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blocks_runtime.m
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blocks_runtime.m
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/*
* Copyright (c) 2009 Remy Demarest
* Portions Copyright (c) 2009 David Chisnall
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following
* conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#import "objc/blocks_runtime.h"
#import "objc/runtime.h"
#import "objc/objc-arc.h"
#include "blocks_runtime.h"
#include "gc_ops.h"
#include "visibility.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <assert.h>
static void *_HeapBlockByRef = (void*)1;
/**
* Returns the Objective-C type encoding for the block.
*/
const char *block_getType_np(void *b)
{
struct Block_layout *block = b;
if ((NULL == block) || !(block->flags & BLOCK_HAS_SIGNATURE))
{
return NULL;
}
if (!(block->flags & BLOCK_HAS_COPY_DISPOSE))
{
return ((struct Block_descriptor_basic*)block->descriptor)->encoding;
}
return block->descriptor->encoding;
}
static int increment24(int *ref)
{
int old = *ref;
int val = old & BLOCK_REFCOUNT_MASK;
// FIXME: We should gracefully handle refcount overflow, but for now we
// just give up
assert(val < BLOCK_REFCOUNT_MASK);
if (!__sync_bool_compare_and_swap(ref, old, old+1))
{
return increment24(ref);
}
return val + 1;
}
static int decrement24(int *ref)
{
int old = *ref;
int val = old & BLOCK_REFCOUNT_MASK;
// FIXME: We should gracefully handle refcount overflow, but for now we
// just give up
assert(val > 0);
if (!__sync_bool_compare_and_swap(ref, old, old-1))
{
return decrement24(ref);
}
return val - 1;
}
// This is a really ugly hack that works around a buggy register allocator in
// GCC. Compiling nontrivial code using __sync_bool_compare_and_swap() with
// GCC (4.2.1, at least), causes the register allocator to run out of registers
// and fall over and die. We work around this by wrapping this CAS in a
// function, which means the register allocator can trivially handle it. Do
// not remove the noinline attribute - without it, gcc will inline it early on
// and then crash later.
#ifndef __clang__
__attribute__((noinline))
static int cas(void *ptr, void *old, void *new)
{
return __sync_bool_compare_and_swap((void**)ptr, old, new);
}
#define __sync_bool_compare_and_swap cas
#endif
/* Certain field types require runtime assistance when being copied to the
* heap. The following function is used to copy fields of types: blocks,
* pointers to byref structures, and objects (including
* __attribute__((NSObject)) pointers. BLOCK_FIELD_IS_WEAK is orthogonal to
* the other choices which are mutually exclusive. Only in a Block copy helper
* will one see BLOCK_FIELD_IS_BYREF.
*/
void _Block_object_assign(void *destAddr, const void *object, const int flags)
{
//printf("Copying %x to %x with flags %x\n", object, destAddr, flags);
// FIXME: Needs to be implemented
//if(flags & BLOCK_FIELD_IS_WEAK)
{
}
//else
{
if (IS_SET(flags, BLOCK_FIELD_IS_BYREF))
{
struct block_byref_obj *src = (struct block_byref_obj *)object;
struct block_byref_obj **dst = destAddr;
src = src->forwarding;
if ((src->flags & BLOCK_REFCOUNT_MASK) == 0)
{
*dst = gc->malloc(src->size);
memcpy(*dst, src, src->size);
(*dst)->isa = _HeapBlockByRef;
// Refcount must be two; one for the copy and one for the
// on-stack version that will point to it.
(*dst)->flags += 2;
if (IS_SET(src->flags, BLOCK_HAS_COPY_DISPOSE))
{
src->byref_keep(*dst, src);
}
(*dst)->forwarding = *dst;
// Concurrency. If we try copying the same byref structure
// from two threads simultaneously, we could end up with two
// versions on the heap that are unaware of each other. That
// would be bad. So we first set up the copy, then try to do
// an atomic compare-and-exchange to point the old version at
// it. If the forwarding pointer in src has changed, then we
// recover - clean up and then return the structure that the
// other thread created.
if (!__sync_bool_compare_and_swap(&src->forwarding, src, *dst))
{
if((size_t)src->size >= sizeof(struct block_byref_obj))
{
src->byref_dispose(*dst);
}
gc->free(*dst);
*dst = src->forwarding;
}
}
else
{
*dst = (struct block_byref_obj*)src;
increment24(&(*dst)->flags);
}
}
else if (IS_SET(flags, BLOCK_FIELD_IS_BLOCK))
{
struct Block_layout *src = (struct Block_layout*)object;
struct Block_layout **dst = destAddr;
*dst = Block_copy(src);
}
else if (IS_SET(flags, BLOCK_FIELD_IS_OBJECT) &&
!IS_SET(flags, BLOCK_BYREF_CALLER))
{
id src = (id)object;
void **dst = destAddr;
*dst = src;
if (!isGCEnabled)
{
*dst = objc_retain(src);
}
}
}
}
/* Similarly a compiler generated dispose helper needs to call back for each
* field of the byref data structure. (Currently the implementation only packs
* one field into the byref structure but in principle there could be more).
* The same flags used in the copy helper should be used for each call
* generated to this function:
*/
void _Block_object_dispose(const void *object, const int flags)
{
// FIXME: Needs to be implemented
//if(flags & BLOCK_FIELD_IS_WEAK)
{
}
//else
{
if (IS_SET(flags, BLOCK_FIELD_IS_BYREF))
{
struct block_byref_obj *src =
(struct block_byref_obj*)object;
src = src->forwarding;
if (src->isa == _HeapBlockByRef)
{
int refcount = (src->flags & BLOCK_REFCOUNT_MASK) == 0 ? 0 : decrement24(&src->flags);
if (refcount == 0)
{
if(IS_SET(src->flags, BLOCK_HAS_COPY_DISPOSE) && (0 != src->byref_dispose))
{
src->byref_dispose(src);
}
gc->free(src);
}
}
}
else if (IS_SET(flags, BLOCK_FIELD_IS_BLOCK))
{
struct Block_layout *src = (struct Block_layout*)object;
Block_release(src);
}
else if (IS_SET(flags, BLOCK_FIELD_IS_OBJECT) &&
!IS_SET(flags, BLOCK_BYREF_CALLER))
{
id src = (id)object;
if (!isGCEnabled)
{
objc_release(src);
}
}
}
}
// Copy a block to the heap if it's still on the stack or increments its retain count.
void *_Block_copy(void *src)
{
if (NULL == src) { return NULL; }
struct Block_layout *self = src;
struct Block_layout *ret = self;
extern void _NSConcreteStackBlock;
extern void _NSConcreteMallocBlock;
// If the block is Global, there's no need to copy it on the heap.
if(self->isa == &_NSConcreteStackBlock)
{
ret = gc->malloc(self->descriptor->size);
memcpy(ret, self, self->descriptor->size);
ret->isa = &_NSConcreteMallocBlock;
if(self->flags & BLOCK_HAS_COPY_DISPOSE)
{
self->descriptor->copy_helper(ret, self);
}
// We don't need any atomic operations here, because on-stack blocks
// can not be aliased across threads (unless you've done something
// badly wrong).
ret->reserved = 1;
}
else if (self->isa == &_NSConcreteMallocBlock)
{
// We need an atomic increment for malloc'd blocks, because they may be
// shared.
__sync_fetch_and_add(&ret->reserved, 1);
}
return ret;
}
// Release a block and frees the memory when the retain count hits zero.
void _Block_release(void *src)
{
if (NULL == src) { return; }
struct Block_layout *self = src;
extern void _NSConcreteStackBlock;
extern void _NSConcreteMallocBlock;
if (&_NSConcreteStackBlock == self->isa)
{
fprintf(stderr, "Block_release called upon a stack Block: %p, ignored\n", self);
}
else if (&_NSConcreteMallocBlock == self->isa)
{
if (__sync_sub_and_fetch(&self->reserved, 1) == 0)
{
if(self->flags & BLOCK_HAS_COPY_DISPOSE)
self->descriptor->dispose_helper(self);
objc_delete_weak_refs((id)self);
gc->free(self);
}
}
}
PRIVATE void* block_load_weak(void *block)
{
struct Block_layout *self = block;
return (self->reserved) > 0 ? block : 0;
}