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properties.m
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properties.m
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#include "objc/runtime.h"
#include "objc/objc-arc.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "class.h"
#include "properties.h"
#include "spinlock.h"
#include "visibility.h"
#include "nsobject.h"
#include "gc_ops.h"
#include "lock.h"
PRIVATE int spinlocks[spinlock_count];
static inline BOOL checkAttribute(char field, int attr)
{
return (field & attr) == attr;
}
/**
* Public function for getting a property.
*/
id objc_getProperty(id obj, SEL _cmd, ptrdiff_t offset, BOOL isAtomic)
{
if (nil == obj) { return nil; }
char *addr = (char*)obj;
addr += offset;
if (isGCEnabled)
{
return *(id*)addr;
}
id ret;
if (isAtomic)
{
volatile int *lock = lock_for_pointer(addr);
lock_spinlock(lock);
ret = *(id*)addr;
ret = objc_retain(ret);
unlock_spinlock(lock);
ret = objc_autoreleaseReturnValue(ret);
}
else
{
ret = *(id*)addr;
ret = objc_retainAutoreleaseReturnValue(ret);
}
return ret;
}
void objc_setProperty(id obj, SEL _cmd, ptrdiff_t offset, id arg, BOOL isAtomic, BOOL isCopy)
{
if (nil == obj) { return; }
char *addr = (char*)obj;
addr += offset;
if (isGCEnabled)
{
if (isCopy)
{
arg = [arg copy];
}
*(id*)addr = arg;
return;
}
if (isCopy)
{
arg = [arg copy];
}
else
{
arg = objc_retain(arg);
}
id old;
if (isAtomic)
{
volatile int *lock = lock_for_pointer(addr);
lock_spinlock(lock);
old = *(id*)addr;
*(id*)addr = arg;
unlock_spinlock(lock);
}
else
{
old = *(id*)addr;
*(id*)addr = arg;
}
objc_release(old);
}
void objc_setProperty_atomic(id obj, SEL _cmd, id arg, ptrdiff_t offset)
{
char *addr = (char*)obj;
addr += offset;
arg = objc_retain(arg);
volatile int *lock = lock_for_pointer(addr);
lock_spinlock(lock);
id old = *(id*)addr;
*(id*)addr = arg;
unlock_spinlock(lock);
objc_release(old);
}
void objc_setProperty_atomic_copy(id obj, SEL _cmd, id arg, ptrdiff_t offset)
{
char *addr = (char*)obj;
addr += offset;
arg = [arg copy];
volatile int *lock = lock_for_pointer(addr);
lock_spinlock(lock);
id old = *(id*)addr;
*(id*)addr = arg;
unlock_spinlock(lock);
objc_release(old);
}
void objc_setProperty_nonatomic(id obj, SEL _cmd, id arg, ptrdiff_t offset)
{
char *addr = (char*)obj;
addr += offset;
arg = objc_retain(arg);
id old = *(id*)addr;
*(id*)addr = arg;
objc_release(old);
}
void objc_setProperty_nonatomic_copy(id obj, SEL _cmd, id arg, ptrdiff_t offset)
{
char *addr = (char*)obj;
addr += offset;
id old = *(id*)addr;
*(id*)addr = [arg copy];
objc_release(old);
}
void objc_copyCppObjectAtomic(void *dest, const void *src,
void (*copyHelper) (void *dest, const void *source))
{
volatile int *lock = lock_for_pointer(src < dest ? src : dest);
volatile int *lock2 = lock_for_pointer(src < dest ? dest : src);
lock_spinlock(lock);
lock_spinlock(lock2);
copyHelper(dest, src);
unlock_spinlock(lock);
unlock_spinlock(lock2);
}
void objc_getCppObjectAtomic(void *dest, const void *src,
void (*copyHelper) (void *dest, const void *source))
{
volatile int *lock = lock_for_pointer(src);
lock_spinlock(lock);
copyHelper(dest, src);
unlock_spinlock(lock);
}
void objc_setCppObjectAtomic(void *dest, const void *src,
void (*copyHelper) (void *dest, const void *source))
{
volatile int *lock = lock_for_pointer(dest);
lock_spinlock(lock);
copyHelper(dest, src);
unlock_spinlock(lock);
}
/**
* Structure copy function. This is provided for compatibility with the Apple
* APIs (it's an ABI function, so it's semi-public), but it's a bad design so
* it's not used. The problem is that it does not identify which of the
* pointers corresponds to the object, which causes some excessive locking to
* be needed.
*/
void objc_copyPropertyStruct(void *dest,
void *src,
ptrdiff_t size,
BOOL atomic,
BOOL strong)
{
if (atomic)
{
volatile int *lock = lock_for_pointer(src < dest ? src : dest);
volatile int *lock2 = lock_for_pointer(src < dest ? dest : src);
lock_spinlock(lock);
lock_spinlock(lock2);
memcpy(dest, src, size);
unlock_spinlock(lock);
unlock_spinlock(lock2);
}
else
{
memcpy(dest, src, size);
}
}
/**
* Get property structure function. Copies a structure from an ivar to another
* variable. Locks on the address of src.
*/
void objc_getPropertyStruct(void *dest,
void *src,
ptrdiff_t size,
BOOL atomic,
BOOL strong)
{
if (atomic)
{
volatile int *lock = lock_for_pointer(src);
lock_spinlock(lock);
memcpy(dest, src, size);
unlock_spinlock(lock);
}
else
{
memcpy(dest, src, size);
}
}
/**
* Set property structure function. Copes a structure to an ivar. Locks on
* dest.
*/
void objc_setPropertyStruct(void *dest,
void *src,
ptrdiff_t size,
BOOL atomic,
BOOL strong)
{
if (atomic)
{
volatile int *lock = lock_for_pointer(dest);
lock_spinlock(lock);
memcpy(dest, src, size);
unlock_spinlock(lock);
}
else
{
memcpy(dest, src, size);
}
}
objc_property_t class_getProperty(Class cls, const char *name)
{
// Old ABI classes don't have declared properties
if (Nil == cls || !objc_test_class_flag(cls, objc_class_flag_new_abi))
{
return NULL;
}
struct objc_property_list *properties = cls->properties;
while (NULL != properties)
{
for (int i=0 ; i<properties->count ; i++)
{
objc_property_t p = &properties->properties[i];
if (strcmp(property_getName(p), name) == 0)
{
return p;
}
}
properties = properties->next;
}
return NULL;
}
objc_property_t* class_copyPropertyList(Class cls, unsigned int *outCount)
{
if (Nil == cls || !objc_test_class_flag(cls, objc_class_flag_new_abi))
{
if (NULL != outCount) { *outCount = 0; }
return NULL;
}
struct objc_property_list *properties = cls->properties;
unsigned int count = 0;
for (struct objc_property_list *l=properties ; NULL!=l ; l=l->next)
{
count += l->count;
}
if (NULL != outCount)
{
*outCount = count;
}
if (0 == count)
{
return NULL;
}
objc_property_t *list = calloc(sizeof(objc_property_t), count);
unsigned int out = 0;
for (struct objc_property_list *l=properties ; NULL!=l ; l=l->next)
{
for (int i=0 ; i<properties->count ; i++)
{
list[out++] = &l->properties[i];
}
}
return list;
}
static const char* property_getIVar(objc_property_t property) {
const char *iVar = property_getAttributes(property);
if (iVar != 0)
{
while ((*iVar != 0) && (*iVar != 'V'))
{
iVar++;
}
if (*iVar == 'V')
{
return iVar+1;
}
}
return 0;
}
const char *property_getName(objc_property_t property)
{
if (NULL == property) { return NULL; }
const char *name = property->name;
if (NULL == name) { return NULL; }
if (name[0] == 0)
{
name += name[1];
}
return name;
}
PRIVATE size_t lengthOfTypeEncoding(const char *types);
/**
* The compiler stores the type encoding of the getter. We replace this with
* the type encoding of the property itself. We use a 0 byte at the start to
* indicate that the swap has taken place.
*/
static const char *property_getTypeEncoding(objc_property_t property)
{
if (NULL == property) { return NULL; }
if (NULL == property->getter_types) { return NULL; }
const char *name = property->getter_types;
if (name[0] == 0)
{
return &name[1];
}
size_t typeSize = lengthOfTypeEncoding(name);
char *buffer = malloc(typeSize + 2);
buffer[0] = 0;
memcpy(buffer+1, name, typeSize);
buffer[typeSize+1] = 0;
if (!__sync_bool_compare_and_swap(&(property->getter_types), name, buffer))
{
free(buffer);
}
return &property->getter_types[1];
}
PRIVATE const char *constructPropertyAttributes(objc_property_t property,
const char *iVarName)
{
const char *name = (char*)property->name;
const char *typeEncoding = property_getTypeEncoding(property);
size_t typeSize = (NULL == typeEncoding) ? 0 : strlen(typeEncoding);
size_t nameSize = (NULL == name) ? 0 : strlen(name);
size_t iVarNameSize = (NULL == iVarName) ? 0 : strlen(iVarName);
// Encoding is T{type},V{name}, so 4 bytes for the "T,V" that we always
// need. We also need two bytes for the leading null and the length.
size_t encodingSize = typeSize + nameSize + 6;
char flags[20];
size_t i = 0;
// Flags that are a comma then a character
if (checkAttribute(property->attributes, OBJC_PR_readonly))
{
flags[i++] = ',';
flags[i++] = 'R';
}
if (checkAttribute(property->attributes, OBJC_PR_retain))
{
flags[i++] = ',';
flags[i++] = '&';
}
if (checkAttribute(property->attributes, OBJC_PR_copy))
{
flags[i++] = ',';
flags[i++] = 'C';
}
if (checkAttribute(property->attributes2, OBJC_PR_weak))
{
flags[i++] = ',';
flags[i++] = 'W';
}
if (checkAttribute(property->attributes2, OBJC_PR_dynamic))
{
flags[i++] = ',';
flags[i++] = 'D';
}
if ((property->attributes & OBJC_PR_nonatomic) == OBJC_PR_nonatomic)
{
flags[i++] = ',';
flags[i++] = 'N';
}
encodingSize += i;
flags[i] = '\0';
size_t setterLength = 0;
size_t getterLength = 0;
if ((property->attributes & OBJC_PR_getter) == OBJC_PR_getter)
{
getterLength = strlen(property->getter_name);
encodingSize += 2 + getterLength;
}
if ((property->attributes & OBJC_PR_setter) == OBJC_PR_setter)
{
setterLength = strlen(property->setter_name);
encodingSize += 2 + setterLength;
}
if (NULL != iVarName)
{
encodingSize += 2 + iVarNameSize;
}
unsigned char *encoding = malloc(encodingSize);
// Set the leading 0 and the offset of the name
unsigned char *insert = encoding;
BOOL needsComma = NO;
*(insert++) = 0;
*(insert++) = 0;
// Set the type encoding
if (NULL != typeEncoding)
{
*(insert++) = 'T';
memcpy(insert, typeEncoding, typeSize);
insert += typeSize;
needsComma = YES;
}
// Set the flags
memcpy(insert, flags, i);
insert += i;
if ((property->attributes & OBJC_PR_getter) == OBJC_PR_getter)
{
if (needsComma)
{
*(insert++) = ',';
}
i++;
needsComma = YES;
*(insert++) = 'G';
memcpy(insert, property->getter_name, getterLength);
insert += getterLength;
}
if ((property->attributes & OBJC_PR_setter) == OBJC_PR_setter)
{
if (needsComma)
{
*(insert++) = ',';
}
i++;
needsComma = YES;
*(insert++) = 'S';
memcpy(insert, property->setter_name, setterLength);
insert += setterLength;
}
// If the instance variable name is the same as the property name, then we
// use the same string for both, otherwise we write the ivar name in the
// attributes string and then a null and then the name.
if (NULL != iVarName)
{
if (needsComma)
{
*(insert++) = ',';
}
*(insert++) = 'V';
memcpy(insert, iVarName, iVarNameSize);
insert += iVarNameSize;
}
*(insert++) = '\0';
encoding[1] = (unsigned char)(uintptr_t)(insert - encoding);
memcpy(insert, name, nameSize);
insert += nameSize;
*insert = '\0';
// If another thread installed the encoding string while we were computing
// it, then discard the one that we created and return theirs.
if (!__sync_bool_compare_and_swap(&(property->name), name, (char*)encoding))
{
free(encoding);
return property->name + 2;
}
return (const char*)(encoding + 2);
}
const char *property_getAttributes(objc_property_t property)
{
if (NULL == property) { return NULL; }
const char *name = (char*)property->name;
if (name[0] == 0)
{
return name + 2;
}
return constructPropertyAttributes(property, NULL);
}
objc_property_attribute_t *property_copyAttributeList(objc_property_t property,
unsigned int *outCount)
{
if (NULL == property) { return NULL; }
objc_property_attribute_t attrs[12];
int count = 0;
const char *types = property_getTypeEncoding(property);
if (NULL != types)
{
attrs[count].name = "T";
attrs[count].value = types;
count++;
}
if (checkAttribute(property->attributes, OBJC_PR_readonly))
{
attrs[count].name = "R";
attrs[count].value = "";
count++;
}
if (checkAttribute(property->attributes, OBJC_PR_copy))
{
attrs[count].name = "C";
attrs[count].value = "";
count++;
}
if (checkAttribute(property->attributes, OBJC_PR_retain) ||
checkAttribute(property->attributes2, OBJC_PR_strong))
{
attrs[count].name = "&";
attrs[count].value = "";
count++;
}
if (checkAttribute(property->attributes2, OBJC_PR_dynamic) &&
!checkAttribute(property->attributes2, OBJC_PR_synthesized))
{
attrs[count].name = "D";
attrs[count].value = "";
count++;
}
if (checkAttribute(property->attributes2, OBJC_PR_weak))
{
attrs[count].name = "W";
attrs[count].value = "";
count++;
}
if ((property->attributes & OBJC_PR_nonatomic) == OBJC_PR_nonatomic)
{
attrs[count].name = "N";
attrs[count].value = "";
count++;
}
if ((property->attributes & OBJC_PR_getter) == OBJC_PR_getter)
{
attrs[count].name = "G";
attrs[count].value = property->getter_name;
count++;
}
if ((property->attributes & OBJC_PR_setter) == OBJC_PR_setter)
{
attrs[count].name = "S";
attrs[count].value = property->setter_name;
count++;
}
const char *name = property_getIVar(property);
if (name != NULL)
{
attrs[count].name = "V";
attrs[count].value = name;
count++;
}
objc_property_attribute_t *propAttrs = calloc(sizeof(objc_property_attribute_t), count);
memcpy(propAttrs, attrs, count * sizeof(objc_property_attribute_t));
if (NULL != outCount)
{
*outCount = count;
}
return propAttrs;
}
PRIVATE struct objc_property propertyFromAttrs(const objc_property_attribute_t *attributes,
unsigned int attributeCount,
const char **name)
{
struct objc_property p = { 0 };
for (unsigned int i=0 ; i<attributeCount ; i++)
{
switch (attributes[i].name[0])
{
case 'T':
{
size_t typeSize = strlen(attributes[i].value);
char *buffer = malloc(typeSize + 2);
buffer[0] = 0;
memcpy(buffer+1, attributes[i].value, typeSize);
buffer[typeSize+1] = 0;
p.getter_types = buffer;
break;
}
case 'S':
{
p.setter_name = strdup(attributes[i].value);
break;
}
case 'G':
{
p.getter_name = strdup(attributes[i].value);
break;
}
case 'V':
{
*name = attributes[i].value;
break;
}
case 'C':
{
p.attributes |= OBJC_PR_copy;
break;
}
case 'R':
{
p.attributes |= OBJC_PR_readonly;
break;
}
case 'W':
{
p.attributes2 |= OBJC_PR_weak;
break;
}
case '&':
{
p.attributes |= OBJC_PR_retain;
break;
}
case 'N':
{
p.attributes |= OBJC_PR_nonatomic;
break;
}
case 'D':
{
p.attributes2 |= OBJC_PR_dynamic;
break;
}
}
}
return p;
}
BOOL class_addProperty(Class cls,
const char *name,
const objc_property_attribute_t *attributes,
unsigned int attributeCount)
{
if ((Nil == cls) || (NULL == name) || (class_getProperty(cls, name) != 0)) { return NO; }
const char *iVarname = NULL;
struct objc_property p = propertyFromAttrs(attributes, attributeCount, &iVarname);
// If the iVar name is not the same as the name, then we need to construct
// the attributes string now, otherwise we can construct it lazily.
p.name = name;
constructPropertyAttributes(&p, iVarname);
struct objc_property_list *l = calloc(1, sizeof(struct objc_property_list)
+ sizeof(struct objc_property));
l->count = 1;
memcpy(&l->properties, &p, sizeof(struct objc_property));
LOCK_RUNTIME_FOR_SCOPE();
l->next = cls->properties;
cls->properties = l;
return YES;
}
void class_replaceProperty(Class cls,
const char *name,
const objc_property_attribute_t *attributes,
unsigned int attributeCount)
{
if ((Nil == cls) || (NULL == name)) { return; }
objc_property_t old = class_getProperty(cls, name);
if (NULL == old)
{
class_addProperty(cls, name, attributes, attributeCount);
return;
}
const char *iVarname = 0;
struct objc_property p = propertyFromAttrs(attributes, attributeCount, &iVarname);
p.name = name;
LOCK_RUNTIME_FOR_SCOPE();
constructPropertyAttributes(&p, iVarname);
memcpy(old, &p, sizeof(struct objc_property));
}
char *property_copyAttributeValue(objc_property_t property,
const char *attributeName)
{
if ((NULL == property) || (NULL == attributeName)) { return NULL; }
switch (attributeName[0])
{
case 'T':
{
const char *types = property_getTypeEncoding(property);
return (NULL == types) ? NULL : strdup(types);
}
case 'D':
{
return checkAttribute(property->attributes2, OBJC_PR_dynamic) &&
!checkAttribute(property->attributes2, OBJC_PR_synthesized) ? strdup("") : 0;
}
case 'V':
{
return strdup(property_getIVar(property));
}
case 'S':
{
return strdup(property->setter_name);
}
case 'G':
{
return strdup(property->getter_name);
}
case 'R':
{
return checkAttribute(property->attributes, OBJC_PR_readonly) ? strdup("") : 0;
}
case 'W':
{
return checkAttribute(property->attributes2, OBJC_PR_weak) ? strdup("") : 0;
}
case 'C':
{
return checkAttribute(property->attributes, OBJC_PR_copy) ? strdup("") : 0;
}
case '&':
{
return checkAttribute(property->attributes, OBJC_PR_retain) ||
checkAttribute(property->attributes2, OBJC_PR_strong) ? strdup("") : 0;
}
case 'N':
{
return checkAttribute(property->attributes, OBJC_PR_nonatomic) ? strdup("") : 0;
}
}
return 0;
}