runtime.c source code [compiler-rt/lib/BlocksRuntime/runtime.c]

1	/*
2	* runtime.c
3	*
4	* Copyright 2008-2010 Apple, Inc. Permission is hereby granted, free of charge,
5	* to any person obtaining a copy of this software and associated documentation
6	* files (the "Software"), to deal in the Software without restriction,
7	* including without limitation the rights to use, copy, modify, merge, publish,
8	* distribute, sublicense, and/or sell copies of the Software, and to permit
9	* persons to whom the Software is furnished to do so, subject to the following
10	* conditions:
11	*
12	* The above copyright notice and this permission notice shall be included in
13	* all copies or substantial portions of the Software.
14	*
15	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
18	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
20	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
21	* SOFTWARE.
22	*
23	*/
24
25	#include "Block_private.h"
26	#include <stdio.h>
27	#include <stdlib.h>
28	#include <string.h>
29	#include <stdint.h>
30
31	#include "config.h"
32
33	#ifdef HAVE_AVAILABILITY_MACROS_H
34	#include <AvailabilityMacros.h>
35	#endif /* HAVE_AVAILABILITY_MACROS_H */
36
37	#ifdef HAVE_TARGET_CONDITIONALS_H
38	#include <TargetConditionals.h>
39	#endif /* HAVE_TARGET_CONDITIONALS_H */
40
41	#if defined(HAVE_OSATOMIC_COMPARE_AND_SWAP_INT) && defined(HAVE_OSATOMIC_COMPARE_AND_SWAP_LONG)
42
43	#ifdef HAVE_LIBKERN_OSATOMIC_H
44	#include <libkern/OSAtomic.h>
45	#endif /* HAVE_LIBKERN_OSATOMIC_H */
46
47	#elif defined(__WIN32__) \|\| defined(_WIN32)
48	#define _CRT_SECURE_NO_WARNINGS 1
49	#include <windows.h>
50
51	static __inline bool OSAtomicCompareAndSwapLong(long oldl, long newl, long volatile *dst) {
52	/ fixme barrier is overkill -- see objc-os.h /
53	long original = InterlockedCompareExchange(dst, newl, oldl);
54	return (original == oldl);
55	}
56
57	static __inline bool OSAtomicCompareAndSwapInt(int oldi, int newi, int volatile *dst) {
58	/ fixme barrier is overkill -- see objc-os.h /
59	int original = InterlockedCompareExchange(dst, newi, oldi);
60	return (original == oldi);
61	}
62
63	/*
64	* Check to see if the GCC atomic built-ins are available. If we're on
65	* a 64-bit system, make sure we have an 8-byte atomic function
66	* available.
67	*
68	*/
69
70	#elif defined(HAVE_SYNC_BOOL_COMPARE_AND_SWAP_INT) && defined(HAVE_SYNC_BOOL_COMPARE_AND_SWAP_LONG)
71
72	static __inline bool OSAtomicCompareAndSwapLong(long oldl, long newl, long volatile *dst) {
73	return __sync_bool_compare_and_swap(dst, oldl, newl);
74	}
75
76	static __inline bool OSAtomicCompareAndSwapInt(int oldi, int newi, int volatile *dst) {
77	return __sync_bool_compare_and_swap(dst, oldi, newi);
78	}
79
80	#else
81	#error unknown atomic compare-and-swap primitive
82	#endif /* HAVE_OSATOMIC_COMPARE_AND_SWAP_INT && HAVE_OSATOMIC_COMPARE_AND_SWAP_LONG */
83
84
85	/*
86	* Globals:
87	*/
88
89	static void *_Block_copy_class = _NSConcreteMallocBlock;
90	static void *_Block_copy_finalizing_class = _NSConcreteMallocBlock;
91	static int _Block_copy_flag = BLOCK_NEEDS_FREE;
92	static int _Byref_flag_initial_value = BLOCK_NEEDS_FREE \| `2`;
93
94	static const int WANTS_ONE = (`1` << `16`);
95
96	static bool isGC = false;
97
98	/*
99	* Internal Utilities:
100	*/
101
102	#if 0
103	static unsigned long int latching_incr_long(unsigned long int *where) {
104	while (`1`) {
105	unsigned long int old_value = (volatile* unsigned long int *)where;
106	if ((old_value & BLOCK_REFCOUNT_MASK) == BLOCK_REFCOUNT_MASK) {
107	return BLOCK_REFCOUNT_MASK;
108	}
109	if (OSAtomicCompareAndSwapLong(old_value, old_value+`1`, (volatile long int *)where)) {
110	return old_value+`1`;
111	}
112	}
113	}
114	#endif /* if 0 */
115
116	static int latching_incr_int(int *where) {
117	while (`1`) {
118	int old_value = (volatile* int *)where;
119	if ((old_value & BLOCK_REFCOUNT_MASK) == BLOCK_REFCOUNT_MASK) {
120	return BLOCK_REFCOUNT_MASK;
121	}
122	if (OSAtomicCompareAndSwapInt(old_value, old_value+`1`, (volatile int *)where)) {
123	return old_value+`1`;
124	}
125	}
126	}
127
128	#if 0
129	static int latching_decr_long(unsigned long int *where) {
130	while (`1`) {
131	unsigned long int old_value = (volatile* int *)where;
132	if ((old_value & BLOCK_REFCOUNT_MASK) == BLOCK_REFCOUNT_MASK) {
133	return BLOCK_REFCOUNT_MASK;
134	}
135	if ((old_value & BLOCK_REFCOUNT_MASK) == `0`) {
136	return `0`;
137	}
138	if (OSAtomicCompareAndSwapLong(old_value, old_value-`1`, (volatile long int *)where)) {
139	return old_value-`1`;
140	}
141	}
142	}
143	#endif /* if 0 */
144
145	static int latching_decr_int(int *where) {
146	while (`1`) {
147	int old_value = (volatile* int *)where;
148	if ((old_value & BLOCK_REFCOUNT_MASK) == BLOCK_REFCOUNT_MASK) {
149	return BLOCK_REFCOUNT_MASK;
150	}
151	if ((old_value & BLOCK_REFCOUNT_MASK) == `0`) {
152	return `0`;
153	}
154	if (OSAtomicCompareAndSwapInt(old_value, old_value-`1`, (volatile int *)where)) {
155	return old_value-`1`;
156	}
157	}
158	}
159
160
161	/*
162	* GC support stub routines:
163	*/
164	#if 0
165	#pragma mark GC Support Routines
166	#endif /* if 0 */
167
168
169	static void _Block_alloc_default(const* unsigned long size, const bool initialCountIsOne, const bool isObject) {
170	return malloc(size: size);
171	}
172
173	static void _Block_assign_default(void value, void* **destptr) {
174	*destptr = value;
175	}
176
177	static void _Block_setHasRefcount_default(const void ptr, const* bool hasRefcount) {
178	}
179
180	static void _Block_do_nothing(const void *aBlock) { }
181
182	static void _Block_retain_object_default(const void *ptr) {
183	if (!ptr) return;
184	}
185
186	static void _Block_release_object_default(const void *ptr) {
187	if (!ptr) return;
188	}
189
190	static void _Block_assign_weak_default(const void ptr, void* *dest) {
191	(void* *)dest = (void* *)ptr;
192	}
193
194	static void _Block_memmove_default(void dst, void* src, unsigned* long size) {
195	memmove(dest: dst, src: src, n: (size_t)size);
196	}
197
198	static void _Block_memmove_gc_broken(void dest, void* src, unsigned* long size) {
199	void *destp = (void* **)dest;
200	void *srcp = (void* **)src;
201	while (size) {
202	_Block_assign_default(value: *srcp, destptr: destp);
203	destp++;
204	srcp++;
205	size -= sizeof(void *);
206	}
207	}
208
209	/*
210	* GC support callout functions - initially set to stub routines:
211	*/
212
213	static void (_Block_allocator)(const unsigned long, const bool isOne, const bool isObject) = _Block_alloc_default;
214	static void (_Block_deallocator)(const* void ) = (void* ()(const* void *))free;
215	static void (_Block_assign)(void* value, void* **destptr) = _Block_assign_default;
216	static void (_Block_setHasRefcount)(const* void ptr, const* bool hasRefcount) = _Block_setHasRefcount_default;
217	static void (_Block_retain_object)(const* void *ptr) = _Block_retain_object_default;
218	static void (_Block_release_object)(const* void *ptr) = _Block_release_object_default;
219	static void (_Block_assign_weak)(const* void dest, void* *ptr) = _Block_assign_weak_default;
220	static void (_Block_memmove)(void* dest, void* src, unsigned* long size) = _Block_memmove_default;
221
222
223	/*
224	* GC support SPI functions - called from ObjC runtime and CoreFoundation:
225	*/
226
227	/ Public SPI*
228	* Called from objc-auto to turn on GC.
229	* version 3, 4 arg, but changed 1st arg
230	*/
231	void _Block_use_GC( void (alloc)(const unsigned long, const bool isOne, const bool isObject),
232	void (setHasRefcount)(const* void , const* bool),
233	void (gc_assign)(void* , void* **),
234	void (gc_assign_weak)(const* void , void* *),
235	void (gc_memmove)(void* , void* , unsigned* long)) {
236
237	isGC = true;
238	_Block_allocator = alloc;
239	_Block_deallocator = _Block_do_nothing;
240	_Block_assign = gc_assign;
241	_Block_copy_flag = BLOCK_IS_GC;
242	_Block_copy_class = _NSConcreteAutoBlock;
243	/ blocks with ctors & dtors need to have the dtor run from a class with a finalizer /
244	_Block_copy_finalizing_class = _NSConcreteFinalizingBlock;
245	_Block_setHasRefcount = setHasRefcount;
246	_Byref_flag_initial_value = BLOCK_IS_GC; // no refcount
247	_Block_retain_object = _Block_do_nothing;
248	_Block_release_object = _Block_do_nothing;
249	_Block_assign_weak = gc_assign_weak;
250	_Block_memmove = gc_memmove;
251	}
252
253	/ transitional /
254	void _Block_use_GC5( void (alloc)(const unsigned long, const bool isOne, const bool isObject),
255	void (setHasRefcount)(const* void , const* bool),
256	void (gc_assign)(void* , void* **),
257	void (gc_assign_weak)(const* void , void* *)) {
258	/ until objc calls _Block_use_GC it will call us; supply a broken internal memmove implementation until then /
259	_Block_use_GC(alloc, setHasRefcount, gc_assign, gc_assign_weak, gc_memmove: _Block_memmove_gc_broken);
260	}
261
262
263	/*
264	* Called from objc-auto to alternatively turn on retain/release.
265	* Prior to this the only "object" support we can provide is for those
266	* super special objects that live in libSystem, namely dispatch queues.
267	* Blocks and Block_byrefs have their own special entry points.
268	*
269	*/
270	void _Block_use_RR( void (retain)(const* void *),
271	void (release)(const* void *)) {
272	_Block_retain_object = retain;
273	_Block_release_object = release;
274	}
275
276	/*
277	* Internal Support routines for copying:
278	*/
279
280	#if 0
281	#pragma mark Copy/Release support
282	#endif /* if 0 */
283
284	/ Copy, or bump refcount, of a block. If really copying, call the copy helper if present. /
285	static void _Block_copy_internal(const* void arg, const* int flags) {
286	struct Block_layout *aBlock;
287	const bool wantsOne = (WANTS_ONE & flags) == WANTS_ONE;
288
289	//printf("_Block_copy_internal(%p, %x)\n", arg, flags);
290	if (!arg) return NULL;
291
292
293	// The following would be better done as a switch statement
294	aBlock = (struct Block_layout *)arg;
295	if (aBlock->flags & BLOCK_NEEDS_FREE) {
296	// latches on high
297	latching_incr_int(where: &aBlock->flags);
298	return aBlock;
299	}
300	else if (aBlock->flags & BLOCK_IS_GC) {
301	// GC refcounting is expensive so do most refcounting here.
302	if (wantsOne && ((latching_incr_int(where: &aBlock->flags) & BLOCK_REFCOUNT_MASK) == `1`)) {
303	// Tell collector to hang on this - it will bump the GC refcount version
304	_Block_setHasRefcount(aBlock, true);
305	}
306	return aBlock;
307	}
308	else if (aBlock->flags & BLOCK_IS_GLOBAL) {
309	return aBlock;
310	}
311
312	// Its a stack block. Make a copy.
313	if (!isGC) {
314	struct Block_layout *result = malloc(size: aBlock->descriptor->size);
315	if (!result) return (void *)`0`;
316	memmove(dest: result, src: aBlock, n: aBlock->descriptor->size); // bitcopy first
317	// reset refcount
318	result->flags &= ~(BLOCK_REFCOUNT_MASK); // XXX not needed
319	result->flags \|= BLOCK_NEEDS_FREE \| `1`;
320	result->isa = _NSConcreteMallocBlock;
321	if (result->flags & BLOCK_HAS_COPY_DISPOSE) {
322	//printf("calling block copy helper %p(%p, %p)...\n", aBlock->descriptor->copy, result, aBlock);
323	(aBlock->descriptor->copy)(result, aBlock); // do fixup*
324	}
325	return result;
326	}
327	else {
328	// Under GC want allocation with refcount 1 so we ask for "true" if wantsOne
329	// This allows the copy helper routines to make non-refcounted block copies under GC
330	unsigned long int flags = aBlock->flags;
331	bool hasCTOR = (flags & BLOCK_HAS_CTOR) != `0`;
332	struct Block_layout *result = _Block_allocator(aBlock->descriptor->size, wantsOne, hasCTOR);
333	if (!result) return (void *)`0`;
334	memmove(dest: result, src: aBlock, n: aBlock->descriptor->size); // bitcopy first
335	// reset refcount
336	// if we copy a malloc block to a GC block then we need to clear NEEDS_FREE.
337	flags &= ~(BLOCK_NEEDS_FREE\|BLOCK_REFCOUNT_MASK); // XXX not needed
338	if (wantsOne)
339	flags \|= BLOCK_IS_GC \| `1`;
340	else
341	flags \|= BLOCK_IS_GC;
342	result->flags = flags;
343	if (flags & BLOCK_HAS_COPY_DISPOSE) {
344	//printf("calling block copy helper...\n");
345	(aBlock->descriptor->copy)(result, aBlock); // do fixup*
346	}
347	if (hasCTOR) {
348	result->isa = _NSConcreteFinalizingBlock;
349	}
350	else {
351	result->isa = _NSConcreteAutoBlock;
352	}
353	return result;
354	}
355	}
356
357
358	/*
359	* Runtime entry points for maintaining the sharing knowledge of byref data blocks.
360	*
361	* A closure has been copied and its fixup routine is asking us to fix up the reference to the shared byref data
362	* Closures that aren't copied must still work, so everyone always accesses variables after dereferencing the forwarding ptr.
363	* We ask if the byref pointer that we know about has already been copied to the heap, and if so, increment it.
364	* Otherwise we need to copy it and update the stack forwarding pointer
365	* XXX We need to account for weak/nonretained read-write barriers.
366	*/
367
368	static void _Block_byref_assign_copy(void dest, const* void arg, const* int flags) {
369	struct Block_byref destp = (struct Block_byref )dest;
370	struct Block_byref src = (struct* Block_byref *)arg;
371
372	//printf("_Block_byref_assign_copy called, byref destp %p, src %p, flags %x\n", destp, src, flags);
373	//printf("src dump: %s\n", _Block_byref_dump(src));
374	if (src->forwarding->flags & BLOCK_IS_GC) {
375	; // don't need to do any more work
376	}
377	else if ((src->forwarding->flags & BLOCK_REFCOUNT_MASK) == `0`) {
378	//printf("making copy\n");
379	// src points to stack
380	bool isWeak = ((flags & (BLOCK_FIELD_IS_BYREF\|BLOCK_FIELD_IS_WEAK)) == (BLOCK_FIELD_IS_BYREF\|BLOCK_FIELD_IS_WEAK));
381	// if its weak ask for an object (only matters under GC)
382	struct Block_byref copy = (struct* Block_byref *)_Block_allocator(src->size, false, isWeak);
383	copy->flags = src->flags \| _Byref_flag_initial_value; // non-GC one for caller, one for stack
384	copy->forwarding = copy; // patch heap copy to point to itself (skip write-barrier)
385	src->forwarding = copy; // patch stack to point to heap copy
386	copy->size = src->size;
387	if (isWeak) {
388	copy->isa = &_NSConcreteWeakBlockVariable; // mark isa field so it gets weak scanning
389	}
390	if (src->flags & BLOCK_HAS_COPY_DISPOSE) {
391	// Trust copy helper to copy everything of interest
392	// If more than one field shows up in a byref block this is wrong XXX
393	copy->byref_keep = src->byref_keep;
394	copy->byref_destroy = src->byref_destroy;
395	(*src->byref_keep)(copy, src);
396	}
397	else {
398	// just bits. Blast 'em using _Block_memmove in case they're __strong
399	_Block_memmove(
400	(void *)&copy->byref_keep,
401	(void *)&src->byref_keep,
402	src->size - sizeof(struct Block_byref_header));
403	}
404	}
405	// already copied to heap
406	else if ((src->forwarding->flags & BLOCK_NEEDS_FREE) == BLOCK_NEEDS_FREE) {
407	latching_incr_int(where: &src->forwarding->flags);
408	}
409	// assign byref data block pointer into new Block
410	_Block_assign(src->forwarding, (void **)destp);
411	}
412
413	// Old compiler SPI
414	static void _Block_byref_release(const void *arg) {
415	struct Block_byref shared_struct = (struct* Block_byref *)arg;
416	int refcount;
417
418	// dereference the forwarding pointer since the compiler isn't doing this anymore (ever?)
419	shared_struct = shared_struct->forwarding;
420
421	//printf("_Block_byref_release %p called, flags are %x\n", shared_struct, shared_struct->flags);
422	// To support C++ destructors under GC we arrange for there to be a finalizer for this
423	// by using an isa that directs the code to a finalizer that calls the byref_destroy method.
424	if ((shared_struct->flags & BLOCK_NEEDS_FREE) == `0`) {
425	return; // stack or GC or global
426	}
427	refcount = shared_struct->flags & BLOCK_REFCOUNT_MASK;
428	if (refcount <= `0`) {
429	printf(format: "_Block_byref_release: Block byref data structure at %p underflowed\n", arg);
430	}
431	else if ((latching_decr_int(where: &shared_struct->flags) & BLOCK_REFCOUNT_MASK) == `0`) {
432	//printf("disposing of heap based byref block\n");
433	if (shared_struct->flags & BLOCK_HAS_COPY_DISPOSE) {
434	//printf("calling out to helper\n");
435	(*shared_struct->byref_destroy)(shared_struct);
436	}
437	_Block_deallocator((struct Block_layout *)shared_struct);
438	}
439	}
440
441
442	/*
443	*
444	* API supporting SPI
445	* _Block_copy, _Block_release, and (old) _Block_destroy
446	*
447	*/
448
449	#if 0
450	#pragma mark SPI/API
451	#endif /* if 0 */
452
453	void _Block_copy(const* void *arg) {
454	return _Block_copy_internal(arg, flags: WANTS_ONE);
455	}
456
457
458	// API entry point to release a copied Block
459	void _Block_release(void *arg) {
460	struct Block_layout aBlock = (struct* Block_layout *)arg;
461	int32_t newCount;
462	if (!aBlock) return;
463	newCount = latching_decr_int(where: &aBlock->flags) & BLOCK_REFCOUNT_MASK;
464	if (newCount > `0`) return;
465	// Hit zero
466	if (aBlock->flags & BLOCK_IS_GC) {
467	// Tell GC we no longer have our own refcounts. GC will decr its refcount
468	// and unless someone has done a CFRetain or marked it uncollectable it will
469	// now be subject to GC reclamation.
470	_Block_setHasRefcount(aBlock, false);
471	}
472	else if (aBlock->flags & BLOCK_NEEDS_FREE) {
473	if (aBlock->flags & BLOCK_HAS_COPY_DISPOSE)(*aBlock->descriptor->dispose)(aBlock);
474	_Block_deallocator(aBlock);
475	}
476	else if (aBlock->flags & BLOCK_IS_GLOBAL) {
477	;
478	}
479	else {
480	printf(format: "Block_release called upon a stack Block: %p, ignored\n", (void *)aBlock);
481	}
482	}
483
484
485
486	// Old Compiler SPI point to release a copied Block used by the compiler in dispose helpers
487	static void _Block_destroy(const void *arg) {
488	struct Block_layout *aBlock;
489	if (!arg) return;
490	aBlock = (struct Block_layout *)arg;
491	if (aBlock->flags & BLOCK_IS_GC) {
492	// assert(aBlock->Block_flags & BLOCK_HAS_CTOR);
493	return; // ignore, we are being called because of a DTOR
494	}
495	_Block_release(arg: aBlock);
496	}
497
498
499
500	/*
501	*
502	* SPI used by other layers
503	*
504	*/
505
506	// SPI, also internal. Called from NSAutoBlock only under GC
507	void _Block_copy_collectable(const* void *aBlock) {
508	return _Block_copy_internal(arg: aBlock, flags: `0`);
509	}
510
511
512	// SPI
513	unsigned long int Block_size(void *arg) {
514	return ((struct Block_layout *)arg)->descriptor->size;
515	}
516
517
518	#if 0
519	#pragma mark Compiler SPI entry points
520	#endif /* if 0 */
521
522
523	/*******************************************************
524
525	Entry points used by the compiler - the real API!
526
527
528	A Block can reference four different kinds of things that require help when the Block is copied to the heap.
529	1) C++ stack based objects
530	2) References to Objective-C objects
531	3) Other Blocks
532	4) __block variables
533
534	In these cases helper functions are synthesized by the compiler for use in Block_copy and Block_release, called the copy and dispose helpers. The copy helper emits a call to the C++ const copy constructor for C++ stack based objects and for the rest calls into the runtime support function _Block_object_assign. The dispose helper has a call to the C++ destructor for case 1 and a call into _Block_object_dispose for the rest.
535
536	The flags parameter of _Block_object_assign and _Block_object_dispose is set to
537	* BLOCK_FIELD_IS_OBJECT (3), for the case of an Objective-C Object,
538	* BLOCK_FIELD_IS_BLOCK (7), for the case of another Block, and
539	* BLOCK_FIELD_IS_BYREF (8), for the case of a __block variable.
540	If the __block variable is marked weak the compiler also or's in BLOCK_FIELD_IS_WEAK (16).
541
542	So the Block copy/dispose helpers should only ever generate the four flag values of 3, 7, 8, and 24.
543
544	When a __block variable is either a C++ object, an Objective-C object, or another Block then the compiler also generates copy/dispose helper functions. Similarly to the Block copy helper, the "__block" copy helper (formerly and still a.k.a. "byref" copy helper) will do a C++ copy constructor (not a const one though!) and the dispose helper will do the destructor. And similarly the helpers will call into the same two support functions with the same values for objects and Blocks with the additional BLOCK_BYREF_CALLER (128) bit of information supplied.
545
546	So the __block copy/dispose helpers will generate flag values of 3 or 7 for objects and Blocks respectively, with BLOCK_FIELD_IS_WEAK (16) or'ed as appropriate and always 128 or'd in, for the following set of possibilities:
547	__block id 128+3
548	__weak block id 128+3+16
549	__block (^Block) 128+7
550	__weak __block (^Block) 128+7+16
551
552	The implementation of the two routines would be improved by switch statements enumerating the eight cases.
553
554	********************************************************/
555
556	/*
557	* When Blocks or Block_byrefs hold objects then their copy routine helpers use this entry point
558	* to do the assignment.
559	*/
560	void _Block_object_assign(void destAddr, const* void object, const* int flags) {
561	//printf("_Block_object_assign(%p, %p, %x)\n", destAddr, object, flags);*
562	if ((flags & BLOCK_BYREF_CALLER) == BLOCK_BYREF_CALLER) {
563	if ((flags & BLOCK_FIELD_IS_WEAK) == BLOCK_FIELD_IS_WEAK) {
564	_Block_assign_weak(object, destAddr);
565	}
566	else {
567	// do not* retain or copy __block variables whatever they are*
568	_Block_assign((void *)object, destAddr);
569	}
570	}
571	else if ((flags & BLOCK_FIELD_IS_BYREF) == BLOCK_FIELD_IS_BYREF) {
572	// copying a __block reference from the stack Block to the heap
573	// flags will indicate if it holds a __weak reference and needs a special isa
574	_Block_byref_assign_copy(dest: destAddr, arg: object, flags);
575	}
576	// (this test must be before next one)
577	else if ((flags & BLOCK_FIELD_IS_BLOCK) == BLOCK_FIELD_IS_BLOCK) {
578	// copying a Block declared variable from the stack Block to the heap
579	_Block_assign(_Block_copy_internal(arg: object, flags), destAddr);
580	}
581	// (this test must be after previous one)
582	else if ((flags & BLOCK_FIELD_IS_OBJECT) == BLOCK_FIELD_IS_OBJECT) {
583	//printf("retaining object at %p\n", object);
584	_Block_retain_object(object);
585	//printf("done retaining object at %p\n", object);
586	_Block_assign((void *)object, destAddr);
587	}
588	}
589
590	// When Blocks or Block_byrefs hold objects their destroy helper routines call this entry point
591	// to help dispose of the contents
592	// Used initially only for __attribute__((NSObject)) marked pointers.
593	void _Block_object_dispose(const void object, const* int flags) {
594	//printf("_Block_object_dispose(%p, %x)\n", object, flags);
595	if (flags & BLOCK_FIELD_IS_BYREF) {
596	// get rid of the __block data structure held in a Block
597	_Block_byref_release(arg: object);
598	}
599	else if ((flags & (BLOCK_FIELD_IS_BLOCK\|BLOCK_BYREF_CALLER)) == BLOCK_FIELD_IS_BLOCK) {
600	// get rid of a referenced Block held by this Block
601	// (ignore __block Block variables, compiler doesn't need to call us)
602	_Block_destroy(arg: object);
603	}
604	else if ((flags & (BLOCK_FIELD_IS_WEAK\|BLOCK_FIELD_IS_BLOCK\|BLOCK_BYREF_CALLER)) == BLOCK_FIELD_IS_OBJECT) {
605	// get rid of a referenced object held by this Block
606	// (ignore __block object variables, compiler doesn't need to call us)
607	_Block_release_object(object);
608	}
609	}
610
611
612	/*
613	* Debugging support:
614	*/
615	#if 0
616	#pragma mark Debugging
617	#endif /* if 0 */
618
619
620	const char _Block_dump(const* void *block) {
621	struct Block_layout closure = (struct* Block_layout *)block;
622	static char buffer[`512`];
623	char *cp = buffer;
624	if (closure == NULL) {
625	sprintf(s: cp, format: "NULL passed to _Block_dump\n");
626	return buffer;
627	}
628	if (! (closure->flags & BLOCK_HAS_DESCRIPTOR)) {
629	printf(format: "Block compiled by obsolete compiler, please recompile source for this Block\n");
630	exit(status: `1`);
631	}
632	cp += sprintf(s: cp, format: "^%p (new layout) =\n", (void *)closure);
633	if (closure->isa == NULL) {
634	cp += sprintf(s: cp, format: "isa: NULL\n");
635	}
636	else if (closure->isa == _NSConcreteStackBlock) {
637	cp += sprintf(s: cp, format: "isa: stack Block\n");
638	}
639	else if (closure->isa == _NSConcreteMallocBlock) {
640	cp += sprintf(s: cp, format: "isa: malloc heap Block\n");
641	}
642	else if (closure->isa == _NSConcreteAutoBlock) {
643	cp += sprintf(s: cp, format: "isa: GC heap Block\n");
644	}
645	else if (closure->isa == _NSConcreteGlobalBlock) {
646	cp += sprintf(s: cp, format: "isa: global Block\n");
647	}
648	else if (closure->isa == _NSConcreteFinalizingBlock) {
649	cp += sprintf(s: cp, format: "isa: finalizing Block\n");
650	}
651	else {
652	cp += sprintf(s: cp, format: "isa?: %p\n", (void *)closure->isa);
653	}
654	cp += sprintf(s: cp, format: "flags:");
655	if (closure->flags & BLOCK_HAS_DESCRIPTOR) {
656	cp += sprintf(s: cp, format: " HASDESCRIPTOR");
657	}
658	if (closure->flags & BLOCK_NEEDS_FREE) {
659	cp += sprintf(s: cp, format: " FREEME");
660	}
661	if (closure->flags & BLOCK_IS_GC) {
662	cp += sprintf(s: cp, format: " ISGC");
663	}
664	if (closure->flags & BLOCK_HAS_COPY_DISPOSE) {
665	cp += sprintf(s: cp, format: " HASHELP");
666	}
667	if (closure->flags & BLOCK_HAS_CTOR) {
668	cp += sprintf(s: cp, format: " HASCTOR");
669	}
670	cp += sprintf(s: cp, format: "\nrefcount: %u\n", closure->flags & BLOCK_REFCOUNT_MASK);
671	cp += sprintf(s: cp, format: "invoke: %p\n", (void *)(uintptr_t)closure->invoke);
672	{
673	struct Block_descriptor *dp = closure->descriptor;
674	cp += sprintf(s: cp, format: "descriptor: %p\n", (void *)dp);
675	cp += sprintf(s: cp, format: "descriptor->reserved: %lu\n", dp->reserved);
676	cp += sprintf(s: cp, format: "descriptor->size: %lu\n", dp->size);
677
678	if (closure->flags & BLOCK_HAS_COPY_DISPOSE) {
679	cp += sprintf(s: cp, format: "descriptor->copy helper: %p\n", (void *)(uintptr_t)dp->copy);
680	cp += sprintf(s: cp, format: "descriptor->dispose helper: %p\n", (void *)(uintptr_t)dp->dispose);
681	}
682	}
683	return buffer;
684	}
685
686
687	const char _Block_byref_dump(struct* Block_byref *src) {
688	static char buffer[`256`];
689	char *cp = buffer;
690	cp += sprintf(s: cp, format: "byref data block %p contents:\n", (void *)src);
691	cp += sprintf(s: cp, format: " forwarding: %p\n", (void *)src->forwarding);
692	cp += sprintf(s: cp, format: " flags: 0x%x\n", src->flags);
693	cp += sprintf(s: cp, format: " size: %d\n", src->size);
694	if (src->flags & BLOCK_HAS_COPY_DISPOSE) {
695	cp += sprintf(s: cp, format: " copy helper: %p\n", (void *)(uintptr_t)src->byref_keep);
696	cp += sprintf(s: cp, format: " dispose helper: %p\n", (void *)(uintptr_t)src->byref_destroy);
697	}
698	return buffer;
699	}
700
701

source code of compiler-rt/lib/BlocksRuntime/runtime.c