2 * metadata.c: Routines for accessing the metadata
5 * Miguel de Icaza (miguel@ximian.com)
6 * Paolo Molaro (lupus@ximian.com)
8 * Copyright 2001-2003 Ximian, Inc (http://www.ximian.com)
9 * Copyright 2004-2009 Novell, Inc (http://www.novell.com)
10 * Licensed under the MIT license. See LICENSE file in the project root for full license information.
19 #include "tabledefs.h"
20 #include "mono-endian.h"
22 #include "tokentype.h"
23 #include "class-internals.h"
24 #include "metadata-internals.h"
25 #include "verify-internals.h"
28 #include "debug-helpers.h"
29 #include "abi-details.h"
30 #include <mono/utils/mono-error-internals.h>
31 #include <mono/utils/bsearch.h>
32 #include <mono/utils/atomic.h>
34 /* Auxiliary structure used for caching inflated signatures */
36 MonoMethodSignature *sig;
37 MonoGenericContext context;
38 } MonoInflatedMethodSignature;
40 static gboolean do_mono_metadata_parse_type (MonoType *type, MonoImage *m, MonoGenericContainer *container, gboolean transient,
41 const char *ptr, const char **rptr, MonoError *error);
43 static gboolean do_mono_metadata_type_equal (MonoType *t1, MonoType *t2, gboolean signature_only);
44 static gboolean mono_metadata_class_equal (MonoClass *c1, MonoClass *c2, gboolean signature_only);
45 static gboolean mono_metadata_fnptr_equal (MonoMethodSignature *s1, MonoMethodSignature *s2, gboolean signature_only);
46 static gboolean _mono_metadata_generic_class_equal (const MonoGenericClass *g1, const MonoGenericClass *g2,
47 gboolean signature_only);
48 static void free_generic_inst (MonoGenericInst *ginst);
49 static void free_generic_class (MonoGenericClass *ginst);
50 static void free_inflated_method (MonoMethodInflated *method);
51 static void free_inflated_signature (MonoInflatedMethodSignature *sig);
52 static void mono_metadata_field_info_full (MonoImage *meta, guint32 index, guint32 *offset, guint32 *rva, MonoMarshalSpec **marshal_spec, gboolean alloc_from_image);
55 * This enumeration is used to describe the data types in the metadata
66 /* Index into Blob heap */
69 /* Index into String heap */
75 /* Pointer into a table */
78 /* HasConstant:Parent pointer (Param, Field or Property) */
81 /* HasCustomAttribute index. Indexes any table except CustomAttribute */
84 /* CustomAttributeType encoded index */
87 /* HasDeclSecurity index: TypeDef Method or Assembly */
90 /* Implementation coded index: File, Export AssemblyRef */
93 /* HasFieldMarshal coded index: Field or Param table */
96 /* MemberForwardedIndex: Field or Method */
99 /* TypeDefOrRef coded index: typedef, typeref, typespec */
102 /* MemberRefParent coded index: typeref, moduleref, method, memberref, typesepc, typedef */
105 /* MethodDefOrRef coded index: Method or Member Ref table */
108 /* HasSemantic coded index: Event or Property */
111 /* ResolutionScope coded index: Module, ModuleRef, AssemblytRef, TypeRef */
115 const static unsigned char TableSchemas [] = {
116 #define ASSEMBLY_SCHEMA_OFFSET 0
117 MONO_MT_UINT32, /* "HashId" }, */
118 MONO_MT_UINT16, /* "Major" }, */
119 MONO_MT_UINT16, /* "Minor" }, */
120 MONO_MT_UINT16, /* "BuildNumber" }, */
121 MONO_MT_UINT16, /* "RevisionNumber" }, */
122 MONO_MT_UINT32, /* "Flags" }, */
123 MONO_MT_BLOB_IDX, /* "PublicKey" }, */
124 MONO_MT_STRING_IDX, /* "Name" }, */
125 MONO_MT_STRING_IDX, /* "Culture" }, */
128 #define ASSEMBLYOS_SCHEMA_OFFSET ASSEMBLY_SCHEMA_OFFSET + 10
129 MONO_MT_UINT32, /* "OSPlatformID" }, */
130 MONO_MT_UINT32, /* "OSMajor" }, */
131 MONO_MT_UINT32, /* "OSMinor" }, */
134 #define ASSEMBLYPROC_SCHEMA_OFFSET ASSEMBLYOS_SCHEMA_OFFSET + 4
135 MONO_MT_UINT32, /* "Processor" }, */
138 #define ASSEMBLYREF_SCHEMA_OFFSET ASSEMBLYPROC_SCHEMA_OFFSET + 2
139 MONO_MT_UINT16, /* "Major" }, */
140 MONO_MT_UINT16, /* "Minor" }, */
141 MONO_MT_UINT16, /* "Build" }, */
142 MONO_MT_UINT16, /* "Revision" }, */
143 MONO_MT_UINT32, /* "Flags" }, */
144 MONO_MT_BLOB_IDX, /* "PublicKeyOrToken" }, */
145 MONO_MT_STRING_IDX, /* "Name" }, */
146 MONO_MT_STRING_IDX, /* "Culture" }, */
147 MONO_MT_BLOB_IDX, /* "HashValue" }, */
150 #define ASSEMBLYREFOS_SCHEMA_OFFSET ASSEMBLYREF_SCHEMA_OFFSET + 10
151 MONO_MT_UINT32, /* "OSPlatformID" }, */
152 MONO_MT_UINT32, /* "OSMajorVersion" }, */
153 MONO_MT_UINT32, /* "OSMinorVersion" }, */
154 MONO_MT_TABLE_IDX, /* "AssemblyRef:AssemblyRef" }, */
157 #define ASSEMBLYREFPROC_SCHEMA_OFFSET ASSEMBLYREFOS_SCHEMA_OFFSET + 5
158 MONO_MT_UINT32, /* "Processor" }, */
159 MONO_MT_TABLE_IDX, /* "AssemblyRef:AssemblyRef" }, */
162 #define CLASS_LAYOUT_SCHEMA_OFFSET ASSEMBLYREFPROC_SCHEMA_OFFSET + 3
163 MONO_MT_UINT16, /* "PackingSize" }, */
164 MONO_MT_UINT32, /* "ClassSize" }, */
165 MONO_MT_TABLE_IDX, /* "Parent:TypeDef" }, */
168 #define CONSTANT_SCHEMA_OFFSET CLASS_LAYOUT_SCHEMA_OFFSET + 4
169 MONO_MT_UINT8, /* "Type" }, */
170 MONO_MT_UINT8, /* "PaddingZero" }, */
171 MONO_MT_CONST_IDX, /* "Parent" }, */
172 MONO_MT_BLOB_IDX, /* "Value" }, */
175 #define CUSTOM_ATTR_SCHEMA_OFFSET CONSTANT_SCHEMA_OFFSET + 5
176 MONO_MT_HASCAT_IDX, /* "Parent" }, */
177 MONO_MT_CAT_IDX, /* "Type" }, */
178 MONO_MT_BLOB_IDX, /* "Value" }, */
181 #define DECL_SEC_SCHEMA_OFFSET CUSTOM_ATTR_SCHEMA_OFFSET + 4
182 MONO_MT_UINT16, /* "Action" }, */
183 MONO_MT_HASDEC_IDX, /* "Parent" }, */
184 MONO_MT_BLOB_IDX, /* "PermissionSet" }, */
187 #define EVENTMAP_SCHEMA_OFFSET DECL_SEC_SCHEMA_OFFSET + 4
188 MONO_MT_TABLE_IDX, /* "Parent:TypeDef" }, */
189 MONO_MT_TABLE_IDX, /* "EventList:Event" }, */
192 #define EVENT_SCHEMA_OFFSET EVENTMAP_SCHEMA_OFFSET + 3
193 MONO_MT_UINT16, /* "EventFlags#EventAttribute" }, */
194 MONO_MT_STRING_IDX, /* "Name" }, */
195 MONO_MT_TDOR_IDX, /* "EventType" }, TypeDef or TypeRef or TypeSpec */
198 #define EVENT_POINTER_SCHEMA_OFFSET EVENT_SCHEMA_OFFSET + 4
199 MONO_MT_TABLE_IDX, /* "Event" }, */
202 #define EXPORTED_TYPE_SCHEMA_OFFSET EVENT_POINTER_SCHEMA_OFFSET + 2
203 MONO_MT_UINT32, /* "Flags" }, */
204 MONO_MT_TABLE_IDX, /* "TypeDefId" }, */
205 MONO_MT_STRING_IDX, /* "TypeName" }, */
206 MONO_MT_STRING_IDX, /* "TypeNameSpace" }, */
207 MONO_MT_IMPL_IDX, /* "Implementation" }, */
210 #define FIELD_SCHEMA_OFFSET EXPORTED_TYPE_SCHEMA_OFFSET + 6
211 MONO_MT_UINT16, /* "Flags" }, */
212 MONO_MT_STRING_IDX, /* "Name" }, */
213 MONO_MT_BLOB_IDX, /* "Signature" }, */
216 #define FIELD_LAYOUT_SCHEMA_OFFSET FIELD_SCHEMA_OFFSET + 4
217 MONO_MT_UINT32, /* "Offset" }, */
218 MONO_MT_TABLE_IDX, /* "Field:Field" }, */
221 #define FIELD_MARSHAL_SCHEMA_OFFSET FIELD_LAYOUT_SCHEMA_OFFSET + 3
222 MONO_MT_HFM_IDX, /* "Parent" }, */
223 MONO_MT_BLOB_IDX, /* "NativeType" }, */
226 #define FIELD_RVA_SCHEMA_OFFSET FIELD_MARSHAL_SCHEMA_OFFSET + 3
227 MONO_MT_UINT32, /* "RVA" }, */
228 MONO_MT_TABLE_IDX, /* "Field:Field" }, */
231 #define FIELD_POINTER_SCHEMA_OFFSET FIELD_RVA_SCHEMA_OFFSET + 3
232 MONO_MT_TABLE_IDX, /* "Field" }, */
235 #define FILE_SCHEMA_OFFSET FIELD_POINTER_SCHEMA_OFFSET + 2
236 MONO_MT_UINT32, /* "Flags" }, */
237 MONO_MT_STRING_IDX, /* "Name" }, */
238 MONO_MT_BLOB_IDX, /* "Value" }, */
241 #define IMPLMAP_SCHEMA_OFFSET FILE_SCHEMA_OFFSET + 4
242 MONO_MT_UINT16, /* "MappingFlag" }, */
243 MONO_MT_MF_IDX, /* "MemberForwarded" }, */
244 MONO_MT_STRING_IDX, /* "ImportName" }, */
245 MONO_MT_TABLE_IDX, /* "ImportScope:ModuleRef" }, */
248 #define IFACEMAP_SCHEMA_OFFSET IMPLMAP_SCHEMA_OFFSET + 5
249 MONO_MT_TABLE_IDX, /* "Class:TypeDef" }, */
250 MONO_MT_TDOR_IDX, /* "Interface=TypeDefOrRef" }, */
253 #define MANIFEST_SCHEMA_OFFSET IFACEMAP_SCHEMA_OFFSET + 3
254 MONO_MT_UINT32, /* "Offset" }, */
255 MONO_MT_UINT32, /* "Flags" }, */
256 MONO_MT_STRING_IDX, /* "Name" }, */
257 MONO_MT_IMPL_IDX, /* "Implementation" }, */
260 #define MEMBERREF_SCHEMA_OFFSET MANIFEST_SCHEMA_OFFSET + 5
261 MONO_MT_MRP_IDX, /* "Class" }, */
262 MONO_MT_STRING_IDX, /* "Name" }, */
263 MONO_MT_BLOB_IDX, /* "Signature" }, */
266 #define METHOD_SCHEMA_OFFSET MEMBERREF_SCHEMA_OFFSET + 4
267 MONO_MT_UINT32, /* "RVA" }, */
268 MONO_MT_UINT16, /* "ImplFlags#MethodImplAttributes" }, */
269 MONO_MT_UINT16, /* "Flags#MethodAttribute" }, */
270 MONO_MT_STRING_IDX, /* "Name" }, */
271 MONO_MT_BLOB_IDX, /* "Signature" }, */
272 MONO_MT_TABLE_IDX, /* "ParamList:Param" }, */
275 #define METHOD_IMPL_SCHEMA_OFFSET METHOD_SCHEMA_OFFSET + 7
276 MONO_MT_TABLE_IDX, /* "Class:TypeDef" }, */
277 MONO_MT_MDOR_IDX, /* "MethodBody" }, */
278 MONO_MT_MDOR_IDX, /* "MethodDeclaration" }, */
281 #define METHOD_SEMA_SCHEMA_OFFSET METHOD_IMPL_SCHEMA_OFFSET + 4
282 MONO_MT_UINT16, /* "MethodSemantic" }, */
283 MONO_MT_TABLE_IDX, /* "Method:Method" }, */
284 MONO_MT_HS_IDX, /* "Association" }, */
287 #define METHOD_POINTER_SCHEMA_OFFSET METHOD_SEMA_SCHEMA_OFFSET + 4
288 MONO_MT_TABLE_IDX, /* "Method" }, */
291 #define MODULE_SCHEMA_OFFSET METHOD_POINTER_SCHEMA_OFFSET + 2
292 MONO_MT_UINT16, /* "Generation" }, */
293 MONO_MT_STRING_IDX, /* "Name" }, */
294 MONO_MT_GUID_IDX, /* "MVID" }, */
295 MONO_MT_GUID_IDX, /* "EncID" }, */
296 MONO_MT_GUID_IDX, /* "EncBaseID" }, */
299 #define MODULEREF_SCHEMA_OFFSET MODULE_SCHEMA_OFFSET + 6
300 MONO_MT_STRING_IDX, /* "Name" }, */
303 #define NESTED_CLASS_SCHEMA_OFFSET MODULEREF_SCHEMA_OFFSET + 2
304 MONO_MT_TABLE_IDX, /* "NestedClass:TypeDef" }, */
305 MONO_MT_TABLE_IDX, /* "EnclosingClass:TypeDef" }, */
308 #define PARAM_SCHEMA_OFFSET NESTED_CLASS_SCHEMA_OFFSET + 3
309 MONO_MT_UINT16, /* "Flags" }, */
310 MONO_MT_UINT16, /* "Sequence" }, */
311 MONO_MT_STRING_IDX, /* "Name" }, */
314 #define PARAM_POINTER_SCHEMA_OFFSET PARAM_SCHEMA_OFFSET + 4
315 MONO_MT_TABLE_IDX, /* "Param" }, */
318 #define PROPERTY_SCHEMA_OFFSET PARAM_POINTER_SCHEMA_OFFSET + 2
319 MONO_MT_UINT16, /* "Flags" }, */
320 MONO_MT_STRING_IDX, /* "Name" }, */
321 MONO_MT_BLOB_IDX, /* "Type" }, */
324 #define PROPERTY_POINTER_SCHEMA_OFFSET PROPERTY_SCHEMA_OFFSET + 4
325 MONO_MT_TABLE_IDX, /* "Property" }, */
328 #define PROPERTY_MAP_SCHEMA_OFFSET PROPERTY_POINTER_SCHEMA_OFFSET + 2
329 MONO_MT_TABLE_IDX, /* "Parent:TypeDef" }, */
330 MONO_MT_TABLE_IDX, /* "PropertyList:Property" }, */
333 #define STDALON_SIG_SCHEMA_OFFSET PROPERTY_MAP_SCHEMA_OFFSET + 3
334 MONO_MT_BLOB_IDX, /* "Signature" }, */
337 #define TYPEDEF_SCHEMA_OFFSET STDALON_SIG_SCHEMA_OFFSET + 2
338 MONO_MT_UINT32, /* "Flags" }, */
339 MONO_MT_STRING_IDX, /* "Name" }, */
340 MONO_MT_STRING_IDX, /* "Namespace" }, */
341 MONO_MT_TDOR_IDX, /* "Extends" }, */
342 MONO_MT_TABLE_IDX, /* "FieldList:Field" }, */
343 MONO_MT_TABLE_IDX, /* "MethodList:Method" }, */
346 #define TYPEREF_SCHEMA_OFFSET TYPEDEF_SCHEMA_OFFSET + 7
347 MONO_MT_RS_IDX, /* "ResolutionScope=ResolutionScope" }, */
348 MONO_MT_STRING_IDX, /* "Name" }, */
349 MONO_MT_STRING_IDX, /* "Namespace" }, */
352 #define TYPESPEC_SCHEMA_OFFSET TYPEREF_SCHEMA_OFFSET + 4
353 MONO_MT_BLOB_IDX, /* "Signature" }, */
356 #define GENPARAM_SCHEMA_OFFSET TYPESPEC_SCHEMA_OFFSET + 2
357 MONO_MT_UINT16, /* "Number" }, */
358 MONO_MT_UINT16, /* "Flags" }, */
359 MONO_MT_TABLE_IDX, /* "Owner" }, TypeDef or MethodDef */
360 MONO_MT_STRING_IDX, /* "Name" }, */
363 #define METHOD_SPEC_SCHEMA_OFFSET GENPARAM_SCHEMA_OFFSET + 5
364 MONO_MT_MDOR_IDX, /* "Method" }, */
365 MONO_MT_BLOB_IDX, /* "Signature" }, */
368 #define GEN_CONSTRAINT_SCHEMA_OFFSET METHOD_SPEC_SCHEMA_OFFSET + 3
369 MONO_MT_TABLE_IDX, /* "GenericParam" }, */
370 MONO_MT_TDOR_IDX, /* "Constraint" }, */
373 #define DOCUMENT_SCHEMA_OFFSET GEN_CONSTRAINT_SCHEMA_OFFSET + 3
374 MONO_MT_BLOB_IDX, /* Name */
375 MONO_MT_GUID_IDX, /* HashAlgorithm */
376 MONO_MT_BLOB_IDX, /* Hash */
377 MONO_MT_GUID_IDX, /* Language */
380 #define METHODBODY_SCHEMA_OFFSET DOCUMENT_SCHEMA_OFFSET + 5
381 MONO_MT_TABLE_IDX, /* Document */
382 MONO_MT_BLOB_IDX, /* SequencePoints */
385 #define LOCALSCOPE_SCHEMA_OFFSET METHODBODY_SCHEMA_OFFSET + 3
386 MONO_MT_TABLE_IDX, /* Method */
387 MONO_MT_TABLE_IDX, /* ImportScope */
388 MONO_MT_TABLE_IDX, /* VariableList */
389 MONO_MT_TABLE_IDX, /* ConstantList */
390 MONO_MT_UINT32, /* StartOffset */
391 MONO_MT_UINT32, /* Length */
394 #define LOCALVARIABLE_SCHEMA_OFFSET LOCALSCOPE_SCHEMA_OFFSET + 7
395 MONO_MT_UINT16, /* Attributes */
396 MONO_MT_UINT16, /* Index */
397 MONO_MT_STRING_IDX, /* Name */
400 #define NULL_SCHEMA_OFFSET LOCALVARIABLE_SCHEMA_OFFSET + 4
404 /* Must be the same order as MONO_TABLE_* */
405 const static unsigned char
406 table_description [] = {
407 MODULE_SCHEMA_OFFSET,
408 TYPEREF_SCHEMA_OFFSET,
409 TYPEDEF_SCHEMA_OFFSET,
410 FIELD_POINTER_SCHEMA_OFFSET,
412 METHOD_POINTER_SCHEMA_OFFSET,
413 METHOD_SCHEMA_OFFSET,
414 PARAM_POINTER_SCHEMA_OFFSET,
416 IFACEMAP_SCHEMA_OFFSET,
417 MEMBERREF_SCHEMA_OFFSET, /* 0xa */
418 CONSTANT_SCHEMA_OFFSET,
419 CUSTOM_ATTR_SCHEMA_OFFSET,
420 FIELD_MARSHAL_SCHEMA_OFFSET,
421 DECL_SEC_SCHEMA_OFFSET,
422 CLASS_LAYOUT_SCHEMA_OFFSET,
423 FIELD_LAYOUT_SCHEMA_OFFSET, /* 0x10 */
424 STDALON_SIG_SCHEMA_OFFSET,
425 EVENTMAP_SCHEMA_OFFSET,
426 EVENT_POINTER_SCHEMA_OFFSET,
428 PROPERTY_MAP_SCHEMA_OFFSET,
429 PROPERTY_POINTER_SCHEMA_OFFSET,
430 PROPERTY_SCHEMA_OFFSET,
431 METHOD_SEMA_SCHEMA_OFFSET,
432 METHOD_IMPL_SCHEMA_OFFSET,
433 MODULEREF_SCHEMA_OFFSET, /* 0x1a */
434 TYPESPEC_SCHEMA_OFFSET,
435 IMPLMAP_SCHEMA_OFFSET,
436 FIELD_RVA_SCHEMA_OFFSET,
439 ASSEMBLY_SCHEMA_OFFSET, /* 0x20 */
440 ASSEMBLYPROC_SCHEMA_OFFSET,
441 ASSEMBLYOS_SCHEMA_OFFSET,
442 ASSEMBLYREF_SCHEMA_OFFSET,
443 ASSEMBLYREFPROC_SCHEMA_OFFSET,
444 ASSEMBLYREFOS_SCHEMA_OFFSET,
446 EXPORTED_TYPE_SCHEMA_OFFSET,
447 MANIFEST_SCHEMA_OFFSET,
448 NESTED_CLASS_SCHEMA_OFFSET,
449 GENPARAM_SCHEMA_OFFSET, /* 0x2a */
450 METHOD_SPEC_SCHEMA_OFFSET,
451 GEN_CONSTRAINT_SCHEMA_OFFSET,
455 DOCUMENT_SCHEMA_OFFSET, /* 0x30 */
456 METHODBODY_SCHEMA_OFFSET,
457 LOCALSCOPE_SCHEMA_OFFSET,
458 LOCALVARIABLE_SCHEMA_OFFSET
461 #ifdef HAVE_ARRAY_ELEM_INIT
462 #define MSGSTRFIELD(line) MSGSTRFIELD1(line)
463 #define MSGSTRFIELD1(line) str##line
464 static const struct msgstr_t {
465 #define TABLEDEF(a,b) char MSGSTRFIELD(__LINE__) [sizeof (b)];
466 #include "mono/cil/tables.def"
469 #define TABLEDEF(a,b) b,
470 #include "mono/cil/tables.def"
473 static const gint16 tableidx [] = {
474 #define TABLEDEF(a,b) [a] = offsetof (struct msgstr_t, MSGSTRFIELD(__LINE__)),
475 #include "mono/cil/tables.def"
480 #define TABLEDEF(a,b) b,
481 static const char* const
482 mono_tables_names [] = {
483 #include "mono/cil/tables.def"
489 // Amount initially reserved in each imageset's mempool.
490 // FIXME: This number is arbitrary, a more practical number should be found
491 #define INITIAL_IMAGE_SET_SIZE 1024
494 * mono_meta_table_name:
495 * @table: table index
497 * Returns the name of the given ECMA metadata logical format table
498 * as described in ECMA 335, Partition II, Section 22.
500 * Returns: the name for the @table index
503 mono_meta_table_name (int table)
505 if ((table < 0) || (table > MONO_TABLE_LAST))
508 #ifdef HAVE_ARRAY_ELEM_INIT
509 return (const char*)&tablestr + tableidx [table];
511 return mono_tables_names [table];
515 /* The guy who wrote the spec for this should not be allowed near a
518 If e is a coded token(see clause 23.1.7) that points into table ti out of n possible tables t0, .. tn-1,
519 then it is stored as e << (log n) & tag{ t0, .. tn-1}[ ti] using 2 bytes if the maximum number of
520 rows of tables t0, ..tn-1, is less than 2^16 - (log n), and using 4 bytes otherwise. The family of
521 finite maps tag{ t0, ..tn-1} is defined below. Note that to decode a physical row, you need the
522 inverse of this mapping.
525 #define rtsize(meta,s,b) (((s) < (1 << (b)) ? 2 : 4))
526 #define idx_size(meta,tableidx) ((meta)->tables [(tableidx)].rows < 65536 ? 2 : 4)
528 /* Reference: Partition II - 23.2.6 */
530 * mono_metadata_compute_size:
531 * @meta: metadata context
532 * @tableindex: metadata table number
533 * @result_bitfield: pointer to guint32 where to store additional info
535 * mono_metadata_compute_size() computes the lenght in bytes of a single
536 * row in a metadata table. The size of each column is encoded in the
537 * @result_bitfield return value along with the number of columns in the table.
538 * the resulting bitfield should be handed to the mono_metadata_table_size()
539 * and mono_metadata_table_count() macros.
540 * This is a Mono runtime internal only function.
543 mono_metadata_compute_size (MonoImage *meta, int tableindex, guint32 *result_bitfield)
545 guint32 bitfield = 0;
546 int size = 0, field_size = 0;
549 const unsigned char *description = TableSchemas + table_description [tableindex];
551 for (i = 0; (code = description [i]) != MONO_MT_END; i++){
554 field_size = 4; break;
557 field_size = 2; break;
560 field_size = 1; break;
562 case MONO_MT_BLOB_IDX:
563 field_size = meta->idx_blob_wide ? 4 : 2; break;
565 case MONO_MT_STRING_IDX:
566 field_size = meta->idx_string_wide ? 4 : 2; break;
568 case MONO_MT_GUID_IDX:
569 field_size = meta->idx_guid_wide ? 4 : 2; break;
571 case MONO_MT_TABLE_IDX:
572 /* Uhm, a table index can point to other tables besides the current one
573 * so, it's not correct to use the rowcount of the current table to
574 * get the size for this column - lupus
576 switch (tableindex) {
577 case MONO_TABLE_ASSEMBLYREFOS:
579 field_size = idx_size (meta, MONO_TABLE_ASSEMBLYREF); break;
580 case MONO_TABLE_ASSEMBLYREFPROCESSOR:
582 field_size = idx_size (meta, MONO_TABLE_ASSEMBLYREF); break;
583 case MONO_TABLE_CLASSLAYOUT:
585 field_size = idx_size (meta, MONO_TABLE_TYPEDEF); break;
586 case MONO_TABLE_EVENTMAP:
587 g_assert (i == 0 || i == 1);
588 field_size = i ? idx_size (meta, MONO_TABLE_EVENT):
589 idx_size (meta, MONO_TABLE_TYPEDEF);
591 case MONO_TABLE_EVENT_POINTER:
593 field_size = idx_size (meta, MONO_TABLE_EVENT); break;
594 case MONO_TABLE_EXPORTEDTYPE:
596 /* the index is in another metadata file, so it must be 4 */
597 field_size = 4; break;
598 case MONO_TABLE_FIELDLAYOUT:
600 field_size = idx_size (meta, MONO_TABLE_FIELD); break;
601 case MONO_TABLE_FIELDRVA:
603 field_size = idx_size (meta, MONO_TABLE_FIELD); break;
604 case MONO_TABLE_FIELD_POINTER:
606 field_size = idx_size (meta, MONO_TABLE_FIELD); break;
607 case MONO_TABLE_IMPLMAP:
609 field_size = idx_size (meta, MONO_TABLE_MODULEREF); break;
610 case MONO_TABLE_INTERFACEIMPL:
612 field_size = idx_size (meta, MONO_TABLE_TYPEDEF); break;
613 case MONO_TABLE_METHOD:
615 field_size = idx_size (meta, MONO_TABLE_PARAM); break;
616 case MONO_TABLE_METHODIMPL:
618 field_size = idx_size (meta, MONO_TABLE_TYPEDEF); break;
619 case MONO_TABLE_METHODSEMANTICS:
621 field_size = idx_size (meta, MONO_TABLE_METHOD); break;
622 case MONO_TABLE_METHOD_POINTER:
624 field_size = idx_size (meta, MONO_TABLE_METHOD); break;
625 case MONO_TABLE_NESTEDCLASS:
626 g_assert (i == 0 || i == 1);
627 field_size = idx_size (meta, MONO_TABLE_TYPEDEF); break;
628 case MONO_TABLE_PARAM_POINTER:
630 field_size = idx_size (meta, MONO_TABLE_PARAM); break;
631 case MONO_TABLE_PROPERTYMAP:
632 g_assert (i == 0 || i == 1);
633 field_size = i ? idx_size (meta, MONO_TABLE_PROPERTY):
634 idx_size (meta, MONO_TABLE_TYPEDEF);
636 case MONO_TABLE_PROPERTY_POINTER:
638 field_size = idx_size (meta, MONO_TABLE_PROPERTY); break;
639 case MONO_TABLE_TYPEDEF:
640 g_assert (i == 4 || i == 5);
641 field_size = i == 4 ? idx_size (meta, MONO_TABLE_FIELD):
642 idx_size (meta, MONO_TABLE_METHOD);
644 case MONO_TABLE_GENERICPARAM:
646 n = MAX (meta->tables [MONO_TABLE_METHOD].rows, meta->tables [MONO_TABLE_TYPEDEF].rows);
647 /*This is a coded token for 2 tables, so takes 1 bit */
648 field_size = rtsize (meta, n, 16 - MONO_TYPEORMETHOD_BITS);
650 case MONO_TABLE_GENERICPARAMCONSTRAINT:
652 field_size = idx_size (meta, MONO_TABLE_GENERICPARAM);
654 case MONO_TABLE_LOCALSCOPE:
657 // FIXME: This table is in another file
658 field_size = idx_size (meta, MONO_TABLE_METHOD);
661 field_size = idx_size (meta, MONO_TABLE_IMPORTSCOPE);
664 field_size = idx_size (meta, MONO_TABLE_LOCALVARIABLE);
667 field_size = idx_size (meta, MONO_TABLE_LOCALCONSTANT);
670 g_assert_not_reached ();
674 case MONO_TABLE_METHODBODY:
676 field_size = idx_size (meta, MONO_TABLE_DOCUMENT);
679 g_error ("Can't handle MONO_MT_TABLE_IDX for table %d element %d", tableindex, i);
684 * HasConstant: ParamDef, FieldDef, Property
686 case MONO_MT_CONST_IDX:
687 n = MAX (meta->tables [MONO_TABLE_PARAM].rows,
688 meta->tables [MONO_TABLE_FIELD].rows);
689 n = MAX (n, meta->tables [MONO_TABLE_PROPERTY].rows);
691 /* 2 bits to encode tag */
692 field_size = rtsize (meta, n, 16-2);
696 * HasCustomAttribute: points to any table but
699 case MONO_MT_HASCAT_IDX:
701 * We believe that since the signature and
702 * permission are indexing the Blob heap,
703 * we should consider the blob size first
705 /* I'm not a believer - lupus
706 if (meta->idx_blob_wide){
711 n = MAX (meta->tables [MONO_TABLE_METHOD].rows,
712 meta->tables [MONO_TABLE_FIELD].rows);
713 n = MAX (n, meta->tables [MONO_TABLE_TYPEREF].rows);
714 n = MAX (n, meta->tables [MONO_TABLE_TYPEDEF].rows);
715 n = MAX (n, meta->tables [MONO_TABLE_PARAM].rows);
716 n = MAX (n, meta->tables [MONO_TABLE_INTERFACEIMPL].rows);
717 n = MAX (n, meta->tables [MONO_TABLE_MEMBERREF].rows);
718 n = MAX (n, meta->tables [MONO_TABLE_MODULE].rows);
719 n = MAX (n, meta->tables [MONO_TABLE_DECLSECURITY].rows);
720 n = MAX (n, meta->tables [MONO_TABLE_PROPERTY].rows);
721 n = MAX (n, meta->tables [MONO_TABLE_EVENT].rows);
722 n = MAX (n, meta->tables [MONO_TABLE_STANDALONESIG].rows);
723 n = MAX (n, meta->tables [MONO_TABLE_MODULEREF].rows);
724 n = MAX (n, meta->tables [MONO_TABLE_TYPESPEC].rows);
725 n = MAX (n, meta->tables [MONO_TABLE_ASSEMBLY].rows);
726 n = MAX (n, meta->tables [MONO_TABLE_ASSEMBLYREF].rows);
727 n = MAX (n, meta->tables [MONO_TABLE_FILE].rows);
728 n = MAX (n, meta->tables [MONO_TABLE_EXPORTEDTYPE].rows);
729 n = MAX (n, meta->tables [MONO_TABLE_MANIFESTRESOURCE].rows);
731 /* 5 bits to encode */
732 field_size = rtsize (meta, n, 16-5);
736 * CustomAttributeType: TypeDef, TypeRef, MethodDef,
737 * MemberRef and String.
739 case MONO_MT_CAT_IDX:
740 /* String is a heap, if it is wide, we know the size */
742 if (meta->idx_string_wide){
747 n = MAX (meta->tables [MONO_TABLE_TYPEREF].rows,
748 meta->tables [MONO_TABLE_TYPEDEF].rows);
749 n = MAX (n, meta->tables [MONO_TABLE_METHOD].rows);
750 n = MAX (n, meta->tables [MONO_TABLE_MEMBERREF].rows);
752 /* 3 bits to encode */
753 field_size = rtsize (meta, n, 16-3);
757 * HasDeclSecurity: Typedef, MethodDef, Assembly
759 case MONO_MT_HASDEC_IDX:
760 n = MAX (meta->tables [MONO_TABLE_TYPEDEF].rows,
761 meta->tables [MONO_TABLE_METHOD].rows);
762 n = MAX (n, meta->tables [MONO_TABLE_ASSEMBLY].rows);
764 /* 2 bits to encode */
765 field_size = rtsize (meta, n, 16-2);
769 * Implementation: File, AssemblyRef, ExportedType
771 case MONO_MT_IMPL_IDX:
772 n = MAX (meta->tables [MONO_TABLE_FILE].rows,
773 meta->tables [MONO_TABLE_ASSEMBLYREF].rows);
774 n = MAX (n, meta->tables [MONO_TABLE_EXPORTEDTYPE].rows);
776 /* 2 bits to encode tag */
777 field_size = rtsize (meta, n, 16-2);
781 * HasFieldMarshall: FieldDef, ParamDef
783 case MONO_MT_HFM_IDX:
784 n = MAX (meta->tables [MONO_TABLE_FIELD].rows,
785 meta->tables [MONO_TABLE_PARAM].rows);
787 /* 1 bit used to encode tag */
788 field_size = rtsize (meta, n, 16-1);
792 * MemberForwarded: FieldDef, MethodDef
795 n = MAX (meta->tables [MONO_TABLE_FIELD].rows,
796 meta->tables [MONO_TABLE_METHOD].rows);
798 /* 1 bit used to encode tag */
799 field_size = rtsize (meta, n, 16-1);
803 * TypeDefOrRef: TypeDef, ParamDef, TypeSpec
805 * It is TypeDef, _TypeRef_, TypeSpec, instead.
807 case MONO_MT_TDOR_IDX:
808 n = MAX (meta->tables [MONO_TABLE_TYPEDEF].rows,
809 meta->tables [MONO_TABLE_TYPEREF].rows);
810 n = MAX (n, meta->tables [MONO_TABLE_TYPESPEC].rows);
812 /* 2 bits to encode */
813 field_size = rtsize (meta, n, 16-2);
817 * MemberRefParent: TypeDef, TypeRef, MethodDef, ModuleRef, TypeSpec, MemberRef
819 case MONO_MT_MRP_IDX:
820 n = MAX (meta->tables [MONO_TABLE_TYPEDEF].rows,
821 meta->tables [MONO_TABLE_TYPEREF].rows);
822 n = MAX (n, meta->tables [MONO_TABLE_METHOD].rows);
823 n = MAX (n, meta->tables [MONO_TABLE_MODULEREF].rows);
824 n = MAX (n, meta->tables [MONO_TABLE_TYPESPEC].rows);
826 /* 3 bits to encode */
827 field_size = rtsize (meta, n, 16 - 3);
831 * MethodDefOrRef: MethodDef, MemberRef
833 case MONO_MT_MDOR_IDX:
834 n = MAX (meta->tables [MONO_TABLE_METHOD].rows,
835 meta->tables [MONO_TABLE_MEMBERREF].rows);
837 /* 1 bit used to encode tag */
838 field_size = rtsize (meta, n, 16-1);
842 * HasSemantics: Property, Event
845 n = MAX (meta->tables [MONO_TABLE_PROPERTY].rows,
846 meta->tables [MONO_TABLE_EVENT].rows);
848 /* 1 bit used to encode tag */
849 field_size = rtsize (meta, n, 16-1);
853 * ResolutionScope: Module, ModuleRef, AssemblyRef, TypeRef
856 n = MAX (meta->tables [MONO_TABLE_MODULE].rows,
857 meta->tables [MONO_TABLE_MODULEREF].rows);
858 n = MAX (n, meta->tables [MONO_TABLE_ASSEMBLYREF].rows);
859 n = MAX (n, meta->tables [MONO_TABLE_TYPEREF].rows);
861 /* 2 bits used to encode tag (ECMA spec claims 3) */
862 field_size = rtsize (meta, n, 16 - 2);
867 * encode field size as follows (we just need to
874 bitfield |= (field_size-1) << shift;
877 /*g_print ("table %02x field %d size %d\n", tableindex, i, field_size);*/
880 *result_bitfield = (i << 24) | bitfield;
885 * mono_metadata_compute_table_bases:
886 * @meta: metadata context to compute table values
888 * Computes the table bases for the metadata structure.
889 * This is an internal function used by the image loader code.
892 mono_metadata_compute_table_bases (MonoImage *meta)
895 const char *base = meta->tables_base;
897 for (i = 0; i < MONO_TABLE_NUM; i++) {
898 MonoTableInfo *table = &meta->tables [i];
899 if (table->rows == 0)
902 table->row_size = mono_metadata_compute_size (meta, i, &table->size_bitfield);
904 base += table->rows * table->row_size;
909 * mono_metadata_locate:
910 * @meta: metadata context
911 * @table: table code.
912 * @idx: index of element to retrieve from @table.
914 * Returns: a pointer to the @idx element in the metadata table
915 * whose code is @table.
918 mono_metadata_locate (MonoImage *meta, int table, int idx)
920 /* idx == 0 refers always to NULL */
921 g_return_val_if_fail (idx > 0 && idx <= meta->tables [table].rows, ""); /*FIXME shouldn't we return NULL here?*/
923 return meta->tables [table].base + (meta->tables [table].row_size * (idx - 1));
927 * mono_metadata_locate_token:
928 * @meta: metadata context
929 * @token: metadata token
931 * Returns: a pointer to the data in the metadata represented by the
935 mono_metadata_locate_token (MonoImage *meta, guint32 token)
937 return mono_metadata_locate (meta, token >> 24, token & 0xffffff);
941 * mono_metadata_string_heap:
942 * @meta: metadata context
943 * @index: index into the string heap.
945 * Returns: an in-memory pointer to the @index in the string heap.
948 mono_metadata_string_heap (MonoImage *meta, guint32 index)
950 g_assert (index < meta->heap_strings.size);
951 g_return_val_if_fail (index < meta->heap_strings.size, "");
952 return meta->heap_strings.data + index;
956 * mono_metadata_user_string:
957 * @meta: metadata context
958 * @index: index into the user string heap.
960 * Returns: an in-memory pointer to the @index in the user string heap ("#US").
963 mono_metadata_user_string (MonoImage *meta, guint32 index)
965 g_assert (index < meta->heap_us.size);
966 g_return_val_if_fail (index < meta->heap_us.size, "");
967 return meta->heap_us.data + index;
971 * mono_metadata_blob_heap:
972 * @meta: metadata context
973 * @index: index into the blob.
975 * Returns: an in-memory pointer to the @index in the Blob heap.
978 mono_metadata_blob_heap (MonoImage *meta, guint32 index)
980 g_assert (index < meta->heap_blob.size);
981 g_return_val_if_fail (index < meta->heap_blob.size, "");/*FIXME shouldn't we return NULL and check for index == 0?*/
982 return meta->heap_blob.data + index;
986 * mono_metadata_guid_heap:
987 * @meta: metadata context
988 * @index: index into the guid heap.
990 * Returns: an in-memory pointer to the @index in the guid heap.
993 mono_metadata_guid_heap (MonoImage *meta, guint32 index)
996 index *= 16; /* adjust for guid size and 1-based index */
997 g_return_val_if_fail (index < meta->heap_guid.size, "");
998 return meta->heap_guid.data + index;
1001 static const unsigned char *
1002 dword_align (const unsigned char *ptr)
1004 #if SIZEOF_VOID_P == 8
1005 return (const unsigned char *) (((guint64) (ptr + 3)) & ~3);
1007 return (const unsigned char *) (((guint32) (ptr + 3)) & ~3);
1012 * mono_metadata_decode_row:
1013 * @t: table to extract information from.
1014 * @idx: index in table.
1015 * @res: array of @res_size cols to store the results in
1017 * This decompresses the metadata element @idx in table @t
1018 * into the guint32 @res array that has res_size elements
1021 mono_metadata_decode_row (const MonoTableInfo *t, int idx, guint32 *res, int res_size)
1023 guint32 bitfield = t->size_bitfield;
1024 int i, count = mono_metadata_table_count (bitfield);
1027 g_assert (idx < t->rows);
1028 g_assert (idx >= 0);
1029 data = t->base + idx * t->row_size;
1031 g_assert (res_size == count);
1033 for (i = 0; i < count; i++) {
1034 int n = mono_metadata_table_size (bitfield, i);
1038 res [i] = *data; break;
1040 res [i] = read16 (data); break;
1042 res [i] = read32 (data); break;
1044 g_assert_not_reached ();
1051 * mono_metadata_decode_row_col:
1052 * @t: table to extract information from.
1053 * @idx: index for row in table.
1054 * @col: column in the row.
1056 * This function returns the value of column @col from the @idx
1057 * row in the table @t.
1060 mono_metadata_decode_row_col (const MonoTableInfo *t, int idx, guint col)
1062 guint32 bitfield = t->size_bitfield;
1064 register const char *data;
1067 g_assert (idx < t->rows);
1068 g_assert (col < mono_metadata_table_count (bitfield));
1069 data = t->base + idx * t->row_size;
1071 n = mono_metadata_table_size (bitfield, 0);
1072 for (i = 0; i < col; ++i) {
1074 n = mono_metadata_table_size (bitfield, i + 1);
1080 return read16 (data);
1082 return read32 (data);
1084 g_assert_not_reached ();
1090 * mono_metadata_decode_blob_size:
1091 * @ptr: pointer to a blob object
1092 * @rptr: the new position of the pointer
1094 * This decodes a compressed size as described by 23.1.4 (a blob or user string object)
1096 * Returns: the size of the blob object
1099 mono_metadata_decode_blob_size (const char *xptr, const char **rptr)
1101 const unsigned char *ptr = (const unsigned char *)xptr;
1104 if ((*ptr & 0x80) == 0){
1105 size = ptr [0] & 0x7f;
1107 } else if ((*ptr & 0x40) == 0){
1108 size = ((ptr [0] & 0x3f) << 8) + ptr [1];
1111 size = ((ptr [0] & 0x1f) << 24) +
1123 * mono_metadata_decode_value:
1124 * @ptr: pointer to decode from
1125 * @rptr: the new position of the pointer
1127 * This routine decompresses 32-bit values as specified in the "Blob and
1128 * Signature" section (22.2)
1130 * Returns: the decoded value
1133 mono_metadata_decode_value (const char *_ptr, const char **rptr)
1135 const unsigned char *ptr = (const unsigned char *) _ptr;
1136 unsigned char b = *ptr;
1139 if ((b & 0x80) == 0){
1142 } else if ((b & 0x40) == 0){
1143 len = ((b & 0x3f) << 8 | ptr [1]);
1146 len = ((b & 0x1f) << 24) |
1159 * mono_metadata_decode_signed_value:
1160 * @ptr: pointer to decode from
1161 * @rptr: the new position of the pointer
1163 * This routine decompresses 32-bit signed values
1164 * (not specified in the spec)
1166 * Returns: the decoded value
1169 mono_metadata_decode_signed_value (const char *ptr, const char **rptr)
1171 guint32 uval = mono_metadata_decode_value (ptr, rptr);
1172 gint32 ival = uval >> 1;
1175 /* ival is a truncated 2's complement negative number. */
1177 /* 6 bits = 7 bits for compressed representation (top bit is '0') - 1 sign bit */
1180 /* 13 bits = 14 bits for compressed representation (top bits are '10') - 1 sign bit */
1181 return ival - 0x2000;
1182 if (ival < 0x10000000)
1183 /* 28 bits = 29 bits for compressed representation (top bits are '110') - 1 sign bit */
1184 return ival - 0x10000000;
1185 g_assert (ival < 0x20000000);
1186 g_warning ("compressed signed value appears to use 29 bits for compressed representation: %x (raw: %8x)", ival, uval);
1187 return ival - 0x20000000;
1191 * Translates the given 1-based index into the Method, Field, Event, or Param tables
1192 * using the *Ptr tables in uncompressed metadata, if they are available.
1194 * FIXME: The caller is not forced to call this function, which is error-prone, since
1195 * forgetting to call it would only show up as a bug on uncompressed metadata.
1198 mono_metadata_translate_token_index (MonoImage *image, int table, guint32 idx)
1200 if (!image->uncompressed_metadata)
1204 case MONO_TABLE_METHOD:
1205 if (image->tables [MONO_TABLE_METHOD_POINTER].rows)
1206 return mono_metadata_decode_row_col (&image->tables [MONO_TABLE_METHOD_POINTER], idx - 1, MONO_METHOD_POINTER_METHOD);
1209 case MONO_TABLE_FIELD:
1210 if (image->tables [MONO_TABLE_FIELD_POINTER].rows)
1211 return mono_metadata_decode_row_col (&image->tables [MONO_TABLE_FIELD_POINTER], idx - 1, MONO_FIELD_POINTER_FIELD);
1214 case MONO_TABLE_EVENT:
1215 if (image->tables [MONO_TABLE_EVENT_POINTER].rows)
1216 return mono_metadata_decode_row_col (&image->tables [MONO_TABLE_EVENT_POINTER], idx - 1, MONO_EVENT_POINTER_EVENT);
1219 case MONO_TABLE_PROPERTY:
1220 if (image->tables [MONO_TABLE_PROPERTY_POINTER].rows)
1221 return mono_metadata_decode_row_col (&image->tables [MONO_TABLE_PROPERTY_POINTER], idx - 1, MONO_PROPERTY_POINTER_PROPERTY);
1224 case MONO_TABLE_PARAM:
1225 if (image->tables [MONO_TABLE_PARAM_POINTER].rows)
1226 return mono_metadata_decode_row_col (&image->tables [MONO_TABLE_PARAM_POINTER], idx - 1, MONO_PARAM_POINTER_PARAM);
1235 * mono_metadata_decode_table_row:
1237 * Same as mono_metadata_decode_row, but takes an IMAGE+TABLE ID pair, and takes
1238 * uncompressed metadata into account, so it should be used to access the
1239 * Method, Field, Param and Event tables when the access is made from metadata, i.e.
1240 * IDX is retrieved from a metadata table, like MONO_TYPEDEF_FIELD_LIST.
1243 mono_metadata_decode_table_row (MonoImage *image, int table, int idx, guint32 *res, int res_size)
1245 if (image->uncompressed_metadata)
1246 idx = mono_metadata_translate_token_index (image, table, idx + 1) - 1;
1248 mono_metadata_decode_row (&image->tables [table], idx, res, res_size);
1252 * mono_metadata_decode_table_row_col:
1254 * Same as mono_metadata_decode_row_col, but takes an IMAGE+TABLE ID pair, and takes
1255 * uncompressed metadata into account, so it should be used to access the
1256 * Method, Field, Param and Event tables.
1258 guint32 mono_metadata_decode_table_row_col (MonoImage *image, int table, int idx, guint col)
1260 if (image->uncompressed_metadata)
1261 idx = mono_metadata_translate_token_index (image, table, idx + 1) - 1;
1263 return mono_metadata_decode_row_col (&image->tables [table], idx, col);
1267 * mono_metadata_parse_typedef_or_ref:
1268 * @m: a metadata context.
1269 * @ptr: a pointer to an encoded TypedefOrRef in @m
1270 * @rptr: pointer updated to match the end of the decoded stream
1272 * Returns: a token valid in the @m metadata decoded from
1273 * the compressed representation.
1276 mono_metadata_parse_typedef_or_ref (MonoImage *m, const char *ptr, const char **rptr)
1279 token = mono_metadata_decode_value (ptr, &ptr);
1282 return mono_metadata_token_from_dor (token);
1286 * mono_metadata_parse_custom_mod:
1287 * @m: a metadata context.
1288 * @dest: storage where the info about the custom modifier is stored (may be NULL)
1289 * @ptr: a pointer to (possibly) the start of a custom modifier list
1290 * @rptr: pointer updated to match the end of the decoded stream
1292 * Checks if @ptr points to a type custom modifier compressed representation.
1294 * Returns: #TRUE if a custom modifier was found, #FALSE if not.
1297 mono_metadata_parse_custom_mod (MonoImage *m, MonoCustomMod *dest, const char *ptr, const char **rptr)
1299 MonoCustomMod local;
1300 if ((*ptr == MONO_TYPE_CMOD_OPT) || (*ptr == MONO_TYPE_CMOD_REQD)) {
1303 dest->required = *ptr == MONO_TYPE_CMOD_REQD ? 1 : 0;
1304 dest->token = mono_metadata_parse_typedef_or_ref (m, ptr + 1, rptr);
1311 * mono_metadata_parse_array_internal:
1312 * @m: a metadata context.
1313 * @transient: whenever to allocate data from the heap
1314 * @ptr: a pointer to an encoded array description.
1315 * @rptr: pointer updated to match the end of the decoded stream
1317 * Decodes the compressed array description found in the metadata @m at @ptr.
1319 * Returns: a #MonoArrayType structure describing the array type
1320 * and dimensions. Memory is allocated from the heap or from the image mempool, depending
1321 * on the value of @transient.
1323 * LOCKING: Acquires the loader lock
1325 static MonoArrayType *
1326 mono_metadata_parse_array_internal (MonoImage *m, MonoGenericContainer *container,
1327 gboolean transient, const char *ptr, const char **rptr, MonoError *error)
1330 MonoArrayType *array;
1333 etype = mono_metadata_parse_type_checked (m, container, 0, FALSE, ptr, &ptr, error); //FIXME this doesn't respect @transient
1337 array = transient ? (MonoArrayType *)g_malloc0 (sizeof (MonoArrayType)) : (MonoArrayType *)mono_image_alloc0 (m, sizeof (MonoArrayType));
1338 array->eklass = mono_class_from_mono_type (etype);
1339 array->rank = mono_metadata_decode_value (ptr, &ptr);
1341 array->numsizes = mono_metadata_decode_value (ptr, &ptr);
1342 if (array->numsizes)
1343 array->sizes = transient ? (int *)g_malloc0 (sizeof (int) * array->numsizes) : (int *)mono_image_alloc0 (m, sizeof (int) * array->numsizes);
1344 for (i = 0; i < array->numsizes; ++i)
1345 array->sizes [i] = mono_metadata_decode_value (ptr, &ptr);
1347 array->numlobounds = mono_metadata_decode_value (ptr, &ptr);
1348 if (array->numlobounds)
1349 array->lobounds = transient ? (int *)g_malloc0 (sizeof (int) * array->numlobounds) : (int *)mono_image_alloc0 (m, sizeof (int) * array->numlobounds);
1350 for (i = 0; i < array->numlobounds; ++i)
1351 array->lobounds [i] = mono_metadata_decode_signed_value (ptr, &ptr);
1359 mono_metadata_parse_array (MonoImage *m, const char *ptr, const char **rptr)
1362 MonoArrayType *ret = mono_metadata_parse_array_internal (m, NULL, FALSE, ptr, rptr, &error);
1363 mono_error_cleanup (&error);
1369 * mono_metadata_free_array:
1370 * @array: array description
1372 * Frees the array description returned from mono_metadata_parse_array().
1375 mono_metadata_free_array (MonoArrayType *array)
1377 g_free (array->sizes);
1378 g_free (array->lobounds);
1383 * need to add common field and param attributes combinations:
1386 * public static literal
1389 * private static literal
1391 static const MonoType
1393 /* data, attrs, type, nmods, byref, pinned */
1394 {{NULL}, 0, MONO_TYPE_VOID, 0, 0, 0},
1395 {{NULL}, 0, MONO_TYPE_BOOLEAN, 0, 0, 0},
1396 {{NULL}, 0, MONO_TYPE_BOOLEAN, 0, 1, 0},
1397 {{NULL}, 0, MONO_TYPE_CHAR, 0, 0, 0},
1398 {{NULL}, 0, MONO_TYPE_CHAR, 0, 1, 0},
1399 {{NULL}, 0, MONO_TYPE_I1, 0, 0, 0},
1400 {{NULL}, 0, MONO_TYPE_I1, 0, 1, 0},
1401 {{NULL}, 0, MONO_TYPE_U1, 0, 0, 0},
1402 {{NULL}, 0, MONO_TYPE_U1, 0, 1, 0},
1403 {{NULL}, 0, MONO_TYPE_I2, 0, 0, 0},
1404 {{NULL}, 0, MONO_TYPE_I2, 0, 1, 0},
1405 {{NULL}, 0, MONO_TYPE_U2, 0, 0, 0},
1406 {{NULL}, 0, MONO_TYPE_U2, 0, 1, 0},
1407 {{NULL}, 0, MONO_TYPE_I4, 0, 0, 0},
1408 {{NULL}, 0, MONO_TYPE_I4, 0, 1, 0},
1409 {{NULL}, 0, MONO_TYPE_U4, 0, 0, 0},
1410 {{NULL}, 0, MONO_TYPE_U4, 0, 1, 0},
1411 {{NULL}, 0, MONO_TYPE_I8, 0, 0, 0},
1412 {{NULL}, 0, MONO_TYPE_I8, 0, 1, 0},
1413 {{NULL}, 0, MONO_TYPE_U8, 0, 0, 0},
1414 {{NULL}, 0, MONO_TYPE_U8, 0, 1, 0},
1415 {{NULL}, 0, MONO_TYPE_R4, 0, 0, 0},
1416 {{NULL}, 0, MONO_TYPE_R4, 0, 1, 0},
1417 {{NULL}, 0, MONO_TYPE_R8, 0, 0, 0},
1418 {{NULL}, 0, MONO_TYPE_R8, 0, 1, 0},
1419 {{NULL}, 0, MONO_TYPE_STRING, 0, 0, 0},
1420 {{NULL}, 0, MONO_TYPE_STRING, 0, 1, 0},
1421 {{NULL}, 0, MONO_TYPE_OBJECT, 0, 0, 0},
1422 {{NULL}, 0, MONO_TYPE_OBJECT, 0, 1, 0},
1423 {{NULL}, 0, MONO_TYPE_TYPEDBYREF, 0, 0, 0},
1424 {{NULL}, 0, MONO_TYPE_I, 0, 0, 0},
1425 {{NULL}, 0, MONO_TYPE_I, 0, 1, 0},
1426 {{NULL}, 0, MONO_TYPE_U, 0, 0, 0},
1427 {{NULL}, 0, MONO_TYPE_U, 0, 1, 0},
1430 #define NBUILTIN_TYPES() (sizeof (builtin_types) / sizeof (builtin_types [0]))
1432 static GHashTable *type_cache = NULL;
1433 static int next_generic_inst_id = 0;
1435 /* Protected by image_sets_mutex */
1436 static MonoImageSet *mscorlib_image_set;
1437 /* Protected by image_sets_mutex */
1438 static GPtrArray *image_sets;
1439 static mono_mutex_t image_sets_mutex;
1441 static guint mono_generic_class_hash (gconstpointer data);
1444 * MonoTypes with modifies are never cached, so we never check or use that field.
1447 mono_type_hash (gconstpointer data)
1449 const MonoType *type = (const MonoType *) data;
1450 if (type->type == MONO_TYPE_GENERICINST)
1451 return mono_generic_class_hash (type->data.generic_class);
1453 return type->type | (type->byref << 8) | (type->attrs << 9);
1457 mono_type_equal (gconstpointer ka, gconstpointer kb)
1459 const MonoType *a = (const MonoType *) ka;
1460 const MonoType *b = (const MonoType *) kb;
1462 if (a->type != b->type || a->byref != b->byref || a->attrs != b->attrs || a->pinned != b->pinned)
1464 /* need other checks */
1469 mono_metadata_generic_inst_hash (gconstpointer data)
1471 const MonoGenericInst *ginst = (const MonoGenericInst *) data;
1475 for (i = 0; i < ginst->type_argc; ++i) {
1477 hash += mono_metadata_type_hash (ginst->type_argv [i]);
1480 return hash ^ (ginst->is_open << 8);
1484 mono_generic_inst_equal_full (const MonoGenericInst *a, const MonoGenericInst *b, gboolean signature_only)
1488 // An optimization: if the ids of two insts are the same, we know they are the same inst and don't check contents.
1489 // Furthermore, because we perform early de-duping, if the ids differ, we know the contents differ.
1490 #ifndef MONO_SMALL_CONFIG // Optimization does not work in MONO_SMALL_CONFIG: There are no IDs
1491 if (a->id && b->id) { // "id 0" means "object has no id"-- de-duping hasn't been performed yet, must check contents.
1494 // In signature-comparison mode id equality implies object equality, but this is not true for inequality.
1495 // Two separate objects could have signature-equavalent contents.
1496 if (!signature_only)
1501 if (a->is_open != b->is_open || a->type_argc != b->type_argc)
1503 for (i = 0; i < a->type_argc; ++i) {
1504 if (!do_mono_metadata_type_equal (a->type_argv [i], b->type_argv [i], signature_only))
1511 mono_metadata_generic_inst_equal (gconstpointer ka, gconstpointer kb)
1513 const MonoGenericInst *a = (const MonoGenericInst *) ka;
1514 const MonoGenericInst *b = (const MonoGenericInst *) kb;
1516 return mono_generic_inst_equal_full (a, b, FALSE);
1520 mono_generic_class_hash (gconstpointer data)
1522 const MonoGenericClass *gclass = (const MonoGenericClass *) data;
1523 guint hash = mono_metadata_type_hash (&gclass->container_class->byval_arg);
1526 hash += gclass->is_tb_open;
1527 hash += mono_metadata_generic_context_hash (&gclass->context);
1533 mono_generic_class_equal (gconstpointer ka, gconstpointer kb)
1535 const MonoGenericClass *a = (const MonoGenericClass *) ka;
1536 const MonoGenericClass *b = (const MonoGenericClass *) kb;
1538 return _mono_metadata_generic_class_equal (a, b, FALSE);
1542 * mono_metadata_init:
1544 * Initialize the global variables of this module.
1545 * This is a Mono runtime internal function.
1548 mono_metadata_init (void)
1552 type_cache = g_hash_table_new (mono_type_hash, mono_type_equal);
1554 for (i = 0; i < NBUILTIN_TYPES (); ++i)
1555 g_hash_table_insert (type_cache, (gpointer) &builtin_types [i], (gpointer) &builtin_types [i]);
1557 mono_os_mutex_init_recursive (&image_sets_mutex);
1561 * mono_metadata_cleanup:
1563 * Free all resources used by this module.
1564 * This is a Mono runtime internal function.
1567 mono_metadata_cleanup (void)
1569 g_hash_table_destroy (type_cache);
1571 g_ptr_array_free (image_sets, TRUE);
1573 mono_os_mutex_destroy (&image_sets_mutex);
1577 * mono_metadata_parse_type:
1578 * @m: metadata context
1579 * @mode: king of type that may be found at @ptr
1580 * @opt_attrs: optional attributes to store in the returned type
1581 * @ptr: pointer to the type representation
1582 * @rptr: pointer updated to match the end of the decoded stream
1583 * @transient: whenever to allocate the result from the heap or from a mempool
1585 * Decode a compressed type description found at @ptr in @m.
1586 * @mode can be one of MONO_PARSE_MOD_TYPE, MONO_PARSE_PARAM, MONO_PARSE_RET,
1587 * MONO_PARSE_FIELD, MONO_PARSE_LOCAL, MONO_PARSE_TYPE.
1588 * This function can be used to decode type descriptions in method signatures,
1589 * field signatures, locals signatures etc.
1591 * To parse a generic type, `generic_container' points to the current class'es
1592 * (the `generic_container' field in the MonoClass) or the current generic method's
1593 * (stored in image->property_hash) generic container.
1594 * When we encounter any MONO_TYPE_VAR or MONO_TYPE_MVAR's, they're looked up in
1595 * this MonoGenericContainer.
1597 * LOCKING: Acquires the loader lock.
1599 * Returns: a #MonoType structure representing the decoded type.
1602 mono_metadata_parse_type_internal (MonoImage *m, MonoGenericContainer *container,
1603 short opt_attrs, gboolean transient, const char *ptr, const char **rptr, MonoError *error)
1605 MonoType *type, *cached;
1607 gboolean byref = FALSE;
1608 gboolean pinned = FALSE;
1609 const char *tmp_ptr;
1610 int count = 0; // Number of mod arguments
1613 mono_error_init (error);
1616 * According to the spec, custom modifiers should come before the byref
1617 * flag, but the IL produced by ilasm from the following signature:
1618 * object modopt(...) &
1619 * starts with a byref flag, followed by the modifiers. (bug #49802)
1620 * Also, this type seems to be different from 'object & modopt(...)'. Maybe
1621 * it would be better to treat byref as real type constructor instead of
1623 * Also, pinned should come before anything else, but some MSV++ produced
1624 * assemblies violate this (#bug 61990).
1627 /* Count the modifiers first */
1632 case MONO_TYPE_PINNED:
1633 case MONO_TYPE_BYREF:
1636 case MONO_TYPE_CMOD_REQD:
1637 case MONO_TYPE_CMOD_OPT:
1639 mono_metadata_parse_custom_mod (m, NULL, tmp_ptr, &tmp_ptr);
1646 if (count) { // There are mods, so the MonoType will be of nonstandard size.
1649 size = MONO_SIZEOF_TYPE + ((gint32)count) * sizeof (MonoCustomMod);
1650 type = transient ? (MonoType *)g_malloc0 (size) : (MonoType *)mono_image_alloc0 (m, size);
1651 type->num_mods = count;
1653 mono_error_set_bad_image (error, m, "Invalid type with more than 64 modifiers");
1656 } else { // The type is of standard size, so we can allocate it on the stack.
1658 memset (type, 0, MONO_SIZEOF_TYPE);
1661 /* Iterate again, but now parse pinned, byref and custom modifiers */
1666 case MONO_TYPE_PINNED:
1670 case MONO_TYPE_BYREF:
1674 case MONO_TYPE_CMOD_REQD:
1675 case MONO_TYPE_CMOD_OPT:
1676 mono_metadata_parse_custom_mod (m, &(type->modifiers [count]), ptr, &ptr);
1684 type->attrs = opt_attrs;
1685 type->byref = byref;
1686 type->pinned = pinned ? 1 : 0;
1688 if (!do_mono_metadata_parse_type (type, m, container, transient, ptr, &ptr, error))
1694 // Possibly we can return an already-allocated type instead of the one we decoded
1695 if (!type->num_mods && !transient) {
1696 /* no need to free type here, because it is on the stack */
1697 if ((type->type == MONO_TYPE_CLASS || type->type == MONO_TYPE_VALUETYPE) && !type->pinned && !type->attrs) {
1698 MonoType *ret = type->byref ? &type->data.klass->this_arg : &type->data.klass->byval_arg;
1700 /* Consider the case:
1702 class Foo<T> { class Bar {} }
1703 class Test : Foo<Test>.Bar {}
1705 When Foo<Test> is being expanded, 'Test' isn't yet initialized. It's actually in
1706 a really pristine state: it doesn't even know whether 'Test' is a reference or a value type.
1708 We ensure that the MonoClass is in a state that we can canonicalize to:
1710 klass->byval_arg.data.klass == klass
1711 klass->this_arg.data.klass == klass
1713 If we can't canonicalize 'type', it doesn't matter, since later users of 'type' will do it.
1715 LOCKING: even though we don't explicitly hold a lock, in the problematic case 'ret' is a field
1716 of a MonoClass which currently holds the loader lock. 'type' is local.
1718 if (ret->data.klass == type->data.klass) {
1722 /* No need to use locking since nobody is modifying the hash table */
1723 if ((cached = (MonoType *)g_hash_table_lookup (type_cache, type))) {
1728 /* printf ("%x %x %c %s\n", type->attrs, type->num_mods, type->pinned ? 'p' : ' ', mono_type_full_name (type)); */
1730 if (type == &stype) { // Type was allocated on the stack, so we need to copy it to safety
1731 type = transient ? (MonoType *)g_malloc (MONO_SIZEOF_TYPE) : (MonoType *)mono_image_alloc (m, MONO_SIZEOF_TYPE);
1732 memcpy (type, &stype, MONO_SIZEOF_TYPE);
1739 mono_metadata_parse_type_checked (MonoImage *m, MonoGenericContainer *container,
1740 short opt_attrs, gboolean transient, const char *ptr, const char **rptr, MonoError *error)
1742 return mono_metadata_parse_type_internal (m, container, opt_attrs, transient, ptr, rptr, error);
1746 * LOCKING: Acquires the loader lock.
1749 mono_metadata_parse_type (MonoImage *m, MonoParseTypeMode mode, short opt_attrs,
1750 const char *ptr, const char **rptr)
1753 MonoType * type = mono_metadata_parse_type_internal (m, NULL, opt_attrs, FALSE, ptr, rptr, &error);
1754 mono_error_cleanup (&error);
1759 mono_metadata_method_has_param_attrs (MonoImage *m, int def)
1761 MonoTableInfo *paramt = &m->tables [MONO_TABLE_PARAM];
1762 MonoTableInfo *methodt = &m->tables [MONO_TABLE_METHOD];
1763 guint lastp, i, param_index = mono_metadata_decode_row_col (methodt, def - 1, MONO_METHOD_PARAMLIST);
1765 if (def < methodt->rows)
1766 lastp = mono_metadata_decode_row_col (methodt, def, MONO_METHOD_PARAMLIST);
1768 lastp = m->tables [MONO_TABLE_PARAM].rows + 1;
1770 for (i = param_index; i < lastp; ++i) {
1771 guint32 flags = mono_metadata_decode_row_col (paramt, i - 1, MONO_PARAM_FLAGS);
1780 * mono_metadata_get_param_attrs:
1782 * @m The image to loader parameter attributes from
1783 * @def method def token (one based)
1784 * @param_count number of params to decode including the return value
1786 * Return the parameter attributes for the method whose MethodDef index is DEF. The
1787 * returned memory needs to be freed by the caller. If all the param attributes are
1788 * 0, then NULL is returned.
1791 mono_metadata_get_param_attrs (MonoImage *m, int def, int param_count)
1793 MonoTableInfo *paramt = &m->tables [MONO_TABLE_PARAM];
1794 MonoTableInfo *methodt = &m->tables [MONO_TABLE_METHOD];
1795 guint32 cols [MONO_PARAM_SIZE];
1796 guint lastp, i, param_index = mono_metadata_decode_row_col (methodt, def - 1, MONO_METHOD_PARAMLIST);
1799 if (def < methodt->rows)
1800 lastp = mono_metadata_decode_row_col (methodt, def, MONO_METHOD_PARAMLIST);
1802 lastp = paramt->rows + 1;
1804 for (i = param_index; i < lastp; ++i) {
1805 mono_metadata_decode_row (paramt, i - 1, cols, MONO_PARAM_SIZE);
1806 if (cols [MONO_PARAM_FLAGS]) {
1808 pattrs = g_new0 (int, param_count);
1809 /* at runtime we just ignore this kind of malformed file:
1810 * the verifier can signal the error to the user
1812 if (cols [MONO_PARAM_SEQUENCE] >= param_count)
1814 pattrs [cols [MONO_PARAM_SEQUENCE]] = cols [MONO_PARAM_FLAGS];
1823 * mono_metadata_parse_signature:
1824 * @image: metadata context
1825 * @toke: metadata token
1827 * Decode a method signature stored in the STANDALONESIG table
1829 * Returns: a MonoMethodSignature describing the signature.
1831 MonoMethodSignature*
1832 mono_metadata_parse_signature (MonoImage *image, guint32 token)
1835 MonoMethodSignature *ret;
1836 MonoTableInfo *tables = image->tables;
1837 guint32 idx = mono_metadata_token_index (token);
1841 if (image_is_dynamic (image)) {
1842 ret = (MonoMethodSignature *)mono_lookup_dynamic_token (image, token, NULL, &error);
1843 mono_error_raise_exception (&error); /* FIXME don't raise here */
1847 g_assert (mono_metadata_token_table(token) == MONO_TABLE_STANDALONESIG);
1849 sig = mono_metadata_decode_row_col (&tables [MONO_TABLE_STANDALONESIG], idx - 1, 0);
1851 ptr = mono_metadata_blob_heap (image, sig);
1852 mono_metadata_decode_blob_size (ptr, &ptr);
1854 ret = mono_metadata_parse_method_signature_full (image, NULL, 0, ptr, NULL, &error);
1855 mono_error_cleanup (&error); /*FIXME don't swallow the error message*/
1860 * mono_metadata_signature_alloc:
1861 * @image: metadata context
1862 * @nparmas: number of parameters in the signature
1864 * Allocate a MonoMethodSignature structure with the specified number of params.
1865 * The return type and the params types need to be filled later.
1866 * This is a Mono runtime internal function.
1868 * LOCKING: Assumes the loader lock is held.
1870 * Returns: the new MonoMethodSignature structure.
1872 MonoMethodSignature*
1873 mono_metadata_signature_alloc (MonoImage *m, guint32 nparams)
1875 MonoMethodSignature *sig;
1877 sig = (MonoMethodSignature *)mono_image_alloc0 (m, MONO_SIZEOF_METHOD_SIGNATURE + ((gint32)nparams) * sizeof (MonoType*));
1878 sig->param_count = nparams;
1879 sig->sentinelpos = -1;
1884 static MonoMethodSignature*
1885 mono_metadata_signature_dup_internal_with_padding (MonoImage *image, MonoMemPool *mp, MonoMethodSignature *sig, size_t padding)
1887 int sigsize, sig_header_size;
1888 MonoMethodSignature *ret;
1889 sigsize = sig_header_size = MONO_SIZEOF_METHOD_SIGNATURE + sig->param_count * sizeof (MonoType *) + padding;
1891 sigsize += MONO_SIZEOF_TYPE;
1894 ret = (MonoMethodSignature *)mono_image_alloc (image, sigsize);
1896 ret = (MonoMethodSignature *)mono_mempool_alloc (mp, sigsize);
1898 ret = (MonoMethodSignature *)g_malloc (sigsize);
1901 memcpy (ret, sig, sig_header_size - padding);
1903 // Copy return value because of ownership semantics.
1905 // Danger! Do not alter padding use without changing the dup_add_this below
1906 intptr_t end_of_header = (intptr_t)( (char*)(ret) + sig_header_size);
1907 ret->ret = (MonoType *)end_of_header;
1908 memcpy (ret->ret, sig->ret, MONO_SIZEOF_TYPE);
1914 static MonoMethodSignature*
1915 mono_metadata_signature_dup_internal (MonoImage *image, MonoMemPool *mp, MonoMethodSignature *sig)
1917 return mono_metadata_signature_dup_internal_with_padding (image, mp, sig, 0);
1920 * signature_dup_add_this:
1922 * Make a copy of @sig, adding an explicit this argument.
1924 MonoMethodSignature*
1925 mono_metadata_signature_dup_add_this (MonoImage *image, MonoMethodSignature *sig, MonoClass *klass)
1927 MonoMethodSignature *ret;
1928 ret = mono_metadata_signature_dup_internal_with_padding (image, NULL, sig, sizeof (MonoType *));
1930 ret->param_count = sig->param_count + 1;
1931 ret->hasthis = FALSE;
1933 for (int i = sig->param_count - 1; i >= 0; i --)
1934 ret->params [i + 1] = sig->params [i];
1935 ret->params [0] = klass->valuetype ? &klass->this_arg : &klass->byval_arg;
1937 for (int i = sig->param_count - 1; i >= 0; i --)
1938 g_assert(ret->params [i + 1]->type == sig->params [i]->type && ret->params [i+1]->type != MONO_TYPE_END);
1939 g_assert (ret->ret->type == sig->ret->type && ret->ret->type != MONO_TYPE_END);
1946 MonoMethodSignature*
1947 mono_metadata_signature_dup_full (MonoImage *image, MonoMethodSignature *sig)
1949 MonoMethodSignature *ret = mono_metadata_signature_dup_internal (image, NULL, sig);
1951 for (int i = 0 ; i < sig->param_count; i ++)
1952 g_assert(ret->params [i]->type == sig->params [i]->type);
1953 g_assert (ret->ret->type == sig->ret->type);
1958 /*The mempool is accessed without synchronization*/
1959 MonoMethodSignature*
1960 mono_metadata_signature_dup_mempool (MonoMemPool *mp, MonoMethodSignature *sig)
1962 return mono_metadata_signature_dup_internal (NULL, mp, sig);
1966 * mono_metadata_signature_dup:
1967 * @sig: method signature
1969 * Duplicate an existing MonoMethodSignature so it can be modified.
1970 * This is a Mono runtime internal function.
1972 * Returns: the new MonoMethodSignature structure.
1974 MonoMethodSignature*
1975 mono_metadata_signature_dup (MonoMethodSignature *sig)
1977 return mono_metadata_signature_dup_full (NULL, sig);
1981 * mono_metadata_signature_size:
1983 * Return the amount of memory allocated to SIG.
1986 mono_metadata_signature_size (MonoMethodSignature *sig)
1988 return MONO_SIZEOF_METHOD_SIGNATURE + sig->param_count * sizeof (MonoType *);
1992 * mono_metadata_parse_method_signature:
1993 * @m: metadata context
1994 * @generic_container: generics container
1995 * @def: the MethodDef index or 0 for Ref signatures.
1996 * @ptr: pointer to the signature metadata representation
1997 * @rptr: pointer updated to match the end of the decoded stream
1999 * Decode a method signature stored at @ptr.
2000 * This is a Mono runtime internal function.
2002 * LOCKING: Assumes the loader lock is held.
2004 * Returns: a MonoMethodSignature describing the signature.
2006 MonoMethodSignature *
2007 mono_metadata_parse_method_signature_full (MonoImage *m, MonoGenericContainer *container,
2008 int def, const char *ptr, const char **rptr, MonoError *error)
2010 MonoMethodSignature *method;
2011 int i, *pattrs = NULL;
2012 guint32 hasthis = 0, explicit_this = 0, call_convention, param_count;
2013 guint32 gen_param_count = 0;
2014 gboolean is_open = FALSE;
2016 mono_error_init (error);
2019 gen_param_count = 1;
2024 call_convention = *ptr & 0x0F;
2026 if (gen_param_count)
2027 gen_param_count = mono_metadata_decode_value (ptr, &ptr);
2028 param_count = mono_metadata_decode_value (ptr, &ptr);
2031 pattrs = mono_metadata_get_param_attrs (m, def, param_count + 1); /*Must be + 1 since signature's param count doesn't account for the return value */
2033 method = mono_metadata_signature_alloc (m, param_count);
2034 method->hasthis = hasthis;
2035 method->explicit_this = explicit_this;
2036 method->call_convention = call_convention;
2037 method->generic_param_count = gen_param_count;
2039 if (call_convention != 0xa) {
2040 method->ret = mono_metadata_parse_type_checked (m, container, pattrs ? pattrs [0] : 0, FALSE, ptr, &ptr, error);
2042 mono_metadata_free_method_signature (method);
2046 is_open = mono_class_is_open_constructed_type (method->ret);
2049 for (i = 0; i < method->param_count; ++i) {
2050 if (*ptr == MONO_TYPE_SENTINEL) {
2051 if (method->call_convention != MONO_CALL_VARARG || def) {
2052 mono_error_set_bad_image (error, m, "Found sentinel for methoddef or no vararg");
2056 if (method->sentinelpos >= 0) {
2057 mono_error_set_bad_image (error, m, "Found sentinel twice in the same signature.");
2061 method->sentinelpos = i;
2064 method->params [i] = mono_metadata_parse_type_checked (m, container, pattrs ? pattrs [i+1] : 0, FALSE, ptr, &ptr, error);
2065 if (!method->params [i]) {
2066 mono_metadata_free_method_signature (method);
2071 is_open = mono_class_is_open_constructed_type (method->params [i]);
2074 /* The sentinel could be missing if the caller does not pass any additional arguments */
2075 if (!def && method->call_convention == MONO_CALL_VARARG && method->sentinelpos < 0)
2076 method->sentinelpos = method->param_count;
2078 method->has_type_parameters = is_open;
2080 if (def && (method->call_convention == MONO_CALL_VARARG))
2081 method->sentinelpos = method->param_count;
2088 * Add signature to a cache and increase ref count...
2095 * mono_metadata_parse_method_signature:
2096 * @m: metadata context
2097 * @def: the MethodDef index or 0 for Ref signatures.
2098 * @ptr: pointer to the signature metadata representation
2099 * @rptr: pointer updated to match the end of the decoded stream
2101 * Decode a method signature stored at @ptr.
2102 * This is a Mono runtime internal function.
2104 * LOCKING: Assumes the loader lock is held.
2106 * Returns: a MonoMethodSignature describing the signature.
2108 MonoMethodSignature *
2109 mono_metadata_parse_method_signature (MonoImage *m, int def, const char *ptr, const char **rptr)
2112 * This function MUST NOT be called by runtime code as it does error handling incorrectly.
2113 * Use mono_metadata_parse_method_signature_full instead.
2114 * It's ok to asser on failure as we no longer use it.
2117 MonoMethodSignature *ret;
2118 ret = mono_metadata_parse_method_signature_full (m, NULL, def, ptr, rptr, &error);
2119 g_assert (mono_error_ok (&error));
2125 * mono_metadata_free_method_signature:
2126 * @sig: signature to destroy
2128 * Free the memory allocated in the signature @sig.
2129 * This method needs to be robust and work also on partially-built
2130 * signatures, so it does extra checks.
2133 mono_metadata_free_method_signature (MonoMethodSignature *sig)
2135 /* Everything is allocated from mempools */
2139 mono_metadata_free_type (sig->ret);
2140 for (i = 0; i < sig->param_count; ++i) {
2141 if (sig->params [i])
2142 mono_metadata_free_type (sig->params [i]);
2148 mono_metadata_free_inflated_signature (MonoMethodSignature *sig)
2152 /* Allocated in inflate_generic_signature () */
2154 mono_metadata_free_type (sig->ret);
2155 for (i = 0; i < sig->param_count; ++i) {
2156 if (sig->params [i])
2157 mono_metadata_free_type (sig->params [i]);
2163 inflated_method_equal (gconstpointer a, gconstpointer b)
2165 const MonoMethodInflated *ma = (const MonoMethodInflated *)a;
2166 const MonoMethodInflated *mb = (const MonoMethodInflated *)b;
2167 if (ma->declaring != mb->declaring)
2169 return mono_metadata_generic_context_equal (&ma->context, &mb->context);
2173 inflated_method_hash (gconstpointer a)
2175 const MonoMethodInflated *ma = (const MonoMethodInflated *)a;
2176 return (mono_metadata_generic_context_hash (&ma->context) ^ mono_aligned_addr_hash (ma->declaring));
2180 inflated_signature_equal (gconstpointer a, gconstpointer b)
2182 const MonoInflatedMethodSignature *sig1 = (const MonoInflatedMethodSignature *)a;
2183 const MonoInflatedMethodSignature *sig2 = (const MonoInflatedMethodSignature *)b;
2185 /* sig->sig is assumed to be canonized */
2186 if (sig1->sig != sig2->sig)
2188 /* The generic instances are canonized */
2189 return mono_metadata_generic_context_equal (&sig1->context, &sig2->context);
2193 inflated_signature_hash (gconstpointer a)
2195 const MonoInflatedMethodSignature *sig = (const MonoInflatedMethodSignature *)a;
2197 /* sig->sig is assumed to be canonized */
2198 return mono_metadata_generic_context_hash (&sig->context) ^ mono_aligned_addr_hash (sig->sig);
2202 dump_ginst (MonoGenericInst *ginst)
2207 g_print ("Ginst: <");
2208 for (i = 0; i < ginst->type_argc; ++i) {
2211 name = mono_type_get_name (ginst->type_argv [i]);
2212 g_print ("%s", name);
2218 static gboolean type_in_image (MonoType *type, MonoImage *image);
2221 signature_in_image (MonoMethodSignature *sig, MonoImage *image)
2223 gpointer iter = NULL;
2226 while ((p = mono_signature_get_params (sig, &iter)) != NULL)
2227 if (type_in_image (p, image))
2230 return type_in_image (mono_signature_get_return_type (sig), image);
2234 ginst_in_image (MonoGenericInst *ginst, MonoImage *image)
2238 for (i = 0; i < ginst->type_argc; ++i) {
2239 if (type_in_image (ginst->type_argv [i], image))
2247 gclass_in_image (MonoGenericClass *gclass, MonoImage *image)
2249 return gclass->container_class->image == image ||
2250 ginst_in_image (gclass->context.class_inst, image);
2254 type_in_image (MonoType *type, MonoImage *image)
2257 switch (type->type) {
2258 case MONO_TYPE_GENERICINST:
2259 return gclass_in_image (type->data.generic_class, image);
2261 type = type->data.type;
2263 case MONO_TYPE_SZARRAY:
2264 type = &type->data.klass->byval_arg;
2266 case MONO_TYPE_ARRAY:
2267 type = &type->data.array->eklass->byval_arg;
2269 case MONO_TYPE_FNPTR:
2270 return signature_in_image (type->data.method, image);
2272 case MONO_TYPE_MVAR:
2273 return image == get_image_for_generic_param (type->data.generic_param);
2275 /* At this point, we should've avoided all potential allocations in mono_class_from_mono_type () */
2276 return image == mono_class_from_mono_type (type)->image;
2281 image_sets_lock (void)
2283 mono_os_mutex_lock (&image_sets_mutex);
2287 image_sets_unlock (void)
2289 mono_os_mutex_unlock (&image_sets_mutex);
2295 * Return a MonoImageSet representing the set of images in IMAGES.
2297 static MonoImageSet*
2298 get_image_set (MonoImage **images, int nimages)
2304 /* Common case: Image set contains corlib only. If we've seen that case before, we cached the set. */
2305 if (nimages == 1 && images [0] == mono_defaults.corlib && mscorlib_image_set)
2306 return mscorlib_image_set;
2308 /* Happens with empty generic instances */
2309 // FIXME: Is corlib the correct thing to return here? If so, why? This may be an artifact of generic instances previously defaulting to allocating from corlib.
2311 return mscorlib_image_set;
2316 image_sets = g_ptr_array_new ();
2318 // Before we go on, we should check to see whether a MonoImageSet with these images already exists.
2319 // We can search the referred-by imagesets of any one of our images to do this. Arbitrarily pick one here:
2320 if (images [0] == mono_defaults.corlib && nimages > 1)
2321 l = images [1]->image_sets; // Prefer not to search the imagesets of corlib-- that will be a long list.
2323 l = images [0]->image_sets;
2326 while (l) // Iterate over selected list, looking for an imageset with members equal to our target one
2328 set = (MonoImageSet *)l->data;
2330 if (set->nimages == nimages) { // Member count differs, this can't be it
2331 // Compare all members to all members-- order might be different
2332 for (j = 0; j < nimages; ++j) {
2333 for (k = 0; k < nimages; ++k)
2334 if (set->images [k] == images [j])
2335 break; // Break on match
2337 // If we iterated all the way through set->images, images[j] was *not* found.
2339 break; // Break on "image not found"
2342 // If we iterated all the way through images without breaking, all items in images were found in set->images
2344 break; // Break on "found a set with equal members"
2350 // If we iterated all the way through l without breaking, the imageset does not already exist and we shuold create it
2352 set = g_new0 (MonoImageSet, 1);
2353 set->nimages = nimages;
2354 set->images = g_new0 (MonoImage*, nimages);
2355 mono_os_mutex_init_recursive (&set->lock);
2356 for (i = 0; i < nimages; ++i)
2357 set->images [i] = images [i];
2358 set->gclass_cache = g_hash_table_new_full (mono_generic_class_hash, mono_generic_class_equal, NULL, (GDestroyNotify)free_generic_class);
2359 set->ginst_cache = g_hash_table_new_full (mono_metadata_generic_inst_hash, mono_metadata_generic_inst_equal, NULL, (GDestroyNotify)free_generic_inst);
2360 set->gmethod_cache = g_hash_table_new_full (inflated_method_hash, inflated_method_equal, NULL, (GDestroyNotify)free_inflated_method);
2361 set->gsignature_cache = g_hash_table_new_full (inflated_signature_hash, inflated_signature_equal, NULL, (GDestroyNotify)free_inflated_signature);
2363 for (i = 0; i < nimages; ++i)
2364 set->images [i]->image_sets = g_slist_prepend (set->images [i]->image_sets, set);
2366 g_ptr_array_add (image_sets, set);
2369 if (nimages == 1 && images [0] == mono_defaults.corlib) {
2370 mono_memory_barrier ();
2371 mscorlib_image_set = set;
2374 image_sets_unlock ();
2380 delete_image_set (MonoImageSet *set)
2384 g_hash_table_destroy (set->gclass_cache);
2385 g_hash_table_destroy (set->ginst_cache);
2386 g_hash_table_destroy (set->gmethod_cache);
2387 g_hash_table_destroy (set->gsignature_cache);
2389 mono_wrapper_caches_free (&set->wrapper_caches);
2393 for (i = 0; i < set->nimages; ++i)
2394 set->images [i]->image_sets = g_slist_remove (set->images [i]->image_sets, set);
2396 g_ptr_array_remove (image_sets, set);
2398 image_sets_unlock ();
2401 mono_mempool_destroy (set->mempool);
2402 g_free (set->images);
2403 mono_os_mutex_destroy (&set->lock);
2408 mono_image_set_lock (MonoImageSet *set)
2410 mono_os_mutex_lock (&set->lock);
2414 mono_image_set_unlock (MonoImageSet *set)
2416 mono_os_mutex_unlock (&set->lock);
2420 mono_image_set_alloc (MonoImageSet *set, guint size)
2424 mono_image_set_lock (set);
2426 set->mempool = mono_mempool_new_size (INITIAL_IMAGE_SET_SIZE);
2427 res = mono_mempool_alloc (set->mempool, size);
2428 mono_image_set_unlock (set);
2434 mono_image_set_alloc0 (MonoImageSet *set, guint size)
2438 mono_image_set_lock (set);
2440 set->mempool = mono_mempool_new_size (INITIAL_IMAGE_SET_SIZE);
2441 res = mono_mempool_alloc0 (set->mempool, size);
2442 mono_image_set_unlock (set);
2448 mono_image_set_strdup (MonoImageSet *set, const char *s)
2452 mono_image_set_lock (set);
2454 set->mempool = mono_mempool_new_size (INITIAL_IMAGE_SET_SIZE);
2455 res = mono_mempool_strdup (set->mempool, s);
2456 mono_image_set_unlock (set);
2461 // Get a descriptive string for a MonoImageSet
2462 // Callers are obligated to free buffer with g_free after use
2464 mono_image_set_description (MonoImageSet *set)
2466 GString *result = g_string_new (NULL);
2468 g_string_append (result, "[");
2469 for (img = 0; img < set->nimages; img++)
2472 g_string_append (result, ", ");
2473 g_string_append (result, set->images[img]->name);
2475 g_string_append (result, "]");
2476 return g_string_free (result, FALSE);
2480 * Structure used by the collect_..._images functions to store the image list.
2483 MonoImage *image_buf [64];
2485 int nimages, images_len;
2489 collect_data_init (CollectData *data)
2491 data->images = data->image_buf;
2492 data->images_len = 64;
2497 collect_data_free (CollectData *data)
2499 if (data->images != data->image_buf)
2500 g_free (data->images);
2504 enlarge_data (CollectData *data)
2506 int new_len = data->images_len < 16 ? 16 : data->images_len * 2;
2507 MonoImage **d = g_new (MonoImage *, new_len);
2510 g_assert_not_reached ();
2511 memcpy (d, data->images, data->images_len);
2512 if (data->images != data->image_buf)
2513 g_free (data->images);
2515 data->images_len = new_len;
2519 add_image (MonoImage *image, CollectData *data)
2523 /* The arrays are small, so use a linear search instead of a hash table */
2524 for (i = 0; i < data->nimages; ++i)
2525 if (data->images [i] == image)
2528 if (data->nimages == data->images_len)
2529 enlarge_data (data);
2531 data->images [data->nimages ++] = image;
2535 collect_type_images (MonoType *type, CollectData *data);
2538 collect_ginst_images (MonoGenericInst *ginst, CollectData *data)
2542 for (i = 0; i < ginst->type_argc; ++i) {
2543 collect_type_images (ginst->type_argv [i], data);
2548 collect_gclass_images (MonoGenericClass *gclass, CollectData *data)
2550 add_image (gclass->container_class->image, data);
2551 if (gclass->context.class_inst)
2552 collect_ginst_images (gclass->context.class_inst, data);
2556 collect_signature_images (MonoMethodSignature *sig, CollectData *data)
2558 gpointer iter = NULL;
2561 collect_type_images (mono_signature_get_return_type (sig), data);
2562 while ((p = mono_signature_get_params (sig, &iter)) != NULL)
2563 collect_type_images (p, data);
2567 collect_inflated_signature_images (MonoInflatedMethodSignature *sig, CollectData *data)
2569 collect_signature_images (sig->sig, data);
2570 if (sig->context.class_inst)
2571 collect_ginst_images (sig->context.class_inst, data);
2572 if (sig->context.method_inst)
2573 collect_ginst_images (sig->context.method_inst, data);
2577 collect_method_images (MonoMethodInflated *method, CollectData *data)
2579 MonoMethod *m = method->declaring;
2581 add_image (method->declaring->klass->image, data);
2582 if (method->context.class_inst)
2583 collect_ginst_images (method->context.class_inst, data);
2584 if (method->context.method_inst)
2585 collect_ginst_images (method->context.method_inst, data);
2587 * Dynamic assemblies have no references, so the images they depend on can be unloaded before them.
2589 if (image_is_dynamic (m->klass->image))
2590 collect_signature_images (mono_method_signature (m), data);
2594 collect_type_images (MonoType *type, CollectData *data)
2597 switch (type->type) {
2598 case MONO_TYPE_GENERICINST:
2599 collect_gclass_images (type->data.generic_class, data);
2602 type = type->data.type;
2604 case MONO_TYPE_SZARRAY:
2605 type = &type->data.klass->byval_arg;
2607 case MONO_TYPE_ARRAY:
2608 type = &type->data.array->eklass->byval_arg;
2610 case MONO_TYPE_FNPTR:
2611 //return signature_in_image (type->data.method, image);
2612 g_assert_not_reached ();
2614 case MONO_TYPE_MVAR:
2616 MonoImage *image = get_image_for_generic_param (type->data.generic_param);
2617 add_image (image, data);
2620 case MONO_TYPE_CLASS:
2621 case MONO_TYPE_VALUETYPE:
2622 add_image (mono_class_from_mono_type (type)->image, data);
2625 add_image (mono_defaults.corlib, data);
2632 } CleanForImageUserData;
2635 steal_gclass_in_image (gpointer key, gpointer value, gpointer data)
2637 MonoGenericClass *gclass = (MonoGenericClass *)key;
2638 CleanForImageUserData *user_data = (CleanForImageUserData *)data;
2640 g_assert (gclass_in_image (gclass, user_data->image));
2642 user_data->list = g_slist_prepend (user_data->list, gclass);
2647 steal_ginst_in_image (gpointer key, gpointer value, gpointer data)
2649 MonoGenericInst *ginst = (MonoGenericInst *)key;
2650 CleanForImageUserData *user_data = (CleanForImageUserData *)data;
2652 // This doesn't work during corlib compilation
2653 //g_assert (ginst_in_image (ginst, user_data->image));
2655 user_data->list = g_slist_prepend (user_data->list, ginst);
2660 inflated_method_in_image (gpointer key, gpointer value, gpointer data)
2662 MonoImage *image = (MonoImage *)data;
2663 MonoMethodInflated *method = (MonoMethodInflated *)key;
2666 // https://bugzilla.novell.com/show_bug.cgi?id=458168
2667 g_assert (method->declaring->klass->image == image ||
2668 (method->context.class_inst && ginst_in_image (method->context.class_inst, image)) ||
2669 (method->context.method_inst && ginst_in_image (method->context.method_inst, image)) || (((MonoMethod*)method)->signature && signature_in_image (mono_method_signature ((MonoMethod*)method), image)));
2675 inflated_signature_in_image (gpointer key, gpointer value, gpointer data)
2677 MonoImage *image = (MonoImage *)data;
2678 MonoInflatedMethodSignature *sig = (MonoInflatedMethodSignature *)key;
2680 return signature_in_image (sig->sig, image) ||
2681 (sig->context.class_inst && ginst_in_image (sig->context.class_inst, image)) ||
2682 (sig->context.method_inst && ginst_in_image (sig->context.method_inst, image));
2686 check_gmethod (gpointer key, gpointer value, gpointer data)
2688 MonoMethodInflated *method = (MonoMethodInflated *)key;
2689 MonoImage *image = (MonoImage *)data;
2691 if (method->context.class_inst)
2692 g_assert (!ginst_in_image (method->context.class_inst, image));
2693 if (method->context.method_inst)
2694 g_assert (!ginst_in_image (method->context.method_inst, image));
2695 if (((MonoMethod*)method)->signature)
2696 g_assert (!signature_in_image (mono_method_signature ((MonoMethod*)method), image));
2702 * Run a consistency check on the image set data structures.
2704 static G_GNUC_UNUSED void
2705 check_image_sets (MonoImage *image)
2708 GSList *l = image->image_sets;
2713 for (i = 0; i < image_sets->len; ++i) {
2714 MonoImageSet *set = (MonoImageSet *)g_ptr_array_index (image_sets, i);
2716 if (!g_slist_find (l, set)) {
2717 g_hash_table_foreach (set->gmethod_cache, check_gmethod, image);
2723 mono_metadata_clean_for_image (MonoImage *image)
2725 CleanForImageUserData ginst_data, gclass_data;
2726 GSList *l, *set_list;
2728 //check_image_sets (image);
2731 * The data structures could reference each other so we delete them in two phases.
2732 * This is required because of the hashing functions in gclass/ginst_cache.
2734 ginst_data.image = gclass_data.image = image;
2735 ginst_data.list = gclass_data.list = NULL;
2737 /* Collect the items to delete */
2738 /* delete_image_set () modifies the lists so make a copy */
2739 for (l = image->image_sets; l; l = l->next) {
2740 MonoImageSet *set = (MonoImageSet *)l->data;
2742 mono_image_set_lock (set);
2743 g_hash_table_foreach_steal (set->gclass_cache, steal_gclass_in_image, &gclass_data);
2744 g_hash_table_foreach_steal (set->ginst_cache, steal_ginst_in_image, &ginst_data);
2745 g_hash_table_foreach_remove (set->gmethod_cache, inflated_method_in_image, image);
2746 g_hash_table_foreach_remove (set->gsignature_cache, inflated_signature_in_image, image);
2747 mono_image_set_unlock (set);
2750 /* Delete the removed items */
2751 for (l = ginst_data.list; l; l = l->next)
2752 free_generic_inst ((MonoGenericInst *)l->data);
2753 for (l = gclass_data.list; l; l = l->next)
2754 free_generic_class ((MonoGenericClass *)l->data);
2755 g_slist_free (ginst_data.list);
2756 g_slist_free (gclass_data.list);
2757 /* delete_image_set () modifies the lists so make a copy */
2758 set_list = g_slist_copy (image->image_sets);
2759 for (l = set_list; l; l = l->next) {
2760 MonoImageSet *set = (MonoImageSet *)l->data;
2762 delete_image_set (set);
2764 g_slist_free (set_list);
2768 free_inflated_method (MonoMethodInflated *imethod)
2770 MonoMethod *method = (MonoMethod*)imethod;
2772 if (method->signature)
2773 mono_metadata_free_inflated_signature (method->signature);
2779 free_generic_inst (MonoGenericInst *ginst)
2783 /* The ginst itself is allocated from the image set mempool */
2784 for (i = 0; i < ginst->type_argc; ++i)
2785 mono_metadata_free_type (ginst->type_argv [i]);
2789 free_generic_class (MonoGenericClass *gclass)
2791 /* The gclass itself is allocated from the image set mempool */
2792 if (gclass->is_dynamic)
2793 mono_reflection_free_dynamic_generic_class (gclass);
2794 if (gclass->cached_class && gclass->cached_class->interface_id)
2795 mono_unload_interface_id (gclass->cached_class);
2799 free_inflated_signature (MonoInflatedMethodSignature *sig)
2801 mono_metadata_free_inflated_signature (sig->sig);
2806 * mono_metadata_get_inflated_signature:
2808 * Given an inflated signature and a generic context, return a canonical copy of the
2809 * signature. The returned signature might be equal to SIG or it might be a cached copy.
2811 MonoMethodSignature *
2812 mono_metadata_get_inflated_signature (MonoMethodSignature *sig, MonoGenericContext *context)
2814 MonoInflatedMethodSignature helper;
2815 MonoInflatedMethodSignature *res;
2820 helper.context.class_inst = context->class_inst;
2821 helper.context.method_inst = context->method_inst;
2823 collect_data_init (&data);
2825 collect_inflated_signature_images (&helper, &data);
2827 set = get_image_set (data.images, data.nimages);
2829 collect_data_free (&data);
2831 mono_image_set_lock (set);
2833 res = (MonoInflatedMethodSignature *)g_hash_table_lookup (set->gsignature_cache, &helper);
2835 res = g_new0 (MonoInflatedMethodSignature, 1);
2837 res->context.class_inst = context->class_inst;
2838 res->context.method_inst = context->method_inst;
2839 g_hash_table_insert (set->gsignature_cache, res, res);
2842 mono_image_set_unlock (set);
2848 mono_metadata_get_image_set_for_method (MonoMethodInflated *method)
2851 CollectData image_set_data;
2853 collect_data_init (&image_set_data);
2854 collect_method_images (method, &image_set_data);
2855 set = get_image_set (image_set_data.images, image_set_data.nimages);
2856 collect_data_free (&image_set_data);
2862 * mono_metadata_get_generic_inst:
2864 * Given a list of types, return a MonoGenericInst that represents that list.
2865 * The returned MonoGenericInst has its own copy of the list of types. The list
2866 * passed in the argument can be freed, modified or disposed of.
2870 mono_metadata_get_generic_inst (int type_argc, MonoType **type_argv)
2872 MonoGenericInst *ginst;
2875 int size = MONO_SIZEOF_GENERIC_INST + type_argc * sizeof (MonoType *);
2879 for (i = 0; i < type_argc; ++i)
2880 if (mono_class_is_open_constructed_type (type_argv [i]))
2882 is_open = (i < type_argc);
2884 ginst = (MonoGenericInst *)g_alloca (size);
2885 memset (ginst, 0, sizeof (MonoGenericInst));
2886 ginst->is_open = is_open;
2887 ginst->type_argc = type_argc;
2888 memcpy (ginst->type_argv, type_argv, type_argc * sizeof (MonoType *));
2890 collect_data_init (&data);
2892 collect_ginst_images (ginst, &data);
2894 set = get_image_set (data.images, data.nimages);
2896 collect_data_free (&data);
2898 mono_image_set_lock (set);
2900 ginst = (MonoGenericInst *)g_hash_table_lookup (set->ginst_cache, ginst);
2902 ginst = (MonoGenericInst *)mono_image_set_alloc0 (set, size);
2903 #ifndef MONO_SMALL_CONFIG
2904 ginst->id = ++next_generic_inst_id;
2906 ginst->is_open = is_open;
2907 ginst->type_argc = type_argc;
2909 for (i = 0; i < type_argc; ++i)
2910 ginst->type_argv [i] = mono_metadata_type_dup (NULL, type_argv [i]);
2912 g_hash_table_insert (set->ginst_cache, ginst, ginst);
2915 mono_image_set_unlock (set);
2920 mono_metadata_is_type_builder_generic_type_definition (MonoClass *container_class, MonoGenericInst *inst, gboolean is_dynamic)
2922 MonoGenericContainer *container = container_class->generic_container;
2924 if (!is_dynamic || container_class->wastypebuilder || container->type_argc != inst->type_argc)
2926 return inst == container->context.class_inst;
2930 * mono_metadata_lookup_generic_class:
2932 * Returns a MonoGenericClass with the given properties.
2936 mono_metadata_lookup_generic_class (MonoClass *container_class, MonoGenericInst *inst, gboolean is_dynamic)
2938 MonoGenericClass *gclass;
2939 MonoGenericClass helper;
2940 gboolean is_tb_open = mono_metadata_is_type_builder_generic_type_definition (container_class, inst, is_dynamic);
2944 memset (&helper, 0, sizeof(helper)); // act like g_new0
2945 helper.container_class = container_class;
2946 helper.context.class_inst = inst;
2947 helper.is_dynamic = is_dynamic; /* We use this in a hash lookup, which does not attempt to downcast the pointer */
2948 helper.is_tb_open = is_tb_open;
2950 collect_data_init (&data);
2952 collect_gclass_images (&helper, &data);
2954 set = get_image_set (data.images, data.nimages);
2956 collect_data_free (&data);
2958 mono_image_set_lock (set);
2960 gclass = (MonoGenericClass *)g_hash_table_lookup (set->gclass_cache, &helper);
2962 /* A tripwire just to keep us honest */
2963 g_assert (!helper.cached_class);
2966 mono_image_set_unlock (set);
2971 MonoDynamicGenericClass *dgclass = mono_image_set_new0 (set, MonoDynamicGenericClass, 1);
2972 gclass = &dgclass->generic_class;
2973 gclass->is_dynamic = 1;
2975 gclass = mono_image_set_new0 (set, MonoGenericClass, 1);
2978 gclass->is_tb_open = is_tb_open;
2979 gclass->container_class = container_class;
2980 gclass->context.class_inst = inst;
2981 gclass->context.method_inst = NULL;
2982 gclass->owner = set;
2983 if (inst == container_class->generic_container->context.class_inst && !is_tb_open)
2984 gclass->cached_class = container_class;
2986 g_hash_table_insert (set->gclass_cache, gclass, gclass);
2988 mono_image_set_unlock (set);
2994 * mono_metadata_inflate_generic_inst:
2996 * Instantiate the generic instance @ginst with the context @context.
2997 * Check @error for success.
3001 mono_metadata_inflate_generic_inst (MonoGenericInst *ginst, MonoGenericContext *context, MonoError *error)
3003 MonoType **type_argv;
3004 MonoGenericInst *nginst = NULL;
3007 mono_error_init (error);
3009 if (!ginst->is_open)
3012 type_argv = g_new0 (MonoType*, ginst->type_argc);
3014 for (i = 0; i < ginst->type_argc; i++) {
3015 type_argv [i] = mono_class_inflate_generic_type_checked (ginst->type_argv [i], context, error);
3016 if (!mono_error_ok (error))
3021 nginst = mono_metadata_get_generic_inst (ginst->type_argc, type_argv);
3024 for (i = 0; i < count; i++)
3025 mono_metadata_free_type (type_argv [i]);
3032 mono_metadata_parse_generic_inst (MonoImage *m, MonoGenericContainer *container,
3033 int count, const char *ptr, const char **rptr, MonoError *error)
3035 MonoType **type_argv;
3036 MonoGenericInst *ginst;
3039 mono_error_init (error);
3040 type_argv = g_new0 (MonoType*, count);
3042 for (i = 0; i < count; i++) {
3043 MonoType *t = mono_metadata_parse_type_checked (m, container, 0, FALSE, ptr, &ptr, error);
3054 ginst = mono_metadata_get_generic_inst (count, type_argv);
3062 do_mono_metadata_parse_generic_class (MonoType *type, MonoImage *m, MonoGenericContainer *container,
3063 const char *ptr, const char **rptr, MonoError *error)
3065 MonoGenericInst *inst;
3070 mono_error_init (error);
3072 // XXX how about transient?
3073 gtype = mono_metadata_parse_type_checked (m, NULL, 0, FALSE, ptr, &ptr, error);
3077 gklass = mono_class_from_mono_type (gtype);
3078 if (!gklass->generic_container) {
3079 mono_error_set_bad_image (error, m, "Generic instance with non-generic definition");
3083 count = mono_metadata_decode_value (ptr, &ptr);
3084 inst = mono_metadata_parse_generic_inst (m, container, count, ptr, &ptr, error);
3091 type->data.generic_class = mono_metadata_lookup_generic_class (gklass, inst, FALSE);
3097 * @gc: The generic container to normalize
3098 * @type: The kind of generic parameters the resulting generic-container should contain
3101 static MonoGenericContainer *
3102 select_container (MonoGenericContainer *gc, MonoTypeEnum type)
3104 gboolean is_var = (type == MONO_TYPE_VAR);
3108 g_assert (is_var || type == MONO_TYPE_MVAR);
3111 if (gc->is_method || gc->parent)
3113 * The current MonoGenericContainer is a generic method -> its `parent'
3114 * points to the containing class'es container.
3122 MonoGenericContainer *
3123 get_anonymous_container_for_image (MonoImage *image, gboolean is_mvar)
3125 MonoGenericContainer **container_pointer;
3127 container_pointer = &image->anonymous_generic_method_container;
3129 container_pointer = &image->anonymous_generic_class_container;
3130 MonoGenericContainer *result = *container_pointer;
3132 // This container has never been created; make it now.
3135 // Note this is never deallocated anywhere-- it exists for the lifetime of the image it's allocated from
3136 result = (MonoGenericContainer *)mono_image_alloc0 (image, sizeof (MonoGenericContainer));
3137 result->owner.image = image;
3138 result->is_anonymous = TRUE;
3139 result->is_small_param = TRUE;
3140 result->is_method = is_mvar;
3142 // If another thread already made a container, use that and leak this new one.
3143 // (Technically it would currently be safe to just assign instead of CASing.)
3144 MonoGenericContainer *exchange = (MonoGenericContainer *)InterlockedCompareExchangePointer ((volatile gpointer *)container_pointer, result, NULL);
3152 * mono_metadata_parse_generic_param:
3153 * @generic_container: Our MonoClass's or MonoMethod's MonoGenericContainer;
3154 * see mono_metadata_parse_type_checked() for details.
3155 * Internal routine to parse a generic type parameter.
3156 * LOCKING: Acquires the loader lock
3158 static MonoGenericParam *
3159 mono_metadata_parse_generic_param (MonoImage *m, MonoGenericContainer *generic_container,
3160 MonoTypeEnum type, const char *ptr, const char **rptr, MonoError *error)
3162 int index = mono_metadata_decode_value (ptr, &ptr);
3166 mono_error_init (error);
3168 generic_container = select_container (generic_container, type);
3169 if (!generic_container) {
3170 gboolean is_mvar = FALSE;
3175 case MONO_TYPE_MVAR:
3179 g_error ("Cerating generic param object with invalid MonoType"); // This is not a generic param
3182 /* Create dummy MonoGenericParam */
3183 MonoGenericParam *param;
3185 param = (MonoGenericParam *)mono_image_alloc0 (m, sizeof (MonoGenericParam));
3187 param->owner = get_anonymous_container_for_image (m, is_mvar);
3192 if (index >= generic_container->type_argc) {
3193 mono_error_set_bad_image (error, m, "Invalid generic %s parameter index %d, max index is %d",
3194 generic_container->is_method ? "method" : "type",
3195 index, generic_container->type_argc);
3199 //This can't return NULL
3200 return mono_generic_container_get_param (generic_container, index);
3204 * mono_metadata_get_shared_type:
3206 * Return a shared instance of TYPE, if available, NULL otherwise.
3207 * Shared MonoType instances help save memory. Their contents should not be modified
3208 * by the caller. They do not need to be freed as their lifetime is bound by either
3209 * the lifetime of the runtime (builtin types), or the lifetime of the MonoClass
3210 * instance they are embedded in. If they are freed, they should be freed using
3211 * mono_metadata_free_type () instead of g_free ().
3214 mono_metadata_get_shared_type (MonoType *type)
3218 /* No need to use locking since nobody is modifying the hash table */
3219 if ((cached = (MonoType *)g_hash_table_lookup (type_cache, type)))
3222 switch (type->type){
3223 case MONO_TYPE_CLASS:
3224 case MONO_TYPE_VALUETYPE:
3225 if (type == &type->data.klass->byval_arg)
3227 if (type == &type->data.klass->this_arg)
3238 compare_type_literals (MonoImage *image, int class_type, int type_type, MonoError *error)
3240 mono_error_init (error);
3242 /* byval_arg.type can be zero if we're decoding a type that references a class been loading.
3243 * See mcs/test/gtest-440. and #650936.
3244 * FIXME This better be moved to the metadata verifier as it can catch more cases.
3248 /* NET 1.1 assemblies might encode string and object in a denormalized way.
3251 if (class_type == type_type)
3254 if (type_type == MONO_TYPE_CLASS) {
3255 if (class_type == MONO_TYPE_STRING || class_type == MONO_TYPE_OBJECT)
3257 //XXX stringify this argument
3258 mono_error_set_bad_image (error, image, "Expected reference type but got type kind %d", class_type);
3262 g_assert (type_type == MONO_TYPE_VALUETYPE);
3263 switch (class_type) {
3264 case MONO_TYPE_BOOLEAN:
3265 case MONO_TYPE_CHAR:
3278 case MONO_TYPE_CLASS:
3281 //XXX stringify this argument
3282 mono_error_set_bad_image (error, image, "Expected value type but got type kind %d", class_type);
3288 verify_var_type_and_container (MonoImage *image, int var_type, MonoGenericContainer *container, MonoError *error)
3290 mono_error_init (error);
3291 if (var_type == MONO_TYPE_MVAR) {
3292 if (!container->is_method) { //MVAR and a method container
3293 mono_error_set_bad_image (error, image, "MVAR parsed in a context without a method container");
3297 if (!(!container->is_method || //VAR and class container
3298 (container->is_method && container->parent))) { //VAR and method container with parent
3299 mono_error_set_bad_image (error, image, "VAR parsed in a context without a class container");
3307 * do_mono_metadata_parse_type:
3308 * @type: MonoType to be filled in with the return value
3310 * @generic_context: generics_context
3311 * @transient: whenever to allocate data from the heap
3312 * @ptr: pointer to the encoded type
3313 * @rptr: pointer where the end of the encoded type is saved
3315 * Internal routine used to "fill" the contents of @type from an
3316 * allocated pointer. This is done this way to avoid doing too
3317 * many mini-allocations (particularly for the MonoFieldType which
3318 * most of the time is just a MonoType, but sometimes might be augmented).
3320 * This routine is used by mono_metadata_parse_type and
3321 * mono_metadata_parse_field_type
3323 * This extracts a Type as specified in Partition II (22.2.12)
3325 * Returns: FALSE if the type could not be loaded
3328 do_mono_metadata_parse_type (MonoType *type, MonoImage *m, MonoGenericContainer *container,
3329 gboolean transient, const char *ptr, const char **rptr, MonoError *error)
3331 mono_error_init (error);
3333 type->type = (MonoTypeEnum)mono_metadata_decode_value (ptr, &ptr);
3335 switch (type->type){
3336 case MONO_TYPE_VOID:
3337 case MONO_TYPE_BOOLEAN:
3338 case MONO_TYPE_CHAR:
3351 case MONO_TYPE_STRING:
3352 case MONO_TYPE_OBJECT:
3353 case MONO_TYPE_TYPEDBYREF:
3355 case MONO_TYPE_VALUETYPE:
3356 case MONO_TYPE_CLASS: {
3359 token = mono_metadata_parse_typedef_or_ref (m, ptr, &ptr);
3360 klass = mono_class_get_checked (m, token, error);
3361 type->data.klass = klass;
3365 if (!compare_type_literals (m, klass->byval_arg.type, type->type, error))
3370 case MONO_TYPE_SZARRAY: {
3371 MonoType *etype = mono_metadata_parse_type_checked (m, container, 0, transient, ptr, &ptr, error);
3375 type->data.klass = mono_class_from_mono_type (etype);
3378 mono_metadata_free_type (etype);
3380 g_assert (type->data.klass); //This was previously a check for NULL, but mcfmt should never fail. It can return a borken MonoClass, but should return at least something.
3383 case MONO_TYPE_PTR: {
3384 type->data.type = mono_metadata_parse_type_checked (m, container, 0, transient, ptr, &ptr, error);
3385 if (!type->data.type)
3389 case MONO_TYPE_FNPTR: {
3390 type->data.method = mono_metadata_parse_method_signature_full (m, container, 0, ptr, &ptr, error);
3391 if (!type->data.method)
3395 case MONO_TYPE_ARRAY: {
3396 type->data.array = mono_metadata_parse_array_internal (m, container, transient, ptr, &ptr, error);
3397 if (!type->data.array)
3401 case MONO_TYPE_MVAR:
3402 case MONO_TYPE_VAR: {
3403 if (container && !verify_var_type_and_container (m, type->type, container, error))
3406 type->data.generic_param = mono_metadata_parse_generic_param (m, container, type->type, ptr, &ptr, error);
3407 if (!type->data.generic_param)
3412 case MONO_TYPE_GENERICINST: {
3413 if (!do_mono_metadata_parse_generic_class (type, m, container, ptr, &ptr, error))
3418 mono_error_set_bad_image (error, m, "type 0x%02x not handled in do_mono_metadata_parse_type on image %s", type->type, m->name);
3428 * mono_metadata_free_type:
3429 * @type: type to free
3431 * Free the memory allocated for type @type which is allocated on the heap.
3434 mono_metadata_free_type (MonoType *type)
3436 if (type >= builtin_types && type < builtin_types + NBUILTIN_TYPES ())
3439 switch (type->type){
3440 case MONO_TYPE_OBJECT:
3441 case MONO_TYPE_STRING:
3442 if (!type->data.klass)
3445 case MONO_TYPE_CLASS:
3446 case MONO_TYPE_VALUETYPE:
3447 if (type == &type->data.klass->byval_arg || type == &type->data.klass->this_arg)
3451 mono_metadata_free_type (type->data.type);
3453 case MONO_TYPE_FNPTR:
3454 mono_metadata_free_method_signature (type->data.method);
3456 case MONO_TYPE_ARRAY:
3457 mono_metadata_free_array (type->data.array);
3468 hex_dump (const char *buffer, int base, int count)
3470 int show_header = 1;
3478 for (i = 0; i < count; i++){
3481 printf ("\n0x%08x: ", (unsigned char) base + i);
3483 printf ("%02x ", (unsigned char) (buffer [i]));
3490 * @ptr: Points to the beginning of the Section Data (25.3)
3492 static MonoExceptionClause*
3493 parse_section_data (MonoImage *m, int *num_clauses, const unsigned char *ptr, MonoError *error)
3495 unsigned char sect_data_flags;
3497 guint32 sect_data_len;
3498 MonoExceptionClause* clauses = NULL;
3500 mono_error_init (error);
3503 /* align on 32-bit boundary */
3504 ptr = dword_align (ptr);
3505 sect_data_flags = *ptr;
3508 is_fat = sect_data_flags & METHOD_HEADER_SECTION_FAT_FORMAT;
3510 sect_data_len = (ptr [2] << 16) | (ptr [1] << 8) | ptr [0];
3513 sect_data_len = ptr [0];
3517 if (sect_data_flags & METHOD_HEADER_SECTION_EHTABLE) {
3518 const unsigned char *p = dword_align (ptr);
3520 *num_clauses = is_fat ? sect_data_len / 24: sect_data_len / 12;
3521 /* we could just store a pointer if we don't need to byteswap */
3522 clauses = (MonoExceptionClause *)g_malloc0 (sizeof (MonoExceptionClause) * (*num_clauses));
3523 for (i = 0; i < *num_clauses; ++i) {
3524 MonoExceptionClause *ec = &clauses [i];
3527 ec->flags = read32 (p);
3528 ec->try_offset = read32 (p + 4);
3529 ec->try_len = read32 (p + 8);
3530 ec->handler_offset = read32 (p + 12);
3531 ec->handler_len = read32 (p + 16);
3532 tof_value = read32 (p + 20);
3535 ec->flags = read16 (p);
3536 ec->try_offset = read16 (p + 2);
3537 ec->try_len = *(p + 4);
3538 ec->handler_offset = read16 (p + 5);
3539 ec->handler_len = *(p + 7);
3540 tof_value = read32 (p + 8);
3543 if (ec->flags == MONO_EXCEPTION_CLAUSE_FILTER) {
3544 ec->data.filter_offset = tof_value;
3545 } else if (ec->flags == MONO_EXCEPTION_CLAUSE_NONE) {
3546 ec->data.catch_class = NULL;
3548 ec->data.catch_class = mono_class_get_checked (m, tof_value, error);
3549 if (!is_ok (error)) {
3555 ec->data.catch_class = NULL;
3557 /* g_print ("try %d: %x %04x-%04x %04x\n", i, ec->flags, ec->try_offset, ec->try_offset+ec->try_len, ec->try_len); */
3561 if (sect_data_flags & METHOD_HEADER_SECTION_MORE_SECTS)
3562 ptr += sect_data_len - 4; /* LAMESPEC: it seems the size includes the header */
3569 * mono_method_get_header_summary:
3570 * @method: The method to get the header.
3571 * @summary: Where to store the header
3574 * Returns: TRUE if the header was properly decoded.
3577 mono_method_get_header_summary (MonoMethod *method, MonoMethodHeaderSummary *summary)
3583 unsigned char flags, format;
3586 /*Only the GMD has a pointer to the metadata.*/
3587 while (method->is_inflated)
3588 method = ((MonoMethodInflated*)method)->declaring;
3590 summary->code_size = 0;
3591 summary->has_clauses = FALSE;
3593 /*FIXME extract this into a MACRO and share it with mono_method_get_header*/
3594 if ((method->flags & METHOD_ATTRIBUTE_ABSTRACT) || (method->iflags & METHOD_IMPL_ATTRIBUTE_RUNTIME) || (method->iflags & METHOD_IMPL_ATTRIBUTE_INTERNAL_CALL) || (method->flags & METHOD_ATTRIBUTE_PINVOKE_IMPL))
3597 if (method->wrapper_type != MONO_WRAPPER_NONE || method->sre_method) {
3598 MonoMethodHeader *header = ((MonoMethodWrapper *)method)->header;
3601 summary->code_size = header->code_size;
3602 summary->has_clauses = header->num_clauses > 0;
3607 idx = mono_metadata_token_index (method->token);
3608 img = method->klass->image;
3609 rva = mono_metadata_decode_row_col (&img->tables [MONO_TABLE_METHOD], idx - 1, MONO_METHOD_RVA);
3611 /*We must run the verifier since we'll be decoding it.*/
3612 if (!mono_verifier_verify_method_header (img, rva, NULL))
3615 ptr = mono_image_rva_map (img, rva);
3619 flags = *(const unsigned char *)ptr;
3620 format = flags & METHOD_HEADER_FORMAT_MASK;
3623 case METHOD_HEADER_TINY_FORMAT:
3625 summary->code_size = flags >> 2;
3627 case METHOD_HEADER_FAT_FORMAT:
3628 fat_flags = read16 (ptr);
3630 summary->code_size = read32 (ptr);
3631 if (fat_flags & METHOD_HEADER_MORE_SECTS)
3632 summary->has_clauses = TRUE;
3641 * mono_metadata_parse_mh_full:
3642 * @m: metadata context
3643 * @generic_context: generics context
3644 * @ptr: pointer to the method header.
3646 * Decode the method header at @ptr, including pointer to the IL code,
3647 * info about local variables and optional exception tables.
3648 * This is a Mono runtime internal function.
3650 * LOCKING: Acquires the loader lock.
3652 * Returns: a transient MonoMethodHeader allocated from the heap.
3655 mono_metadata_parse_mh_full (MonoImage *m, MonoGenericContainer *container, const char *ptr, MonoError *error)
3657 MonoMethodHeader *mh = NULL;
3658 unsigned char flags = *(const unsigned char *) ptr;
3659 unsigned char format = flags & METHOD_HEADER_FORMAT_MASK;
3661 guint32 local_var_sig_tok, max_stack, code_size, init_locals;
3662 const unsigned char *code;
3663 MonoExceptionClause* clauses = NULL;
3664 int num_clauses = 0;
3665 MonoTableInfo *t = &m->tables [MONO_TABLE_STANDALONESIG];
3666 guint32 cols [MONO_STAND_ALONE_SIGNATURE_SIZE];
3668 mono_error_init (error);
3671 mono_error_set_bad_image (error, m, "Method header with null pointer");
3676 case METHOD_HEADER_TINY_FORMAT:
3677 mh = (MonoMethodHeader *)g_malloc0 (MONO_SIZEOF_METHOD_HEADER);
3680 mh->is_transient = TRUE;
3681 local_var_sig_tok = 0;
3682 mh->code_size = flags >> 2;
3683 mh->code = (unsigned char*)ptr;
3685 case METHOD_HEADER_FAT_FORMAT:
3686 fat_flags = read16 (ptr);
3688 max_stack = read16 (ptr);
3690 code_size = read32 (ptr);
3692 local_var_sig_tok = read32 (ptr);
3695 if (fat_flags & METHOD_HEADER_INIT_LOCALS)
3700 code = (unsigned char*)ptr;
3702 if (!(fat_flags & METHOD_HEADER_MORE_SECTS))
3706 * There are more sections
3708 ptr = (char*)code + code_size;
3711 mono_error_set_bad_image (error, m, "Invalid method header format %d", format);
3715 if (local_var_sig_tok) {
3716 int idx = (local_var_sig_tok & 0xffffff)-1;
3717 if (idx >= t->rows || idx < 0) {
3718 mono_error_set_bad_image (error, m, "Invalid method header local vars signature token 0x%8x", idx);
3721 mono_metadata_decode_row (t, idx, cols, 1);
3723 if (!mono_verifier_verify_standalone_signature (m, cols [MONO_STAND_ALONE_SIGNATURE], NULL)) {
3724 mono_error_set_bad_image (error, m, "Method header locals signature 0x%8x verification failed", idx);
3728 if (fat_flags & METHOD_HEADER_MORE_SECTS) {
3729 clauses = parse_section_data (m, &num_clauses, (const unsigned char*)ptr, error);
3733 if (local_var_sig_tok) {
3734 const char *locals_ptr;
3737 locals_ptr = mono_metadata_blob_heap (m, cols [MONO_STAND_ALONE_SIGNATURE]);
3738 mono_metadata_decode_blob_size (locals_ptr, &locals_ptr);
3739 if (*locals_ptr != 0x07)
3740 g_warning ("wrong signature for locals blob");
3742 len = mono_metadata_decode_value (locals_ptr, &locals_ptr);
3743 mh = (MonoMethodHeader *)g_malloc0 (MONO_SIZEOF_METHOD_HEADER + len * sizeof (MonoType*) + num_clauses * sizeof (MonoExceptionClause));
3744 mh->num_locals = len;
3745 for (i = 0; i < len; ++i) {
3746 mh->locals [i] = mono_metadata_parse_type_internal (m, container, 0, TRUE, locals_ptr, &locals_ptr, error);
3751 mh = (MonoMethodHeader *)g_malloc0 (MONO_SIZEOF_METHOD_HEADER + num_clauses * sizeof (MonoExceptionClause));
3754 mh->code_size = code_size;
3755 mh->max_stack = max_stack;
3756 mh->is_transient = TRUE;
3757 mh->init_locals = init_locals;
3759 MonoExceptionClause* clausesp = (MonoExceptionClause*)&mh->locals [mh->num_locals];
3760 memcpy (clausesp, clauses, num_clauses * sizeof (MonoExceptionClause));
3762 mh->clauses = clausesp;
3763 mh->num_clauses = num_clauses;
3774 * mono_metadata_parse_mh:
3775 * @generic_context: generics context
3776 * @ptr: pointer to the method header.
3778 * Decode the method header at @ptr, including pointer to the IL code,
3779 * info about local variables and optional exception tables.
3781 * Returns: a transient MonoMethodHeader allocated from the heap.
3784 mono_metadata_parse_mh (MonoImage *m, const char *ptr)
3787 MonoMethodHeader *header = mono_metadata_parse_mh_full (m, NULL, ptr, &error);
3788 mono_error_cleanup (&error);
3793 * mono_metadata_free_mh:
3794 * @mh: a method header
3796 * Free the memory allocated for the method header.
3799 mono_metadata_free_mh (MonoMethodHeader *mh)
3803 /* If it is not transient it means it's part of a wrapper method,
3804 * or a SRE-generated method, so the lifetime in that case is
3805 * dictated by the method's own lifetime
3807 if (mh->is_transient) {
3808 for (i = 0; i < mh->num_locals; ++i)
3809 mono_metadata_free_type (mh->locals [i]);
3815 * mono_method_header_get_code:
3816 * @header: a MonoMethodHeader pointer
3817 * @code_size: memory location for returning the code size
3818 * @max_stack: memory location for returning the max stack
3820 * Method header accessor to retreive info about the IL code properties:
3821 * a pointer to the IL code itself, the size of the code and the max number
3822 * of stack slots used by the code.
3824 * Returns: pointer to the IL code represented by the method header.
3826 const unsigned char*
3827 mono_method_header_get_code (MonoMethodHeader *header, guint32* code_size, guint32* max_stack)
3830 *code_size = header->code_size;
3832 *max_stack = header->max_stack;
3833 return header->code;
3837 * mono_method_header_get_locals:
3838 * @header: a MonoMethodHeader pointer
3839 * @num_locals: memory location for returning the number of local variables
3840 * @init_locals: memory location for returning the init_locals flag
3842 * Method header accessor to retreive info about the local variables:
3843 * an array of local types, the number of locals and whether the locals
3844 * are supposed to be initialized to 0 on method entry
3846 * Returns: pointer to an array of types of the local variables
3849 mono_method_header_get_locals (MonoMethodHeader *header, guint32* num_locals, gboolean *init_locals)
3852 *num_locals = header->num_locals;
3854 *init_locals = header->init_locals;
3855 return header->locals;
3859 * mono_method_header_get_num_clauses:
3860 * @header: a MonoMethodHeader pointer
3862 * Method header accessor to retreive the number of exception clauses.
3864 * Returns: the number of exception clauses present
3867 mono_method_header_get_num_clauses (MonoMethodHeader *header)
3869 return header->num_clauses;
3873 * mono_method_header_get_clauses:
3874 * @header: a MonoMethodHeader pointer
3875 * @method: MonoMethod the header belongs to
3876 * @iter: pointer to a iterator
3877 * @clause: pointer to a MonoExceptionClause structure which will be filled with the info
3879 * Get the info about the exception clauses in the method. Set *iter to NULL to
3880 * initiate the iteration, then call the method repeatedly until it returns FALSE.
3881 * At each iteration, the structure pointed to by clause if filled with the
3882 * exception clause information.
3884 * Returns: TRUE if clause was filled with info, FALSE if there are no more exception
3888 mono_method_header_get_clauses (MonoMethodHeader *header, MonoMethod *method, gpointer *iter, MonoExceptionClause *clause)
3890 MonoExceptionClause *sc;
3891 /* later we'll be able to use this interface to parse the clause info on demand,
3892 * without allocating anything.
3894 if (!iter || !header->num_clauses)
3897 *iter = sc = header->clauses;
3901 sc = (MonoExceptionClause *)*iter;
3903 if (sc < header->clauses + header->num_clauses) {
3912 * mono_metadata_parse_field_type:
3913 * @m: metadata context to extract information from
3914 * @ptr: pointer to the field signature
3915 * @rptr: pointer updated to match the end of the decoded stream
3917 * Parses the field signature, and returns the type information for it.
3919 * Returns: The MonoType that was extracted from @ptr.
3922 mono_metadata_parse_field_type (MonoImage *m, short field_flags, const char *ptr, const char **rptr)
3925 MonoType * type = mono_metadata_parse_type_internal (m, NULL, field_flags, FALSE, ptr, rptr, &error);
3926 mono_error_cleanup (&error);
3931 * mono_metadata_parse_param:
3932 * @m: metadata context to extract information from
3933 * @ptr: pointer to the param signature
3934 * @rptr: pointer updated to match the end of the decoded stream
3936 * Parses the param signature, and returns the type information for it.
3938 * Returns: The MonoType that was extracted from @ptr.
3941 mono_metadata_parse_param (MonoImage *m, const char *ptr, const char **rptr)
3944 MonoType * type = mono_metadata_parse_type_internal (m, NULL, 0, FALSE, ptr, rptr, &error);
3945 mono_error_cleanup (&error);
3950 * mono_metadata_token_from_dor:
3951 * @dor_token: A TypeDefOrRef coded index
3953 * dor_token is a TypeDefOrRef coded index: it contains either
3954 * a TypeDef, TypeRef or TypeSpec in the lower bits, and the upper
3955 * bits contain an index into the table.
3957 * Returns: an expanded token
3960 mono_metadata_token_from_dor (guint32 dor_index)
3964 table = dor_index & 0x03;
3965 idx = dor_index >> 2;
3968 case 0: /* TypeDef */
3969 return MONO_TOKEN_TYPE_DEF | idx;
3970 case 1: /* TypeRef */
3971 return MONO_TOKEN_TYPE_REF | idx;
3972 case 2: /* TypeSpec */
3973 return MONO_TOKEN_TYPE_SPEC | idx;
3975 g_assert_not_reached ();
3982 * We use this to pass context information to the row locator
3985 int idx; /* The index that we are trying to locate */
3986 int col_idx; /* The index in the row where idx may be stored */
3987 MonoTableInfo *t; /* pointer to the table */
3992 * How the row locator works.
3997 * ___|___------> _______
4000 * A column in the rows of table A references an index in table B.
4001 * For example A may be the TYPEDEF table and B the METHODDEF table.
4003 * Given an index in table B we want to get the row in table A
4004 * where the column n references our index in B.
4006 * In the locator_t structure:
4008 * col_idx is the column number
4009 * index is the index in table B
4010 * result will be the index in table A
4013 * Table A Table B column (in table A)
4014 * TYPEDEF METHODDEF MONO_TYPEDEF_METHOD_LIST
4015 * TYPEDEF FIELD MONO_TYPEDEF_FIELD_LIST
4016 * PROPERTYMAP PROPERTY MONO_PROPERTY_MAP_PROPERTY_LIST
4017 * INTERFIMPL TYPEDEF MONO_INTERFACEIMPL_CLASS
4018 * METHODSEM PROPERTY ASSOCIATION (encoded index)
4020 * Note that we still don't support encoded indexes.
4024 typedef_locator (const void *a, const void *b)
4026 locator_t *loc = (locator_t *) a;
4027 const char *bb = (const char *) b;
4028 int typedef_index = (bb - loc->t->base) / loc->t->row_size;
4029 guint32 col, col_next;
4031 col = mono_metadata_decode_row_col (loc->t, typedef_index, loc->col_idx);
4037 * Need to check that the next row is valid.
4039 if (typedef_index + 1 < loc->t->rows) {
4040 col_next = mono_metadata_decode_row_col (loc->t, typedef_index + 1, loc->col_idx);
4041 if (loc->idx >= col_next)
4044 if (col == col_next)
4048 loc->result = typedef_index;
4054 table_locator (const void *a, const void *b)
4056 locator_t *loc = (locator_t *) a;
4057 const char *bb = (const char *) b;
4058 guint32 table_index = (bb - loc->t->base) / loc->t->row_size;
4061 col = mono_metadata_decode_row_col (loc->t, table_index, loc->col_idx);
4063 if (loc->idx == col) {
4064 loc->result = table_index;
4074 declsec_locator (const void *a, const void *b)
4076 locator_t *loc = (locator_t *) a;
4077 const char *bb = (const char *) b;
4078 guint32 table_index = (bb - loc->t->base) / loc->t->row_size;
4081 col = mono_metadata_decode_row_col (loc->t, table_index, loc->col_idx);
4083 if (loc->idx == col) {
4084 loc->result = table_index;
4096 * Return the 1-based row index in TABLE, which must be one of the *Ptr tables,
4097 * which contains IDX.
4100 search_ptr_table (MonoImage *image, int table, int idx)
4102 MonoTableInfo *ptrdef = &image->tables [table];
4105 /* Use a linear search to find our index in the table */
4106 for (i = 0; i < ptrdef->rows; i ++)
4107 /* All the Ptr tables have the same structure */
4108 if (mono_metadata_decode_row_col (ptrdef, i, 0) == idx)
4111 if (i < ptrdef->rows)
4118 * mono_metadata_typedef_from_field:
4119 * @meta: metadata context
4120 * @index: FieldDef token
4122 * Returns: the 1-based index into the TypeDef table of the type that
4123 * declared the field described by @index, or 0 if not found.
4126 mono_metadata_typedef_from_field (MonoImage *meta, guint32 index)
4128 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_TYPEDEF];
4134 loc.idx = mono_metadata_token_index (index);
4135 loc.col_idx = MONO_TYPEDEF_FIELD_LIST;
4138 if (meta->uncompressed_metadata)
4139 loc.idx = search_ptr_table (meta, MONO_TABLE_FIELD_POINTER, loc.idx);
4141 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, typedef_locator))
4144 /* loc_result is 0..1, needs to be mapped to table index (that is +1) */
4145 return loc.result + 1;
4149 * mono_metadata_typedef_from_method:
4150 * @meta: metadata context
4151 * @index: MethodDef token
4153 * Returns: the 1-based index into the TypeDef table of the type that
4154 * declared the method described by @index. 0 if not found.
4157 mono_metadata_typedef_from_method (MonoImage *meta, guint32 index)
4159 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_TYPEDEF];
4165 loc.idx = mono_metadata_token_index (index);
4166 loc.col_idx = MONO_TYPEDEF_METHOD_LIST;
4169 if (meta->uncompressed_metadata)
4170 loc.idx = search_ptr_table (meta, MONO_TABLE_METHOD_POINTER, loc.idx);
4172 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, typedef_locator))
4175 /* loc_result is 0..1, needs to be mapped to table index (that is +1) */
4176 return loc.result + 1;
4180 * mono_metadata_interfaces_from_typedef_full:
4181 * @meta: metadata context
4182 * @index: typedef token
4183 * @interfaces: Out parameter used to store the interface array
4184 * @count: Out parameter used to store the number of interfaces
4185 * @heap_alloc_result: if TRUE the result array will be g_malloc'd
4186 * @context: The generic context
4188 * The array of interfaces that the @index typedef token implements is returned in
4189 * @interfaces. The number of elements in the array is returned in @count.
4192 * Returns: TRUE on success, FALSE on failure.
4195 mono_metadata_interfaces_from_typedef_full (MonoImage *meta, guint32 index, MonoClass ***interfaces, guint *count, gboolean heap_alloc_result, MonoGenericContext *context, MonoError *error)
4197 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_INTERFACEIMPL];
4200 guint32 cols [MONO_INTERFACEIMPL_SIZE];
4206 mono_error_init (error);
4211 loc.idx = mono_metadata_token_index (index);
4212 loc.col_idx = MONO_INTERFACEIMPL_CLASS;
4215 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
4220 * We may end up in the middle of the rows...
4223 if (loc.idx == mono_metadata_decode_row_col (tdef, start - 1, MONO_INTERFACEIMPL_CLASS))
4229 while (pos < tdef->rows) {
4230 mono_metadata_decode_row (tdef, pos, cols, MONO_INTERFACEIMPL_SIZE);
4231 if (cols [MONO_INTERFACEIMPL_CLASS] != loc.idx)
4236 if (heap_alloc_result)
4237 result = g_new0 (MonoClass*, pos - start);
4239 result = (MonoClass **)mono_image_alloc0 (meta, sizeof (MonoClass*) * (pos - start));
4242 while (pos < tdef->rows) {
4245 mono_metadata_decode_row (tdef, pos, cols, MONO_INTERFACEIMPL_SIZE);
4246 if (cols [MONO_INTERFACEIMPL_CLASS] != loc.idx)
4248 iface = mono_class_get_and_inflate_typespec_checked (
4249 meta, mono_metadata_token_from_dor (cols [MONO_INTERFACEIMPL_INTERFACE]), context, error);
4252 result [pos - start] = iface;
4255 *count = pos - start;
4256 *interfaces = result;
4261 * @meta: metadata context
4262 * @index: typedef token
4263 * @count: Out parameter used to store the number of interfaces
4265 * The array of interfaces that the @index typedef token implements is returned in
4266 * @interfaces. The number of elements in the array is returned in @count. The returned
4267 * array is g_malloc'd and the caller must free it.
4269 * LOCKING: Acquires the loader lock .
4271 * Returns: the interface array on success, NULL on failure.
4275 mono_metadata_interfaces_from_typedef (MonoImage *meta, guint32 index, guint *count)
4278 MonoClass **interfaces = NULL;
4281 rv = mono_metadata_interfaces_from_typedef_full (meta, index, &interfaces, count, TRUE, NULL, &error);
4282 g_assert (mono_error_ok (&error)); /* FIXME dont swallow the error */
4290 * mono_metadata_nested_in_typedef:
4291 * @meta: metadata context
4292 * @index: typedef token
4294 * Returns: the 1-based index into the TypeDef table of the type
4295 * where the type described by @index is nested.
4296 * Returns 0 if @index describes a non-nested type.
4299 mono_metadata_nested_in_typedef (MonoImage *meta, guint32 index)
4301 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_NESTEDCLASS];
4307 loc.idx = mono_metadata_token_index (index);
4308 loc.col_idx = MONO_NESTED_CLASS_NESTED;
4311 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
4314 /* loc_result is 0..1, needs to be mapped to table index (that is +1) */
4315 return mono_metadata_decode_row_col (tdef, loc.result, MONO_NESTED_CLASS_ENCLOSING) | MONO_TOKEN_TYPE_DEF;
4319 * mono_metadata_nesting_typedef:
4320 * @meta: metadata context
4321 * @index: typedef token
4323 * Returns: the 1-based index into the TypeDef table of the first type
4324 * that is nested inside the type described by @index. The search starts at
4325 * @start_index. returns 0 if no such type is found.
4328 mono_metadata_nesting_typedef (MonoImage *meta, guint32 index, guint32 start_index)
4330 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_NESTEDCLASS];
4332 guint32 class_index = mono_metadata_token_index (index);
4337 start = start_index;
4339 while (start <= tdef->rows) {
4340 if (class_index == mono_metadata_decode_row_col (tdef, start - 1, MONO_NESTED_CLASS_ENCLOSING))
4346 if (start > tdef->rows)
4353 * mono_metadata_packing_from_typedef:
4354 * @meta: metadata context
4355 * @index: token representing a type
4357 * Returns: the info stored in the ClassLAyout table for the given typedef token
4358 * into the @packing and @size pointers.
4359 * Returns 0 if the info is not found.
4362 mono_metadata_packing_from_typedef (MonoImage *meta, guint32 index, guint32 *packing, guint32 *size)
4364 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_CLASSLAYOUT];
4366 guint32 cols [MONO_CLASS_LAYOUT_SIZE];
4371 loc.idx = mono_metadata_token_index (index);
4372 loc.col_idx = MONO_CLASS_LAYOUT_PARENT;
4375 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
4378 mono_metadata_decode_row (tdef, loc.result, cols, MONO_CLASS_LAYOUT_SIZE);
4380 *packing = cols [MONO_CLASS_LAYOUT_PACKING_SIZE];
4382 *size = cols [MONO_CLASS_LAYOUT_CLASS_SIZE];
4384 /* loc_result is 0..1, needs to be mapped to table index (that is +1) */
4385 return loc.result + 1;
4389 * mono_metadata_custom_attrs_from_index:
4390 * @meta: metadata context
4391 * @index: token representing the parent
4393 * Returns: the 1-based index into the CustomAttribute table of the first
4394 * attribute which belongs to the metadata object described by @index.
4395 * Returns 0 if no such attribute is found.
4398 mono_metadata_custom_attrs_from_index (MonoImage *meta, guint32 index)
4400 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_CUSTOMATTRIBUTE];
4407 loc.col_idx = MONO_CUSTOM_ATTR_PARENT;
4410 /* FIXME: Index translation */
4412 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
4415 /* Find the first entry by searching backwards */
4416 while ((loc.result > 0) && (mono_metadata_decode_row_col (tdef, loc.result - 1, MONO_CUSTOM_ATTR_PARENT) == index))
4419 /* loc_result is 0..1, needs to be mapped to table index (that is +1) */
4420 return loc.result + 1;
4424 * mono_metadata_declsec_from_index:
4425 * @meta: metadata context
4426 * @index: token representing the parent
4428 * Returns: the 0-based index into the DeclarativeSecurity table of the first
4429 * attribute which belongs to the metadata object described by @index.
4430 * Returns -1 if no such attribute is found.
4433 mono_metadata_declsec_from_index (MonoImage *meta, guint32 index)
4435 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_DECLSECURITY];
4442 loc.col_idx = MONO_DECL_SECURITY_PARENT;
4445 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, declsec_locator))
4448 /* Find the first entry by searching backwards */
4449 while ((loc.result > 0) && (mono_metadata_decode_row_col (tdef, loc.result - 1, MONO_DECL_SECURITY_PARENT) == index))
4456 * mono_metadata_localscope_from_methoddef:
4457 * @meta: metadata context
4458 * @index: methoddef index
4460 * Returns: the 1-based index into the LocalScope table of the first
4461 * scope which belongs to the method described by @index.
4462 * Returns 0 if no such row is found.
4465 mono_metadata_localscope_from_methoddef (MonoImage *meta, guint32 index)
4467 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_LOCALSCOPE];
4474 loc.col_idx = MONO_LOCALSCOPE_METHOD;
4477 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
4480 /* Find the first entry by searching backwards */
4481 while ((loc.result > 0) && (mono_metadata_decode_row_col (tdef, loc.result - 1, MONO_LOCALSCOPE_METHOD) == index))
4484 return loc.result + 1;
4489 mono_backtrace (int limit)
4494 backtrace (array, limit);
4495 names = backtrace_symbols (array, limit);
4496 for (i =0; i < limit; ++i) {
4497 g_print ("\t%s\n", names [i]);
4503 static int i8_align;
4506 * mono_type_set_alignment:
4508 * Set the alignment used by runtime to layout fields etc. of type TYPE to ALIGN.
4509 * This should only be used in AOT mode since the resulting layout will not match the
4513 mono_type_set_alignment (MonoTypeEnum type, int align)
4515 /* Support only a few types whose alignment is abi dependent */
4521 g_assert_not_reached ();
4528 * @t: the type to return the size of
4530 * Returns: the number of bytes required to hold an instance of this
4534 mono_type_size (MonoType *t, int *align)
4536 MonoTypeEnum simple_type;
4543 *align = MONO_ABI_ALIGNOF (gpointer);
4544 return MONO_ABI_SIZEOF (gpointer);
4547 simple_type = t->type;
4549 switch (simple_type) {
4550 case MONO_TYPE_VOID:
4553 case MONO_TYPE_BOOLEAN:
4554 *align = MONO_ABI_ALIGNOF (gint8);
4558 *align = MONO_ABI_ALIGNOF (gint8);
4560 case MONO_TYPE_CHAR:
4563 *align = MONO_ABI_ALIGNOF (gint16);
4567 *align = MONO_ABI_ALIGNOF (gint32);
4570 *align = MONO_ABI_ALIGNOF (float);
4574 *align = MONO_ABI_ALIGNOF (gint64);
4577 *align = MONO_ABI_ALIGNOF (double);
4581 *align = MONO_ABI_ALIGNOF (gpointer);
4582 return MONO_ABI_SIZEOF (gpointer);
4583 case MONO_TYPE_VALUETYPE: {
4584 if (t->data.klass->enumtype)
4585 return mono_type_size (mono_class_enum_basetype (t->data.klass), align);
4587 return mono_class_value_size (t->data.klass, (guint32*)align);
4589 case MONO_TYPE_STRING:
4590 case MONO_TYPE_OBJECT:
4591 case MONO_TYPE_CLASS:
4592 case MONO_TYPE_SZARRAY:
4594 case MONO_TYPE_FNPTR:
4595 case MONO_TYPE_ARRAY:
4596 *align = MONO_ABI_ALIGNOF (gpointer);
4597 return MONO_ABI_SIZEOF (gpointer);
4598 case MONO_TYPE_TYPEDBYREF:
4599 return mono_class_value_size (mono_defaults.typed_reference_class, (guint32*)align);
4600 case MONO_TYPE_GENERICINST: {
4601 MonoGenericClass *gclass = t->data.generic_class;
4602 MonoClass *container_class = gclass->container_class;
4604 // g_assert (!gclass->inst->is_open);
4606 if (container_class->valuetype) {
4607 if (container_class->enumtype)
4608 return mono_type_size (mono_class_enum_basetype (container_class), align);
4610 return mono_class_value_size (mono_class_from_mono_type (t), (guint32*)align);
4612 *align = MONO_ABI_ALIGNOF (gpointer);
4613 return MONO_ABI_SIZEOF (gpointer);
4617 case MONO_TYPE_MVAR:
4618 if (!t->data.generic_param->gshared_constraint || t->data.generic_param->gshared_constraint->type == MONO_TYPE_VALUETYPE) {
4619 *align = MONO_ABI_ALIGNOF (gpointer);
4620 return MONO_ABI_SIZEOF (gpointer);
4622 /* The gparam can only match types given by gshared_constraint */
4623 return mono_type_size (t->data.generic_param->gshared_constraint, align);
4627 g_error ("mono_type_size: type 0x%02x unknown", t->type);
4633 * mono_type_stack_size:
4634 * @t: the type to return the size it uses on the stack
4636 * Returns: the number of bytes required to hold an instance of this
4637 * type on the runtime stack
4640 mono_type_stack_size (MonoType *t, int *align)
4642 return mono_type_stack_size_internal (t, align, FALSE);
4646 mono_type_stack_size_internal (MonoType *t, int *align, gboolean allow_open)
4649 MonoTypeEnum simple_type;
4650 #if SIZEOF_VOID_P == SIZEOF_REGISTER
4651 int stack_slot_size = MONO_ABI_SIZEOF (gpointer);
4652 int stack_slot_align = MONO_ABI_ALIGNOF (gpointer);
4653 #elif SIZEOF_VOID_P < SIZEOF_REGISTER
4654 int stack_slot_size = SIZEOF_REGISTER;
4655 int stack_slot_align = SIZEOF_REGISTER;
4658 g_assert (t != NULL);
4664 *align = stack_slot_align;
4665 return stack_slot_size;
4668 simple_type = t->type;
4669 switch (simple_type) {
4670 case MONO_TYPE_BOOLEAN:
4671 case MONO_TYPE_CHAR:
4680 case MONO_TYPE_STRING:
4681 case MONO_TYPE_OBJECT:
4682 case MONO_TYPE_CLASS:
4683 case MONO_TYPE_SZARRAY:
4685 case MONO_TYPE_FNPTR:
4686 case MONO_TYPE_ARRAY:
4687 *align = stack_slot_align;
4688 return stack_slot_size;
4690 case MONO_TYPE_MVAR:
4691 g_assert (allow_open);
4692 if (!t->data.generic_param->gshared_constraint || t->data.generic_param->gshared_constraint->type == MONO_TYPE_VALUETYPE) {
4693 *align = stack_slot_align;
4694 return stack_slot_size;
4696 /* The gparam can only match types given by gshared_constraint */
4697 return mono_type_stack_size_internal (t->data.generic_param->gshared_constraint, align, allow_open);
4699 case MONO_TYPE_TYPEDBYREF:
4700 *align = stack_slot_align;
4701 return stack_slot_size * 3;
4703 *align = MONO_ABI_ALIGNOF (float);
4704 return sizeof (float);
4707 *align = MONO_ABI_ALIGNOF (gint64);
4708 return sizeof (gint64);
4710 *align = MONO_ABI_ALIGNOF (double);
4711 return sizeof (double);
4712 case MONO_TYPE_VALUETYPE: {
4715 if (t->data.klass->enumtype)
4716 return mono_type_stack_size_internal (mono_class_enum_basetype (t->data.klass), align, allow_open);
4718 size = mono_class_value_size (t->data.klass, (guint32*)align);
4720 *align = *align + stack_slot_align - 1;
4721 *align &= ~(stack_slot_align - 1);
4723 size += stack_slot_size - 1;
4724 size &= ~(stack_slot_size - 1);
4729 case MONO_TYPE_GENERICINST: {
4730 MonoGenericClass *gclass = t->data.generic_class;
4731 MonoClass *container_class = gclass->container_class;
4734 g_assert (!gclass->context.class_inst->is_open);
4736 if (container_class->valuetype) {
4737 if (container_class->enumtype)
4738 return mono_type_stack_size_internal (mono_class_enum_basetype (container_class), align, allow_open);
4740 guint32 size = mono_class_value_size (mono_class_from_mono_type (t), (guint32*)align);
4742 *align = *align + stack_slot_align - 1;
4743 *align &= ~(stack_slot_align - 1);
4745 size += stack_slot_size - 1;
4746 size &= ~(stack_slot_size - 1);
4751 *align = stack_slot_align;
4752 return stack_slot_size;
4756 g_error ("type 0x%02x unknown", t->type);
4762 mono_type_generic_inst_is_valuetype (MonoType *type)
4764 g_assert (type->type == MONO_TYPE_GENERICINST);
4765 return type->data.generic_class->container_class->valuetype;
4769 mono_metadata_generic_class_is_valuetype (MonoGenericClass *gclass)
4771 return gclass->container_class->valuetype;
4775 _mono_metadata_generic_class_equal (const MonoGenericClass *g1, const MonoGenericClass *g2, gboolean signature_only)
4777 MonoGenericInst *i1 = g1->context.class_inst;
4778 MonoGenericInst *i2 = g2->context.class_inst;
4780 if (g1->is_dynamic != g2->is_dynamic)
4782 if (!mono_metadata_class_equal (g1->container_class, g2->container_class, signature_only))
4784 if (!mono_generic_inst_equal_full (i1, i2, signature_only))
4786 return g1->is_tb_open == g2->is_tb_open;
4790 _mono_metadata_generic_class_container_equal (const MonoGenericClass *g1, MonoClass *c2, gboolean signature_only)
4792 MonoGenericInst *i1 = g1->context.class_inst;
4793 MonoGenericInst *i2 = c2->generic_container->context.class_inst;
4795 if (!mono_metadata_class_equal (g1->container_class, c2, signature_only))
4797 if (!mono_generic_inst_equal_full (i1, i2, signature_only))
4799 return !g1->is_tb_open;
4803 mono_metadata_generic_context_hash (const MonoGenericContext *context)
4805 /* FIXME: check if this seed is good enough */
4806 guint hash = 0xc01dfee7;
4807 if (context->class_inst)
4808 hash = ((hash << 5) - hash) ^ mono_metadata_generic_inst_hash (context->class_inst);
4809 if (context->method_inst)
4810 hash = ((hash << 5) - hash) ^ mono_metadata_generic_inst_hash (context->method_inst);
4815 mono_metadata_generic_context_equal (const MonoGenericContext *g1, const MonoGenericContext *g2)
4817 return g1->class_inst == g2->class_inst && g1->method_inst == g2->method_inst;
4821 * mono_metadata_str_hash:
4823 * This should be used instead of g_str_hash for computing hash codes visible
4824 * outside this module, since g_str_hash () is not guaranteed to be stable
4825 * (its not the same in eglib for example).
4828 mono_metadata_str_hash (gconstpointer v1)
4830 /* Same as g_str_hash () in glib */
4831 char *p = (char *) v1;
4836 hash = (hash << 5) - hash + *p;
4843 * mono_metadata_type_hash:
4846 * Computes an hash value for @t1 to be used in GHashTable.
4847 * The returned hash is guaranteed to be the same across executions.
4850 mono_metadata_type_hash (MonoType *t1)
4852 guint hash = t1->type;
4854 hash |= t1->byref << 6; /* do not collide with t1->type values */
4856 case MONO_TYPE_VALUETYPE:
4857 case MONO_TYPE_CLASS:
4858 case MONO_TYPE_SZARRAY: {
4859 MonoClass *klass = t1->data.klass;
4861 * Dynamic classes must not be hashed on their type since it can change
4862 * during runtime. For example, if we hash a reference type that is
4863 * later made into a valuetype.
4865 * This is specially problematic with generic instances since they are
4866 * inserted in a bunch of hash tables before been finished.
4868 if (image_is_dynamic (klass->image))
4869 return (t1->byref << 6) | mono_metadata_str_hash (klass->name);
4870 return ((hash << 5) - hash) ^ mono_metadata_str_hash (klass->name);
4873 return ((hash << 5) - hash) ^ mono_metadata_type_hash (t1->data.type);
4874 case MONO_TYPE_ARRAY:
4875 return ((hash << 5) - hash) ^ mono_metadata_type_hash (&t1->data.array->eklass->byval_arg);
4876 case MONO_TYPE_GENERICINST:
4877 return ((hash << 5) - hash) ^ mono_generic_class_hash (t1->data.generic_class);
4879 case MONO_TYPE_MVAR:
4880 return ((hash << 5) - hash) ^ mono_metadata_generic_param_hash (t1->data.generic_param);
4887 mono_metadata_generic_param_hash (MonoGenericParam *p)
4890 MonoGenericParamInfo *info;
4892 hash = (mono_generic_param_num (p) << 2);
4893 if (p->gshared_constraint)
4894 hash = ((hash << 5) - hash) ^ mono_metadata_type_hash (p->gshared_constraint);
4895 info = mono_generic_param_info (p);
4896 /* Can't hash on the owner klass/method, since those might not be set when this is called */
4898 hash = ((hash << 5) - hash) ^ info->token;
4903 mono_metadata_generic_param_equal_internal (MonoGenericParam *p1, MonoGenericParam *p2, gboolean signature_only)
4907 if (mono_generic_param_num (p1) != mono_generic_param_num (p2))
4909 if (p1->gshared_constraint && p2->gshared_constraint) {
4910 if (!mono_metadata_type_equal (p1->gshared_constraint, p2->gshared_constraint))
4913 if (p1->gshared_constraint != p2->gshared_constraint)
4918 * We have to compare the image as well because if we didn't,
4919 * the generic_inst_cache lookup wouldn't care about the image
4920 * of generic params, so what could happen is that a generic
4921 * inst with params from image A is put into the cache, then
4922 * image B gets that generic inst from the cache, image A is
4923 * unloaded, so the inst is deleted, but image B still retains
4926 if (mono_generic_param_owner (p1) == mono_generic_param_owner (p2))
4930 * If `signature_only' is true, we're comparing two (method) signatures.
4931 * In this case, the owner of two type parameters doesn't need to match.
4934 return signature_only;
4938 mono_metadata_generic_param_equal (MonoGenericParam *p1, MonoGenericParam *p2)
4940 return mono_metadata_generic_param_equal_internal (p1, p2, TRUE);
4944 mono_metadata_class_equal (MonoClass *c1, MonoClass *c2, gboolean signature_only)
4948 if (c1->generic_class && c2->generic_class)
4949 return _mono_metadata_generic_class_equal (c1->generic_class, c2->generic_class, signature_only);
4950 if (c1->generic_class && c2->generic_container)
4951 return _mono_metadata_generic_class_container_equal (c1->generic_class, c2, signature_only);
4952 if (c1->generic_container && c2->generic_class)
4953 return _mono_metadata_generic_class_container_equal (c2->generic_class, c1, signature_only);
4954 if ((c1->byval_arg.type == MONO_TYPE_VAR) && (c2->byval_arg.type == MONO_TYPE_VAR))
4955 return mono_metadata_generic_param_equal_internal (
4956 c1->byval_arg.data.generic_param, c2->byval_arg.data.generic_param, signature_only);
4957 if ((c1->byval_arg.type == MONO_TYPE_MVAR) && (c2->byval_arg.type == MONO_TYPE_MVAR))
4958 return mono_metadata_generic_param_equal_internal (
4959 c1->byval_arg.data.generic_param, c2->byval_arg.data.generic_param, signature_only);
4960 if (signature_only &&
4961 (c1->byval_arg.type == MONO_TYPE_SZARRAY) && (c2->byval_arg.type == MONO_TYPE_SZARRAY))
4962 return mono_metadata_class_equal (c1->byval_arg.data.klass, c2->byval_arg.data.klass, signature_only);
4963 if (signature_only &&
4964 (c1->byval_arg.type == MONO_TYPE_ARRAY) && (c2->byval_arg.type == MONO_TYPE_ARRAY))
4965 return do_mono_metadata_type_equal (&c1->byval_arg, &c2->byval_arg, signature_only);
4970 mono_metadata_fnptr_equal (MonoMethodSignature *s1, MonoMethodSignature *s2, gboolean signature_only)
4972 gpointer iter1 = 0, iter2 = 0;
4976 if (s1->call_convention != s2->call_convention)
4978 if (s1->sentinelpos != s2->sentinelpos)
4980 if (s1->hasthis != s2->hasthis)
4982 if (s1->explicit_this != s2->explicit_this)
4984 if (! do_mono_metadata_type_equal (s1->ret, s2->ret, signature_only))
4986 if (s1->param_count != s2->param_count)
4990 MonoType *t1 = mono_signature_get_params (s1, &iter1);
4991 MonoType *t2 = mono_signature_get_params (s2, &iter2);
4993 if (t1 == NULL || t2 == NULL)
4995 if (! do_mono_metadata_type_equal (t1, t2, signature_only))
5001 * mono_metadata_type_equal:
5004 * @signature_only: If true, treat ginsts as equal which are instantiated separately but have equal positional value
5006 * Determine if @t1 and @t2 represent the same type.
5007 * Returns: #TRUE if @t1 and @t2 are equal.
5010 do_mono_metadata_type_equal (MonoType *t1, MonoType *t2, gboolean signature_only)
5012 if (t1->type != t2->type || t1->byref != t2->byref)
5016 case MONO_TYPE_VOID:
5017 case MONO_TYPE_BOOLEAN:
5018 case MONO_TYPE_CHAR:
5029 case MONO_TYPE_STRING:
5032 case MONO_TYPE_OBJECT:
5033 case MONO_TYPE_TYPEDBYREF:
5035 case MONO_TYPE_VALUETYPE:
5036 case MONO_TYPE_CLASS:
5037 case MONO_TYPE_SZARRAY:
5038 return mono_metadata_class_equal (t1->data.klass, t2->data.klass, signature_only);
5040 return do_mono_metadata_type_equal (t1->data.type, t2->data.type, signature_only);
5041 case MONO_TYPE_ARRAY:
5042 if (t1->data.array->rank != t2->data.array->rank)
5044 return mono_metadata_class_equal (t1->data.array->eklass, t2->data.array->eklass, signature_only);
5045 case MONO_TYPE_GENERICINST:
5046 return _mono_metadata_generic_class_equal (
5047 t1->data.generic_class, t2->data.generic_class, signature_only);
5049 return mono_metadata_generic_param_equal_internal (
5050 t1->data.generic_param, t2->data.generic_param, signature_only);
5051 case MONO_TYPE_MVAR:
5052 return mono_metadata_generic_param_equal_internal (
5053 t1->data.generic_param, t2->data.generic_param, signature_only);
5054 case MONO_TYPE_FNPTR:
5055 return mono_metadata_fnptr_equal (t1->data.method, t2->data.method, signature_only);
5057 g_error ("implement type compare for %0x!", t1->type);
5065 mono_metadata_type_equal (MonoType *t1, MonoType *t2)
5067 return do_mono_metadata_type_equal (t1, t2, FALSE);
5071 * mono_metadata_type_equal_full:
5074 * @signature_only: if signature only comparison should be made
5076 * Determine if @t1 and @t2 are signature compatible if @signature_only is #TRUE, otherwise
5077 * behaves the same way as mono_metadata_type_equal.
5078 * The function mono_metadata_type_equal(a, b) is just a shortcut for mono_metadata_type_equal_full(a, b, FALSE).
5079 * Returns: #TRUE if @t1 and @t2 are equal taking @signature_only into account.
5082 mono_metadata_type_equal_full (MonoType *t1, MonoType *t2, gboolean signature_only)
5084 return do_mono_metadata_type_equal (t1, t2, signature_only);
5088 * mono_metadata_signature_equal:
5089 * @sig1: a signature
5090 * @sig2: another signature
5092 * Determine if @sig1 and @sig2 represent the same signature, with the
5093 * same number of arguments and the same types.
5094 * Returns: #TRUE if @sig1 and @sig2 are equal.
5097 mono_metadata_signature_equal (MonoMethodSignature *sig1, MonoMethodSignature *sig2)
5101 if (sig1->hasthis != sig2->hasthis || sig1->param_count != sig2->param_count)
5104 if (sig1->generic_param_count != sig2->generic_param_count)
5108 * We're just comparing the signatures of two methods here:
5110 * If we have two generic methods `void Foo<U> (U u)' and `void Bar<V> (V v)',
5111 * U and V are equal here.
5113 * That's what the `signature_only' argument of do_mono_metadata_type_equal() is for.
5116 for (i = 0; i < sig1->param_count; i++) {
5117 MonoType *p1 = sig1->params[i];
5118 MonoType *p2 = sig2->params[i];
5120 /* if (p1->attrs != p2->attrs)
5123 if (!do_mono_metadata_type_equal (p1, p2, TRUE))
5127 if (!do_mono_metadata_type_equal (sig1->ret, sig2->ret, TRUE))
5133 * mono_metadata_type_dup:
5134 * @image: image to alloc memory from
5135 * @original: type to duplicate
5137 * Returns: copy of type allocated from the image's mempool (or from the heap, if @image is null).
5140 mono_metadata_type_dup (MonoImage *image, const MonoType *o)
5143 int sizeof_o = MONO_SIZEOF_TYPE;
5145 sizeof_o += o->num_mods * sizeof (MonoCustomMod);
5147 r = image ? (MonoType *)mono_image_alloc0 (image, sizeof_o) : (MonoType *)g_malloc (sizeof_o);
5149 memcpy (r, o, sizeof_o);
5151 if (o->type == MONO_TYPE_PTR) {
5152 r->data.type = mono_metadata_type_dup (image, o->data.type);
5153 } else if (o->type == MONO_TYPE_ARRAY) {
5154 r->data.array = mono_dup_array_type (image, o->data.array);
5155 } else if (o->type == MONO_TYPE_FNPTR) {
5156 /*FIXME the dup'ed signature is leaked mono_metadata_free_type*/
5157 r->data.method = mono_metadata_signature_deep_dup (image, o->data.method);
5163 mono_signature_hash (MonoMethodSignature *sig)
5165 guint i, res = sig->ret->type;
5167 for (i = 0; i < sig->param_count; i++)
5168 res = (res << 5) - res + mono_type_hash (sig->params[i]);
5174 * mono_metadata_encode_value:
5175 * @value: value to encode
5176 * @buf: buffer where to write the compressed representation
5177 * @endbuf: pointer updated to point at the end of the encoded output
5179 * Encodes the value @value in the compressed representation used
5180 * in metadata and stores the result in @buf. @buf needs to be big
5181 * enough to hold the data (4 bytes).
5184 mono_metadata_encode_value (guint32 value, char *buf, char **endbuf)
5190 else if (value < 0x4000) {
5191 p [0] = 0x80 | (value >> 8);
5192 p [1] = value & 0xff;
5195 p [0] = (value >> 24) | 0xc0;
5196 p [1] = (value >> 16) & 0xff;
5197 p [2] = (value >> 8) & 0xff;
5198 p [3] = value & 0xff;
5206 * mono_metadata_field_info:
5207 * @meta: the Image the field is defined in
5208 * @index: the index in the field table representing the field
5209 * @offset: a pointer to an integer where to store the offset that
5210 * may have been specified for the field in a FieldLayout table
5211 * @rva: a pointer to the RVA of the field data in the image that
5212 * may have been defined in a FieldRVA table
5213 * @marshal_spec: a pointer to the marshal spec that may have been
5214 * defined for the field in a FieldMarshal table.
5216 * Gather info for field @index that may have been defined in the FieldLayout,
5217 * FieldRVA and FieldMarshal tables.
5218 * Either of offset, rva and marshal_spec can be NULL if you're not interested
5222 mono_metadata_field_info (MonoImage *meta, guint32 index, guint32 *offset, guint32 *rva,
5223 MonoMarshalSpec **marshal_spec)
5225 mono_metadata_field_info_full (meta, index, offset, rva, marshal_spec, FALSE);
5229 mono_metadata_field_info_with_mempool (MonoImage *meta, guint32 index, guint32 *offset, guint32 *rva,
5230 MonoMarshalSpec **marshal_spec)
5232 mono_metadata_field_info_full (meta, index, offset, rva, marshal_spec, TRUE);
5236 mono_metadata_field_info_full (MonoImage *meta, guint32 index, guint32 *offset, guint32 *rva,
5237 MonoMarshalSpec **marshal_spec, gboolean alloc_from_image)
5239 MonoTableInfo *tdef;
5242 loc.idx = index + 1;
5243 if (meta->uncompressed_metadata)
5244 loc.idx = search_ptr_table (meta, MONO_TABLE_FIELD_POINTER, loc.idx);
5247 tdef = &meta->tables [MONO_TABLE_FIELDLAYOUT];
5249 loc.col_idx = MONO_FIELD_LAYOUT_FIELD;
5252 if (tdef->base && mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator)) {
5253 *offset = mono_metadata_decode_row_col (tdef, loc.result, MONO_FIELD_LAYOUT_OFFSET);
5255 *offset = (guint32)-1;
5259 tdef = &meta->tables [MONO_TABLE_FIELDRVA];
5261 loc.col_idx = MONO_FIELD_RVA_FIELD;
5264 if (tdef->base && mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator)) {
5266 * LAMESPEC: There is no signature, no nothing, just the raw data.
5268 *rva = mono_metadata_decode_row_col (tdef, loc.result, MONO_FIELD_RVA_RVA);
5276 if ((p = mono_metadata_get_marshal_info (meta, index, TRUE))) {
5277 *marshal_spec = mono_metadata_parse_marshal_spec_full (alloc_from_image ? meta : NULL, meta, p);
5284 * mono_metadata_get_constant_index:
5285 * @meta: the Image the field is defined in
5286 * @index: the token that may have a row defined in the constants table
5287 * @hint: possible position for the row
5289 * @token must be a FieldDef, ParamDef or PropertyDef token.
5291 * Returns: the index into the Constants table or 0 if not found.
5294 mono_metadata_get_constant_index (MonoImage *meta, guint32 token, guint32 hint)
5296 MonoTableInfo *tdef;
5298 guint32 index = mono_metadata_token_index (token);
5300 tdef = &meta->tables [MONO_TABLE_CONSTANT];
5301 index <<= MONO_HASCONSTANT_BITS;
5302 switch (mono_metadata_token_table (token)) {
5303 case MONO_TABLE_FIELD:
5304 index |= MONO_HASCONSTANT_FIEDDEF;
5306 case MONO_TABLE_PARAM:
5307 index |= MONO_HASCONSTANT_PARAM;
5309 case MONO_TABLE_PROPERTY:
5310 index |= MONO_HASCONSTANT_PROPERTY;
5313 g_warning ("Not a valid token for the constant table: 0x%08x", token);
5317 loc.col_idx = MONO_CONSTANT_PARENT;
5320 /* FIXME: Index translation */
5322 if ((hint > 0) && (hint < tdef->rows) && (mono_metadata_decode_row_col (tdef, hint - 1, MONO_CONSTANT_PARENT) == index))
5325 if (tdef->base && mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator)) {
5326 return loc.result + 1;
5332 * mono_metadata_events_from_typedef:
5333 * @meta: metadata context
5334 * @index: 0-based index (in the TypeDef table) describing a type
5336 * Returns: the 0-based index in the Event table for the events in the
5337 * type. The last event that belongs to the type (plus 1) is stored
5338 * in the @end_idx pointer.
5341 mono_metadata_events_from_typedef (MonoImage *meta, guint32 index, guint *end_idx)
5345 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_EVENTMAP];
5353 loc.col_idx = MONO_EVENT_MAP_PARENT;
5354 loc.idx = index + 1;
5356 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
5359 start = mono_metadata_decode_row_col (tdef, loc.result, MONO_EVENT_MAP_EVENTLIST);
5360 if (loc.result + 1 < tdef->rows) {
5361 end = mono_metadata_decode_row_col (tdef, loc.result + 1, MONO_EVENT_MAP_EVENTLIST) - 1;
5363 end = meta->tables [MONO_TABLE_EVENT].rows;
5371 * mono_metadata_methods_from_event:
5372 * @meta: metadata context
5373 * @index: 0-based index (in the Event table) describing a event
5375 * Returns: the 0-based index in the MethodDef table for the methods in the
5376 * event. The last method that belongs to the event (plus 1) is stored
5377 * in the @end_idx pointer.
5380 mono_metadata_methods_from_event (MonoImage *meta, guint32 index, guint *end_idx)
5384 guint32 cols [MONO_METHOD_SEMA_SIZE];
5385 MonoTableInfo *msemt = &meta->tables [MONO_TABLE_METHODSEMANTICS];
5391 if (meta->uncompressed_metadata)
5392 index = search_ptr_table (meta, MONO_TABLE_EVENT_POINTER, index + 1) - 1;
5395 loc.col_idx = MONO_METHOD_SEMA_ASSOCIATION;
5396 loc.idx = ((index + 1) << MONO_HAS_SEMANTICS_BITS) | MONO_HAS_SEMANTICS_EVENT; /* Method association coded index */
5398 if (!mono_binary_search (&loc, msemt->base, msemt->rows, msemt->row_size, table_locator))
5403 * We may end up in the middle of the rows...
5406 if (loc.idx == mono_metadata_decode_row_col (msemt, start - 1, MONO_METHOD_SEMA_ASSOCIATION))
5412 while (end < msemt->rows) {
5413 mono_metadata_decode_row (msemt, end, cols, MONO_METHOD_SEMA_SIZE);
5414 if (cols [MONO_METHOD_SEMA_ASSOCIATION] != loc.idx)
5423 * mono_metadata_properties_from_typedef:
5424 * @meta: metadata context
5425 * @index: 0-based index (in the TypeDef table) describing a type
5427 * Returns: the 0-based index in the Property table for the properties in the
5428 * type. The last property that belongs to the type (plus 1) is stored
5429 * in the @end_idx pointer.
5432 mono_metadata_properties_from_typedef (MonoImage *meta, guint32 index, guint *end_idx)
5436 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_PROPERTYMAP];
5444 loc.col_idx = MONO_PROPERTY_MAP_PARENT;
5445 loc.idx = index + 1;
5447 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
5450 start = mono_metadata_decode_row_col (tdef, loc.result, MONO_PROPERTY_MAP_PROPERTY_LIST);
5451 if (loc.result + 1 < tdef->rows) {
5452 end = mono_metadata_decode_row_col (tdef, loc.result + 1, MONO_PROPERTY_MAP_PROPERTY_LIST) - 1;
5454 end = meta->tables [MONO_TABLE_PROPERTY].rows;
5462 * mono_metadata_methods_from_property:
5463 * @meta: metadata context
5464 * @index: 0-based index (in the PropertyDef table) describing a property
5466 * Returns: the 0-based index in the MethodDef table for the methods in the
5467 * property. The last method that belongs to the property (plus 1) is stored
5468 * in the @end_idx pointer.
5471 mono_metadata_methods_from_property (MonoImage *meta, guint32 index, guint *end_idx)
5475 guint32 cols [MONO_METHOD_SEMA_SIZE];
5476 MonoTableInfo *msemt = &meta->tables [MONO_TABLE_METHODSEMANTICS];
5482 if (meta->uncompressed_metadata)
5483 index = search_ptr_table (meta, MONO_TABLE_PROPERTY_POINTER, index + 1) - 1;
5486 loc.col_idx = MONO_METHOD_SEMA_ASSOCIATION;
5487 loc.idx = ((index + 1) << MONO_HAS_SEMANTICS_BITS) | MONO_HAS_SEMANTICS_PROPERTY; /* Method association coded index */
5489 if (!mono_binary_search (&loc, msemt->base, msemt->rows, msemt->row_size, table_locator))
5494 * We may end up in the middle of the rows...
5497 if (loc.idx == mono_metadata_decode_row_col (msemt, start - 1, MONO_METHOD_SEMA_ASSOCIATION))
5503 while (end < msemt->rows) {
5504 mono_metadata_decode_row (msemt, end, cols, MONO_METHOD_SEMA_SIZE);
5505 if (cols [MONO_METHOD_SEMA_ASSOCIATION] != loc.idx)
5514 mono_metadata_implmap_from_method (MonoImage *meta, guint32 method_idx)
5517 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_IMPLMAP];
5522 /* No index translation seems to be needed */
5525 loc.col_idx = MONO_IMPLMAP_MEMBER;
5526 loc.idx = ((method_idx + 1) << MONO_MEMBERFORWD_BITS) | MONO_MEMBERFORWD_METHODDEF;
5528 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
5531 return loc.result + 1;
5535 * @image: context where the image is created
5536 * @type_spec: typespec token
5537 * @deprecated use mono_type_create_from_typespec_checked that has proper error handling
5539 * Creates a MonoType representing the TypeSpec indexed by the @type_spec
5543 mono_type_create_from_typespec (MonoImage *image, guint32 type_spec)
5546 MonoType *type = mono_type_create_from_typespec_checked (image, type_spec, &error);
5548 g_error ("Could not create typespec %x due to %s", type_spec, mono_error_get_message (&error));
5553 mono_type_create_from_typespec_checked (MonoImage *image, guint32 type_spec, MonoError *error)
5556 guint32 idx = mono_metadata_token_index (type_spec);
5558 guint32 cols [MONO_TYPESPEC_SIZE];
5560 MonoType *type, *type2;
5562 mono_error_init (error);
5564 mono_image_lock (image);
5565 type = (MonoType *)g_hash_table_lookup (image->typespec_cache, GUINT_TO_POINTER (type_spec));
5566 mono_image_unlock (image);
5570 t = &image->tables [MONO_TABLE_TYPESPEC];
5572 mono_metadata_decode_row (t, idx-1, cols, MONO_TYPESPEC_SIZE);
5573 ptr = mono_metadata_blob_heap (image, cols [MONO_TYPESPEC_SIGNATURE]);
5575 if (!mono_verifier_verify_typespec_signature (image, cols [MONO_TYPESPEC_SIGNATURE], type_spec, NULL)) {
5576 mono_error_set_bad_image (error, image, "Could not verify type spec %08x.", type_spec);
5580 mono_metadata_decode_value (ptr, &ptr);
5582 type = mono_metadata_parse_type_checked (image, NULL, 0, TRUE, ptr, &ptr, error);
5586 type2 = mono_metadata_type_dup (image, type);
5587 mono_metadata_free_type (type);
5589 mono_image_lock (image);
5590 type = (MonoType *)g_hash_table_lookup (image->typespec_cache, GUINT_TO_POINTER (type_spec));
5591 /* We might leak some data in the image mempool if found */
5593 g_hash_table_insert (image->typespec_cache, GUINT_TO_POINTER (type_spec), type2);
5596 mono_image_unlock (image);
5603 mono_image_strndup (MonoImage *image, const char *data, guint len)
5607 return g_strndup (data, len);
5608 res = (char *)mono_image_alloc (image, len + 1);
5609 memcpy (res, data, len);
5615 mono_metadata_parse_marshal_spec (MonoImage *image, const char *ptr)
5617 return mono_metadata_parse_marshal_spec_full (NULL, image, ptr);
5621 * If IMAGE is non-null, memory will be allocated from its mempool, otherwise it will be allocated using malloc.
5622 * PARENT_IMAGE is the image containing the marshal spec.
5625 mono_metadata_parse_marshal_spec_full (MonoImage *image, MonoImage *parent_image, const char *ptr)
5627 MonoMarshalSpec *res;
5629 const char *start = ptr;
5631 /* fixme: this is incomplete, but I cant find more infos in the specs */
5634 res = (MonoMarshalSpec *)mono_image_alloc0 (image, sizeof (MonoMarshalSpec));
5636 res = g_new0 (MonoMarshalSpec, 1);
5638 len = mono_metadata_decode_value (ptr, &ptr);
5639 res->native = (MonoMarshalNative)*ptr++;
5641 if (res->native == MONO_NATIVE_LPARRAY) {
5642 res->data.array_data.param_num = -1;
5643 res->data.array_data.num_elem = -1;
5644 res->data.array_data.elem_mult = -1;
5646 if (ptr - start <= len)
5647 res->data.array_data.elem_type = (MonoMarshalNative)*ptr++;
5648 if (ptr - start <= len)
5649 res->data.array_data.param_num = mono_metadata_decode_value (ptr, &ptr);
5650 if (ptr - start <= len)
5651 res->data.array_data.num_elem = mono_metadata_decode_value (ptr, &ptr);
5652 if (ptr - start <= len) {
5654 * LAMESPEC: Older spec versions say this parameter comes before
5655 * num_elem. Never spec versions don't talk about elem_mult at
5656 * all, but csc still emits it, and it is used to distinguish
5657 * between param_num being 0, and param_num being omitted.
5658 * So if (param_num == 0) && (num_elem > 0), then
5659 * elem_mult == 0 -> the array size is num_elem
5660 * elem_mult == 1 -> the array size is @param_num + num_elem
5662 res->data.array_data.elem_mult = mono_metadata_decode_value (ptr, &ptr);
5666 if (res->native == MONO_NATIVE_BYVALTSTR) {
5667 if (ptr - start <= len)
5668 res->data.array_data.num_elem = mono_metadata_decode_value (ptr, &ptr);
5671 if (res->native == MONO_NATIVE_BYVALARRAY) {
5672 if (ptr - start <= len)
5673 res->data.array_data.num_elem = mono_metadata_decode_value (ptr, &ptr);
5676 if (res->native == MONO_NATIVE_CUSTOM) {
5677 /* skip unused type guid */
5678 len = mono_metadata_decode_value (ptr, &ptr);
5680 /* skip unused native type name */
5681 len = mono_metadata_decode_value (ptr, &ptr);
5683 /* read custom marshaler type name */
5684 len = mono_metadata_decode_value (ptr, &ptr);
5685 res->data.custom_data.custom_name = mono_image_strndup (image, ptr, len);
5687 /* read cookie string */
5688 len = mono_metadata_decode_value (ptr, &ptr);
5689 res->data.custom_data.cookie = mono_image_strndup (image, ptr, len);
5690 res->data.custom_data.image = parent_image;
5693 if (res->native == MONO_NATIVE_SAFEARRAY) {
5694 res->data.safearray_data.elem_type = (MonoMarshalVariant)0;
5695 res->data.safearray_data.num_elem = 0;
5696 if (ptr - start <= len)
5697 res->data.safearray_data.elem_type = (MonoMarshalVariant)*ptr++;
5698 if (ptr - start <= len)
5699 res->data.safearray_data.num_elem = *ptr++;
5705 mono_metadata_free_marshal_spec (MonoMarshalSpec *spec)
5707 if (spec->native == MONO_NATIVE_CUSTOM) {
5708 g_free (spec->data.custom_data.custom_name);
5709 g_free (spec->data.custom_data.cookie);
5715 * mono_type_to_unmanaged:
5717 * Returns: A MonoMarshalNative enumeration value (MONO_NATIVE_) value
5718 * describing the underlying native reprensetation of the type.
5720 * In addition the value pointed by
5721 * "conv" will contain the kind of marshalling required for this
5722 * particular type one of the MONO_MARSHAL_CONV_ enumeration values.
5725 mono_type_to_unmanaged (MonoType *type, MonoMarshalSpec *mspec, gboolean as_field,
5726 gboolean unicode, MonoMarshalConv *conv)
5728 MonoMarshalConv dummy_conv;
5734 *conv = MONO_MARSHAL_CONV_NONE;
5737 return MONO_NATIVE_UINT;
5741 case MONO_TYPE_BOOLEAN:
5743 switch (mspec->native) {
5744 case MONO_NATIVE_VARIANTBOOL:
5745 *conv = MONO_MARSHAL_CONV_BOOL_VARIANTBOOL;
5746 return MONO_NATIVE_VARIANTBOOL;
5747 case MONO_NATIVE_BOOLEAN:
5748 *conv = MONO_MARSHAL_CONV_BOOL_I4;
5749 return MONO_NATIVE_BOOLEAN;
5750 case MONO_NATIVE_I1:
5751 case MONO_NATIVE_U1:
5752 return mspec->native;
5754 g_error ("cant marshal bool to native type %02x", mspec->native);
5757 *conv = MONO_MARSHAL_CONV_BOOL_I4;
5758 return MONO_NATIVE_BOOLEAN;
5759 case MONO_TYPE_CHAR:
5761 switch (mspec->native) {
5762 case MONO_NATIVE_U2:
5763 case MONO_NATIVE_U1:
5764 return mspec->native;
5766 g_error ("cant marshal char to native type %02x", mspec->native);
5769 return unicode ? MONO_NATIVE_U2 : MONO_NATIVE_U1;
5770 case MONO_TYPE_I1: return MONO_NATIVE_I1;
5771 case MONO_TYPE_U1: return MONO_NATIVE_U1;
5772 case MONO_TYPE_I2: return MONO_NATIVE_I2;
5773 case MONO_TYPE_U2: return MONO_NATIVE_U2;
5774 case MONO_TYPE_I4: return MONO_NATIVE_I4;
5775 case MONO_TYPE_U4: return MONO_NATIVE_U4;
5776 case MONO_TYPE_I8: return MONO_NATIVE_I8;
5777 case MONO_TYPE_U8: return MONO_NATIVE_U8;
5778 case MONO_TYPE_R4: return MONO_NATIVE_R4;
5779 case MONO_TYPE_R8: return MONO_NATIVE_R8;
5780 case MONO_TYPE_STRING:
5782 switch (mspec->native) {
5783 case MONO_NATIVE_BSTR:
5784 *conv = MONO_MARSHAL_CONV_STR_BSTR;
5785 return MONO_NATIVE_BSTR;
5786 case MONO_NATIVE_LPSTR:
5787 *conv = MONO_MARSHAL_CONV_STR_LPSTR;
5788 return MONO_NATIVE_LPSTR;
5789 case MONO_NATIVE_LPWSTR:
5790 *conv = MONO_MARSHAL_CONV_STR_LPWSTR;
5791 return MONO_NATIVE_LPWSTR;
5792 case MONO_NATIVE_LPTSTR:
5793 *conv = MONO_MARSHAL_CONV_STR_LPTSTR;
5794 return MONO_NATIVE_LPTSTR;
5795 case MONO_NATIVE_ANSIBSTR:
5796 *conv = MONO_MARSHAL_CONV_STR_ANSIBSTR;
5797 return MONO_NATIVE_ANSIBSTR;
5798 case MONO_NATIVE_TBSTR:
5799 *conv = MONO_MARSHAL_CONV_STR_TBSTR;
5800 return MONO_NATIVE_TBSTR;
5801 case MONO_NATIVE_BYVALTSTR:
5803 *conv = MONO_MARSHAL_CONV_STR_BYVALWSTR;
5805 *conv = MONO_MARSHAL_CONV_STR_BYVALSTR;
5806 return MONO_NATIVE_BYVALTSTR;
5808 g_error ("Can not marshal string to native type '%02x': Invalid managed/unmanaged type combination (String fields must be paired with LPStr, LPWStr, BStr or ByValTStr).", mspec->native);
5812 *conv = MONO_MARSHAL_CONV_STR_LPWSTR;
5813 return MONO_NATIVE_LPWSTR;
5816 *conv = MONO_MARSHAL_CONV_STR_LPSTR;
5817 return MONO_NATIVE_LPSTR;
5819 case MONO_TYPE_PTR: return MONO_NATIVE_UINT;
5820 case MONO_TYPE_VALUETYPE: /*FIXME*/
5821 if (type->data.klass->enumtype) {
5822 t = mono_class_enum_basetype (type->data.klass)->type;
5825 if (type->data.klass == mono_defaults.handleref_class){
5826 *conv = MONO_MARSHAL_CONV_HANDLEREF;
5827 return MONO_NATIVE_INT;
5829 return MONO_NATIVE_STRUCT;
5830 case MONO_TYPE_SZARRAY:
5831 case MONO_TYPE_ARRAY:
5833 switch (mspec->native) {
5834 case MONO_NATIVE_BYVALARRAY:
5835 if ((type->data.klass->element_class == mono_defaults.char_class) && !unicode)
5836 *conv = MONO_MARSHAL_CONV_ARRAY_BYVALCHARARRAY;
5838 *conv = MONO_MARSHAL_CONV_ARRAY_BYVALARRAY;
5839 return MONO_NATIVE_BYVALARRAY;
5840 case MONO_NATIVE_SAFEARRAY:
5841 *conv = MONO_MARSHAL_CONV_ARRAY_SAVEARRAY;
5842 return MONO_NATIVE_SAFEARRAY;
5843 case MONO_NATIVE_LPARRAY:
5844 *conv = MONO_MARSHAL_CONV_ARRAY_LPARRAY;
5845 return MONO_NATIVE_LPARRAY;
5847 g_error ("cant marshal array as native type %02x", mspec->native);
5851 *conv = MONO_MARSHAL_CONV_ARRAY_LPARRAY;
5852 return MONO_NATIVE_LPARRAY;
5853 case MONO_TYPE_I: return MONO_NATIVE_INT;
5854 case MONO_TYPE_U: return MONO_NATIVE_UINT;
5855 case MONO_TYPE_CLASS:
5856 case MONO_TYPE_OBJECT: {
5857 /* FIXME : we need to handle ArrayList and StringBuilder here, probably */
5859 switch (mspec->native) {
5860 case MONO_NATIVE_STRUCT:
5861 return MONO_NATIVE_STRUCT;
5862 case MONO_NATIVE_CUSTOM:
5863 return MONO_NATIVE_CUSTOM;
5864 case MONO_NATIVE_INTERFACE:
5865 *conv = MONO_MARSHAL_CONV_OBJECT_INTERFACE;
5866 return MONO_NATIVE_INTERFACE;
5867 case MONO_NATIVE_IDISPATCH:
5868 *conv = MONO_MARSHAL_CONV_OBJECT_IDISPATCH;
5869 return MONO_NATIVE_IDISPATCH;
5870 case MONO_NATIVE_IUNKNOWN:
5871 *conv = MONO_MARSHAL_CONV_OBJECT_IUNKNOWN;
5872 return MONO_NATIVE_IUNKNOWN;
5873 case MONO_NATIVE_FUNC:
5874 if (t == MONO_TYPE_CLASS && (type->data.klass == mono_defaults.multicastdelegate_class ||
5875 type->data.klass == mono_defaults.delegate_class ||
5876 type->data.klass->parent == mono_defaults.multicastdelegate_class)) {
5877 *conv = MONO_MARSHAL_CONV_DEL_FTN;
5878 return MONO_NATIVE_FUNC;
5882 g_error ("cant marshal object as native type %02x", mspec->native);
5885 if (t == MONO_TYPE_CLASS && (type->data.klass == mono_defaults.multicastdelegate_class ||
5886 type->data.klass == mono_defaults.delegate_class ||
5887 type->data.klass->parent == mono_defaults.multicastdelegate_class)) {
5888 *conv = MONO_MARSHAL_CONV_DEL_FTN;
5889 return MONO_NATIVE_FUNC;
5891 if (mono_class_try_get_safehandle_class () && type->data.klass == mono_class_try_get_safehandle_class ()){
5892 *conv = MONO_MARSHAL_CONV_SAFEHANDLE;
5893 return MONO_NATIVE_INT;
5895 *conv = MONO_MARSHAL_CONV_OBJECT_STRUCT;
5896 return MONO_NATIVE_STRUCT;
5898 case MONO_TYPE_FNPTR: return MONO_NATIVE_FUNC;
5899 case MONO_TYPE_GENERICINST:
5900 type = &type->data.generic_class->container_class->byval_arg;
5903 case MONO_TYPE_TYPEDBYREF:
5905 g_error ("type 0x%02x not handled in marshal", t);
5907 return MONO_NATIVE_MAX;
5911 mono_metadata_get_marshal_info (MonoImage *meta, guint32 idx, gboolean is_field)
5914 MonoTableInfo *tdef = &meta->tables [MONO_TABLE_FIELDMARSHAL];
5920 loc.col_idx = MONO_FIELD_MARSHAL_PARENT;
5921 loc.idx = ((idx + 1) << MONO_HAS_FIELD_MARSHAL_BITS) | (is_field? MONO_HAS_FIELD_MARSHAL_FIELDSREF: MONO_HAS_FIELD_MARSHAL_PARAMDEF);
5923 /* FIXME: Index translation */
5925 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
5928 return mono_metadata_blob_heap (meta, mono_metadata_decode_row_col (tdef, loc.result, MONO_FIELD_MARSHAL_NATIVE_TYPE));
5932 method_from_method_def_or_ref (MonoImage *m, guint32 tok, MonoGenericContext *context, MonoError *error)
5934 MonoMethod *result = NULL;
5935 guint32 idx = tok >> MONO_METHODDEFORREF_BITS;
5937 mono_error_init (error);
5939 switch (tok & MONO_METHODDEFORREF_MASK) {
5940 case MONO_METHODDEFORREF_METHODDEF:
5941 result = mono_get_method_checked (m, MONO_TOKEN_METHOD_DEF | idx, NULL, context, error);
5943 case MONO_METHODDEFORREF_METHODREF:
5944 result = mono_get_method_checked (m, MONO_TOKEN_MEMBER_REF | idx, NULL, context, error);
5947 mono_error_set_bad_image (error, m, "Invalid MethodDefOfRef token %x", tok);
5954 * mono_class_get_overrides_full:
5956 * Return the method overrides belonging to class @type_token in @overrides, and
5957 * the number of overrides in @num_overrides.
5959 * Returns: TRUE on success, FALSE on failure.
5962 mono_class_get_overrides_full (MonoImage *image, guint32 type_token, MonoMethod ***overrides, gint32 *num_overrides,
5963 MonoGenericContext *generic_context)
5967 MonoTableInfo *tdef = &image->tables [MONO_TABLE_METHODIMPL];
5970 guint32 cols [MONO_METHODIMPL_SIZE];
5971 MonoMethod **result;
5982 loc.col_idx = MONO_METHODIMPL_CLASS;
5983 loc.idx = mono_metadata_token_index (type_token);
5985 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
5991 * We may end up in the middle of the rows...
5994 if (loc.idx == mono_metadata_decode_row_col (tdef, start - 1, MONO_METHODIMPL_CLASS))
5999 while (end < tdef->rows) {
6000 if (loc.idx == mono_metadata_decode_row_col (tdef, end, MONO_METHODIMPL_CLASS))
6006 result = g_new (MonoMethod*, num * 2);
6007 for (i = 0; i < num; ++i) {
6010 if (!mono_verifier_verify_methodimpl_row (image, start + i, &error)) {
6011 mono_error_cleanup (&error); /* FIXME don't swallow the error */
6016 mono_metadata_decode_row (tdef, start + i, cols, MONO_METHODIMPL_SIZE);
6017 method = method_from_method_def_or_ref (
6018 image, cols [MONO_METHODIMPL_DECLARATION], generic_context, &error);
6019 if (method == NULL) {
6020 mono_error_cleanup (&error); /* FIXME don't swallow the error */
6023 result [i * 2] = method;
6024 method = method_from_method_def_or_ref (
6025 image, cols [MONO_METHODIMPL_BODY], generic_context, &error);
6026 if (method == NULL) {
6027 mono_error_cleanup (&error); /* FIXME don't swallow the error */
6030 result [i * 2 + 1] = method;
6033 *overrides = result;
6035 *num_overrides = num;
6040 * mono_guid_to_string:
6042 * Converts a 16 byte Microsoft GUID to the standard string representation.
6045 mono_guid_to_string (const guint8 *guid)
6047 return g_strdup_printf ("%02X%02X%02X%02X-%02X%02X-%02X%02X-%02X%02X-%02X%02X%02X%02X%02X%02X",
6048 guid[3], guid[2], guid[1], guid[0],
6052 guid[10], guid[11], guid[12], guid[13], guid[14], guid[15]);
6056 get_constraints (MonoImage *image, int owner, MonoClass ***constraints, MonoGenericContainer *container, MonoError *error)
6058 MonoTableInfo *tdef = &image->tables [MONO_TABLE_GENERICPARAMCONSTRAINT];
6059 guint32 cols [MONO_GENPARCONSTRAINT_SIZE];
6060 guint32 i, token, found;
6061 MonoClass *klass, **res;
6062 GSList *cons = NULL, *tmp;
6063 MonoGenericContext *context = &container->context;
6065 mono_error_init (error);
6067 *constraints = NULL;
6069 for (i = 0; i < tdef->rows; ++i) {
6070 mono_metadata_decode_row (tdef, i, cols, MONO_GENPARCONSTRAINT_SIZE);
6071 if (cols [MONO_GENPARCONSTRAINT_GENERICPAR] == owner) {
6072 token = mono_metadata_token_from_dor (cols [MONO_GENPARCONSTRAINT_CONSTRAINT]);
6073 klass = mono_class_get_and_inflate_typespec_checked (image, token, context, error);
6075 g_slist_free (cons);
6078 cons = g_slist_append (cons, klass);
6081 /* contiguous list finished */
6088 res = (MonoClass **)mono_image_alloc0 (image, sizeof (MonoClass*) * (found + 1));
6089 for (i = 0, tmp = cons; i < found; ++i, tmp = tmp->next) {
6090 res [i] = (MonoClass *)tmp->data;
6092 g_slist_free (cons);
6098 * mono_metadata_get_generic_param_row:
6101 * @token: TypeOrMethodDef token, owner for GenericParam
6102 * @owner: coded token, set on return
6104 * Returns: 1-based row-id in the GenericParam table whose
6105 * owner is @token. 0 if not found.
6108 mono_metadata_get_generic_param_row (MonoImage *image, guint32 token, guint32 *owner)
6110 MonoTableInfo *tdef = &image->tables [MONO_TABLE_GENERICPARAM];
6117 if (mono_metadata_token_table (token) == MONO_TABLE_TYPEDEF)
6118 *owner = MONO_TYPEORMETHOD_TYPE;
6119 else if (mono_metadata_token_table (token) == MONO_TABLE_METHOD)
6120 *owner = MONO_TYPEORMETHOD_METHOD;
6122 g_error ("wrong token %x to get_generic_param_row", token);
6125 *owner |= mono_metadata_token_index (token) << MONO_TYPEORMETHOD_BITS;
6128 loc.col_idx = MONO_GENERICPARAM_OWNER;
6131 if (!mono_binary_search (&loc, tdef->base, tdef->rows, tdef->row_size, table_locator))
6134 /* Find the first entry by searching backwards */
6135 while ((loc.result > 0) && (mono_metadata_decode_row_col (tdef, loc.result - 1, MONO_GENERICPARAM_OWNER) == loc.idx))
6138 return loc.result + 1;
6142 mono_metadata_has_generic_params (MonoImage *image, guint32 token)
6145 return mono_metadata_get_generic_param_row (image, token, &owner);
6149 * Memory is allocated from IMAGE's mempool.
6152 mono_metadata_load_generic_param_constraints_checked (MonoImage *image, guint32 token,
6153 MonoGenericContainer *container, MonoError *error)
6156 guint32 start_row, i, owner;
6157 mono_error_init (error);
6159 if (! (start_row = mono_metadata_get_generic_param_row (image, token, &owner)))
6161 for (i = 0; i < container->type_argc; i++) {
6162 if (!get_constraints (image, start_row + i, &mono_generic_container_get_param_info (container, i)->constraints, container, error)) {
6170 * mono_metadata_load_generic_params:
6172 * Load the type parameters from the type or method definition @token.
6174 * Use this method after parsing a type or method definition to figure out whether it's a generic
6175 * type / method. When parsing a method definition, @parent_container points to the generic container
6176 * of the current class, if any.
6178 * Note: This method does not load the constraints: for typedefs, this has to be done after fully
6179 * creating the type.
6181 * Returns: NULL if @token is not a generic type or method definition or the new generic container.
6183 * LOCKING: Acquires the loader lock
6186 MonoGenericContainer *
6187 mono_metadata_load_generic_params (MonoImage *image, guint32 token, MonoGenericContainer *parent_container)
6189 MonoTableInfo *tdef = &image->tables [MONO_TABLE_GENERICPARAM];
6190 guint32 cols [MONO_GENERICPARAM_SIZE];
6191 guint32 i, owner = 0, n;
6192 MonoGenericContainer *container;
6193 MonoGenericParamFull *params;
6194 MonoGenericContext *context;
6196 if (!(i = mono_metadata_get_generic_param_row (image, token, &owner)))
6198 mono_metadata_decode_row (tdef, i - 1, cols, MONO_GENERICPARAM_SIZE);
6201 container = (MonoGenericContainer *)mono_image_alloc0 (image, sizeof (MonoGenericContainer));
6202 container->owner.image = image; // Temporarily mark as anonymous, but this will be overriden by caller
6203 container->is_anonymous = TRUE;
6206 params = (MonoGenericParamFull *)g_realloc (params, sizeof (MonoGenericParamFull) * n);
6207 memset (¶ms [n - 1], 0, sizeof (MonoGenericParamFull));
6208 params [n - 1].param.owner = container;
6209 params [n - 1].param.num = cols [MONO_GENERICPARAM_NUMBER];
6210 params [n - 1].info.token = i | MONO_TOKEN_GENERIC_PARAM;
6211 params [n - 1].info.flags = cols [MONO_GENERICPARAM_FLAGS];
6212 params [n - 1].info.name = mono_metadata_string_heap (image, cols [MONO_GENERICPARAM_NAME]);
6213 if (params [n - 1].param.num != n - 1)
6214 g_warning ("GenericParam table unsorted or hole in generic param sequence: token %d", i);
6215 if (++i > tdef->rows)
6217 mono_metadata_decode_row (tdef, i - 1, cols, MONO_GENERICPARAM_SIZE);
6218 } while (cols [MONO_GENERICPARAM_OWNER] == owner);
6220 container->type_argc = n;
6221 container->type_params = (MonoGenericParamFull *)mono_image_alloc0 (image, sizeof (MonoGenericParamFull) * n);
6222 memcpy (container->type_params, params, sizeof (MonoGenericParamFull) * n);
6224 container->parent = parent_container;
6226 if (mono_metadata_token_table (token) == MONO_TABLE_METHOD)
6227 container->is_method = 1;
6229 g_assert (container->parent == NULL || container->is_method);
6231 context = &container->context;
6232 if (container->is_method) {
6233 context->class_inst = container->parent ? container->parent->context.class_inst : NULL;
6234 context->method_inst = mono_get_shared_generic_inst (container);
6236 context->class_inst = mono_get_shared_generic_inst (container);
6243 mono_get_shared_generic_inst (MonoGenericContainer *container)
6245 MonoType **type_argv;
6247 MonoGenericInst *nginst;
6250 type_argv = g_new0 (MonoType *, container->type_argc);
6251 helper = g_new0 (MonoType, container->type_argc);
6253 for (i = 0; i < container->type_argc; i++) {
6254 MonoType *t = &helper [i];
6256 t->type = container->is_method ? MONO_TYPE_MVAR : MONO_TYPE_VAR;
6257 t->data.generic_param = mono_generic_container_get_param (container, i);
6262 nginst = mono_metadata_get_generic_inst (container->type_argc, type_argv);
6271 * mono_type_is_byref:
6272 * @type: the MonoType operated on
6274 * Returns: #TRUE if @type represents a type passed by reference,
6278 mono_type_is_byref (MonoType *type)
6284 * mono_type_get_type:
6285 * @type: the MonoType operated on
6287 * Returns: the IL type value for @type. This is one of the MonoTypeEnum
6288 * enum members like MONO_TYPE_I4 or MONO_TYPE_STRING.
6291 mono_type_get_type (MonoType *type)
6297 * mono_type_get_signature:
6298 * @type: the MonoType operated on
6300 * It is only valid to call this function if @type is a MONO_TYPE_FNPTR.
6302 * Returns: the MonoMethodSignature pointer that describes the signature
6303 * of the function pointer @type represents.
6305 MonoMethodSignature*
6306 mono_type_get_signature (MonoType *type)
6308 g_assert (type->type == MONO_TYPE_FNPTR);
6309 return type->data.method;
6313 * mono_type_get_class:
6314 * @type: the MonoType operated on
6316 * It is only valid to call this function if @type is a MONO_TYPE_CLASS or a
6317 * MONO_TYPE_VALUETYPE. For more general functionality, use mono_class_from_mono_type (),
6320 * Returns: the MonoClass pointer that describes the class that @type represents.
6323 mono_type_get_class (MonoType *type)
6325 /* FIXME: review the runtime users before adding the assert here */
6326 return type->data.klass;
6330 * mono_type_get_array_type:
6331 * @type: the MonoType operated on
6333 * It is only valid to call this function if @type is a MONO_TYPE_ARRAY.
6335 * Returns: a MonoArrayType struct describing the array type that @type
6336 * represents. The info includes details such as rank, array element type
6337 * and the sizes and bounds of multidimensional arrays.
6340 mono_type_get_array_type (MonoType *type)
6342 return type->data.array;
6346 * mono_type_get_ptr_type:
6347 * @type: the MonoType operated on
6349 * It is only valid to call this function if @type is a MONO_TYPE_PTR.
6352 * Returns: the MonoType pointer that describes the type that @type
6353 * represents a pointer to.
6356 mono_type_get_ptr_type (MonoType *type)
6358 g_assert (type->type == MONO_TYPE_PTR);
6359 return type->data.type;
6363 mono_type_get_modifiers (MonoType *type, gboolean *is_required, gpointer *iter)
6365 /* FIXME: implement */
6370 * mono_type_is_struct:
6371 * @type: the MonoType operated on
6373 * Returns: #TRUE is @type is a struct, that is a ValueType but not en enum
6374 * or a basic type like System.Int32. #FALSE otherwise.
6377 mono_type_is_struct (MonoType *type)
6379 return (!type->byref && ((type->type == MONO_TYPE_VALUETYPE &&
6380 !type->data.klass->enumtype) || (type->type == MONO_TYPE_TYPEDBYREF) ||
6381 ((type->type == MONO_TYPE_GENERICINST) &&
6382 mono_metadata_generic_class_is_valuetype (type->data.generic_class) &&
6383 !type->data.generic_class->container_class->enumtype)));
6387 * mono_type_is_void:
6388 * @type: the MonoType operated on
6390 * Returns: #TRUE is @type is System.Void. #FALSE otherwise.
6393 mono_type_is_void (MonoType *type)
6395 return (type && (type->type == MONO_TYPE_VOID) && !type->byref);
6399 * mono_type_is_pointer:
6400 * @type: the MonoType operated on
6402 * Returns: #TRUE is @type is a managed or unmanaged pointer type. #FALSE otherwise.
6405 mono_type_is_pointer (MonoType *type)
6407 return (type && ((type->byref || (type->type == MONO_TYPE_I) || type->type == MONO_TYPE_STRING)
6408 || (type->type == MONO_TYPE_SZARRAY) || (type->type == MONO_TYPE_CLASS) ||
6409 (type->type == MONO_TYPE_U) || (type->type == MONO_TYPE_OBJECT) ||
6410 (type->type == MONO_TYPE_ARRAY) || (type->type == MONO_TYPE_PTR) ||
6411 (type->type == MONO_TYPE_FNPTR)));
6415 * mono_type_is_reference:
6416 * @type: the MonoType operated on
6418 * Returns: #TRUE is @type represents an object reference . #FALSE otherwise.
6421 mono_type_is_reference (MonoType *type)
6423 return (type && (((type->type == MONO_TYPE_STRING) ||
6424 (type->type == MONO_TYPE_SZARRAY) || (type->type == MONO_TYPE_CLASS) ||
6425 (type->type == MONO_TYPE_OBJECT) || (type->type == MONO_TYPE_ARRAY)) ||
6426 ((type->type == MONO_TYPE_GENERICINST) &&
6427 !mono_metadata_generic_class_is_valuetype (type->data.generic_class))));
6431 * mono_signature_get_return_type:
6432 * @sig: the method signature inspected
6434 * Returns: the return type of the method signature @sig
6437 mono_signature_get_return_type (MonoMethodSignature *sig)
6443 * mono_signature_get_params:
6444 * @sig: the method signature inspected
6445 * #iter: pointer to an iterator
6447 * Iterates over the parameters for the method signature @sig.
6448 * A void* pointer must be initualized to #NULL to start the iteration
6449 * and it's address is passed to this function repeteadly until it returns
6452 * Returns: the next parameter type of the method signature @sig,
6453 * #NULL when finished.
6456 mono_signature_get_params (MonoMethodSignature *sig, gpointer *iter)
6462 /* start from the first */
6463 if (sig->param_count) {
6464 *iter = &sig->params [0];
6465 return sig->params [0];
6471 type = (MonoType **)*iter;
6473 if (type < &sig->params [sig->param_count]) {
6481 * mono_signature_get_param_count:
6482 * @sig: the method signature inspected
6484 * Returns: the number of parameters in the method signature @sig.
6487 mono_signature_get_param_count (MonoMethodSignature *sig)
6489 return sig->param_count;
6493 * mono_signature_get_call_conv:
6494 * @sig: the method signature inspected
6496 * Returns: the call convention of the method signature @sig.
6499 mono_signature_get_call_conv (MonoMethodSignature *sig)
6501 return sig->call_convention;
6505 * mono_signature_vararg_start:
6506 * @sig: the method signature inspected
6508 * Returns: the number of the first vararg parameter in the
6509 * method signature @sig. -1 if this is not a vararg signature.
6512 mono_signature_vararg_start (MonoMethodSignature *sig)
6514 return sig->sentinelpos;
6518 * mono_signature_is_instance:
6519 * @sig: the method signature inspected
6521 * Returns: #TRUE if this the method signature @sig has an implicit
6522 * first instance argument. #FALSE otherwise.
6525 mono_signature_is_instance (MonoMethodSignature *sig)
6527 return sig->hasthis;
6531 * mono_signature_param_is_out
6532 * @sig: the method signature inspected
6533 * @param_num: the 0-based index of the inspected parameter
6535 * Returns: #TRUE if the parameter is an out parameter, #FALSE
6539 mono_signature_param_is_out (MonoMethodSignature *sig, int param_num)
6541 g_assert (param_num >= 0 && param_num < sig->param_count);
6542 return (sig->params [param_num]->attrs & PARAM_ATTRIBUTE_OUT) != 0;
6546 * mono_signature_explicit_this:
6547 * @sig: the method signature inspected
6549 * Returns: #TRUE if this the method signature @sig has an explicit
6550 * instance argument. #FALSE otherwise.
6553 mono_signature_explicit_this (MonoMethodSignature *sig)
6555 return sig->explicit_this;
6558 /* for use with allocated memory blocks (assumes alignment is to 8 bytes) */
6560 mono_aligned_addr_hash (gconstpointer ptr)
6562 return GPOINTER_TO_UINT (ptr) >> 3;
6566 * If @field belongs to an inflated generic class, return the corresponding field of the
6567 * generic type definition class.
6570 mono_metadata_get_corresponding_field_from_generic_type_definition (MonoClassField *field)
6575 if (!field->parent->generic_class)
6578 gtd = field->parent->generic_class->container_class;
6579 offset = field - field->parent->fields;
6580 return gtd->fields + offset;
6584 * If @event belongs to an inflated generic class, return the corresponding event of the
6585 * generic type definition class.
6588 mono_metadata_get_corresponding_event_from_generic_type_definition (MonoEvent *event)
6593 if (!event->parent->generic_class)
6596 gtd = event->parent->generic_class->container_class;
6597 offset = event - event->parent->ext->events;
6598 return gtd->ext->events + offset;
6602 * If @property belongs to an inflated generic class, return the corresponding property of the
6603 * generic type definition class.
6606 mono_metadata_get_corresponding_property_from_generic_type_definition (MonoProperty *property)
6611 if (!property->parent->generic_class)
6614 gtd = property->parent->generic_class->container_class;
6615 offset = property - property->parent->ext->properties;
6616 return gtd->ext->properties + offset;
6620 mono_method_get_wrapper_cache (MonoMethod *method)
6622 if (method->is_inflated) {
6623 MonoMethodInflated *imethod = (MonoMethodInflated *)method;
6624 return &imethod->owner->wrapper_caches;
6626 return &method->klass->image->wrapper_caches;
6630 // This is support for the mempool reference tracking feature in checked-build, but lives in metadata.c due to use of static variables of this file.
6633 * mono_find_image_set_owner:
6635 * Find the imageset, if any, which a given pointer is located in the memory of.
6638 mono_find_image_set_owner (void *ptr)
6640 MonoImageSet *owner = NULL;
6647 for (i = 0; !owner && i < image_sets->len; ++i) {
6648 MonoImageSet *set = (MonoImageSet *)g_ptr_array_index (image_sets, i);
6649 if (mono_mempool_contains_addr (set->mempool, ptr))
6654 image_sets_unlock ();