2 * image.c: Routines for manipulating an image stored in an
3 * extended PE/COFF file.
6 * Miguel de Icaza (miguel@ximian.com)
7 * Paolo Molaro (lupus@ximian.com)
9 * Copyright 2001-2003 Ximian, Inc (http://www.ximian.com)
10 * Copyright 2004-2009 Novell, Inc (http://www.novell.com)
21 #include "mono-endian.h"
22 #include "tabledefs.h"
23 #include "tokentype.h"
24 #include "metadata-internals.h"
25 #include "profiler-private.h"
29 #include <mono/io-layer/io-layer.h>
30 #include <mono/utils/mono-logger-internals.h>
31 #include <mono/utils/mono-path.h>
32 #include <mono/utils/mono-mmap.h>
33 #include <mono/utils/mono-io-portability.h>
34 #include <mono/utils/atomic.h>
35 #include <mono/metadata/class-internals.h>
36 #include <mono/metadata/assembly.h>
37 #include <mono/metadata/object-internals.h>
38 #include <mono/metadata/security-core-clr.h>
39 #include <mono/metadata/verify-internals.h>
40 #include <mono/metadata/verify.h>
41 #include <mono/metadata/image-internals.h>
42 #include <sys/types.h>
48 #define INVALID_ADDRESS 0xffffffff
50 // Amount initially reserved in each image's mempool.
51 // FIXME: This number is arbitrary, a more practical number should be found
52 #define INITIAL_IMAGE_SIZE 512
55 * The "loaded images" hashes keep track of the various assemblies and netmodules loaded
56 * There are four, for all combinations of [look up by path or assembly name?]
57 * and [normal or reflection-only load?, as in Assembly.ReflectionOnlyLoad]
61 IMAGES_HASH_PATH_REFONLY = 1,
63 IMAGES_HASH_NAME_REFONLY = 3,
66 static GHashTable *loaded_images_hashes [4] = {NULL, NULL, NULL, NULL};
68 static GHashTable *get_loaded_images_hash (gboolean refonly)
70 int idx = refonly ? IMAGES_HASH_PATH_REFONLY : IMAGES_HASH_PATH;
71 return loaded_images_hashes [idx];
74 static GHashTable *get_loaded_images_by_name_hash (gboolean refonly)
76 int idx = refonly ? IMAGES_HASH_NAME_REFONLY : IMAGES_HASH_NAME;
77 return loaded_images_hashes [idx];
80 static gboolean debug_assembly_unload = FALSE;
82 #define mono_images_lock() if (mutex_inited) mono_os_mutex_lock (&images_mutex)
83 #define mono_images_unlock() if (mutex_inited) mono_os_mutex_unlock (&images_mutex)
84 static gboolean mutex_inited;
85 static mono_mutex_t images_mutex;
87 static void install_pe_loader (void);
89 typedef struct ImageUnloadHook ImageUnloadHook;
90 struct ImageUnloadHook {
91 MonoImageUnloadFunc func;
95 static GSList *image_unload_hooks;
98 mono_install_image_unload_hook (MonoImageUnloadFunc func, gpointer user_data)
100 ImageUnloadHook *hook;
102 g_return_if_fail (func != NULL);
104 hook = g_new0 (ImageUnloadHook, 1);
106 hook->user_data = user_data;
107 image_unload_hooks = g_slist_prepend (image_unload_hooks, hook);
111 mono_remove_image_unload_hook (MonoImageUnloadFunc func, gpointer user_data)
114 ImageUnloadHook *hook;
116 for (l = image_unload_hooks; l; l = l->next) {
119 if (hook->func == func && hook->user_data == user_data) {
121 image_unload_hooks = g_slist_delete_link (image_unload_hooks, l);
128 mono_image_invoke_unload_hook (MonoImage *image)
131 ImageUnloadHook *hook;
133 for (l = image_unload_hooks; l; l = l->next) {
136 hook->func (image, hook->user_data);
140 static GSList *image_loaders;
143 mono_install_image_loader (const MonoImageLoader *loader)
145 image_loaders = g_slist_prepend (image_loaders, (MonoImageLoader*)loader);
148 /* returns offset relative to image->raw_data */
150 mono_cli_rva_image_map (MonoImage *image, guint32 addr)
152 MonoCLIImageInfo *iinfo = image->image_info;
153 const int top = iinfo->cli_section_count;
154 MonoSectionTable *tables = iinfo->cli_section_tables;
157 if (image->metadata_only)
160 for (i = 0; i < top; i++){
161 if ((addr >= tables->st_virtual_address) &&
162 (addr < tables->st_virtual_address + tables->st_raw_data_size)){
164 if (image->is_module_handle)
167 return addr - tables->st_virtual_address + tables->st_raw_data_ptr;
171 return INVALID_ADDRESS;
175 * mono_images_rva_map:
176 * @image: a MonoImage
177 * @addr: relative virtual address (RVA)
179 * This is a low-level routine used by the runtime to map relative
180 * virtual address (RVA) into their location in memory.
182 * Returns: the address in memory for the given RVA, or NULL if the
183 * RVA is not valid for this image.
186 mono_image_rva_map (MonoImage *image, guint32 addr)
188 MonoCLIImageInfo *iinfo = image->image_info;
189 const int top = iinfo->cli_section_count;
190 MonoSectionTable *tables = iinfo->cli_section_tables;
194 if (image->is_module_handle) {
195 if (addr && addr < image->raw_data_len)
196 return image->raw_data + addr;
202 for (i = 0; i < top; i++){
203 if ((addr >= tables->st_virtual_address) &&
204 (addr < tables->st_virtual_address + tables->st_raw_data_size)){
205 if (!iinfo->cli_sections [i]) {
206 if (!mono_image_ensure_section_idx (image, i))
209 return (char*)iinfo->cli_sections [i] +
210 (addr - tables->st_virtual_address);
220 * Initialize the global variables used by this module.
223 mono_images_init (void)
225 mono_os_mutex_init_recursive (&images_mutex);
228 for(hash_idx = 0; hash_idx < IMAGES_HASH_COUNT; hash_idx++)
229 loaded_images_hashes [hash_idx] = g_hash_table_new (g_str_hash, g_str_equal);
231 debug_assembly_unload = g_getenv ("MONO_DEBUG_ASSEMBLY_UNLOAD") != NULL;
233 install_pe_loader ();
239 * mono_images_cleanup:
241 * Free all resources used by this module.
244 mono_images_cleanup (void)
249 mono_os_mutex_destroy (&images_mutex);
251 // If an assembly image is still loaded at shutdown, this could indicate managed code is still running.
252 // Reflection-only images being still loaded doesn't indicate anything as harmful, so we don't check for it.
253 g_hash_table_iter_init (&iter, get_loaded_images_hash (FALSE));
254 while (g_hash_table_iter_next (&iter, NULL, (void**)&image))
255 mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Assembly image '%s' still loaded at shutdown.", image->name);
258 for(hash_idx = 0; hash_idx < IMAGES_HASH_COUNT; hash_idx++)
259 g_hash_table_destroy (loaded_images_hashes [hash_idx]);
261 mutex_inited = FALSE;
265 * mono_image_ensure_section_idx:
266 * @image: The image we are operating on
267 * @section: section number that we will load/map into memory
269 * This routine makes sure that we have an in-memory copy of
270 * an image section (.text, .rsrc, .data).
272 * Returns: TRUE on success
275 mono_image_ensure_section_idx (MonoImage *image, int section)
277 MonoCLIImageInfo *iinfo = image->image_info;
278 MonoSectionTable *sect;
280 g_return_val_if_fail (section < iinfo->cli_section_count, FALSE);
282 if (iinfo->cli_sections [section] != NULL)
285 sect = &iinfo->cli_section_tables [section];
287 if (sect->st_raw_data_ptr + sect->st_raw_data_size > image->raw_data_len)
290 if (image->is_module_handle)
291 iinfo->cli_sections [section] = image->raw_data + sect->st_virtual_address;
294 /* FIXME: we ignore the writable flag since we don't patch the binary */
295 iinfo->cli_sections [section] = image->raw_data + sect->st_raw_data_ptr;
300 * mono_image_ensure_section:
301 * @image: The image we are operating on
302 * @section: section name that we will load/map into memory
304 * This routine makes sure that we have an in-memory copy of
305 * an image section (.text, .rsrc, .data).
307 * Returns: TRUE on success
310 mono_image_ensure_section (MonoImage *image, const char *section)
312 MonoCLIImageInfo *ii = image->image_info;
315 for (i = 0; i < ii->cli_section_count; i++){
316 if (strncmp (ii->cli_section_tables [i].st_name, section, 8) != 0)
319 return mono_image_ensure_section_idx (image, i);
325 load_section_tables (MonoImage *image, MonoCLIImageInfo *iinfo, guint32 offset)
327 const int top = iinfo->cli_header.coff.coff_sections;
330 iinfo->cli_section_count = top;
331 iinfo->cli_section_tables = g_new0 (MonoSectionTable, top);
332 iinfo->cli_sections = g_new0 (void *, top);
334 for (i = 0; i < top; i++){
335 MonoSectionTable *t = &iinfo->cli_section_tables [i];
337 if (offset + sizeof (MonoSectionTable) > image->raw_data_len)
339 memcpy (t, image->raw_data + offset, sizeof (MonoSectionTable));
340 offset += sizeof (MonoSectionTable);
342 #if G_BYTE_ORDER != G_LITTLE_ENDIAN
343 t->st_virtual_size = GUINT32_FROM_LE (t->st_virtual_size);
344 t->st_virtual_address = GUINT32_FROM_LE (t->st_virtual_address);
345 t->st_raw_data_size = GUINT32_FROM_LE (t->st_raw_data_size);
346 t->st_raw_data_ptr = GUINT32_FROM_LE (t->st_raw_data_ptr);
347 t->st_reloc_ptr = GUINT32_FROM_LE (t->st_reloc_ptr);
348 t->st_lineno_ptr = GUINT32_FROM_LE (t->st_lineno_ptr);
349 t->st_reloc_count = GUINT16_FROM_LE (t->st_reloc_count);
350 t->st_line_count = GUINT16_FROM_LE (t->st_line_count);
351 t->st_flags = GUINT32_FROM_LE (t->st_flags);
353 /* consistency checks here */
360 mono_image_load_cli_header (MonoImage *image, MonoCLIImageInfo *iinfo)
364 offset = mono_cli_rva_image_map (image, iinfo->cli_header.datadir.pe_cli_header.rva);
365 if (offset == INVALID_ADDRESS)
368 if (offset + sizeof (MonoCLIHeader) > image->raw_data_len)
370 memcpy (&iinfo->cli_cli_header, image->raw_data + offset, sizeof (MonoCLIHeader));
372 #if G_BYTE_ORDER != G_LITTLE_ENDIAN
373 #define SWAP32(x) (x) = GUINT32_FROM_LE ((x))
374 #define SWAP16(x) (x) = GUINT16_FROM_LE ((x))
375 #define SWAPPDE(x) do { (x).rva = GUINT32_FROM_LE ((x).rva); (x).size = GUINT32_FROM_LE ((x).size);} while (0)
376 SWAP32 (iinfo->cli_cli_header.ch_size);
377 SWAP32 (iinfo->cli_cli_header.ch_flags);
378 SWAP32 (iinfo->cli_cli_header.ch_entry_point);
379 SWAP16 (iinfo->cli_cli_header.ch_runtime_major);
380 SWAP16 (iinfo->cli_cli_header.ch_runtime_minor);
381 SWAPPDE (iinfo->cli_cli_header.ch_metadata);
382 SWAPPDE (iinfo->cli_cli_header.ch_resources);
383 SWAPPDE (iinfo->cli_cli_header.ch_strong_name);
384 SWAPPDE (iinfo->cli_cli_header.ch_code_manager_table);
385 SWAPPDE (iinfo->cli_cli_header.ch_vtable_fixups);
386 SWAPPDE (iinfo->cli_cli_header.ch_export_address_table_jumps);
387 SWAPPDE (iinfo->cli_cli_header.ch_eeinfo_table);
388 SWAPPDE (iinfo->cli_cli_header.ch_helper_table);
389 SWAPPDE (iinfo->cli_cli_header.ch_dynamic_info);
390 SWAPPDE (iinfo->cli_cli_header.ch_delay_load_info);
391 SWAPPDE (iinfo->cli_cli_header.ch_module_image);
392 SWAPPDE (iinfo->cli_cli_header.ch_external_fixups);
393 SWAPPDE (iinfo->cli_cli_header.ch_ridmap);
394 SWAPPDE (iinfo->cli_cli_header.ch_debug_map);
395 SWAPPDE (iinfo->cli_cli_header.ch_ip_map);
400 /* Catch new uses of the fields that are supposed to be zero */
402 if ((iinfo->cli_cli_header.ch_eeinfo_table.rva != 0) ||
403 (iinfo->cli_cli_header.ch_helper_table.rva != 0) ||
404 (iinfo->cli_cli_header.ch_dynamic_info.rva != 0) ||
405 (iinfo->cli_cli_header.ch_delay_load_info.rva != 0) ||
406 (iinfo->cli_cli_header.ch_module_image.rva != 0) ||
407 (iinfo->cli_cli_header.ch_external_fixups.rva != 0) ||
408 (iinfo->cli_cli_header.ch_ridmap.rva != 0) ||
409 (iinfo->cli_cli_header.ch_debug_map.rva != 0) ||
410 (iinfo->cli_cli_header.ch_ip_map.rva != 0)){
413 * No need to scare people who are testing this, I am just
414 * labelling this as a LAMESPEC
416 /* g_warning ("Some fields in the CLI header which should have been zero are not zero"); */
424 load_metadata_ptrs (MonoImage *image, MonoCLIImageInfo *iinfo)
426 guint32 offset, size;
432 offset = mono_cli_rva_image_map (image, iinfo->cli_cli_header.ch_metadata.rva);
433 if (offset == INVALID_ADDRESS)
436 size = iinfo->cli_cli_header.ch_metadata.size;
438 if (offset + size > image->raw_data_len)
440 image->raw_metadata = image->raw_data + offset;
442 /* 24.2.1: Metadata root starts here */
443 ptr = image->raw_metadata;
445 if (strncmp (ptr, "BSJB", 4) == 0){
446 guint32 version_string_len;
449 image->md_version_major = read16 (ptr);
451 image->md_version_minor = read16 (ptr);
454 version_string_len = read32 (ptr);
456 image->version = g_strndup (ptr, version_string_len);
457 ptr += version_string_len;
458 pad = ptr - image->raw_metadata;
460 ptr += 4 - (pad % 4);
464 /* skip over flags */
467 streams = read16 (ptr);
470 for (i = 0; i < streams; i++){
471 if (strncmp (ptr + 8, "#~", 3) == 0){
472 image->heap_tables.data = image->raw_metadata + read32 (ptr);
473 image->heap_tables.size = read32 (ptr + 4);
475 } else if (strncmp (ptr + 8, "#Strings", 9) == 0){
476 image->heap_strings.data = image->raw_metadata + read32 (ptr);
477 image->heap_strings.size = read32 (ptr + 4);
479 } else if (strncmp (ptr + 8, "#US", 4) == 0){
480 image->heap_us.data = image->raw_metadata + read32 (ptr);
481 image->heap_us.size = read32 (ptr + 4);
483 } else if (strncmp (ptr + 8, "#Blob", 6) == 0){
484 image->heap_blob.data = image->raw_metadata + read32 (ptr);
485 image->heap_blob.size = read32 (ptr + 4);
487 } else if (strncmp (ptr + 8, "#GUID", 6) == 0){
488 image->heap_guid.data = image->raw_metadata + read32 (ptr);
489 image->heap_guid.size = read32 (ptr + 4);
491 } else if (strncmp (ptr + 8, "#-", 3) == 0) {
492 image->heap_tables.data = image->raw_metadata + read32 (ptr);
493 image->heap_tables.size = read32 (ptr + 4);
495 image->uncompressed_metadata = TRUE;
496 mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Assembly '%s' has the non-standard metadata heap #-.\nRecompile it correctly (without the /incremental switch or in Release mode).\n", image->name);
497 } else if (strncmp (ptr + 8, "#Pdb", 5) == 0) {
498 image->heap_pdb.data = image->raw_metadata + read32 (ptr);
499 image->heap_pdb.size = read32 (ptr + 4);
502 g_message ("Unknown heap type: %s\n", ptr + 8);
503 ptr += 8 + strlen (ptr + 8) + 1;
505 pad = ptr - image->raw_metadata;
507 ptr += 4 - (pad % 4);
510 i = ((MonoImageLoader*)image->loader)->load_tables (image);
511 g_assert (image->heap_guid.data);
512 g_assert (image->heap_guid.size >= 16);
514 image->guid = mono_guid_to_string ((guint8*)image->heap_guid.data);
520 * Load representation of logical metadata tables, from the "#~" stream
523 load_tables (MonoImage *image)
525 const char *heap_tables = image->heap_tables.data;
528 int valid = 0, table;
531 heap_sizes = heap_tables [6];
532 image->idx_string_wide = ((heap_sizes & 0x01) == 1);
533 image->idx_guid_wide = ((heap_sizes & 0x02) == 2);
534 image->idx_blob_wide = ((heap_sizes & 0x04) == 4);
536 valid_mask = read64 (heap_tables + 8);
537 rows = (const guint32 *) (heap_tables + 24);
539 for (table = 0; table < 64; table++){
540 if ((valid_mask & ((guint64) 1 << table)) == 0){
541 if (table > MONO_TABLE_LAST)
543 image->tables [table].rows = 0;
546 if (table > MONO_TABLE_LAST) {
547 g_warning("bits in valid must be zero above 0x37 (II - 23.1.6)");
549 image->tables [table].rows = read32 (rows);
555 image->tables_base = (heap_tables + 24) + (4 * valid);
557 /* They must be the same */
558 g_assert ((const void *) image->tables_base == (const void *) rows);
560 mono_metadata_compute_table_bases (image);
565 mono_image_load_metadata (MonoImage *image, MonoCLIImageInfo *iinfo)
567 if (!load_metadata_ptrs (image, iinfo))
570 return load_tables (image);
574 mono_image_check_for_module_cctor (MonoImage *image)
576 MonoTableInfo *t, *mt;
577 t = &image->tables [MONO_TABLE_TYPEDEF];
578 mt = &image->tables [MONO_TABLE_METHOD];
579 if (image_is_dynamic (image)) {
581 image->checked_module_cctor = TRUE;
585 guint32 nameidx = mono_metadata_decode_row_col (t, 0, MONO_TYPEDEF_NAME);
586 const char *name = mono_metadata_string_heap (image, nameidx);
587 if (strcmp (name, "<Module>") == 0) {
588 guint32 first_method = mono_metadata_decode_row_col (t, 0, MONO_TYPEDEF_METHOD_LIST) - 1;
591 last_method = mono_metadata_decode_row_col (t, 1, MONO_TYPEDEF_METHOD_LIST) - 1;
593 last_method = mt->rows;
594 for (; first_method < last_method; first_method++) {
595 nameidx = mono_metadata_decode_row_col (mt, first_method, MONO_METHOD_NAME);
596 name = mono_metadata_string_heap (image, nameidx);
597 if (strcmp (name, ".cctor") == 0) {
598 image->has_module_cctor = TRUE;
599 image->checked_module_cctor = TRUE;
605 image->has_module_cctor = FALSE;
606 image->checked_module_cctor = TRUE;
610 load_modules (MonoImage *image)
617 t = &image->tables [MONO_TABLE_MODULEREF];
618 image->modules = g_new0 (MonoImage *, t->rows);
619 image->modules_loaded = g_new0 (gboolean, t->rows);
620 image->module_count = t->rows;
624 * mono_image_load_module:
626 * Load the module with the one-based index IDX from IMAGE and return it. Return NULL if
627 * it cannot be loaded.
630 mono_image_load_module (MonoImage *image, int idx)
633 MonoTableInfo *file_table;
636 gboolean refonly = image->ref_only;
637 GList *list_iter, *valid_modules = NULL;
638 MonoImageOpenStatus status;
640 if ((image->module_count == 0) || (idx > image->module_count || idx <= 0))
642 if (image->modules_loaded [idx - 1])
643 return image->modules [idx - 1];
645 file_table = &image->tables [MONO_TABLE_FILE];
646 for (i = 0; i < file_table->rows; i++) {
647 guint32 cols [MONO_FILE_SIZE];
648 mono_metadata_decode_row (file_table, i, cols, MONO_FILE_SIZE);
649 if (cols [MONO_FILE_FLAGS] == FILE_CONTAINS_NO_METADATA)
651 valid_modules = g_list_prepend (valid_modules, (char*)mono_metadata_string_heap (image, cols [MONO_FILE_NAME]));
654 t = &image->tables [MONO_TABLE_MODULEREF];
655 base_dir = g_path_get_dirname (image->name);
660 guint32 cols [MONO_MODULEREF_SIZE];
661 /* if there is no file table, we try to load the module... */
662 int valid = file_table->rows == 0;
664 mono_metadata_decode_row (t, idx - 1, cols, MONO_MODULEREF_SIZE);
665 name = mono_metadata_string_heap (image, cols [MONO_MODULEREF_NAME]);
666 for (list_iter = valid_modules; list_iter; list_iter = list_iter->next) {
667 /* be safe with string dups, but we could just compare string indexes */
668 if (strcmp (list_iter->data, name) == 0) {
674 module_ref = g_build_filename (base_dir, name, NULL);
675 image->modules [idx - 1] = mono_image_open_full (module_ref, &status, refonly);
676 if (image->modules [idx - 1]) {
677 mono_image_addref (image->modules [idx - 1]);
678 image->modules [idx - 1]->assembly = image->assembly;
680 if (image->modules [idx - 1]->is_module_handle)
681 mono_image_fixup_vtable (image->modules [idx - 1]);
683 /* g_print ("loaded module %s from %s (%p)\n", module_ref, image->name, image->assembly); */
689 image->modules_loaded [idx - 1] = TRUE;
692 g_list_free (valid_modules);
694 return image->modules [idx - 1];
698 class_key_extract (gpointer value)
700 MonoClass *klass = value;
702 return GUINT_TO_POINTER (klass->type_token);
706 class_next_value (gpointer value)
708 MonoClass *klass = value;
710 return (gpointer*)&klass->next_class_cache;
714 mono_image_init (MonoImage *image)
716 mono_os_mutex_init_recursive (&image->lock);
717 mono_os_mutex_init_recursive (&image->szarray_cache_lock);
719 image->mempool = mono_mempool_new_size (INITIAL_IMAGE_SIZE);
720 mono_internal_hash_table_init (&image->class_cache,
724 image->field_cache = mono_conc_hashtable_new (NULL, NULL);
726 image->typespec_cache = g_hash_table_new (NULL, NULL);
727 image->memberref_signatures = g_hash_table_new (NULL, NULL);
728 image->helper_signatures = g_hash_table_new (g_str_hash, g_str_equal);
729 image->method_signatures = g_hash_table_new (NULL, NULL);
731 image->property_hash = mono_property_hash_new ();
734 #if G_BYTE_ORDER != G_LITTLE_ENDIAN
735 #define SWAP64(x) (x) = GUINT64_FROM_LE ((x))
736 #define SWAP32(x) (x) = GUINT32_FROM_LE ((x))
737 #define SWAP16(x) (x) = GUINT16_FROM_LE ((x))
738 #define SWAPPDE(x) do { (x).rva = GUINT32_FROM_LE ((x).rva); (x).size = GUINT32_FROM_LE ((x).size);} while (0)
747 * Returns < 0 to indicate an error.
750 do_load_header (MonoImage *image, MonoDotNetHeader *header, int offset)
752 MonoDotNetHeader64 header64;
755 if (!image->is_module_handle)
757 if (offset + sizeof (MonoDotNetHeader32) > image->raw_data_len)
760 memcpy (header, image->raw_data + offset, sizeof (MonoDotNetHeader));
762 if (header->pesig [0] != 'P' || header->pesig [1] != 'E')
765 /* endian swap the fields common between PE and PE+ */
766 SWAP32 (header->coff.coff_time);
767 SWAP32 (header->coff.coff_symptr);
768 SWAP32 (header->coff.coff_symcount);
769 SWAP16 (header->coff.coff_machine);
770 SWAP16 (header->coff.coff_sections);
771 SWAP16 (header->coff.coff_opt_header_size);
772 SWAP16 (header->coff.coff_attributes);
774 SWAP32 (header->pe.pe_code_size);
775 SWAP32 (header->pe.pe_uninit_data_size);
776 SWAP32 (header->pe.pe_rva_entry_point);
777 SWAP32 (header->pe.pe_rva_code_base);
778 SWAP32 (header->pe.pe_rva_data_base);
779 SWAP16 (header->pe.pe_magic);
781 /* now we are ready for the basic tests */
783 if (header->pe.pe_magic == 0x10B) {
784 offset += sizeof (MonoDotNetHeader);
785 SWAP32 (header->pe.pe_data_size);
786 if (header->coff.coff_opt_header_size != (sizeof (MonoDotNetHeader) - sizeof (MonoCOFFHeader) - 4))
789 SWAP32 (header->nt.pe_image_base); /* must be 0x400000 */
790 SWAP32 (header->nt.pe_stack_reserve);
791 SWAP32 (header->nt.pe_stack_commit);
792 SWAP32 (header->nt.pe_heap_reserve);
793 SWAP32 (header->nt.pe_heap_commit);
794 } else if (header->pe.pe_magic == 0x20B) {
795 /* PE32+ file format */
796 if (header->coff.coff_opt_header_size != (sizeof (MonoDotNetHeader64) - sizeof (MonoCOFFHeader) - 4))
798 memcpy (&header64, image->raw_data + offset, sizeof (MonoDotNetHeader64));
799 offset += sizeof (MonoDotNetHeader64);
800 /* copy the fields already swapped. the last field, pe_data_size, is missing */
801 memcpy (&header64, header, sizeof (MonoDotNetHeader) - 4);
802 /* FIXME: we lose bits here, but we don't use this stuff internally, so we don't care much.
803 * will be fixed when we change MonoDotNetHeader to not match the 32 bit variant
805 SWAP64 (header64.nt.pe_image_base);
806 header->nt.pe_image_base = header64.nt.pe_image_base;
807 SWAP64 (header64.nt.pe_stack_reserve);
808 header->nt.pe_stack_reserve = header64.nt.pe_stack_reserve;
809 SWAP64 (header64.nt.pe_stack_commit);
810 header->nt.pe_stack_commit = header64.nt.pe_stack_commit;
811 SWAP64 (header64.nt.pe_heap_reserve);
812 header->nt.pe_heap_reserve = header64.nt.pe_heap_reserve;
813 SWAP64 (header64.nt.pe_heap_commit);
814 header->nt.pe_heap_commit = header64.nt.pe_heap_commit;
816 header->nt.pe_section_align = header64.nt.pe_section_align;
817 header->nt.pe_file_alignment = header64.nt.pe_file_alignment;
818 header->nt.pe_os_major = header64.nt.pe_os_major;
819 header->nt.pe_os_minor = header64.nt.pe_os_minor;
820 header->nt.pe_user_major = header64.nt.pe_user_major;
821 header->nt.pe_user_minor = header64.nt.pe_user_minor;
822 header->nt.pe_subsys_major = header64.nt.pe_subsys_major;
823 header->nt.pe_subsys_minor = header64.nt.pe_subsys_minor;
824 header->nt.pe_reserved_1 = header64.nt.pe_reserved_1;
825 header->nt.pe_image_size = header64.nt.pe_image_size;
826 header->nt.pe_header_size = header64.nt.pe_header_size;
827 header->nt.pe_checksum = header64.nt.pe_checksum;
828 header->nt.pe_subsys_required = header64.nt.pe_subsys_required;
829 header->nt.pe_dll_flags = header64.nt.pe_dll_flags;
830 header->nt.pe_loader_flags = header64.nt.pe_loader_flags;
831 header->nt.pe_data_dir_count = header64.nt.pe_data_dir_count;
833 /* copy the datadir */
834 memcpy (&header->datadir, &header64.datadir, sizeof (MonoPEDatadir));
839 /* MonoPEHeaderNT: not used yet */
840 SWAP32 (header->nt.pe_section_align); /* must be 8192 */
841 SWAP32 (header->nt.pe_file_alignment); /* must be 512 or 4096 */
842 SWAP16 (header->nt.pe_os_major); /* must be 4 */
843 SWAP16 (header->nt.pe_os_minor); /* must be 0 */
844 SWAP16 (header->nt.pe_user_major);
845 SWAP16 (header->nt.pe_user_minor);
846 SWAP16 (header->nt.pe_subsys_major);
847 SWAP16 (header->nt.pe_subsys_minor);
848 SWAP32 (header->nt.pe_reserved_1);
849 SWAP32 (header->nt.pe_image_size);
850 SWAP32 (header->nt.pe_header_size);
851 SWAP32 (header->nt.pe_checksum);
852 SWAP16 (header->nt.pe_subsys_required);
853 SWAP16 (header->nt.pe_dll_flags);
854 SWAP32 (header->nt.pe_loader_flags);
855 SWAP32 (header->nt.pe_data_dir_count);
857 /* MonoDotNetHeader: mostly unused */
858 SWAPPDE (header->datadir.pe_export_table);
859 SWAPPDE (header->datadir.pe_import_table);
860 SWAPPDE (header->datadir.pe_resource_table);
861 SWAPPDE (header->datadir.pe_exception_table);
862 SWAPPDE (header->datadir.pe_certificate_table);
863 SWAPPDE (header->datadir.pe_reloc_table);
864 SWAPPDE (header->datadir.pe_debug);
865 SWAPPDE (header->datadir.pe_copyright);
866 SWAPPDE (header->datadir.pe_global_ptr);
867 SWAPPDE (header->datadir.pe_tls_table);
868 SWAPPDE (header->datadir.pe_load_config_table);
869 SWAPPDE (header->datadir.pe_bound_import);
870 SWAPPDE (header->datadir.pe_iat);
871 SWAPPDE (header->datadir.pe_delay_import_desc);
872 SWAPPDE (header->datadir.pe_cli_header);
873 SWAPPDE (header->datadir.pe_reserved);
876 if (image->is_module_handle)
877 image->raw_data_len = header->nt.pe_image_size;
884 mono_image_load_pe_data (MonoImage *image)
886 return ((MonoImageLoader*)image->loader)->load_pe_data (image);
890 pe_image_load_pe_data (MonoImage *image)
892 MonoCLIImageInfo *iinfo;
893 MonoDotNetHeader *header;
894 MonoMSDOSHeader msdos;
897 iinfo = image->image_info;
898 header = &iinfo->cli_header;
901 if (!image->is_module_handle)
903 if (offset + sizeof (msdos) > image->raw_data_len)
905 memcpy (&msdos, image->raw_data + offset, sizeof (msdos));
907 if (!(msdos.msdos_sig [0] == 'M' && msdos.msdos_sig [1] == 'Z'))
910 msdos.pe_offset = GUINT32_FROM_LE (msdos.pe_offset);
912 offset = msdos.pe_offset;
914 offset = do_load_header (image, header, offset);
919 * this tests for a x86 machine type, but itanium, amd64 and others could be used, too.
921 if (header->coff.coff_machine != 0x14c)
927 * The spec says that this field should contain 6.0, but Visual Studio includes a new compiler,
928 * which produces binaries with 7.0. From Sergey:
930 * The reason is that MSVC7 uses traditional compile/link
931 * sequence for CIL executables, and VS.NET (and Framework
932 * SDK) includes linker version 7, that puts 7.0 in this
933 * field. That's why it's currently not possible to load VC
934 * binaries with Mono. This field is pretty much meaningless
935 * anyway (what linker?).
937 if (header->pe.pe_major != 6 || header->pe.pe_minor != 0)
942 * FIXME: byte swap all addresses here for header.
945 if (!load_section_tables (image, iinfo, offset))
955 mono_image_load_cli_data (MonoImage *image)
957 return ((MonoImageLoader*)image->loader)->load_cli_data (image);
961 pe_image_load_cli_data (MonoImage *image)
963 MonoCLIImageInfo *iinfo;
964 MonoDotNetHeader *header;
966 iinfo = image->image_info;
967 header = &iinfo->cli_header;
969 /* Load the CLI header */
970 if (!mono_image_load_cli_header (image, iinfo))
973 if (!mono_image_load_metadata (image, iinfo))
980 mono_image_load_names (MonoImage *image)
982 /* modules don't have an assembly table row */
983 if (image->tables [MONO_TABLE_ASSEMBLY].rows) {
984 image->assembly_name = mono_metadata_string_heap (image,
985 mono_metadata_decode_row_col (&image->tables [MONO_TABLE_ASSEMBLY],
986 0, MONO_ASSEMBLY_NAME));
989 /* Portable pdb images don't have a MODULE row */
990 if (image->tables [MONO_TABLE_MODULE].rows) {
991 image->module_name = mono_metadata_string_heap (image,
992 mono_metadata_decode_row_col (&image->tables [MONO_TABLE_MODULE],
993 0, MONO_MODULE_NAME));
998 pe_image_load_tables (MonoImage *image)
1004 pe_image_match (MonoImage *image)
1006 if (image->raw_data [0] == 'M' && image->raw_data [1] == 'Z')
1011 static const MonoImageLoader pe_loader = {
1013 pe_image_load_pe_data,
1014 pe_image_load_cli_data,
1015 pe_image_load_tables,
1019 install_pe_loader (void)
1021 mono_install_image_loader (&pe_loader);
1025 do_mono_image_load (MonoImage *image, MonoImageOpenStatus *status,
1026 gboolean care_about_cli, gboolean care_about_pecoff)
1028 MonoCLIImageInfo *iinfo;
1029 MonoDotNetHeader *header;
1030 GSList *errors = NULL;
1033 mono_profiler_module_event (image, MONO_PROFILE_START_LOAD);
1035 mono_image_init (image);
1037 iinfo = image->image_info;
1038 header = &iinfo->cli_header;
1040 if (!image->metadata_only) {
1041 for (l = image_loaders; l; l = l->next) {
1042 MonoImageLoader *loader = l->data;
1043 if (loader->match (image)) {
1044 image->loader = loader;
1048 if (!image->loader) {
1049 *status = MONO_IMAGE_IMAGE_INVALID;
1054 *status = MONO_IMAGE_IMAGE_INVALID;
1056 if (care_about_pecoff == FALSE)
1059 if (image->loader == &pe_loader && !mono_verifier_verify_pe_data (image, &errors))
1062 if (!mono_image_load_pe_data (image))
1065 image->loader = (MonoImageLoader*)&pe_loader;
1068 if (care_about_cli == FALSE) {
1072 if (image->loader == &pe_loader && !mono_verifier_verify_cli_data (image, &errors))
1075 if (!mono_image_load_cli_data (image))
1078 if (image->loader == &pe_loader && !mono_verifier_verify_table_data (image, &errors))
1081 mono_image_load_names (image);
1083 load_modules (image);
1086 mono_profiler_module_loaded (image, MONO_PROFILE_OK);
1088 *status = MONO_IMAGE_OK;
1094 MonoVerifyInfo *info = errors->data;
1095 g_warning ("Could not load image %s due to %s", image->name, info->message);
1096 mono_free_verify_list (errors);
1098 mono_profiler_module_loaded (image, MONO_PROFILE_FAILED);
1099 mono_image_close (image);
1104 do_mono_image_open (const char *fname, MonoImageOpenStatus *status,
1105 gboolean care_about_cli, gboolean care_about_pecoff, gboolean refonly, gboolean metadata_only)
1107 MonoCLIImageInfo *iinfo;
1111 if ((filed = mono_file_map_open (fname)) == NULL){
1112 if (IS_PORTABILITY_SET) {
1113 gchar *ffname = mono_portability_find_file (fname, TRUE);
1115 filed = mono_file_map_open (ffname);
1120 if (filed == NULL) {
1122 *status = MONO_IMAGE_ERROR_ERRNO;
1127 image = g_new0 (MonoImage, 1);
1128 image->raw_buffer_used = TRUE;
1129 image->raw_data_len = mono_file_map_size (filed);
1130 image->raw_data = mono_file_map (image->raw_data_len, MONO_MMAP_READ|MONO_MMAP_PRIVATE, mono_file_map_fd (filed), 0, &image->raw_data_handle);
1131 #if defined(HAVE_MMAP) && !defined (HOST_WIN32)
1132 if (!image->raw_data) {
1133 image->fileio_used = TRUE;
1134 image->raw_data = mono_file_map_fileio (image->raw_data_len, MONO_MMAP_READ|MONO_MMAP_PRIVATE, mono_file_map_fd (filed), 0, &image->raw_data_handle);
1137 if (!image->raw_data) {
1138 mono_file_map_close (filed);
1141 *status = MONO_IMAGE_IMAGE_INVALID;
1144 iinfo = g_new0 (MonoCLIImageInfo, 1);
1145 image->image_info = iinfo;
1146 image->name = mono_path_resolve_symlinks (fname);
1147 image->ref_only = refonly;
1148 image->metadata_only = metadata_only;
1149 image->ref_count = 1;
1150 /* if MONO_SECURITY_MODE_CORE_CLR is set then determine if this image is platform code */
1151 image->core_clr_platform_code = mono_security_core_clr_determine_platform_image (image);
1153 mono_file_map_close (filed);
1154 return do_mono_image_load (image, status, care_about_cli, care_about_pecoff);
1158 * mono_image_loaded:
1159 * @name: path or assembly name of the image to load
1160 * @refonly: Check with respect to reflection-only loads?
1162 * This routine verifies that the given image is loaded.
1163 * It checks either reflection-only loads only, or normal loads only, as specified by parameter.
1165 * Returns: the loaded MonoImage, or NULL on failure.
1168 mono_image_loaded_full (const char *name, gboolean refonly)
1172 mono_images_lock ();
1173 res = g_hash_table_lookup (get_loaded_images_hash (refonly), name);
1175 res = g_hash_table_lookup (get_loaded_images_by_name_hash (refonly), name);
1176 mono_images_unlock ();
1182 * mono_image_loaded:
1183 * @name: path or assembly name of the image to load
1185 * This routine verifies that the given image is loaded. Reflection-only loads do not count.
1187 * Returns: the loaded MonoImage, or NULL on failure.
1190 mono_image_loaded (const char *name)
1192 return mono_image_loaded_full (name, FALSE);
1201 find_by_guid (gpointer key, gpointer val, gpointer user_data)
1203 GuidData *data = user_data;
1209 if (strcmp (data->guid, mono_image_get_guid (image)) == 0)
1214 mono_image_loaded_by_guid_full (const char *guid, gboolean refonly)
1217 GHashTable *loaded_images = get_loaded_images_hash (refonly);
1221 mono_images_lock ();
1222 g_hash_table_foreach (loaded_images, find_by_guid, &data);
1223 mono_images_unlock ();
1228 mono_image_loaded_by_guid (const char *guid)
1230 return mono_image_loaded_by_guid_full (guid, FALSE);
1234 register_image (MonoImage *image)
1237 GHashTable *loaded_images = get_loaded_images_hash (image->ref_only);
1239 mono_images_lock ();
1240 image2 = g_hash_table_lookup (loaded_images, image->name);
1243 /* Somebody else beat us to it */
1244 mono_image_addref (image2);
1245 mono_images_unlock ();
1246 mono_image_close (image);
1250 GHashTable *loaded_images_by_name = get_loaded_images_by_name_hash (image->ref_only);
1251 g_hash_table_insert (loaded_images, image->name, image);
1252 if (image->assembly_name && (g_hash_table_lookup (loaded_images_by_name, image->assembly_name) == NULL))
1253 g_hash_table_insert (loaded_images_by_name, (char *) image->assembly_name, image);
1254 mono_images_unlock ();
1260 mono_image_open_from_data_internal (char *data, guint32 data_len, gboolean need_copy, MonoImageOpenStatus *status, gboolean refonly, gboolean metadata_only, const char *name)
1262 MonoCLIImageInfo *iinfo;
1266 if (!data || !data_len) {
1268 *status = MONO_IMAGE_IMAGE_INVALID;
1273 datac = g_try_malloc (data_len);
1276 *status = MONO_IMAGE_ERROR_ERRNO;
1279 memcpy (datac, data, data_len);
1282 image = g_new0 (MonoImage, 1);
1283 image->raw_data = datac;
1284 image->raw_data_len = data_len;
1285 image->raw_data_allocated = need_copy;
1286 image->name = (name == NULL) ? g_strdup_printf ("data-%p", datac) : g_strdup(name);
1287 iinfo = g_new0 (MonoCLIImageInfo, 1);
1288 image->image_info = iinfo;
1289 image->ref_only = refonly;
1290 image->metadata_only = metadata_only;
1292 image = do_mono_image_load (image, status, TRUE, TRUE);
1296 return register_image (image);
1300 mono_image_open_from_data_with_name (char *data, guint32 data_len, gboolean need_copy, MonoImageOpenStatus *status, gboolean refonly, const char *name)
1302 return mono_image_open_from_data_internal (data, data_len, need_copy, status, refonly, FALSE, name);
1306 mono_image_open_from_data_full (char *data, guint32 data_len, gboolean need_copy, MonoImageOpenStatus *status, gboolean refonly)
1308 return mono_image_open_from_data_with_name (data, data_len, need_copy, status, refonly, NULL);
1312 mono_image_open_from_data (char *data, guint32 data_len, gboolean need_copy, MonoImageOpenStatus *status)
1314 return mono_image_open_from_data_full (data, data_len, need_copy, status, FALSE);
1318 /* fname is not duplicated. */
1320 mono_image_open_from_module_handle (HMODULE module_handle, char* fname, gboolean has_entry_point, MonoImageOpenStatus* status)
1323 MonoCLIImageInfo* iinfo;
1325 image = g_new0 (MonoImage, 1);
1326 image->raw_data = (char*) module_handle;
1327 image->is_module_handle = TRUE;
1328 iinfo = g_new0 (MonoCLIImageInfo, 1);
1329 image->image_info = iinfo;
1330 image->name = fname;
1331 image->ref_count = has_entry_point ? 0 : 1;
1332 image->has_entry_point = has_entry_point;
1334 image = do_mono_image_load (image, status, TRUE, TRUE);
1338 return register_image (image);
1343 mono_image_open_full (const char *fname, MonoImageOpenStatus *status, gboolean refonly)
1346 GHashTable *loaded_images = get_loaded_images_hash (refonly);
1349 g_return_val_if_fail (fname != NULL, NULL);
1352 // Win32 path: If we are running with mixed-mode assemblies enabled (ie have loaded mscoree.dll),
1353 // then assemblies need to be loaded with LoadLibrary:
1354 if (!refonly && coree_module_handle) {
1355 HMODULE module_handle;
1356 guint16 *fname_utf16;
1359 absfname = mono_path_resolve_symlinks (fname);
1362 /* There is little overhead because the OS loader lock is held by LoadLibrary. */
1363 mono_images_lock ();
1364 image = g_hash_table_lookup (loaded_images, absfname);
1365 if (image) { // Image already loaded
1366 g_assert (image->is_module_handle);
1367 if (image->has_entry_point && image->ref_count == 0) {
1368 /* Increment reference count on images loaded outside of the runtime. */
1369 fname_utf16 = g_utf8_to_utf16 (absfname, -1, NULL, NULL, NULL);
1370 /* The image is already loaded because _CorDllMain removes images from the hash. */
1371 module_handle = LoadLibrary (fname_utf16);
1372 g_assert (module_handle == (HMODULE) image->raw_data);
1374 mono_image_addref (image);
1375 mono_images_unlock ();
1377 g_free (fname_utf16);
1382 // Image not loaded, load it now
1383 fname_utf16 = g_utf8_to_utf16 (absfname, -1, NULL, NULL, NULL);
1384 module_handle = MonoLoadImage (fname_utf16);
1385 if (status && module_handle == NULL)
1386 last_error = GetLastError ();
1388 /* mono_image_open_from_module_handle is called by _CorDllMain. */
1389 image = g_hash_table_lookup (loaded_images, absfname);
1391 mono_image_addref (image);
1392 mono_images_unlock ();
1394 g_free (fname_utf16);
1396 if (module_handle == NULL) {
1400 if (last_error == ERROR_BAD_EXE_FORMAT || last_error == STATUS_INVALID_IMAGE_FORMAT)
1401 *status = MONO_IMAGE_IMAGE_INVALID;
1403 if (last_error == ERROR_FILE_NOT_FOUND || last_error == ERROR_PATH_NOT_FOUND)
1413 g_assert (image->is_module_handle);
1414 g_assert (image->has_entry_point);
1419 return mono_image_open_from_module_handle (module_handle, absfname, FALSE, status);
1423 absfname = mono_path_canonicalize (fname);
1426 * The easiest solution would be to do all the loading inside the mutex,
1427 * but that would lead to scalability problems. So we let the loading
1428 * happen outside the mutex, and if multiple threads happen to load
1429 * the same image, we discard all but the first copy.
1431 mono_images_lock ();
1432 image = g_hash_table_lookup (loaded_images, absfname);
1435 if (image) { // Image already loaded
1436 mono_image_addref (image);
1437 mono_images_unlock ();
1440 mono_images_unlock ();
1442 // Image not loaded, load it now
1443 image = do_mono_image_open (fname, status, TRUE, TRUE, refonly, FALSE);
1447 return register_image (image);
1452 * @fname: filename that points to the module we want to open
1453 * @status: An error condition is returned in this field
1455 * Returns: An open image of type %MonoImage or NULL on error.
1456 * The caller holds a temporary reference to the returned image which should be cleared
1457 * when no longer needed by calling mono_image_close ().
1458 * if NULL, then check the value of @status for details on the error
1461 mono_image_open (const char *fname, MonoImageOpenStatus *status)
1463 return mono_image_open_full (fname, status, FALSE);
1467 * mono_pe_file_open:
1468 * @fname: filename that points to the module we want to open
1469 * @status: An error condition is returned in this field
1471 * Returns: An open image of type %MonoImage or NULL on error. if
1472 * NULL, then check the value of @status for details on the error.
1473 * This variant for mono_image_open DOES NOT SET UP CLI METADATA.
1474 * It's just a PE file loader, used for FileVersionInfo. It also does
1475 * not use the image cache.
1478 mono_pe_file_open (const char *fname, MonoImageOpenStatus *status)
1480 g_return_val_if_fail (fname != NULL, NULL);
1482 return do_mono_image_open (fname, status, FALSE, TRUE, FALSE, FALSE);
1486 * mono_image_open_raw
1487 * @fname: filename that points to the module we want to open
1488 * @status: An error condition is returned in this field
1490 * Returns an image without loading neither pe or cli data.
1492 * Use mono_image_load_pe_data and mono_image_load_cli_data to load them.
1495 mono_image_open_raw (const char *fname, MonoImageOpenStatus *status)
1497 g_return_val_if_fail (fname != NULL, NULL);
1499 return do_mono_image_open (fname, status, FALSE, FALSE, FALSE, FALSE);
1503 * mono_image_open_metadata_only:
1505 * Open an image which contains metadata only without a PE header.
1508 mono_image_open_metadata_only (const char *fname, MonoImageOpenStatus *status)
1510 return do_mono_image_open (fname, status, TRUE, TRUE, FALSE, TRUE);
1514 mono_image_fixup_vtable (MonoImage *image)
1517 MonoCLIImageInfo *iinfo;
1519 MonoVTableFixup *vtfixup;
1525 g_assert (image->is_module_handle);
1527 iinfo = image->image_info;
1528 de = &iinfo->cli_cli_header.ch_vtable_fixups;
1529 if (!de->rva || !de->size)
1531 vtfixup = (MonoVTableFixup*) mono_image_rva_map (image, de->rva);
1535 count = de->size / sizeof (MonoVTableFixup);
1537 if (!vtfixup->rva || !vtfixup->count)
1540 slot = mono_image_rva_map (image, vtfixup->rva);
1542 slot_type = vtfixup->type;
1543 slot_count = vtfixup->count;
1544 if (slot_type & VTFIXUP_TYPE_32BIT)
1545 while (slot_count--) {
1546 *((guint32*) slot) = (guint32) mono_marshal_get_vtfixup_ftnptr (image, *((guint32*) slot), slot_type);
1547 slot = ((guint32*) slot) + 1;
1549 else if (slot_type & VTFIXUP_TYPE_64BIT)
1550 while (slot_count--) {
1551 *((guint64*) slot) = (guint64) mono_marshal_get_vtfixup_ftnptr (image, *((guint64*) slot), slot_type);
1552 slot = ((guint32*) slot) + 1;
1555 g_assert_not_reached();
1560 g_assert_not_reached();
1565 free_hash_table (gpointer key, gpointer val, gpointer user_data)
1567 g_hash_table_destroy ((GHashTable*)val);
1572 free_mr_signatures (gpointer key, gpointer val, gpointer user_data)
1574 mono_metadata_free_method_signature ((MonoMethodSignature*)val);
1579 free_array_cache_entry (gpointer key, gpointer val, gpointer user_data)
1581 g_slist_free ((GSList*)val);
1585 * mono_image_addref:
1586 * @image: The image file we wish to add a reference to
1588 * Increases the reference count of an image.
1591 mono_image_addref (MonoImage *image)
1593 InterlockedIncrement (&image->ref_count);
1597 mono_dynamic_stream_reset (MonoDynamicStream* stream)
1599 stream->alloc_size = stream->index = stream->offset = 0;
1600 g_free (stream->data);
1601 stream->data = NULL;
1603 g_hash_table_destroy (stream->hash);
1604 stream->hash = NULL;
1609 free_hash (GHashTable *hash)
1612 g_hash_table_destroy (hash);
1616 mono_wrapper_caches_free (MonoWrapperCaches *cache)
1618 free_hash (cache->delegate_invoke_cache);
1619 free_hash (cache->delegate_begin_invoke_cache);
1620 free_hash (cache->delegate_end_invoke_cache);
1621 free_hash (cache->runtime_invoke_cache);
1622 free_hash (cache->runtime_invoke_vtype_cache);
1624 free_hash (cache->delegate_abstract_invoke_cache);
1626 free_hash (cache->runtime_invoke_direct_cache);
1627 free_hash (cache->managed_wrapper_cache);
1629 free_hash (cache->native_wrapper_cache);
1630 free_hash (cache->native_wrapper_aot_cache);
1631 free_hash (cache->native_wrapper_check_cache);
1632 free_hash (cache->native_wrapper_aot_check_cache);
1634 free_hash (cache->native_func_wrapper_aot_cache);
1635 free_hash (cache->remoting_invoke_cache);
1636 free_hash (cache->synchronized_cache);
1637 free_hash (cache->unbox_wrapper_cache);
1638 free_hash (cache->cominterop_invoke_cache);
1639 free_hash (cache->cominterop_wrapper_cache);
1640 free_hash (cache->thunk_invoke_cache);
1644 * Returns whether mono_image_close_finish() must be called as well.
1645 * We must unload images in two steps because clearing the domain in
1646 * SGen requires the class metadata to be intact, but we need to free
1647 * the mono_g_hash_tables in case a collection occurs during domain
1648 * unloading and the roots would trip up the GC.
1651 mono_image_close_except_pools (MonoImage *image)
1654 GHashTable *loaded_images, *loaded_images_by_name;
1657 g_return_val_if_fail (image != NULL, FALSE);
1660 * Atomically decrement the refcount and remove ourselves from the hash tables, so
1661 * register_image () can't grab an image which is being closed.
1663 mono_images_lock ();
1665 if (InterlockedDecrement (&image->ref_count) > 0) {
1666 mono_images_unlock ();
1670 loaded_images = get_loaded_images_hash (image->ref_only);
1671 loaded_images_by_name = get_loaded_images_by_name_hash (image->ref_only);
1672 image2 = g_hash_table_lookup (loaded_images, image->name);
1673 if (image == image2) {
1674 /* This is not true if we are called from mono_image_open () */
1675 g_hash_table_remove (loaded_images, image->name);
1677 if (image->assembly_name && (g_hash_table_lookup (loaded_images_by_name, image->assembly_name) == image))
1678 g_hash_table_remove (loaded_images_by_name, (char *) image->assembly_name);
1680 mono_images_unlock ();
1683 if (image->is_module_handle && image->has_entry_point) {
1684 mono_images_lock ();
1685 if (image->ref_count == 0) {
1686 /* Image will be closed by _CorDllMain. */
1687 FreeLibrary ((HMODULE) image->raw_data);
1688 mono_images_unlock ();
1691 mono_images_unlock ();
1695 mono_profiler_module_event (image, MONO_PROFILE_START_UNLOAD);
1697 mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Unloading image %s [%p].", image->name, image);
1699 mono_image_invoke_unload_hook (image);
1701 mono_metadata_clean_for_image (image);
1704 * The caches inside a MonoImage might refer to metadata which is stored in referenced
1705 * assemblies, so we can't release these references in mono_assembly_close () since the
1706 * MonoImage might outlive its associated MonoAssembly.
1708 if (image->references && !image_is_dynamic (image)) {
1709 for (i = 0; i < image->nreferences; i++) {
1710 if (image->references [i] && image->references [i] != REFERENCE_MISSING) {
1711 if (!mono_assembly_close_except_image_pools (image->references [i]))
1712 image->references [i] = NULL;
1716 if (image->references) {
1717 g_free (image->references);
1718 image->references = NULL;
1723 mono_images_lock ();
1724 if (image->is_module_handle && !image->has_entry_point)
1725 FreeLibrary ((HMODULE) image->raw_data);
1726 mono_images_unlock ();
1729 if (image->raw_buffer_used) {
1730 if (image->raw_data != NULL) {
1732 if (image->fileio_used)
1733 mono_file_unmap_fileio (image->raw_data, image->raw_data_handle);
1736 mono_file_unmap (image->raw_data, image->raw_data_handle);
1740 if (image->raw_data_allocated) {
1741 /* FIXME: do we need this? (image is disposed anyway) */
1742 /* image->raw_metadata and cli_sections might lie inside image->raw_data */
1743 MonoCLIImageInfo *ii = image->image_info;
1745 if ((image->raw_metadata > image->raw_data) &&
1746 (image->raw_metadata <= (image->raw_data + image->raw_data_len)))
1747 image->raw_metadata = NULL;
1749 for (i = 0; i < ii->cli_section_count; i++)
1750 if (((char*)(ii->cli_sections [i]) > image->raw_data) &&
1751 ((char*)(ii->cli_sections [i]) <= ((char*)image->raw_data + image->raw_data_len)))
1752 ii->cli_sections [i] = NULL;
1754 g_free (image->raw_data);
1757 if (debug_assembly_unload) {
1758 image->name = g_strdup_printf ("%s - UNLOADED", image->name);
1760 g_free (image->name);
1761 g_free (image->guid);
1762 g_free (image->version);
1763 g_free (image->files);
1766 if (image->method_cache)
1767 g_hash_table_destroy (image->method_cache);
1768 if (image->methodref_cache)
1769 g_hash_table_destroy (image->methodref_cache);
1770 mono_internal_hash_table_destroy (&image->class_cache);
1771 mono_conc_hashtable_destroy (image->field_cache);
1772 if (image->array_cache) {
1773 g_hash_table_foreach (image->array_cache, free_array_cache_entry, NULL);
1774 g_hash_table_destroy (image->array_cache);
1776 if (image->szarray_cache)
1777 g_hash_table_destroy (image->szarray_cache);
1778 if (image->ptr_cache)
1779 g_hash_table_destroy (image->ptr_cache);
1780 if (image->name_cache) {
1781 g_hash_table_foreach (image->name_cache, free_hash_table, NULL);
1782 g_hash_table_destroy (image->name_cache);
1785 free_hash (image->delegate_bound_static_invoke_cache);
1786 free_hash (image->runtime_invoke_vcall_cache);
1787 free_hash (image->ldfld_wrapper_cache);
1788 free_hash (image->ldflda_wrapper_cache);
1789 free_hash (image->stfld_wrapper_cache);
1790 free_hash (image->isinst_cache);
1791 free_hash (image->castclass_cache);
1792 free_hash (image->proxy_isinst_cache);
1793 free_hash (image->var_cache_slow);
1794 free_hash (image->mvar_cache_slow);
1795 free_hash (image->var_cache_constrained);
1796 free_hash (image->mvar_cache_constrained);
1797 free_hash (image->wrapper_param_names);
1798 free_hash (image->pinvoke_scopes);
1799 free_hash (image->pinvoke_scope_filenames);
1800 free_hash (image->native_func_wrapper_cache);
1801 free_hash (image->typespec_cache);
1803 mono_wrapper_caches_free (&image->wrapper_caches);
1805 for (i = 0; i < image->gshared_types_len; ++i)
1806 free_hash (image->gshared_types [i]);
1807 g_free (image->gshared_types);
1809 /* The ownership of signatures is not well defined */
1810 g_hash_table_destroy (image->memberref_signatures);
1811 g_hash_table_destroy (image->helper_signatures);
1812 g_hash_table_destroy (image->method_signatures);
1814 if (image->rgctx_template_hash)
1815 g_hash_table_destroy (image->rgctx_template_hash);
1817 if (image->property_hash)
1818 mono_property_hash_destroy (image->property_hash);
1821 reflection_info_unregister_classes is only required by dynamic images, which will not be properly
1822 cleared during shutdown as we don't perform regular appdomain unload for the root one.
1824 g_assert (!image->reflection_info_unregister_classes || mono_runtime_is_shutting_down ());
1825 image->reflection_info_unregister_classes = NULL;
1827 if (image->interface_bitset) {
1828 mono_unload_interface_ids (image->interface_bitset);
1829 mono_bitset_free (image->interface_bitset);
1831 if (image->image_info){
1832 MonoCLIImageInfo *ii = image->image_info;
1834 if (ii->cli_section_tables)
1835 g_free (ii->cli_section_tables);
1836 if (ii->cli_sections)
1837 g_free (ii->cli_sections);
1838 g_free (image->image_info);
1841 for (i = 0; i < image->module_count; ++i) {
1842 if (image->modules [i]) {
1843 if (!mono_image_close_except_pools (image->modules [i]))
1844 image->modules [i] = NULL;
1847 if (image->modules_loaded)
1848 g_free (image->modules_loaded);
1850 mono_os_mutex_destroy (&image->szarray_cache_lock);
1851 mono_os_mutex_destroy (&image->lock);
1853 /*g_print ("destroy image %p (dynamic: %d)\n", image, image->dynamic);*/
1854 if (image_is_dynamic (image)) {
1855 /* Dynamic images are GC_MALLOCed */
1856 g_free ((char*)image->module_name);
1857 mono_dynamic_image_free ((MonoDynamicImage*)image);
1860 mono_profiler_module_event (image, MONO_PROFILE_END_UNLOAD);
1866 mono_image_close_finish (MonoImage *image)
1870 if (image->references && !image_is_dynamic (image)) {
1871 for (i = 0; i < image->nreferences; i++) {
1872 if (image->references [i] && image->references [i] != REFERENCE_MISSING)
1873 mono_assembly_close_finish (image->references [i]);
1876 g_free (image->references);
1877 image->references = NULL;
1880 for (i = 0; i < image->module_count; ++i) {
1881 if (image->modules [i])
1882 mono_image_close_finish (image->modules [i]);
1885 g_free (image->modules);
1887 #ifndef DISABLE_PERFCOUNTERS
1888 mono_perfcounters->loader_bytes -= mono_mempool_get_allocated (image->mempool);
1891 if (!image_is_dynamic (image)) {
1892 if (debug_assembly_unload)
1893 mono_mempool_invalidate (image->mempool);
1895 mono_mempool_destroy (image->mempool);
1899 if (debug_assembly_unload)
1900 mono_mempool_invalidate (image->mempool);
1902 mono_mempool_destroy (image->mempool);
1903 mono_dynamic_image_free_image ((MonoDynamicImage*)image);
1910 * @image: The image file we wish to close
1912 * Closes an image file, deallocates all memory consumed and
1913 * unmaps all possible sections of the file
1916 mono_image_close (MonoImage *image)
1918 if (mono_image_close_except_pools (image))
1919 mono_image_close_finish (image);
1923 * mono_image_strerror:
1924 * @status: an code indicating the result from a recent operation
1926 * Returns: a string describing the error
1929 mono_image_strerror (MonoImageOpenStatus status)
1934 case MONO_IMAGE_ERROR_ERRNO:
1935 return strerror (errno);
1936 case MONO_IMAGE_IMAGE_INVALID:
1937 return "File does not contain a valid CIL image";
1938 case MONO_IMAGE_MISSING_ASSEMBLYREF:
1939 return "An assembly was referenced, but could not be found";
1941 return "Internal error";
1945 mono_image_walk_resource_tree (MonoCLIImageInfo *info, guint32 res_id,
1946 guint32 lang_id, gunichar2 *name,
1947 MonoPEResourceDirEntry *entry,
1948 MonoPEResourceDir *root, guint32 level)
1950 gboolean is_string, is_dir;
1951 guint32 name_offset, dir_offset;
1953 /* Level 0 holds a directory entry for each type of resource
1954 * (identified by ID or name).
1956 * Level 1 holds a directory entry for each named resource
1957 * item, and each "anonymous" item of a particular type of
1960 * Level 2 holds a directory entry for each language pointing to
1963 is_string = MONO_PE_RES_DIR_ENTRY_NAME_IS_STRING (*entry);
1964 name_offset = MONO_PE_RES_DIR_ENTRY_NAME_OFFSET (*entry);
1966 is_dir = MONO_PE_RES_DIR_ENTRY_IS_DIR (*entry);
1967 dir_offset = MONO_PE_RES_DIR_ENTRY_DIR_OFFSET (*entry);
1972 } else if (level==1) {
1973 if (res_id != name_offset)
1977 is_string==TRUE && name!=lookup (name_offset)) {
1981 } else if (level==2) {
1982 if (is_string == TRUE || (is_string == FALSE && lang_id != 0 && name_offset != lang_id))
1985 g_assert_not_reached ();
1989 MonoPEResourceDir *res_dir=(MonoPEResourceDir *)(((char *)root)+dir_offset);
1990 MonoPEResourceDirEntry *sub_entries=(MonoPEResourceDirEntry *)(res_dir+1);
1993 entries = GUINT16_FROM_LE (res_dir->res_named_entries) + GUINT16_FROM_LE (res_dir->res_id_entries);
1995 for(i=0; i<entries; i++) {
1996 MonoPEResourceDirEntry *sub_entry=&sub_entries[i];
1999 ret=mono_image_walk_resource_tree (info, res_id,
2010 MonoPEResourceDataEntry *data_entry=(MonoPEResourceDataEntry *)((char *)(root)+dir_offset);
2011 MonoPEResourceDataEntry *res;
2013 res = g_new0 (MonoPEResourceDataEntry, 1);
2015 res->rde_data_offset = GUINT32_TO_LE (data_entry->rde_data_offset);
2016 res->rde_size = GUINT32_TO_LE (data_entry->rde_size);
2017 res->rde_codepage = GUINT32_TO_LE (data_entry->rde_codepage);
2018 res->rde_reserved = GUINT32_TO_LE (data_entry->rde_reserved);
2025 * mono_image_lookup_resource:
2026 * @image: the image to look up the resource in
2027 * @res_id: A MONO_PE_RESOURCE_ID_ that represents the resource ID to lookup.
2028 * @lang_id: The language id.
2029 * @name: the resource name to lookup.
2031 * Returns: NULL if not found, otherwise a pointer to the in-memory representation
2032 * of the given resource. The caller should free it using g_free () when no longer
2036 mono_image_lookup_resource (MonoImage *image, guint32 res_id, guint32 lang_id, gunichar2 *name)
2038 MonoCLIImageInfo *info;
2039 MonoDotNetHeader *header;
2040 MonoPEDatadir *datadir;
2041 MonoPEDirEntry *rsrc;
2042 MonoPEResourceDir *resource_dir;
2043 MonoPEResourceDirEntry *res_entries;
2050 mono_image_ensure_section_idx (image, MONO_SECTION_RSRC);
2052 info=image->image_info;
2057 header=&info->cli_header;
2062 datadir=&header->datadir;
2067 rsrc=&datadir->pe_resource_table;
2072 resource_dir=(MonoPEResourceDir *)mono_image_rva_map (image, rsrc->rva);
2073 if(resource_dir==NULL) {
2077 entries = GUINT16_FROM_LE (resource_dir->res_named_entries) + GUINT16_FROM_LE (resource_dir->res_id_entries);
2078 res_entries=(MonoPEResourceDirEntry *)(resource_dir+1);
2080 for(i=0; i<entries; i++) {
2081 MonoPEResourceDirEntry *entry=&res_entries[i];
2084 ret=mono_image_walk_resource_tree (info, res_id, lang_id,
2085 name, entry, resource_dir,
2096 * mono_image_get_entry_point:
2097 * @image: the image where the entry point will be looked up.
2099 * Use this routine to determine the metadata token for method that
2100 * has been flagged as the entry point.
2102 * Returns: the token for the entry point method in the image
2105 mono_image_get_entry_point (MonoImage *image)
2107 return ((MonoCLIImageInfo*)image->image_info)->cli_cli_header.ch_entry_point;
2111 * mono_image_get_resource:
2112 * @image: the image where the resource will be looked up.
2113 * @offset: The offset to add to the resource
2114 * @size: a pointer to an int where the size of the resource will be stored
2116 * This is a low-level routine that fetches a resource from the
2117 * metadata that starts at a given @offset. The @size parameter is
2118 * filled with the data field as encoded in the metadata.
2120 * Returns: the pointer to the resource whose offset is @offset.
2123 mono_image_get_resource (MonoImage *image, guint32 offset, guint32 *size)
2125 MonoCLIImageInfo *iinfo = image->image_info;
2126 MonoCLIHeader *ch = &iinfo->cli_cli_header;
2129 if (!ch->ch_resources.rva || offset + 4 > ch->ch_resources.size)
2132 data = mono_image_rva_map (image, ch->ch_resources.rva);
2137 *size = read32 (data);
2143 mono_image_load_file_for_image (MonoImage *image, int fileidx)
2145 char *base_dir, *name;
2147 MonoTableInfo *t = &image->tables [MONO_TABLE_FILE];
2151 if (fileidx < 1 || fileidx > t->rows)
2154 mono_image_lock (image);
2155 if (image->files && image->files [fileidx - 1]) {
2156 mono_image_unlock (image);
2157 return image->files [fileidx - 1];
2159 mono_image_unlock (image);
2161 fname_id = mono_metadata_decode_row_col (t, fileidx - 1, MONO_FILE_NAME);
2162 fname = mono_metadata_string_heap (image, fname_id);
2163 base_dir = g_path_get_dirname (image->name);
2164 name = g_build_filename (base_dir, fname, NULL);
2165 res = mono_image_open (name, NULL);
2169 mono_image_lock (image);
2170 if (image->files && image->files [fileidx - 1]) {
2171 MonoImage *old = res;
2172 res = image->files [fileidx - 1];
2173 mono_image_unlock (image);
2174 mono_image_close (old);
2177 /* g_print ("loaded file %s from %s (%p)\n", name, image->name, image->assembly); */
2178 res->assembly = image->assembly;
2179 for (i = 0; i < res->module_count; ++i) {
2180 if (res->modules [i] && !res->modules [i]->assembly)
2181 res->modules [i]->assembly = image->assembly;
2185 image->files = g_new0 (MonoImage*, t->rows);
2186 image->files [fileidx - 1] = res;
2187 mono_image_unlock (image);
2188 /* vtable fixup can't happen with the image lock held */
2190 if (res->is_module_handle)
2191 mono_image_fixup_vtable (res);
2202 * mono_image_get_strong_name:
2203 * @image: a MonoImage
2204 * @size: a guint32 pointer, or NULL.
2206 * If the image has a strong name, and @size is not NULL, the value
2207 * pointed to by size will have the size of the strong name.
2209 * Returns: NULL if the image does not have a strong name, or a
2210 * pointer to the public key.
2213 mono_image_get_strong_name (MonoImage *image, guint32 *size)
2215 MonoCLIImageInfo *iinfo = image->image_info;
2216 MonoPEDirEntry *de = &iinfo->cli_cli_header.ch_strong_name;
2219 if (!de->size || !de->rva)
2221 data = mono_image_rva_map (image, de->rva);
2230 * mono_image_strong_name_position:
2231 * @image: a MonoImage
2232 * @size: a guint32 pointer, or NULL.
2234 * If the image has a strong name, and @size is not NULL, the value
2235 * pointed to by size will have the size of the strong name.
2237 * Returns: the position within the image file where the strong name
2241 mono_image_strong_name_position (MonoImage *image, guint32 *size)
2243 MonoCLIImageInfo *iinfo = image->image_info;
2244 MonoPEDirEntry *de = &iinfo->cli_cli_header.ch_strong_name;
2249 if (!de->size || !de->rva)
2251 pos = mono_cli_rva_image_map (image, de->rva);
2252 return pos == INVALID_ADDRESS ? 0 : pos;
2256 * mono_image_get_public_key:
2257 * @image: a MonoImage
2258 * @size: a guint32 pointer, or NULL.
2260 * This is used to obtain the public key in the @image.
2262 * If the image has a public key, and @size is not NULL, the value
2263 * pointed to by size will have the size of the public key.
2265 * Returns: NULL if the image does not have a public key, or a pointer
2266 * to the public key.
2269 mono_image_get_public_key (MonoImage *image, guint32 *size)
2274 if (image_is_dynamic (image)) {
2276 *size = ((MonoDynamicImage*)image)->public_key_len;
2277 return (char*)((MonoDynamicImage*)image)->public_key;
2279 if (image->tables [MONO_TABLE_ASSEMBLY].rows != 1)
2281 tok = mono_metadata_decode_row_col (&image->tables [MONO_TABLE_ASSEMBLY], 0, MONO_ASSEMBLY_PUBLIC_KEY);
2284 pubkey = mono_metadata_blob_heap (image, tok);
2285 len = mono_metadata_decode_blob_size (pubkey, &pubkey);
2292 * mono_image_get_name:
2293 * @name: a MonoImage
2295 * Returns: the name of the assembly.
2298 mono_image_get_name (MonoImage *image)
2300 return image->assembly_name;
2304 * mono_image_get_filename:
2305 * @image: a MonoImage
2307 * Used to get the filename that hold the actual MonoImage
2309 * Returns: the filename.
2312 mono_image_get_filename (MonoImage *image)
2318 mono_image_get_guid (MonoImage *image)
2323 const MonoTableInfo*
2324 mono_image_get_table_info (MonoImage *image, int table_id)
2326 if (table_id < 0 || table_id >= MONO_TABLE_NUM)
2328 return &image->tables [table_id];
2332 mono_image_get_table_rows (MonoImage *image, int table_id)
2334 if (table_id < 0 || table_id >= MONO_TABLE_NUM)
2336 return image->tables [table_id].rows;
2340 mono_table_info_get_rows (const MonoTableInfo *table)
2346 * mono_image_get_assembly:
2347 * @image: the MonoImage.
2349 * Use this routine to get the assembly that owns this image.
2351 * Returns: the assembly that holds this image.
2354 mono_image_get_assembly (MonoImage *image)
2356 return image->assembly;
2360 * mono_image_is_dynamic:
2361 * @image: the MonoImage
2363 * Determines if the given image was created dynamically through the
2364 * System.Reflection.Emit API
2366 * Returns: TRUE if the image was created dynamically, FALSE if not.
2369 mono_image_is_dynamic (MonoImage *image)
2371 return image_is_dynamic (image);
2375 * mono_image_has_authenticode_entry:
2376 * @image: the MonoImage
2378 * Use this routine to determine if the image has a Authenticode
2379 * Certificate Table.
2381 * Returns: TRUE if the image contains an authenticode entry in the PE
2385 mono_image_has_authenticode_entry (MonoImage *image)
2387 MonoCLIImageInfo *iinfo = image->image_info;
2388 MonoDotNetHeader *header = &iinfo->cli_header;
2389 MonoPEDirEntry *de = &header->datadir.pe_certificate_table;
2390 // the Authenticode "pre" (non ASN.1) header is 8 bytes long
2391 return ((de->rva != 0) && (de->size > 8));
2395 mono_image_alloc (MonoImage *image, guint size)
2399 #ifndef DISABLE_PERFCOUNTERS
2400 mono_perfcounters->loader_bytes += size;
2402 mono_image_lock (image);
2403 res = mono_mempool_alloc (image->mempool, size);
2404 mono_image_unlock (image);
2410 mono_image_alloc0 (MonoImage *image, guint size)
2414 #ifndef DISABLE_PERFCOUNTERS
2415 mono_perfcounters->loader_bytes += size;
2417 mono_image_lock (image);
2418 res = mono_mempool_alloc0 (image->mempool, size);
2419 mono_image_unlock (image);
2425 mono_image_strdup (MonoImage *image, const char *s)
2429 #ifndef DISABLE_PERFCOUNTERS
2430 mono_perfcounters->loader_bytes += strlen (s);
2432 mono_image_lock (image);
2433 res = mono_mempool_strdup (image->mempool, s);
2434 mono_image_unlock (image);
2440 g_list_prepend_image (MonoImage *image, GList *list, gpointer data)
2444 new_list = mono_image_alloc (image, sizeof (GList));
2445 new_list->data = data;
2446 new_list->prev = list ? list->prev : NULL;
2447 new_list->next = list;
2450 new_list->prev->next = new_list;
2452 list->prev = new_list;
2458 g_slist_append_image (MonoImage *image, GSList *list, gpointer data)
2462 new_list = mono_image_alloc (image, sizeof (GSList));
2463 new_list->data = data;
2464 new_list->next = NULL;
2466 return g_slist_concat (list, new_list);
2470 mono_image_lock (MonoImage *image)
2472 mono_locks_os_acquire (&image->lock, ImageDataLock);
2476 mono_image_unlock (MonoImage *image)
2478 mono_locks_os_release (&image->lock, ImageDataLock);
2483 * mono_image_property_lookup:
2485 * Lookup a property on @image. Used to store very rare fields of MonoClass and MonoMethod.
2487 * LOCKING: Takes the image lock
2490 mono_image_property_lookup (MonoImage *image, gpointer subject, guint32 property)
2494 mono_image_lock (image);
2495 res = mono_property_hash_lookup (image->property_hash, subject, property);
2496 mono_image_unlock (image);
2502 * mono_image_property_insert:
2504 * Insert a new property @property with value @value on @subject in @image. Used to store very rare fields of MonoClass and MonoMethod.
2506 * LOCKING: Takes the image lock
2509 mono_image_property_insert (MonoImage *image, gpointer subject, guint32 property, gpointer value)
2511 mono_image_lock (image);
2512 mono_property_hash_insert (image->property_hash, subject, property, value);
2513 mono_image_unlock (image);
2517 * mono_image_property_remove:
2519 * Remove all properties associated with @subject in @image. Used to store very rare fields of MonoClass and MonoMethod.
2521 * LOCKING: Takes the image lock
2524 mono_image_property_remove (MonoImage *image, gpointer subject)
2526 mono_image_lock (image);
2527 mono_property_hash_remove_object (image->property_hash, subject);
2528 mono_image_unlock (image);
2532 mono_image_append_class_to_reflection_info_set (MonoClass *klass)
2534 MonoImage *image = klass->image;
2535 g_assert (image_is_dynamic (image));
2536 mono_image_lock (image);
2537 image->reflection_info_unregister_classes = g_slist_prepend_mempool (image->mempool, image->reflection_info_unregister_classes, klass);
2538 mono_image_unlock (image);
2543 // These are support for the mempool reference tracking feature in checked-build, but live in image.c due to use of static variables of this file.
2545 // Given an image and a pointer, return the mempool owner if it is either this image or one of its imagesets.
2546 static MonoMemPoolOwner
2547 check_for_mempool_owner (void *ptr, MonoImage *image)
2549 if (mono_mempool_contains_addr (image->mempool, ptr))
2551 MonoMemPoolOwner owner = {image, NULL};
2556 for (l = image->image_sets; l; l = l->next) {
2557 MonoImageSet *set = l->data;
2559 if (mono_mempool_contains_addr (set->mempool, ptr))
2561 MonoMemPoolOwner owner = {NULL, set};
2566 return mono_mempool_no_owner;
2570 * mono_find_mempool_owner:
2572 * Find the image or imageset, if any, which a given pointer is located in the memory of.
2575 mono_find_mempool_owner (void *ptr)
2577 mono_images_lock ();
2579 MonoMemPoolOwner owner = mono_mempool_no_owner;
2580 gboolean searching = TRUE;
2582 // Iterate over both by-path image hashes
2583 const int hash_candidates[] = {IMAGES_HASH_PATH, IMAGES_HASH_PATH_REFONLY};
2585 for (hash_idx = 0; searching && hash_idx < G_N_ELEMENTS (hash_candidates); hash_idx++)
2587 GHashTable *target = loaded_images_hashes [hash_candidates [hash_idx]];
2588 GHashTableIter iter;
2591 // Iterate over images within a hash
2592 g_hash_table_iter_init (&iter, target);
2593 while (searching && g_hash_table_iter_next(&iter, NULL, (gpointer *)&image))
2595 mono_image_lock (image);
2596 owner = check_for_mempool_owner (ptr, image);
2597 mono_image_unlock (image);
2599 // Continue searching if null owner returned
2600 searching = check_mempool_owner_eq (owner, mono_mempool_no_owner);
2604 mono_images_unlock ();