MONO_TYPE_ISSTRUCT () which can't handle gsharedvt.
2671 mini_type_is_vtype (MonoType *t)
2673 t = mini_type_get_underlying_type (t);
2675 return MONO_TYPE_ISSTRUCT (t) || mini_is_gsharedvt_variable_type (t);
2679 mini_class_is_generic_sharable (MonoClass *klass)
2681 if (klass->generic_class && is_async_state_machine_class (klass))
2684 return (klass->generic_class && mono_generic_context_is_sharable (&klass->generic_class->context, FALSE));
2688 mini_is_gsharedvt_variable_klass (MonoClass *klass)
2690 return mini_is_gsharedvt_variable_type (&klass->byval_arg);
2694 mini_is_gsharedvt_gparam (MonoType *t)
2696 /* Matches get_gsharedvt_type () */
2697 return (t->type == MONO_TYPE_VAR || t->type == MONO_TYPE_MVAR) && t->data.generic_param->gshared_constraint && t->data.generic_param->gshared_constraint->type == MONO_TYPE_VALUETYPE;
2701 get_shared_gparam_name (MonoTypeEnum constraint, const char *name)
2703 if (constraint == MONO_TYPE_VALUETYPE) {
2704 return g_strdup_printf ("%s_GSHAREDVT", name);
2705 } else if (constraint == MONO_TYPE_OBJECT) {
2706 return g_strdup_printf ("%s_REF", name);
2707 } else if (constraint == MONO_TYPE_GENERICINST) {
2708 return g_strdup_printf ("%s_INST", name);
2711 char *tname, *tname2, *res;
2713 memset (&t, 0, sizeof (t));
2714 t.type = constraint;
2715 tname = mono_type_full_name (&t);
2716 tname2 = g_utf8_strup (tname, strlen (tname));
2717 res = g_strdup_printf ("%s_%s", name, tname2);
2725 MonoGenericParam *par;
2726 MonoType *constraint;
2730 shared_gparam_hash (gconstpointer data)
2732 SharedGParam *p = (SharedGParam*)data;
2735 hash = mono_metadata_generic_param_hash (p->par);
2736 hash = ((hash << 5) - hash) ^ mono_metadata_type_hash (p->constraint);
2742 shared_gparam_equal (gconstpointer ka, gconstpointer kb)
2744 SharedGParam *p1 = (SharedGParam*)ka;
2745 SharedGParam *p2 = (SharedGParam*)kb;
2749 if (p1->par != p2->par)
2751 if (!mono_metadata_type_equal (p1->constraint, p2->constraint))
2757 * get_shared_gparam:
2759 * Create an anonymous gparam with a type variable with a constraint which encodes which types can match it.
2762 get_shared_gparam (MonoType *t, MonoType *constraint)
2764 MonoGenericParam *par = t->data.generic_param;
2765 MonoGenericParam *copy;
2768 MonoImage *image = NULL;
2771 memset (&key, 0, sizeof (key));
2773 key.constraint = constraint;
2775 g_assert (mono_generic_param_info (par));
2776 /* image might not be set for sre */
2777 if (par->owner && par->owner->image) {
2778 image = par->owner->image;
2780 mono_image_lock (image);
2781 if (!image->gshared_types) {
2782 image->gshared_types_len = MONO_TYPE_INTERNAL;
2783 image->gshared_types = g_new0 (GHashTable*, image->gshared_types_len);
2785 if (!image->gshared_types [constraint->type])
2786 image->gshared_types [constraint->type] = g_hash_table_new (shared_gparam_hash, shared_gparam_equal);
2787 res = g_hash_table_lookup (image->gshared_types [constraint->type], &key);
2788 mono_image_unlock (image);
2791 copy = mono_image_alloc0 (image, sizeof (MonoGenericParamFull));
2792 memcpy (copy, par, sizeof (MonoGenericParamFull));
2793 name = get_shared_gparam_name (constraint->type, ((MonoGenericParamFull*)copy)->info.name);
2794 ((MonoGenericParamFull*)copy)->info.name = mono_image_strdup (image, name);
2797 /* mono_generic_param_name () expects this to be a MonoGenericParamFull */
2798 copy = (MonoGenericParam*)g_new0 (MonoGenericParamFull, 1);
2799 memcpy (copy, par, sizeof (MonoGenericParam));
2803 copy->image = mono_defaults.corlib;
2805 copy->gshared_constraint = constraint;
2806 res = mono_metadata_type_dup (NULL, t);
2807 res->data.generic_param = copy;
2812 dkey = mono_image_alloc0 (image, sizeof (SharedGParam));
2814 dkey->constraint = constraint;
2816 mono_image_lock (image);
2817 /* Duplicates are ok */
2818 g_hash_table_insert (image->gshared_types [constraint->type], dkey, res);
2819 mono_image_unlock (image);
2825 static MonoGenericInst*
2826 get_shared_inst (MonoGenericInst *inst, MonoGenericInst *shared_inst, MonoGenericContainer *container, gboolean all_vt, gboolean gsharedvt, gboolean partial);
2829 get_shared_type (MonoType *t, MonoType *type)
2833 if (!type->byref && type->type == MONO_TYPE_GENERICINST && MONO_TYPE_ISSTRUCT (type)) {
2834 MonoGenericClass *gclass = type->data.generic_class;
2835 MonoGenericContext context;
2838 memset (&context, 0, sizeof (context));
2839 if (gclass->context.class_inst)
2840 context.class_inst = get_shared_inst (gclass->context.class_inst, gclass->container_class->generic_container->context.class_inst, NULL, FALSE, FALSE, TRUE);
2841 if (gclass->context.method_inst)
2842 context.method_inst = get_shared_inst (gclass->context.method_inst, gclass->container_class->generic_container->context.method_inst, NULL, FALSE, FALSE, TRUE);
2844 k = mono_class_inflate_generic_class (gclass->container_class, &context);
2846 return get_shared_gparam (t, &k->byval_arg);
2847 } else if (MONO_TYPE_ISSTRUCT (type)) {
2851 /* Create a type variable with a constraint which encodes which types can match it */
2853 if (type->type == MONO_TYPE_VALUETYPE) {
2854 ttype = mono_class_enum_basetype (type->data.klass)->type;
2855 } else if (MONO_TYPE_IS_REFERENCE (type)) {
2856 ttype = MONO_TYPE_OBJECT;
2857 } else if (type->type == MONO_TYPE_VAR || type->type == MONO_TYPE_MVAR) {
2858 if (type->data.generic_param->gshared_constraint)
2859 return get_shared_gparam (t, type->data.generic_param->gshared_constraint);
2860 ttype = MONO_TYPE_OBJECT;
2867 memset (&t2, 0, sizeof (t2));
2869 klass = mono_class_from_mono_type (&t2);
2871 return get_shared_gparam (t, &klass->byval_arg);
2876 get_gsharedvt_type (MonoType *t)
2878 /* Use TypeHandle as the constraint type since its a valuetype */
2879 return get_shared_gparam (t, &mono_defaults.typehandle_class->byval_arg);
2882 static MonoGenericInst*
2883 get_shared_inst (MonoGenericInst *inst, MonoGenericInst *shared_inst, MonoGenericContainer *container, gboolean all_vt, gboolean gsharedvt, gboolean partial)
2885 MonoGenericInst *res;
2886 MonoType **type_argv;
2889 type_argv = g_new0 (MonoType*, inst->type_argc);
2890 for (i = 0; i < inst->type_argc; ++i) {
2891 if (all_vt || gsharedvt) {
2892 type_argv [i] = get_gsharedvt_type (shared_inst->type_argv [i]);
2894 /* These types match the ones in generic_inst_is_sharable () */
2895 type_argv [i] = get_shared_type (shared_inst->type_argv [i], inst->type_argv [i]);
2899 res = mono_metadata_get_generic_inst (inst->type_argc, type_argv);
2905 * mini_get_shared_method_full:
2907 * Return the method which is actually compiled/registered when doing generic sharing.
2908 * If ALL_VT is true, return the shared method belonging to an all-vtype instantiation.
2909 * If IS_GSHAREDVT is true, treat METHOD as a gsharedvt method even if it fails some constraints.
2910 * METHOD can be a non-inflated generic method.
2913 mini_get_shared_method_full (MonoMethod *method, gboolean all_vt, gboolean is_gsharedvt)
2916 MonoGenericContext shared_context;
2917 MonoMethod *declaring_method, *res;
2918 gboolean partial = FALSE;
2919 gboolean gsharedvt = FALSE;
2920 MonoGenericContainer *class_container, *method_container = NULL;
2921 MonoGenericContext *context = mono_method_get_context (method);
2922 MonoGenericInst *inst;
2924 if (method->is_generic || (method->klass->generic_container && !method->is_inflated)) {
2925 declaring_method = method;
2927 declaring_method = mono_method_get_declaring_generic_method (method);
2930 /* shared_context is the context containing type variables. */
2931 if (declaring_method->is_generic)
2932 shared_context = mono_method_get_generic_container (declaring_method)->context;
2934 shared_context = declaring_method->klass->generic_container->context;
2937 partial = mono_method_is_generic_sharable_full (method, FALSE, TRUE, FALSE);
2939 gsharedvt = is_gsharedvt || (!partial && mini_is_gsharedvt_sharable_method (method));
2941 class_container = declaring_method->klass->generic_container;
2942 method_container = mono_method_get_generic_container (declaring_method);
2945 * Create the shared context by replacing the ref type arguments with
2946 * type parameters, and keeping the rest.
2949 inst = context->class_inst;
2951 inst = shared_context.class_inst;
2953 shared_context.class_inst = get_shared_inst (inst, shared_context.class_inst, class_container, all_vt, gsharedvt, partial);
2956 inst = context->method_inst;
2958 inst = shared_context.method_inst;
2960 shared_context.method_inst = get_shared_inst (inst, shared_context.method_inst, method_container, all_vt, gsharedvt, partial);
2962 res = mono_class_inflate_generic_method_checked (declaring_method, &shared_context, &error);
2963 g_assert (mono_error_ok (&error)); /* FIXME don't swallow the error */
2965 //printf ("%s\n", mono_method_full_name (res, 1));
2971 mini_get_shared_method (MonoMethod *method)
2973 return mini_get_shared_method_full (method, FALSE, FALSE);
2977 mini_get_rgctx_entry_slot (MonoJumpInfoRgctxEntry *entry)
2981 switch (entry->data->type) {
2982 case MONO_PATCH_INFO_CLASS:
2983 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, &entry->data->data.klass->byval_arg, entry->info_type, mono_method_get_context (entry->method));
2985 case MONO_PATCH_INFO_METHOD:
2986 case MONO_PATCH_INFO_METHODCONST:
2987 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, entry->data->data.method, entry->info_type, mono_method_get_context (entry->method));
2989 case MONO_PATCH_INFO_FIELD:
2990 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, entry->data->data.field, entry->info_type, mono_method_get_context (entry->method));
2992 case MONO_PATCH_INFO_SIGNATURE:
2993 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, entry->data->data.sig, entry->info_type, mono_method_get_context (entry->method));
2995 case MONO_PATCH_INFO_GSHAREDVT_CALL: {
2996 MonoJumpInfoGSharedVtCall *call_info = g_malloc0 (sizeof (MonoJumpInfoGSharedVtCall)); //mono_domain_alloc0 (domain, sizeof (MonoJumpInfoGSharedVtCall));
2998 memcpy (call_info, entry->data->data.gsharedvt, sizeof (MonoJumpInfoGSharedVtCall));
2999 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, call_info, entry->info_type, mono_method_get_context (entry->method));
3002 case MONO_PATCH_INFO_GSHAREDVT_METHOD: {
3003 MonoGSharedVtMethodInfo *info;
3004 MonoGSharedVtMethodInfo *oinfo = entry->data->data.gsharedvt_method;
3007 /* Make a copy into the domain mempool */
3008 info = g_malloc0 (sizeof (MonoGSharedVtMethodInfo)); //mono_domain_alloc0 (domain, sizeof (MonoGSharedVtMethodInfo));
3009 info->method = oinfo->method;
3010 info->num_entries = oinfo->num_entries;
3011 info->entries = g_malloc0 (sizeof (MonoRuntimeGenericContextInfoTemplate) * info->num_entries);
3012 for (i = 0; i < oinfo->num_entries; ++i) {
3013 MonoRuntimeGenericContextInfoTemplate *otemplate = &oinfo->entries [i];
3014 MonoRuntimeGenericContextInfoTemplate *template = &info->entries [i];
3016 memcpy (template, otemplate, sizeof (MonoRuntimeGenericContextInfoTemplate));
3018 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, info, entry->info_type, mono_method_get_context (entry->method));
3021 case MONO_PATCH_INFO_VIRT_METHOD: {
3022 MonoJumpInfoVirtMethod *info;
3023 MonoJumpInfoVirtMethod *oinfo = entry->data->data.virt_method;
3025 info = g_malloc0 (sizeof (MonoJumpInfoVirtMethod));
3026 memcpy (info, oinfo, sizeof (MonoJumpInfoVirtMethod));
3027 slot = mono_method_lookup_or_register_info (entry->method, entry->in_mrgctx, info, entry->info_type, mono_method_get_context (entry->method));
3031 g_assert_not_reached ();
3038 #if defined(ENABLE_GSHAREDVT)
3040 #include "../../../mono-extensions/mono/mini/mini-generic-sharing-gsharedvt.c"
3045 mini_is_gsharedvt_type (MonoType *t)
3051 mini_is_gsharedvt_klass (MonoClass *klass)
3057 mini_is_gsharedvt_signature (MonoMethodSignature *sig)
3063 mini_is_gsharedvt_variable_type (MonoType *t)
3069 mini_is_gsharedvt_sharable_method (MonoMethod *method)
3075 mini_is_gsharedvt_variable_signature (MonoMethodSignature *sig)
3080 #endif /* !MONOTOUCH */