CoreFoundation/CFUUID.c - nest-cam/4320010/corefoundation - Git at Google

 /*
  * Copyright (c) 2008-2009 Brent Fulgham <bfulgham@gmail.org>.  All rights reserved.
  *
  * This source code is a modified version of the CoreFoundation sources released by Apple Inc. under
  * the terms of the APSL version 2.0 (see below).
  *
  * For information about changes from the original Apple source release can be found by reviewing the
  * source control system for the project at https://sourceforge.net/svn/?group_id=246198.
  *
  * The original license information is as follows:
  *
  * Copyright (c) 2008 Apple Inc. All rights reserved.
  *
  * @APPLE_LICENSE_HEADER_START@
  *
  * This file contains Original Code and/or Modifications of Original Code
  * as defined in and that are subject to the Apple Public Source License
  * Version 2.0 (the 'License'). You may not use this file except in
  * compliance with the License. Please obtain a copy of the License at
  * http://www.opensource.apple.com/apsl/ and read it before using this
  * file.
  *
  * The Original Code and all software distributed under the License are
  * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
  * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
  * Please see the License for the specific language governing rights and
  * limitations under the License.
  *
  * @APPLE_LICENSE_HEADER_END@
  */
 /*	CFUUID.c
 	Copyright (c) 1999-2007 Apple Inc.  All rights reserved.
 	Responsibility: Doug Davidson
 */

 #include <CoreFoundation/CFUUID.h>
 #include "CFInternal.h"
 #if ( DEPLOYMENT_TARGET_MACOSX || DEPLOYMENT_TARGET_LINUX ) && !defined(DEPLOYMENT_TARGET_ANDROID)
 #include <uuid/uuid.h>
 #elif DEPLOYMENT_TARGET_WINDOWS
 #include <objbase.h>
 #include <stdlib.h>
 #define strtoul_l(a,b,c,d) strtoul(a,b,c)
 #endif

 static CFMutableDictionaryRef _uniquedUUIDs = NULL;
 static CFSpinLock_t CFUUIDGlobalDataLock = CFSpinLockInit;

 struct __CFUUID {
     CFRuntimeBase _base;
     CFUUIDBytes _bytes;
 };

 static Boolean __CFisEqualUUIDBytes(const void *ptr1, const void *ptr2) {
     CFUUIDBytes *p1 = (CFUUIDBytes *)ptr1;
     CFUUIDBytes *p2 = (CFUUIDBytes *)ptr2;

     return (((p1->byte0 == p2->byte0) && (p1->byte1 == p2->byte1) && (p1->byte2 == p2->byte2) && (p1->byte3 == p2->byte3) && (p1->byte4 == p2->byte4) && (p1->byte5 == p2->byte5) && (p1->byte6 == p2->byte6) && (p1->byte7 == p2->byte7) && (p1->byte8 == p2->byte8) && (p1->byte9 == p2->byte9) && (p1->byte10 == p2->byte10) && (p1->byte11 == p2->byte11) && (p1->byte12 == p2->byte12) && (p1->byte13 == p2->byte13) && (p1->byte14 == p2->byte14) && (p1->byte15 == p2->byte15)) ? true : false);
 }

 static CFHashCode __CFhashUUIDBytes(const void *ptr) {
     return CFHashBytes((uint8_t *)ptr, 16);
 }

 #if !defined(_MSC_VER)
 #import "auto_stubs.h"
 #endif

 #define LOCK() __CFSpinLock(&CFUUIDGlobalDataLock)
 #define UNLOCK() __CFSpinUnlock(&CFUUIDGlobalDataLock)

 #define MALLOC(x) CFAllocatorAllocate(kCFAllocatorSystemDefault, x, 0)
 #define FREE(x) CFAllocatorDeallocate(kCFAllocatorSystemDefault, x)
 #define HASH(x) CFHashBytes((uint8_t *)x, 16)


 /***** end of weak set */

 static void __CFUUIDAddUniqueUUID(CFUUIDRef uuid) {
     __CFSpinLock(&CFUUIDGlobalDataLock);

     CFDictionaryKeyCallBacks __CFUUIDBytesDictionaryKeyCallBacks = {0, NULL, NULL, NULL, __CFisEqualUUIDBytes, __CFhashUUIDBytes};
     CFDictionaryValueCallBacks __CFnonRetainedUUIDDictionaryValueCallBacks = {0, NULL, NULL, CFCopyDescription, CFEqual};

     if (_uniquedUUIDs == NULL) {
         _uniquedUUIDs = CFDictionaryCreateMutable(kCFAllocatorSystemDefault, 0, &__CFUUIDBytesDictionaryKeyCallBacks, &__CFnonRetainedUUIDDictionaryValueCallBacks);
     }
     CFDictionarySetValue(_uniquedUUIDs, &(uuid->_bytes), uuid);
     __CFSpinUnlock(&CFUUIDGlobalDataLock);
 }

 static void __CFUUIDRemoveUniqueUUID(CFUUIDRef uuid) {
     __CFSpinLock(&CFUUIDGlobalDataLock);
     if (_uniquedUUIDs != NULL) {
         CFDictionaryRemoveValue(_uniquedUUIDs, &(uuid->_bytes));
     }
     __CFSpinUnlock(&CFUUIDGlobalDataLock);
 }

 static CFUUIDRef __CFUUIDGetUniquedUUID(CFUUIDBytes *bytes) {
     CFUUIDRef uuid = NULL;
     __CFSpinLock(&CFUUIDGlobalDataLock);
     if (_uniquedUUIDs != NULL) {
         uuid = (CFUUIDRef)CFDictionaryGetValue(_uniquedUUIDs, bytes);
     }
     __CFSpinUnlock(&CFUUIDGlobalDataLock);
     return uuid;
 }

 static void __CFUUIDDeallocate(CFTypeRef cf) {
     struct __CFUUID *uuid = (struct __CFUUID *)cf;
     __CFUUIDRemoveUniqueUUID(uuid);
 }

 static CFStringRef __CFUUIDCopyDescription(CFTypeRef cf) {
     CFStringRef uuidStr = CFUUIDCreateString(CFGetAllocator(cf), (CFUUIDRef)cf);
     CFStringRef desc = CFStringCreateWithFormat(kCFAllocatorSystemDefault, NULL, CFSTR("<CFUUID %p> %@"), cf, uuidStr);
     CFRelease(uuidStr);
     return desc;
 }

 static CFStringRef __CFUUIDCopyFormattingDescription(CFTypeRef cf, CFDictionaryRef formatOptions) {
     return CFUUIDCreateString(CFGetAllocator(cf), (CFUUIDRef)cf);
 }

 static CFTypeID __kCFUUIDTypeID = _kCFRuntimeNotATypeID;

 static const CFRuntimeClass __CFUUIDClass = {
     0,
     "CFUUID",
     NULL,	// init
     NULL,	// copy
     __CFUUIDDeallocate,
     NULL,	// equal
     NULL,	// hash
     __CFUUIDCopyFormattingDescription,
     __CFUUIDCopyDescription
 };

 __private_extern__ void __CFUUIDInitialize(void) {
     __kCFUUIDTypeID = _CFRuntimeRegisterClass(&__CFUUIDClass);
 }

 CFTypeID CFUUIDGetTypeID(void) {
     return __kCFUUIDTypeID;
 }

 static CFUUIDRef __CFUUIDCreateWithBytesPrimitive(CFAllocatorRef allocator, CFUUIDBytes bytes, Boolean isConst) {
     struct __CFUUID *uuid = (struct __CFUUID *)__CFUUIDGetUniquedUUID(&bytes);

     if (uuid == NULL) {
         size_t size;
         size = sizeof(struct __CFUUID) - sizeof(CFRuntimeBase);
         uuid = (struct __CFUUID *)_CFRuntimeCreateInstance(allocator, __kCFUUIDTypeID, (CFIndex)size, NULL);

         if (NULL == uuid) return NULL;

         uuid->_bytes = bytes;

         __CFUUIDAddUniqueUUID(uuid);
     } else if (!isConst) {
         CFRetain(uuid);
     }

     return (CFUUIDRef)uuid;
 }

 CFUUIDRef CFUUIDCreate(CFAllocatorRef alloc) {
     /* Create a new bytes struct and then call the primitive. */
     CFUUIDBytes bytes;
     uint32_t retval = 0;

 #if DEPLOYMENT_TARGET_ANDROID
     retval = 1;
 #else
     __CFSpinLock(&CFUUIDGlobalDataLock);
     static Boolean useV1UUIDs = false, checked = false;
     if (!checked) {
         const char *value = getenv("CFUUIDVersionNumber");
         if (value) {
             if (1 == strtoul_l(value, NULL, 0, NULL)) useV1UUIDs = true;
         } else {
             if (!_CFExecutableLinkedOnOrAfter(CFSystemVersionTiger)) useV1UUIDs = true;
         }
         checked = true;
     }
 #if DEPLOYMENT_TARGET_MACOSX || DEPLOYMENT_TARGET_LINUX
     uuid_t uuid;
     if (useV1UUIDs) uuid_generate_time(uuid); else uuid_generate_random(uuid);
 #elif DEPLOYMENT_TARGET_WINDOWS
     UUID uuidData;
     UUID* uuid = &uuidData;
     if (useV1UUIDs) UuidCreateSequential(uuid); else UuidCreate(uuid);
 #else
     #error Unknown or unspecified DEPLOYMENT_TARGET
 #endif
     memcpy(&bytes, (const void*)uuid, sizeof(uuid));
     __CFSpinUnlock(&CFUUIDGlobalDataLock);
 #endif

     return (retval == 0) ? __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false) : NULL;
 }

 CFUUIDRef CFUUIDCreateWithBytes(CFAllocatorRef alloc, uint8_t byte0, uint8_t byte1, uint8_t byte2, uint8_t byte3, uint8_t byte4, uint8_t byte5, uint8_t byte6, uint8_t byte7, uint8_t byte8, uint8_t byte9, uint8_t byte10, uint8_t byte11, uint8_t byte12, uint8_t byte13, uint8_t byte14, uint8_t byte15) {
     CFUUIDBytes bytes;
     // CodeWarrior can't handle the structure assignment of bytes, so we must explode this - REW, 10/8/99
     bytes.byte0 = byte0;
     bytes.byte1 = byte1;
     bytes.byte2 = byte2;
     bytes.byte3 = byte3;
     bytes.byte4 = byte4;
     bytes.byte5 = byte5;
     bytes.byte6 = byte6;
     bytes.byte7 = byte7;
     bytes.byte8 = byte8;
     bytes.byte9 = byte9;
     bytes.byte10 = byte10;
     bytes.byte11 = byte11;
     bytes.byte12 = byte12;
     bytes.byte13 = byte13;
     bytes.byte14 = byte14;
     bytes.byte15 = byte15;

     return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false);
 }

 static void _intToHexChars(UInt32 in, UniChar *out, int digits) {
     int shift;
     UInt32 d;

     while (--digits >= 0) {
         shift = digits << 2;
         d = 0x0FL & (in >> shift);
         if (d <= 9) {
             *out++ = (UniChar)'0' + d;
         } else {
             *out++ = (UniChar)'A' + (d - 10);
         }
     }
 }

 static uint8_t _byteFromHexChars(UniChar *in) {
     uint8_t result = 0;
     UniChar c;
     uint8_t d;
     CFIndex i;

     for (i=0; i<2; i++) {
         c = in[i];
         if ((c >= (UniChar)'0') && (c <= (UniChar)'9')) {
             d = c - (UniChar)'0';
         } else if ((c >= (UniChar)'a') && (c <= (UniChar)'f')) {
             d = c - ((UniChar)'a' - 10);
         } else if ((c >= (UniChar)'A') && (c <= (UniChar)'F')) {
             d = c - ((UniChar)'A' - 10);
         } else {
             return 0;
         }
         result = (result << 4) | d;
     }

     return result;
 }

 CF_INLINE Boolean _isHexChar(UniChar c) {
     return ((((c >= (UniChar)'0') && (c <= (UniChar)'9')) || ((c >= (UniChar)'a') && (c <= (UniChar)'f')) || ((c >= (UniChar)'A') && (c <= (UniChar)'F'))) ? true : false);
 }

 #define READ_A_BYTE(into) if (i+1 < len) { \
     (into) = _byteFromHexChars(&(chars[i])); \
         i+=2; \
 }

 CFUUIDRef CFUUIDCreateFromString(CFAllocatorRef alloc, CFStringRef uuidStr) {
     /* Parse the string into a bytes struct and then call the primitive. */
     CFUUIDBytes bytes;
     UniChar chars[100];
     CFIndex len;
     CFIndex i = 0;

     if (uuidStr == NULL) return NULL;

     len = CFStringGetLength(uuidStr);
     if (len > 100) {
         len = 100;
     } else if (len == 0) {
         return NULL;
     }
     CFStringGetCharacters(uuidStr, CFRangeMake(0, len), chars);
     memset((void *)&bytes, 0, sizeof(bytes));

     /* Skip initial random stuff */
     while (!_isHexChar(chars[i]) && (i < len)) {
         i++;
     }

     READ_A_BYTE(bytes.byte0);
     READ_A_BYTE(bytes.byte1);
     READ_A_BYTE(bytes.byte2);
     READ_A_BYTE(bytes.byte3);

     i++;

     READ_A_BYTE(bytes.byte4);
     READ_A_BYTE(bytes.byte5);

     i++;

     READ_A_BYTE(bytes.byte6);
     READ_A_BYTE(bytes.byte7);

     i++;

     READ_A_BYTE(bytes.byte8);
     READ_A_BYTE(bytes.byte9);

     i++;

     READ_A_BYTE(bytes.byte10);
     READ_A_BYTE(bytes.byte11);
     READ_A_BYTE(bytes.byte12);
     READ_A_BYTE(bytes.byte13);
     READ_A_BYTE(bytes.byte14);
     READ_A_BYTE(bytes.byte15);

     return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false);
 }

 CFStringRef CFUUIDCreateString(CFAllocatorRef alloc, CFUUIDRef uuid) {
     CFMutableStringRef str = CFStringCreateMutable(alloc, 0);
     UniChar buff[12];

     // First segment (4 bytes, 8 digits + 1 dash)
     _intToHexChars(uuid->_bytes.byte0, buff, 2);
     _intToHexChars(uuid->_bytes.byte1, &(buff[2]), 2);
     _intToHexChars(uuid->_bytes.byte2, &(buff[4]), 2);
     _intToHexChars(uuid->_bytes.byte3, &(buff[6]), 2);
     buff[8] = (UniChar)'-';
     CFStringAppendCharacters(str, buff, 9);

     // Second segment (2 bytes, 4 digits + 1 dash)
     _intToHexChars(uuid->_bytes.byte4, buff, 2);
     _intToHexChars(uuid->_bytes.byte5, &(buff[2]), 2);
     buff[4] = (UniChar)'-';
     CFStringAppendCharacters(str, buff, 5);

     // Third segment (2 bytes, 4 digits + 1 dash)
     _intToHexChars(uuid->_bytes.byte6, buff, 2);
     _intToHexChars(uuid->_bytes.byte7, &(buff[2]), 2);
     buff[4] = (UniChar)'-';
     CFStringAppendCharacters(str, buff, 5);

     // Fourth segment (2 bytes, 4 digits + 1 dash)
     _intToHexChars(uuid->_bytes.byte8, buff, 2);
     _intToHexChars(uuid->_bytes.byte9, &(buff[2]), 2);
     buff[4] = (UniChar)'-';
     CFStringAppendCharacters(str, buff, 5);

     // Fifth segment (6 bytes, 12 digits)
     _intToHexChars(uuid->_bytes.byte10, buff, 2);
     _intToHexChars(uuid->_bytes.byte11, &(buff[2]), 2);
     _intToHexChars(uuid->_bytes.byte12, &(buff[4]), 2);
     _intToHexChars(uuid->_bytes.byte13, &(buff[6]), 2);
     _intToHexChars(uuid->_bytes.byte14, &(buff[8]), 2);
     _intToHexChars(uuid->_bytes.byte15, &(buff[10]), 2);
     CFStringAppendCharacters(str, buff, 12);

     return str;
 }

 CFUUIDRef CFUUIDGetConstantUUIDWithBytes(CFAllocatorRef alloc, uint8_t byte0, uint8_t byte1, uint8_t byte2, uint8_t byte3, uint8_t byte4, uint8_t byte5, uint8_t byte6, uint8_t byte7, uint8_t byte8, uint8_t byte9, uint8_t byte10, uint8_t byte11, uint8_t byte12, uint8_t byte13, uint8_t byte14, uint8_t byte15) {
     CFUUIDBytes bytes;
     // CodeWarrior can't handle the structure assignment of bytes, so we must explode this - REW, 10/8/99
     bytes.byte0 = byte0;
     bytes.byte1 = byte1;
     bytes.byte2 = byte2;
     bytes.byte3 = byte3;
     bytes.byte4 = byte4;
     bytes.byte5 = byte5;
     bytes.byte6 = byte6;
     bytes.byte7 = byte7;
     bytes.byte8 = byte8;
     bytes.byte9 = byte9;
     bytes.byte10 = byte10;
     bytes.byte11 = byte11;
     bytes.byte12 = byte12;
     bytes.byte13 = byte13;
     bytes.byte14 = byte14;
     bytes.byte15 = byte15;

     return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, true);
 }

 CFUUIDBytes CFUUIDGetUUIDBytes(CFUUIDRef uuid) {
     return uuid->_bytes;
 }

 CF_EXPORT CFUUIDRef CFUUIDCreateFromUUIDBytes(CFAllocatorRef alloc, CFUUIDBytes bytes) {
     return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false);
 }

 #undef READ_A_BYTE
	/*
	* Copyright (c) 2008-2009 Brent Fulgham <bfulgham@gmail.org>. All rights reserved.
	*
	* This source code is a modified version of the CoreFoundation sources released by Apple Inc. under
	* the terms of the APSL version 2.0 (see below).
	*
	* For information about changes from the original Apple source release can be found by reviewing the
	* source control system for the project at https://sourceforge.net/svn/?group_id=246198.
	*
	* The original license information is as follows:
	*
	* Copyright (c) 2008 Apple Inc. All rights reserved.
	*
	* @APPLE_LICENSE_HEADER_START@
	*
	* This file contains Original Code and/or Modifications of Original Code
	* as defined in and that are subject to the Apple Public Source License
	* Version 2.0 (the 'License'). You may not use this file except in
	* compliance with the License. Please obtain a copy of the License at
	* http://www.opensource.apple.com/apsl/ and read it before using this
	* file.
	*
	* The Original Code and all software distributed under the License are
	* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
	* Please see the License for the specific language governing rights and
	* limitations under the License.
	*
	* @APPLE_LICENSE_HEADER_END@
	*/
	/* CFUUID.c
	Copyright (c) 1999-2007 Apple Inc. All rights reserved.
	Responsibility: Doug Davidson
	*/

	#include <CoreFoundation/CFUUID.h>
	#include "CFInternal.h"
	#if ( DEPLOYMENT_TARGET_MACOSX \|\| DEPLOYMENT_TARGET_LINUX ) && !defined(DEPLOYMENT_TARGET_ANDROID)
	#include <uuid/uuid.h>
	#elif DEPLOYMENT_TARGET_WINDOWS
	#include <objbase.h>
	#include <stdlib.h>
	#define strtoul_l(a,b,c,d) strtoul(a,b,c)
	#endif

	static CFMutableDictionaryRef _uniquedUUIDs = NULL;
	static CFSpinLock_t CFUUIDGlobalDataLock = CFSpinLockInit;

	struct __CFUUID {
	CFRuntimeBase _base;
	CFUUIDBytes _bytes;
	};

	static Boolean __CFisEqualUUIDBytes(const void ptr1, const void ptr2) {
	CFUUIDBytes p1 = (CFUUIDBytes )ptr1;
	CFUUIDBytes p2 = (CFUUIDBytes )ptr2;

	return (((p1->byte0 == p2->byte0) && (p1->byte1 == p2->byte1) && (p1->byte2 == p2->byte2) && (p1->byte3 == p2->byte3) && (p1->byte4 == p2->byte4) && (p1->byte5 == p2->byte5) && (p1->byte6 == p2->byte6) && (p1->byte7 == p2->byte7) && (p1->byte8 == p2->byte8) && (p1->byte9 == p2->byte9) && (p1->byte10 == p2->byte10) && (p1->byte11 == p2->byte11) && (p1->byte12 == p2->byte12) && (p1->byte13 == p2->byte13) && (p1->byte14 == p2->byte14) && (p1->byte15 == p2->byte15)) ? true : false);
	}

	static CFHashCode __CFhashUUIDBytes(const void *ptr) {
	return CFHashBytes((uint8_t *)ptr, 16);
	}

	#if !defined(_MSC_VER)
	#import "auto_stubs.h"
	#endif

	#define LOCK() __CFSpinLock(&CFUUIDGlobalDataLock)
	#define UNLOCK() __CFSpinUnlock(&CFUUIDGlobalDataLock)

	#define MALLOC(x) CFAllocatorAllocate(kCFAllocatorSystemDefault, x, 0)
	#define FREE(x) CFAllocatorDeallocate(kCFAllocatorSystemDefault, x)
	#define HASH(x) CFHashBytes((uint8_t *)x, 16)


	/***** end of weak set */

	static void __CFUUIDAddUniqueUUID(CFUUIDRef uuid) {
	__CFSpinLock(&CFUUIDGlobalDataLock);

	CFDictionaryKeyCallBacks __CFUUIDBytesDictionaryKeyCallBacks = {0, NULL, NULL, NULL, __CFisEqualUUIDBytes, __CFhashUUIDBytes};
	CFDictionaryValueCallBacks __CFnonRetainedUUIDDictionaryValueCallBacks = {0, NULL, NULL, CFCopyDescription, CFEqual};

	if (_uniquedUUIDs == NULL) {
	_uniquedUUIDs = CFDictionaryCreateMutable(kCFAllocatorSystemDefault, 0, &__CFUUIDBytesDictionaryKeyCallBacks, &__CFnonRetainedUUIDDictionaryValueCallBacks);
	}
	CFDictionarySetValue(_uniquedUUIDs, &(uuid->_bytes), uuid);
	__CFSpinUnlock(&CFUUIDGlobalDataLock);
	}

	static void __CFUUIDRemoveUniqueUUID(CFUUIDRef uuid) {
	__CFSpinLock(&CFUUIDGlobalDataLock);
	if (_uniquedUUIDs != NULL) {
	CFDictionaryRemoveValue(_uniquedUUIDs, &(uuid->_bytes));
	}
	__CFSpinUnlock(&CFUUIDGlobalDataLock);
	}

	static CFUUIDRef __CFUUIDGetUniquedUUID(CFUUIDBytes *bytes) {
	CFUUIDRef uuid = NULL;
	__CFSpinLock(&CFUUIDGlobalDataLock);
	if (_uniquedUUIDs != NULL) {
	uuid = (CFUUIDRef)CFDictionaryGetValue(_uniquedUUIDs, bytes);
	}
	__CFSpinUnlock(&CFUUIDGlobalDataLock);
	return uuid;
	}

	static void __CFUUIDDeallocate(CFTypeRef cf) {
	struct __CFUUID uuid = (struct __CFUUID )cf;
	__CFUUIDRemoveUniqueUUID(uuid);
	}

	static CFStringRef __CFUUIDCopyDescription(CFTypeRef cf) {
	CFStringRef uuidStr = CFUUIDCreateString(CFGetAllocator(cf), (CFUUIDRef)cf);
	CFStringRef desc = CFStringCreateWithFormat(kCFAllocatorSystemDefault, NULL, CFSTR("<CFUUID %p> %@"), cf, uuidStr);
	CFRelease(uuidStr);
	return desc;
	}

	static CFStringRef __CFUUIDCopyFormattingDescription(CFTypeRef cf, CFDictionaryRef formatOptions) {
	return CFUUIDCreateString(CFGetAllocator(cf), (CFUUIDRef)cf);
	}

	static CFTypeID __kCFUUIDTypeID = _kCFRuntimeNotATypeID;

	static const CFRuntimeClass __CFUUIDClass = {
	0,
	"CFUUID",
	NULL, // init
	NULL, // copy
	__CFUUIDDeallocate,
	NULL, // equal
	NULL, // hash
	__CFUUIDCopyFormattingDescription,
	__CFUUIDCopyDescription
	};

	__private_extern__ void __CFUUIDInitialize(void) {
	__kCFUUIDTypeID = _CFRuntimeRegisterClass(&__CFUUIDClass);
	}

	CFTypeID CFUUIDGetTypeID(void) {
	return __kCFUUIDTypeID;
	}

	static CFUUIDRef __CFUUIDCreateWithBytesPrimitive(CFAllocatorRef allocator, CFUUIDBytes bytes, Boolean isConst) {
	struct __CFUUID uuid = (struct __CFUUID )__CFUUIDGetUniquedUUID(&bytes);

	if (uuid == NULL) {
	size_t size;
	size = sizeof(struct __CFUUID) - sizeof(CFRuntimeBase);
	uuid = (struct __CFUUID *)_CFRuntimeCreateInstance(allocator, __kCFUUIDTypeID, (CFIndex)size, NULL);

	if (NULL == uuid) return NULL;

	uuid->_bytes = bytes;

	__CFUUIDAddUniqueUUID(uuid);
	} else if (!isConst) {
	CFRetain(uuid);
	}

	return (CFUUIDRef)uuid;
	}

	CFUUIDRef CFUUIDCreate(CFAllocatorRef alloc) {
	/* Create a new bytes struct and then call the primitive. */
	CFUUIDBytes bytes;
	uint32_t retval = 0;

	#if DEPLOYMENT_TARGET_ANDROID
	retval = 1;
	#else
	__CFSpinLock(&CFUUIDGlobalDataLock);
	static Boolean useV1UUIDs = false, checked = false;
	if (!checked) {
	const char *value = getenv("CFUUIDVersionNumber");
	if (value) {
	if (1 == strtoul_l(value, NULL, 0, NULL)) useV1UUIDs = true;
	} else {
	if (!_CFExecutableLinkedOnOrAfter(CFSystemVersionTiger)) useV1UUIDs = true;
	}
	checked = true;
	}
	#if DEPLOYMENT_TARGET_MACOSX \|\| DEPLOYMENT_TARGET_LINUX
	uuid_t uuid;
	if (useV1UUIDs) uuid_generate_time(uuid); else uuid_generate_random(uuid);
	#elif DEPLOYMENT_TARGET_WINDOWS
	UUID uuidData;
	UUID* uuid = &uuidData;
	if (useV1UUIDs) UuidCreateSequential(uuid); else UuidCreate(uuid);
	#else
	#error Unknown or unspecified DEPLOYMENT_TARGET
	#endif
	memcpy(&bytes, (const void*)uuid, sizeof(uuid));
	__CFSpinUnlock(&CFUUIDGlobalDataLock);
	#endif

	return (retval == 0) ? __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false) : NULL;
	}

	CFUUIDRef CFUUIDCreateWithBytes(CFAllocatorRef alloc, uint8_t byte0, uint8_t byte1, uint8_t byte2, uint8_t byte3, uint8_t byte4, uint8_t byte5, uint8_t byte6, uint8_t byte7, uint8_t byte8, uint8_t byte9, uint8_t byte10, uint8_t byte11, uint8_t byte12, uint8_t byte13, uint8_t byte14, uint8_t byte15) {
	CFUUIDBytes bytes;
	// CodeWarrior can't handle the structure assignment of bytes, so we must explode this - REW, 10/8/99
	bytes.byte0 = byte0;
	bytes.byte1 = byte1;
	bytes.byte2 = byte2;
	bytes.byte3 = byte3;
	bytes.byte4 = byte4;
	bytes.byte5 = byte5;
	bytes.byte6 = byte6;
	bytes.byte7 = byte7;
	bytes.byte8 = byte8;
	bytes.byte9 = byte9;
	bytes.byte10 = byte10;
	bytes.byte11 = byte11;
	bytes.byte12 = byte12;
	bytes.byte13 = byte13;
	bytes.byte14 = byte14;
	bytes.byte15 = byte15;

	return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false);
	}

	static void _intToHexChars(UInt32 in, UniChar *out, int digits) {
	int shift;
	UInt32 d;

	while (--digits >= 0) {
	shift = digits << 2;
	d = 0x0FL & (in >> shift);
	if (d <= 9) {
	*out++ = (UniChar)'0' + d;
	} else {
	*out++ = (UniChar)'A' + (d - 10);
	}
	}
	}

	static uint8_t _byteFromHexChars(UniChar *in) {
	uint8_t result = 0;
	UniChar c;
	uint8_t d;
	CFIndex i;

	for (i=0; i<2; i++) {
	c = in[i];
	if ((c >= (UniChar)'0') && (c <= (UniChar)'9')) {
	d = c - (UniChar)'0';
	} else if ((c >= (UniChar)'a') && (c <= (UniChar)'f')) {
	d = c - ((UniChar)'a' - 10);
	} else if ((c >= (UniChar)'A') && (c <= (UniChar)'F')) {
	d = c - ((UniChar)'A' - 10);
	} else {
	return 0;
	}
	result = (result << 4) \| d;
	}

	return result;
	}

	CF_INLINE Boolean _isHexChar(UniChar c) {
	return ((((c >= (UniChar)'0') && (c <= (UniChar)'9')) \|\| ((c >= (UniChar)'a') && (c <= (UniChar)'f')) \|\| ((c >= (UniChar)'A') && (c <= (UniChar)'F'))) ? true : false);
	}

	#define READ_A_BYTE(into) if (i+1 < len) { \
	(into) = _byteFromHexChars(&(chars[i])); \
	i+=2; \
	}

	CFUUIDRef CFUUIDCreateFromString(CFAllocatorRef alloc, CFStringRef uuidStr) {
	/* Parse the string into a bytes struct and then call the primitive. */
	CFUUIDBytes bytes;
	UniChar chars[100];
	CFIndex len;
	CFIndex i = 0;

	if (uuidStr == NULL) return NULL;

	len = CFStringGetLength(uuidStr);
	if (len > 100) {
	len = 100;
	} else if (len == 0) {
	return NULL;
	}
	CFStringGetCharacters(uuidStr, CFRangeMake(0, len), chars);
	memset((void *)&bytes, 0, sizeof(bytes));

	/* Skip initial random stuff */
	while (!_isHexChar(chars[i]) && (i < len)) {
	i++;
	}

	READ_A_BYTE(bytes.byte0);
	READ_A_BYTE(bytes.byte1);
	READ_A_BYTE(bytes.byte2);
	READ_A_BYTE(bytes.byte3);

	i++;

	READ_A_BYTE(bytes.byte4);
	READ_A_BYTE(bytes.byte5);

	i++;

	READ_A_BYTE(bytes.byte6);
	READ_A_BYTE(bytes.byte7);

	i++;

	READ_A_BYTE(bytes.byte8);
	READ_A_BYTE(bytes.byte9);

	i++;

	READ_A_BYTE(bytes.byte10);
	READ_A_BYTE(bytes.byte11);
	READ_A_BYTE(bytes.byte12);
	READ_A_BYTE(bytes.byte13);
	READ_A_BYTE(bytes.byte14);
	READ_A_BYTE(bytes.byte15);

	return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false);
	}

	CFStringRef CFUUIDCreateString(CFAllocatorRef alloc, CFUUIDRef uuid) {
	CFMutableStringRef str = CFStringCreateMutable(alloc, 0);
	UniChar buff[12];

	// First segment (4 bytes, 8 digits + 1 dash)
	_intToHexChars(uuid->_bytes.byte0, buff, 2);
	_intToHexChars(uuid->_bytes.byte1, &(buff[2]), 2);
	_intToHexChars(uuid->_bytes.byte2, &(buff[4]), 2);
	_intToHexChars(uuid->_bytes.byte3, &(buff[6]), 2);
	buff[8] = (UniChar)'-';
	CFStringAppendCharacters(str, buff, 9);

	// Second segment (2 bytes, 4 digits + 1 dash)
	_intToHexChars(uuid->_bytes.byte4, buff, 2);
	_intToHexChars(uuid->_bytes.byte5, &(buff[2]), 2);
	buff[4] = (UniChar)'-';
	CFStringAppendCharacters(str, buff, 5);

	// Third segment (2 bytes, 4 digits + 1 dash)
	_intToHexChars(uuid->_bytes.byte6, buff, 2);
	_intToHexChars(uuid->_bytes.byte7, &(buff[2]), 2);
	buff[4] = (UniChar)'-';
	CFStringAppendCharacters(str, buff, 5);

	// Fourth segment (2 bytes, 4 digits + 1 dash)
	_intToHexChars(uuid->_bytes.byte8, buff, 2);
	_intToHexChars(uuid->_bytes.byte9, &(buff[2]), 2);
	buff[4] = (UniChar)'-';
	CFStringAppendCharacters(str, buff, 5);

	// Fifth segment (6 bytes, 12 digits)
	_intToHexChars(uuid->_bytes.byte10, buff, 2);
	_intToHexChars(uuid->_bytes.byte11, &(buff[2]), 2);
	_intToHexChars(uuid->_bytes.byte12, &(buff[4]), 2);
	_intToHexChars(uuid->_bytes.byte13, &(buff[6]), 2);
	_intToHexChars(uuid->_bytes.byte14, &(buff[8]), 2);
	_intToHexChars(uuid->_bytes.byte15, &(buff[10]), 2);
	CFStringAppendCharacters(str, buff, 12);

	return str;
	}

	CFUUIDRef CFUUIDGetConstantUUIDWithBytes(CFAllocatorRef alloc, uint8_t byte0, uint8_t byte1, uint8_t byte2, uint8_t byte3, uint8_t byte4, uint8_t byte5, uint8_t byte6, uint8_t byte7, uint8_t byte8, uint8_t byte9, uint8_t byte10, uint8_t byte11, uint8_t byte12, uint8_t byte13, uint8_t byte14, uint8_t byte15) {
	CFUUIDBytes bytes;
	// CodeWarrior can't handle the structure assignment of bytes, so we must explode this - REW, 10/8/99
	bytes.byte0 = byte0;
	bytes.byte1 = byte1;
	bytes.byte2 = byte2;
	bytes.byte3 = byte3;
	bytes.byte4 = byte4;
	bytes.byte5 = byte5;
	bytes.byte6 = byte6;
	bytes.byte7 = byte7;
	bytes.byte8 = byte8;
	bytes.byte9 = byte9;
	bytes.byte10 = byte10;
	bytes.byte11 = byte11;
	bytes.byte12 = byte12;
	bytes.byte13 = byte13;
	bytes.byte14 = byte14;
	bytes.byte15 = byte15;

	return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, true);
	}

	CFUUIDBytes CFUUIDGetUUIDBytes(CFUUIDRef uuid) {
	return uuid->_bytes;
	}

	CF_EXPORT CFUUIDRef CFUUIDCreateFromUUIDBytes(CFAllocatorRef alloc, CFUUIDBytes bytes) {
	return __CFUUIDCreateWithBytesPrimitive(alloc, bytes, false);
	}

	#undef READ_A_BYTE