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Fixed DDE memory leaks.
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1 /*
2 File: MoreFilesX.h
3
4 Contains: A collection of useful high-level File Manager routines
5 which use the HFS Plus APIs wherever possible.
6
7 Version: MoreFilesX 1.0.1
8
9 Copyright: © 1992-2002 by Apple Computer, Inc., all rights reserved.
10
11 Disclaimer: IMPORTANT: This Apple software is supplied to you by Apple Computer, Inc.
12 ("Apple") in consideration of your agreement to the following terms, and your
13 use, installation, modification or redistribution of this Apple software
14 constitutes acceptance of these terms. If you do not agree with these terms,
15 please do not use, install, modify or redistribute this Apple software.
16
17 In consideration of your agreement to abide by the following terms, and subject
18 to these terms, Apple grants you a personal, non-exclusive license, under AppleÕs
19 copyrights in this original Apple software (the "Apple Software"), to use,
20 reproduce, modify and redistribute the Apple Software, with or without
21 modifications, in source and/or binary forms; provided that if you redistribute
22 the Apple Software in its entirety and without modifications, you must retain
23 this notice and the following text and disclaimers in all such redistributions of
24 the Apple Software. Neither the name, trademarks, service marks or logos of
25 Apple Computer, Inc. may be used to endorse or promote products derived from the
26 Apple Software without specific prior written permission from Apple. Except as
27 expressly stated in this notice, no other rights or licenses, express or implied,
28 are granted by Apple herein, including but not limited to any patent rights that
29 may be infringed by your derivative works or by other works in which the Apple
30 Software may be incorporated.
31
32 The Apple Software is provided by Apple on an "AS IS" basis. APPLE MAKES NO
33 WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED
34 WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
35 PURPOSE, REGARDING THE APPLE SOFTWARE OR ITS USE AND OPERATION ALONE OR IN
36 COMBINATION WITH YOUR PRODUCTS.
37
38 IN NO EVENT SHALL APPLE BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR
39 CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
40 GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
41 ARISING IN ANY WAY OUT OF THE USE, REPRODUCTION, MODIFICATION AND/OR DISTRIBUTION
42 OF THE APPLE SOFTWARE, HOWEVER CAUSED AND WHETHER UNDER THEORY OF CONTRACT, TORT
43 (INCLUDING NEGLIGENCE), STRICT LIABILITY OR OTHERWISE, EVEN IF APPLE HAS BEEN
44 ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
45
46 File Ownership:
47
48 DRI: Apple Macintosh Developer Technical Support
49
50 Other Contact: For bug reports, consult the following page on
51 the World Wide Web:
52 http://developer.apple.com/bugreporter/
53
54 Technology: DTS Sample Code
55
56 Writers:
57
58 (JL) Jim Luther
59
60 Change History (most recent first):
61
62 <3> 4/19/02 JL [2853905] Fixed #if test around header includes.
63 <2> 4/19/02 JL [2853901] Updated standard disclaimer.
64 <1> 1/25/02 JL MoreFilesX 1.0
65
66 Notes:
67 What do those arrows in the documentation for each routine mean?
68
69 --> The parameter is an input
70
71 <-- The parameter is an output. The pointer to the variable
72 where the output will be returned (must not be NULL).
73
74 <** The parameter is an optional output. If it is not a
75 NULL pointer, it points to the variable where the output
76 will be returned. If it is a NULL pointer, the output will
77 not be returned and will possibly let the routine and the
78 File Manager do less work. If you don't need an optional output,
79 don't ask for it.
80 **> The parameter is an optional input. If it is not a
81 NULL pointer, it points to the variable containing the
82 input data. If it is a NULL pointer, the input is not used
83 and will possibly let the routine and the File Manager
84 do less work.
85 */
86
87 #ifndef __MOREFILESX__
88 #define __MOREFILESX__
89
90 #ifndef __CARBON__
91 #if defined(__MACH__)
92 #include <Carbon/Carbon.h>
93 #else
94 #include <Carbon.h>
95 #endif
96 #endif
97
98 #if PRAGMA_ONCE
99 #pragma once
100 #endif
101
102 #ifdef __cplusplus
103 extern "C" {
104 #endif
105
106 #if PRAGMA_IMPORT
107 #pragma import on
108 #endif
109
110 #if PRAGMA_STRUCT_ALIGN
111 #pragma options align=mac68k
112 #elif PRAGMA_STRUCT_PACKPUSH
113 #pragma pack(push, 2)
114 #elif PRAGMA_STRUCT_PACK
115 #pragma pack(2)
116 #endif
117
118 /*****************************************************************************/
119
120 #pragma mark ----- FinderInfo and ExtendedFinderInfo -----
121
122 /*
123 * FSGetFinderInfo and FSSetFinderInfo use these unions for Finder information.
124 */
125
126 union FinderInfo
127 {
128 FileInfo file;
129 FolderInfo folder;
130 };
131 typedef union FinderInfo FinderInfo;
132
133 union ExtendedFinderInfo
134 {
135 ExtendedFileInfo file;
136 ExtendedFolderInfo folder;
137 };
138 typedef union ExtendedFinderInfo ExtendedFinderInfo;
139
140 /*****************************************************************************/
141
142 #pragma mark ----- GetVolParmsInfoBuffer Macros -----
143
144 /*
145 * Macros to get information out of GetVolParmsInfoBuffer.
146 */
147
148 /* version 1 field getters */
149 #define GetVolParmsInfoVersion(volParms) \
150 ((volParms)->vMVersion)
151 #define GetVolParmsInfoAttrib(volParms) \
152 ((volParms)->vMAttrib)
153 #define GetVolParmsInfoLocalHand(volParms) \
154 ((volParms)->vMLocalHand)
155 #define GetVolParmsInfoServerAdr(volParms) \
156 ((volParms)->vMServerAdr)
157
158 /* version 2 field getters (assume zero result if version < 2) */
159 #define GetVolParmsInfoVolumeGrade(volParms) \
160 (((volParms)->vMVersion >= 2) ? (volParms)->vMVolumeGrade : 0)
161 #define GetVolParmsInfoForeignPrivID(volParms) \
162 (((volParms)->vMVersion >= 2) ? (volParms)->vMForeignPrivID : 0)
163
164 /* version 3 field getters (assume zero result if version < 3) */
165 #define GetVolParmsInfoExtendedAttributes(volParms) \
166 (((volParms)->vMVersion >= 3) ? (volParms)->vMExtendedAttributes : 0)
167
168 /* attribute bits supported by all versions of GetVolParmsInfoBuffer */
169 #define VolIsNetworkVolume(volParms) \
170 ((volParms)->vMServerAdr != 0)
171 #define VolHasLimitFCBs(volParms) \
172 (((volParms)->vMAttrib & (1L << bLimitFCBs)) != 0)
173 #define VolHasLocalWList(volParms) \
174 (((volParms)->vMAttrib & (1L << bLocalWList)) != 0)
175 #define VolHasNoMiniFndr(volParms) \
176 (((volParms)->vMAttrib & (1L << bNoMiniFndr)) != 0)
177 #define VolHasNoVNEdit(volParms) \
178 (((volParms)->vMAttrib & (1L << bNoVNEdit)) != 0)
179 #define VolHasNoLclSync(volParms) \
180 (((volParms)->vMAttrib & (1L << bNoLclSync)) != 0)
181 #define VolHasTrshOffLine(volParms) \
182 (((volParms)->vMAttrib & (1L << bTrshOffLine)) != 0)
183 #define VolHasNoSwitchTo(volParms) \
184 (((volParms)->vMAttrib & (1L << bNoSwitchTo)) != 0)
185 #define VolHasNoDeskItems(volParms) \
186 (((volParms)->vMAttrib & (1L << bNoDeskItems)) != 0)
187 #define VolHasNoBootBlks(volParms) \
188 (((volParms)->vMAttrib & (1L << bNoBootBlks)) != 0)
189 #define VolHasAccessCntl(volParms) \
190 (((volParms)->vMAttrib & (1L << bAccessCntl)) != 0)
191 #define VolHasNoSysDir(volParms) \
192 (((volParms)->vMAttrib & (1L << bNoSysDir)) != 0)
193 #define VolHasExtFSVol(volParms) \
194 (((volParms)->vMAttrib & (1L << bHasExtFSVol)) != 0)
195 #define VolHasOpenDeny(volParms) \
196 (((volParms)->vMAttrib & (1L << bHasOpenDeny)) != 0)
197 #define VolHasCopyFile(volParms) \
198 (((volParms)->vMAttrib & (1L << bHasCopyFile)) != 0)
199 #define VolHasMoveRename(volParms) \
200 (((volParms)->vMAttrib & (1L << bHasMoveRename)) != 0)
201 #define VolHasDesktopMgr(volParms) \
202 (((volParms)->vMAttrib & (1L << bHasDesktopMgr)) != 0)
203 #define VolHasShortName(volParms) \
204 (((volParms)->vMAttrib & (1L << bHasShortName)) != 0)
205 #define VolHasFolderLock(volParms) \
206 (((volParms)->vMAttrib & (1L << bHasFolderLock)) != 0)
207 #define VolHasPersonalAccessPrivileges(volParms) \
208 (((volParms)->vMAttrib & (1L << bHasPersonalAccessPrivileges)) != 0)
209 #define VolHasUserGroupList(volParms) \
210 (((volParms)->vMAttrib & (1L << bHasUserGroupList)) != 0)
211 #define VolHasCatSearch(volParms) \
212 (((volParms)->vMAttrib & (1L << bHasCatSearch)) != 0)
213 #define VolHasFileIDs(volParms) \
214 (((volParms)->vMAttrib & (1L << bHasFileIDs)) != 0)
215 #define VolHasBTreeMgr(volParms) \
216 (((volParms)->vMAttrib & (1L << bHasBTreeMgr)) != 0)
217 #define VolHasBlankAccessPrivileges(volParms) \
218 (((volParms)->vMAttrib & (1L << bHasBlankAccessPrivileges)) != 0)
219 #define VolSupportsAsyncRequests(volParms) \
220 (((volParms)->vMAttrib & (1L << bSupportsAsyncRequests)) != 0)
221 #define VolSupportsTrashVolumeCache(volParms) \
222 (((volParms)->vMAttrib & (1L << bSupportsTrashVolumeCache)) != 0)
223
224 /* attribute bits supported by version 3 and greater versions of GetVolParmsInfoBuffer */
225 #define VolIsEjectable(volParms) \
226 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bIsEjectable)) != 0)
227 #define VolSupportsHFSPlusAPIs(volParms) \
228 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsHFSPlusAPIs)) != 0)
229 #define VolSupportsFSCatalogSearch(volParms) \
230 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsFSCatalogSearch)) != 0)
231 #define VolSupportsFSExchangeObjects(volParms) \
232 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsFSExchangeObjects)) != 0)
233 #define VolSupports2TBFiles(volParms) \
234 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupports2TBFiles)) != 0)
235 #define VolSupportsLongNames(volParms) \
236 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsLongNames)) != 0)
237 #define VolSupportsMultiScriptNames(volParms) \
238 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsMultiScriptNames)) != 0)
239 #define VolSupportsNamedForks(volParms) \
240 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsNamedForks)) != 0)
241 #define VolSupportsSubtreeIterators(volParms) \
242 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsSubtreeIterators)) != 0)
243 #define VolL2PCanMapFileBlocks(volParms) \
244 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bL2PCanMapFileBlocks)) != 0)
245 #define VolParentModDateChanges(volParms) \
246 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bParentModDateChanges)) != 0)
247 #define VolAncestorModDateChanges(volParms) \
248 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bAncestorModDateChanges)) != 0)
249 #define VolSupportsSymbolicLinks(volParms) \
250 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bSupportsSymbolicLinks)) != 0)
251 #define VolIsAutoMounted(volParms) \
252 ((GetVolParmsInfoExtendedAttributes(volParms) & (1L << bIsAutoMounted)) != 0)
253
254 /*****************************************************************************/
255
256 #pragma mark ----- userPrivileges Bit Masks and Macros -----
257
258 /*
259 * Bit masks and macros to get common information out of userPrivileges byte
260 * returned by FSGetCatalogInfo.
261 *
262 * Note: The userPrivileges byte is the same as the ioACUser byte returned
263 * by PBGetCatInfo, and is the 1's complement of the user's privileges
264 * byte returned in ioACAccess by PBHGetDirAccess. That's where the
265 * ioACUser names came from.
266 *
267 * The userPrivileges are user's effective privileges based on the
268 * user ID and the groups that user belongs to, and the owner, group,
269 * and everyone privileges for the given directory.
270 */
271
272 enum
273 {
274 /* mask for just the access restriction bits */
275 kioACUserAccessMask = (kioACUserNoSeeFolderMask +
276 kioACUserNoSeeFilesMask +
277 kioACUserNoMakeChangesMask),
278 /* common access privilege settings */
279 kioACUserFull = 0x00, /* no access restiction bits on */
280 kioACUserNone = kioACUserAccessMask, /* all access restiction bits on */
281 kioACUserDropBox = (kioACUserNoSeeFolderMask +
282 kioACUserNoSeeFilesMask), /* make changes, but not see files or folders */
283 kioACUserBulletinBoard = kioACUserNoMakeChangesMask /* see files and folders, but not make changes */
284 };
285
286
287 /* Macros for testing ioACUser bits. */
288
289 #define UserIsOwner(userPrivileges) \
290 (((userPrivileges) & kioACUserNotOwnerMask) == 0)
291 #define UserHasFullAccess(userPrivileges) \
292 (((userPrivileges) & (kioACUserAccessMask)) == kioACUserFull)
293 #define UserHasDropBoxAccess(userPrivileges) \
294 (((userPrivileges) & kioACUserAccessMask) == kioACUserDropBox)
295 #define UserHasBulletinBoard(userPrivileges) \
296 (((userPrivileges) & kioACUserAccessMask) == kioACUserBulletinBoard)
297 #define UserHasNoAccess(userPrivileges) \
298 (((userPrivileges) & kioACUserAccessMask) == kioACUserNone)
299
300 /*****************************************************************************/
301
302 #pragma mark ----- File Access Routines -----
303
304 /*****************************************************************************/
305
306 #pragma mark FSCopyFork
307
308 OSErr
309 FSCopyFork(
310 SInt16 srcRefNum,
311 SInt16 dstRefNum,
312 void *copyBufferPtr,
313 ByteCount copyBufferSize);
314
315 /*
316 The FSCopyFork function copies all data from the source fork to the
317 destination fork of open file forks and makes sure the destination EOF
318 is equal to the source EOF.
319
320 srcRefNum --> The source file reference number.
321 dstRefNum --> The destination file reference number.
322 copyBufferPtr --> Pointer to buffer to use during copy. The
323 buffer should be at least 4K-bytes minimum.
324 The larger the buffer, the faster the copy
325 (up to a point).
326 copyBufferSize --> The size of the copy buffer.
327 */
328
329 /*****************************************************************************/
330
331 #pragma mark ----- Volume Access Routines -----
332
333 /*****************************************************************************/
334
335 #pragma mark FSGetVolParms
336
337 OSErr
338 FSGetVolParms(
339 FSVolumeRefNum volRefNum,
340 UInt32 bufferSize,
341 GetVolParmsInfoBuffer *volParmsInfo,
342 UInt32 *actualInfoSize);
343
344 /*
345 The FSGetVolParms function returns information about the characteristics
346 of a volume. A result of paramErr usually just means the volume doesn't
347 support GetVolParms and the feature you were going to check
348 for isn't available.
349
350 volRefNum --> Volume specification.
351 bufferSize --> Size of buffer pointed to by volParmsInfo.
352 volParmsInfo <-- A GetVolParmsInfoBuffer record where the volume
353 attributes information is returned.
354 actualInfoSize <-- The number of bytes actually returned
355 in volParmsInfo.
356
357 __________
358
359 Also see: The GetVolParmsInfoBuffer Macros for checking attribute bits
360 in this file
361 */
362
363 /*****************************************************************************/
364
365 #pragma mark FSGetVRefNum
366
367 OSErr
368 FSGetVRefNum(
369 const FSRef *ref,
370 FSVolumeRefNum *vRefNum);
371
372 /*
373 The FSGetVRefNum function determines the volume reference
374 number of a volume from a FSRef.
375
376 ref --> The FSRef.
377 vRefNum <-- The volume reference number.
378 */
379
380 /*****************************************************************************/
381
382 #pragma mark FSGetVInfo
383
384 OSErr
385 FSGetVInfo(
386 FSVolumeRefNum volume,
387 HFSUniStr255 *volumeName, /* can be NULL */
388 UInt64 *freeBytes, /* can be NULL */
389 UInt64 *totalBytes); /* can be NULL */
390
391 /*
392 The FSGetVInfo function returns the name, available space (in bytes),
393 and total space (in bytes) for the specified volume.
394
395 volume --> The volume reference number.
396 volumeName <** An optional pointer to a HFSUniStr255.
397 If not NULL, the volume name will be returned in
398 the HFSUniStr255.
399 freeBytes <** An optional pointer to a UInt64.
400 If not NULL, the number of free bytes on the
401 volume will be returned in the UInt64.
402 totalBytes <** An optional pointer to a UInt64.
403 If not NULL, the total number of bytes on the
404 volume will be returned in the UInt64.
405 */
406
407 /*****************************************************************************/
408
409 #pragma mark FSGetVolFileSystemID
410
411 OSErr
412 FSGetVolFileSystemID(
413 FSVolumeRefNum volume,
414 UInt16 *fileSystemID, /* can be NULL */
415 UInt16 *signature); /* can be NULL */
416
417 /*
418 The FSGetVolFileSystemID function returns the file system ID and signature
419 of a mounted volume. The file system ID identifies the file system
420 that handles requests to a particular volume. The signature identifies the
421 volume type of the volume (for example, FSID 0 is Macintosh HFS Plus, HFS
422 or MFS, where a signature of 0x4244 identifies the volume as HFS).
423 Here's a partial list of file system ID numbers (only Apple's file systems
424 are listed):
425 FSID File System
426 ----- -----------------------------------------------------
427 $0000 Macintosh HFS Plus, HFS or MFS
428 $0100 ProDOS File System
429 $0101 PowerTalk Mail Enclosures
430 $4147 ISO 9660 File Access (through Foreign File Access)
431 $4242 High Sierra File Access (through Foreign File Access)
432 $464D QuickTake File System (through Foreign File Access)
433 $4953 Macintosh PC Exchange (MS-DOS)
434 $4A48 Audio CD Access (through Foreign File Access)
435 $4D4B Apple Photo Access (through Foreign File Access)
436 $6173 AppleShare (later versions of AppleShare only)
437
438 See the Technical Note "FL 35 - Determining Which File System
439 Is Active" and the "Guide to the File System Manager" for more
440 information.
441
442 volume --> The volume reference number.
443 fileSystemID <** An optional pointer to a UInt16.
444 If not NULL, the volume's file system ID will
445 be returned in the UInt16.
446 signature <** An optional pointer to a UInt16.
447 If not NULL, the volume's signature will
448 be returned in the UInt16.
449 */
450
451 /*****************************************************************************/
452
453 #pragma mark FSGetMountedVolumes
454
455 OSErr
456 FSGetMountedVolumes(
457 FSRef ***volumeRefsHandle, /* pointer to handle of FSRefs */
458 ItemCount *numVolumes);
459
460 /*
461 The FSGetMountedVolumes function returns the list of volumes currently
462 mounted in an array of FSRef records. The array of FSRef records is
463 returned in a Handle, volumeRefsHandle, which is allocated by
464 FSGetMountedVolumes. The caller is responsible for disposing of
465 volumeRefsHandle if the FSGetMountedVolumes returns noErr.
466
467 volumeRefsHandle <-- Pointer to an FSRef Handle where the array of
468 FSRefs is to be returned.
469 numVolumes <-- The number of volumes returned in the array.
470 */
471
472 /*****************************************************************************/
473
474 #pragma mark ----- FSRef/FSpec/Path/Name Conversion Routines -----
475
476 /*****************************************************************************/
477
478 #pragma mark FSRefMakeFSSpec
479
480 OSErr
481 FSRefMakeFSSpec(
482 const FSRef *ref,
483 FSSpec *spec);
484
485 /*
486 The FSRefMakeFSSpec function returns an FSSpec for the file or
487 directory specified by the ref parameter.
488
489 ref --> An FSRef specifying the file or directory.
490 spec <-- The FSSpec.
491 */
492
493 /*****************************************************************************/
494
495 #pragma mark FSMakeFSRef
496
497 OSErr
498 FSMakeFSRef(
499 FSVolumeRefNum volRefNum,
500 SInt32 dirID,
501 ConstStr255Param name,
502 FSRef *ref);
503
504 /*
505 The FSMakeFSRef function creates an FSRef from the traditional
506 volume reference number, directory ID and pathname inputs. It is
507 functionally equivalent to FSMakeFSSpec followed by FSpMakeFSRef.
508
509 volRefNum --> Volume specification.
510 dirID --> Directory specification.
511 name --> The file or directory name, or NULL.
512 ref <-- The FSRef.
513 */
514
515 /*****************************************************************************/
516
517 #pragma mark FSMakePath
518
519 OSStatus
520 FSMakePath(
521 SInt16 vRefNum,
522 SInt32 dirID,
523 ConstStr255Param name,
524 UInt8 *path,
525 UInt32 maxPathSize);
526
527 /*
528 The FSMakePath function creates a pathname from the traditional volume reference
529 number, directory ID, and pathname inputs. It is functionally equivalent to
530 FSMakeFSSpec, FSpMakeFSRef, FSRefMakePath.
531
532 volRefNum --> Volume specification.
533 dirID --> Directory specification.
534 name --> The file or directory name, or NULL.
535 path <-- A pointer to a buffer which FSMakePath will
536 fill with a C string representing the pathname
537 to the file or directory specified. The format of
538 the pathname returned can be determined with the
539 Gestalt selector gestaltFSAttr's
540 gestaltFSUsesPOSIXPathsForConversion bit.
541 If the gestaltFSUsesPOSIXPathsForConversion bit is
542 clear, the pathname is a Mac OS File Manager full
543 pathname in a C string, and file or directory names
544 in the pathname may be mangled as returned by
545 the File Manager. If the
546 gestaltFSUsesPOSIXPathsForConversion bit is set,
547 the pathname is a UTF8 encoded POSIX absolute
548 pathname in a C string. In either case, the
549 pathname returned can be passed back to
550 FSPathMakeRef to create an FSRef to the file or
551 directory, or FSPathMakeFSSpec to craete an FSSpec
552 to the file or directory.
553 maxPathSize --> The size of the path buffer in bytes. If the path
554 buffer is too small for the pathname string,
555 FSMakePath returns pathTooLongErr or
556 buffersTooSmall.
557 */
558
559 /*****************************************************************************/
560
561 #pragma mark FSPathMakeFSSpec
562
563 OSStatus
564 FSPathMakeFSSpec(
565 const UInt8 *path,
566 FSSpec *spec,
567 Boolean *isDirectory); /* can be NULL */
568
569 /*
570 The FSPathMakeFSSpec function converts a pathname to an FSSpec.
571
572 path --> A pointer to a C String that is the pathname. The
573 format of the pathname you must supply can be
574 determined with the Gestalt selector gestaltFSAttr's
575 gestaltFSUsesPOSIXPathsForConversion bit.
576 If the gestaltFSUsesPOSIXPathsForConversion bit is
577 clear, the pathname must be a Mac OS File Manager
578 full pathname in a C string. If the
579 gestaltFSUsesPOSIXPathsForConversion bit is set,
580 the pathname must be a UTF8 encoded POSIX absolute
581 pathname in a C string.
582 spec <-- The FSSpec.
583 isDirectory <** An optional pointer to a Boolean.
584 If not NULL, true will be returned in the Boolean
585 if the specified path is a directory, or false will
586 be returned in the Boolean if the specified path is
587 a file.
588 */
589
590 /*****************************************************************************/
591
592 #pragma mark UnicodeNameGetHFSName
593
594 OSErr
595 UnicodeNameGetHFSName(
596 UniCharCount nameLength,
597 const UniChar *name,
598 TextEncoding textEncodingHint,
599 Boolean isVolumeName,
600 Str31 hfsName);
601
602 /*
603 The UnicodeNameGetHFSName function converts a Unicode string
604 to a Pascal Str31 (or Str27) string using an algorithm similar to that used
605 by the File Manager. Note that if the name is too long or cannot be converted
606 using the given text encoding hint, you will get an error instead of the
607 mangled name that the File Manager would return.
608
609 nameLength --> Number of UniChar in name parameter.
610 name --> The Unicode string to convert.
611 textEncodingHint --> The text encoding hint used for the conversion.
612 You can pass kTextEncodingUnknown to use the
613 "default" textEncodingHint.
614 isVolumeName --> If true, the output name will be limited to
615 27 characters (kHFSMaxVolumeNameChars). If false,
616 the output name will be limited to 31 characters
617 (kHFSMaxFileNameChars).
618 hfsName <-- The hfsName as a Pascal string.
619
620 __________
621
622 Also see: HFSNameGetUnicodeName
623 */
624
625 /*****************************************************************************/
626
627 #pragma mark HFSNameGetUnicodeName
628
629 OSErr
630 HFSNameGetUnicodeName(
631 ConstStr31Param hfsName,
632 TextEncoding textEncodingHint,
633 HFSUniStr255 *unicodeName);
634
635 /*
636 The HFSNameGetUnicodeName function converts a Pascal Str31 string to an
637 Unicode HFSUniStr255 string using the same routines as the File Manager.
638
639 hfsName --> The Pascal string to convert.
640 textEncodingHint --> The text encoding hint used for the conversion.
641 You can pass kTextEncodingUnknown to use the
642 "default" textEncodingHint.
643 unicodeName <-- The Unicode string.
644
645 __________
646
647 Also see: UnicodeNameGetHFSName
648 */
649
650 /*****************************************************************************/
651
652 #pragma mark ----- File/Directory Manipulation Routines -----
653
654 /*****************************************************************************/
655
656 #pragma mark FSRefValid
657
658 Boolean FSRefValid(const FSRef *ref);
659
660 /*
661 The FSRefValid function determines if an FSRef is valid. If the result is
662 true, then the FSRef refers to an existing file or directory.
663
664 ref --> FSRef to a file or directory.
665 */
666
667 /*****************************************************************************/
668
669 #pragma mark FSGetParentRef
670
671 OSErr
672 FSGetParentRef(
673 const FSRef *ref,
674 FSRef *parentRef);
675
676 /*
677 The FSGetParentRef function gets the parent directory FSRef of the
678 specified object.
679
680 Note: FSRefs always point to real file system objects. So, there cannot
681 be a FSRef to the parent of volume root directories. If you call
682 FSGetParentRef with a ref to the root directory of a volume, the
683 function result will be noErr and the parentRef will be invalid (using it
684 for other file system requests will fail).
685
686 ref --> FSRef to a file or directory.
687 parentRef <-- The parent directory's FSRef.
688 */
689
690 /*****************************************************************************/
691
692 #pragma mark FSGetFileDirName
693
694 OSErr
695 FSGetFileDirName(
696 const FSRef *ref,
697 HFSUniStr255 *outName);
698
699 /*
700 The FSGetFileDirName function gets the name of the file or directory
701 specified.
702
703 ref --> FSRef to a file or directory.
704 outName <-- The file or directory name.
705 */
706
707 /*****************************************************************************/
708
709 #pragma mark FSGetNodeID
710
711 OSErr
712 FSGetNodeID(
713 const FSRef *ref,
714 long *nodeID, /* can be NULL */
715 Boolean *isDirectory); /* can be NULL */
716
717 /*
718 The GetNodeIDFromFSRef function gets the node ID number of the
719 file or directory specified (note: the node ID is the directory ID
720 for directories).
721
722 ref --> FSRef to a file or directory.
723 nodeID <** An optional pointer to a long.
724 If not NULL, the node ID will be returned in
725 the long.
726 isDirectory <** An optional pointer to a Boolean.
727 If not NULL, true will be returned in the Boolean
728 if the object is a directory, or false will be
729 returned in the Boolean if object is a file.
730 */
731
732 /*****************************************************************************/
733
734 #pragma mark FSGetUserPrivilegesPermissions
735
736 OSErr
737 FSGetUserPrivilegesPermissions(
738 const FSRef *ref,
739 UInt8 *userPrivileges, /* can be NULL */
740 UInt32 permissions[4]); /* can be NULL */
741
742 /*
743 The FSGetUserPrivilegesPermissions function gets the userPrivileges and/or
744 permissions of the file or directory specified.
745
746 ref --> FSRef to a file or directory.
747 userPrivileges <** An optional pointer to a UInt8.
748 If not NULL, the userPrivileges will be returned
749 in the UInt8.
750 permissions <** An optional pointer to an UInt32[4] array.
751 If not NULL, the permissions will be returned
752 in the UInt32[4] array.
753 */
754
755 /*****************************************************************************/
756
757 #pragma mark FSCheckLock
758
759 OSErr
760 FSCheckLock(
761 const FSRef *ref);
762
763 /*
764 The FSCheckLock function determines if a file or directory is locked.
765 If FSCheckLock returns noErr, then the file or directory is not locked
766 and the volume it is on is not locked either. If FSCheckLock returns
767 fLckdErr, then the file or directory is locked. If FSCheckLock returns
768 wPrErr, then the volume is locked by hardware (i.e., locked tab on
769 removable media). If FSCheckLock returns vLckdErr, then the volume is
770 locked by software.
771
772 ref --> FSRef to a file or directory.
773 */
774
775 /*****************************************************************************/
776
777 #pragma mark FSGetForkSizes
778
779 OSErr
780 FSGetForkSizes(
781 const FSRef *ref,
782 UInt64 *dataLogicalSize, /* can be NULL */
783 UInt64 *rsrcLogicalSize); /* can be NULL */
784
785 /*
786 The FSGetForkSizes returns the size of the data and/or resource fork for
787 the specified file.
788
789 ref --> FSRef to a file or directory.
790 dataLogicalSize <** An optional pointer to a UInt64.
791 If not NULL, the data fork's size will be
792 returned in the UInt64.
793 rsrcLogicalSize <** An optional pointer to a UInt64.
794 If not NULL, the resource fork's size will be
795 returned in the UInt64.
796
797 __________
798
799 Also see: FSGetTotalForkSizes
800 */
801
802 /*****************************************************************************/
803
804 #pragma mark FSGetTotalForkSizes
805
806 OSErr
807 FSGetTotalForkSizes(
808 const FSRef *ref,
809 UInt64 *totalLogicalSize, /* can be NULL */
810 UInt64 *totalPhysicalSize, /* can be NULL */
811 ItemCount *forkCount); /* can be NULL */
812
813 /*
814 The FSGetTotalForkSizes returns the total logical size and/or the total
815 physical size of the specified file (i.e., it adds the sizes of all file
816 forks). It optionally returns the number of file forks.
817
818 ref --> FSRef to a file or directory.
819 totalLogicalSize <** An optional pointer to a UInt64.
820 If not NULL, the sum of all fork logical sizes
821 will be returned in the UInt64.
822 totalPhysicalSize <** An optional pointer to a UInt64.
823 If not NULL, the sum of all fork physical sizes
824 will be returned in the UInt64.
825 forkCount <** An optional pointer to a ItemCount.
826 If not NULL, the number of file forks
827 will be returned in the ItemCount.
828
829 __________
830
831 Also see: FSGetForkSizes
832 */
833
834 /*****************************************************************************/
835
836 #pragma mark FSBumpDate
837
838 OSErr
839 FSBumpDate(
840 const FSRef *ref);
841
842 /*
843 The FSBumpDate function changes the content modification date of a file
844 or directory to the current date/time. If the content modification date
845 is already equal to the current date/time, then add one second to the
846 content modification date.
847
848 ref --> FSRef to a file or directory.
849 */
850
851 /*****************************************************************************/
852
853 #pragma mark FSGetFinderInfo
854
855 OSErr
856 FSGetFinderInfo(
857 const FSRef *ref,
858 FinderInfo *info, /* can be NULL */
859 ExtendedFinderInfo *extendedInfo, /* can be NULL */
860 Boolean *isDirectory); /* can be NULL */
861
862 /*
863 The FSGetFinderInfo function gets the finder information for a file or
864 directory.
865
866 ref --> FSRef to a file or directory.
867 info <** An optional pointer to a FinderInfo.
868 If not NULL, the FileInfo (if ref is a file) or
869 the FolderInfo (if ref is a folder) will be
870 returned in the FinderInfo.
871 extendedInfo <** An optional pointer to a ExtendedFinderInfo.
872 If not NULL, the ExtendedFileInfo (if ref is a file)
873 or the ExtendedFolderInfo (if ref is a folder) will
874 be returned in the ExtendedFinderInfo.
875 isDirectory <** An optional pointer to a Boolean.
876 If not NULL, true will be returned in the Boolean
877 if the object is a directory, or false will be
878 returned in the Boolean if object is a file.
879
880 __________
881
882 Also see: FSSetFinderInfo
883 */
884
885 /*****************************************************************************/
886
887 #pragma mark FSSetFinderInfo
888
889 OSErr
890 FSSetFinderInfo(
891 const FSRef *ref,
892 const FinderInfo *info, /* can be NULL */
893 const ExtendedFinderInfo *extendedInfo); /* can be NULL */
894
895 /*
896 The FSSetFinderInfo function sets the finder information for a file or
897 directory.
898
899 ref --> FSRef to a file or directory.
900 info **> A pointer to a FinderInfo record with the new
901 FileInfo (if ref is a file) or new FolderInfo
902 (if ref is a folder), or NULL if the FinderInfo
903 is not to be changed.
904 extendedInfo **> A pointer to a FinderInfo record with the new
905 ExtendedFileInfo (if ref is a file) or new
906 ExtendedFolderInfo (if ref is a folder), or NULL
907 if the ExtendedFinderInfo is not to be changed.
908
909 __________
910
911 Also see: FSGetFinderInfo
912 */
913
914 /*****************************************************************************/
915
916 #pragma mark FSChangeCreatorType
917
918 OSErr
919 FSChangeCreatorType(
920 const FSRef *ref,
921 OSType fileCreator,
922 OSType fileType);
923
924 /*
925 The FSChangeCreatorType function changes the creator and/or file type of a file.
926
927 ref --> FSRef to a file.
928 creator --> The new creator type or 0x00000000 to leave
929 the creator type alone.
930 fileType --> The new file type or 0x00000000 to leave the
931 file type alone.
932 */
933
934 /*****************************************************************************/
935
936 #pragma mark FSChangeFinderFlags
937
938 OSErr
939 FSChangeFinderFlags(
940 const FSRef *ref,
941 Boolean setBits,
942 UInt16 flagBits);
943
944 /*
945 The FSChangeFinderFlags function sets or clears flag bits in
946 the finderFlags field of a file's FileInfo record or a
947 directory's FolderInfo record.
948
949 ref --> FSRef to a file or directory.
950 setBits --> If true, then set the bits specified in flagBits.
951 If false, then clear the bits specified in flagBits.
952 flagBits --> The flagBits parameter specifies which Finder Flag
953 bits to set or clear. If a bit in flagBits is set,
954 then the same bit in fdFlags is either set or
955 cleared depending on the state of the setBits
956 parameter.
957 */
958
959 /*****************************************************************************/
960
961 #pragma mark FSSetInvisible
962
963 OSErr
964 FSSetInvisible(
965 const FSRef *ref);
966
967 #pragma mark FSClearInvisible
968
969 OSErr
970 FSClearInvisible(
971 const FSRef *ref);
972
973 /*
974 The FSSetInvisible and FSClearInvisible functions set or clear the
975 kIsInvisible bit in the finderFlags field of the specified file or
976 directory's finder information.
977
978 ref --> FSRef to a file or directory.
979 */
980
981 /*****************************************************************************/
982
983 #pragma mark FSSetNameLocked
984
985 OSErr
986 FSSetNameLocked(
987 const FSRef *ref);
988
989 #pragma mark FSClearNameLocked
990
991 OSErr
992 FSClearNameLocked(
993 const FSRef *ref);
994
995 /*
996 The FSSetNameLocked and FSClearNameLocked functions set or clear the
997 kNameLocked bit bit in the finderFlags field of the specified file or
998 directory's finder information.
999
1000 ref --> FSRef to a file or directory.
1001 */
1002
1003 /*****************************************************************************/
1004
1005 #pragma mark FSSetIsStationery
1006
1007 OSErr
1008 FSSetIsStationery(
1009 const FSRef *ref);
1010
1011 #pragma mark FSClearIsStationery
1012
1013 OSErr
1014 FSClearIsStationery(
1015 const FSRef *ref);
1016
1017 /*
1018 The FSSetIsStationery and FSClearIsStationery functions set or clear the
1019 kIsStationery bit bit in the finderFlags field of the specified file or
1020 directory's finder information.
1021
1022 ref --> FSRef to a file or directory.
1023 */
1024
1025 /*****************************************************************************/
1026
1027 #pragma mark FSSetHasCustomIcon
1028
1029 OSErr
1030 FSSetHasCustomIcon(
1031 const FSRef *ref);
1032
1033 #pragma mark FSClearHasCustomIcon
1034
1035 OSErr
1036 FSClearHasCustomIcon(
1037 const FSRef *ref);
1038
1039 /*
1040 The FSSetHasCustomIcon and FSClearHasCustomIcon functions set or clear the
1041 kHasCustomIcon bit bit in the finderFlags field of the specified file or
1042 directory's finder information.
1043
1044 ref --> FSRef to a file or directory.
1045 */
1046
1047 /*****************************************************************************/
1048
1049 #pragma mark FSClearHasBeenInited
1050
1051 OSErr
1052 FSClearHasBeenInited(
1053 const FSRef *ref);
1054
1055 /*
1056 The FSClearHasBeenInited function clears the kHasBeenInited bit in the
1057 finderFlags field of the specified file or directory's finder information.
1058
1059 Note: There is no FSSetHasBeenInited function because ONLY the Finder
1060 should set the kHasBeenInited bit.
1061
1062 ref --> FSRef to a file or directory.
1063 */
1064
1065 /*****************************************************************************/
1066
1067 #pragma mark FSCopyFileMgrAttributes
1068
1069 OSErr
1070 FSCopyFileMgrAttributes(
1071 const FSRef *sourceRef,
1072 const FSRef *destinationRef,
1073 Boolean copyLockBit);
1074
1075 /*
1076 The CopyFileMgrAttributes function copies all File Manager attributes
1077 from the source file or directory to the destination file or directory.
1078 If copyLockBit is true, then set the locked state of the destination
1079 to match the source.
1080
1081 sourceRef --> FSRef to a file or directory.
1082 destinationRef --> FSRef to a file or directory.
1083 copyLockBit --> If true, set the locked state of the destination
1084 to match the source.
1085 */
1086
1087 /*****************************************************************************/
1088
1089 #pragma mark FSMoveRenameObjectUnicode
1090
1091 OSErr
1092 FSMoveRenameObjectUnicode(
1093 const FSRef *ref,
1094 const FSRef *destDirectory,
1095 UniCharCount nameLength,
1096 const UniChar *name, /* can be NULL (no rename during move) */
1097 TextEncoding textEncodingHint,
1098 FSRef *newRef); /* if function fails along the way, newRef is final location of file */
1099
1100 /*
1101 The FSMoveRenameObjectUnicode function moves a file or directory and
1102 optionally renames it. The source and destination locations must be on
1103 the same volume.
1104
1105 Note: If the input ref parameter is invalid, this call will fail and
1106 newRef, like ref, will be invalid.
1107
1108 ref --> FSRef to a file or directory.
1109 destDirectory --> FSRef to the destination directory.
1110 nameLength --> Number of UniChar in name parameter.
1111 name --> An Unicode string with the new name for the
1112 moved object, or NULL if no rename is wanted.
1113 textEncodingHint --> The text encoding hint used for the rename.
1114 You can pass kTextEncodingUnknown to use the
1115 "default" textEncodingHint.
1116 newRef <-- The new FSRef of the object moved. Note that if
1117 this function fails at any step along the way,
1118 newRef is still then final location of the object.
1119 */
1120
1121 /*****************************************************************************/
1122
1123 #pragma mark FSDeleteContainerContents
1124
1125 OSErr
1126 FSDeleteContainerContents(
1127 const FSRef *container);
1128
1129 /*
1130 The FSDeleteContainerContents function deletes the contents of a container
1131 directory. All files and subdirectories in the specified container are
1132 deleted. If a locked file or directory is encountered, it is unlocked and
1133 then deleted. If any unexpected errors are encountered,
1134 FSDeleteContainerContents quits and returns to the caller.
1135
1136 container --> FSRef to a directory.
1137
1138 __________
1139
1140 Also see: FSDeleteContainer
1141 */
1142
1143 /*****************************************************************************/
1144
1145 #pragma mark FSDeleteContainer
1146
1147 OSErr
1148 FSDeleteContainer(
1149 const FSRef *container);
1150
1151 /*
1152 The FSDeleteContainer function deletes a container directory and its contents.
1153 All files and subdirectories in the specified container are deleted.
1154 If a locked file or directory is encountered, it is unlocked and then
1155 deleted. After deleting the container's contents, the container is
1156 deleted. If any unexpected errors are encountered, FSDeleteContainer
1157 quits and returns to the caller.
1158
1159 container --> FSRef to a directory.
1160
1161 __________
1162
1163 Also see: FSDeleteContainerContents
1164 */
1165
1166 /*****************************************************************************/
1167
1168 #pragma mark IterateContainerFilterProcPtr
1169
1170 typedef CALLBACK_API( Boolean , IterateContainerFilterProcPtr ) (
1171 Boolean containerChanged,
1172 ItemCount currentLevel,
1173 const FSCatalogInfo *catalogInfo,
1174 const FSRef *ref,
1175 const FSSpec *spec,
1176 const HFSUniStr255 *name,
1177 void *yourDataPtr);
1178
1179 /*
1180 This is the prototype for the IterateContainerFilterProc function which
1181 is called once for each file and directory found by FSIterateContainer.
1182 The IterateContainerFilterProc can use the read-only data it receives for
1183 whatever it wants.
1184
1185 The result of the IterateContainerFilterProc function indicates if
1186 iteration should be stopped. To stop iteration, return true; to continue
1187 iteration, return false.
1188
1189 The yourDataPtr parameter can point to whatever data structure you might
1190 want to access from within the IterateContainerFilterProc.
1191
1192 containerChanged --> Set to true if the container's contents changed
1193 during iteration.
1194 currentLevel --> The current recursion level into the container.
1195 1 = the container, 2 = the container's immediate
1196 subdirectories, etc.
1197 catalogInfo --> The catalog information for the current object.
1198 Only the fields requested by the whichInfo
1199 parameter passed to FSIterateContainer are valid.
1200 ref --> The FSRef to the current object.
1201 spec --> The FSSpec to the current object if the wantFSSpec
1202 parameter passed to FSIterateContainer is true.
1203 name --> The name of the current object if the wantName
1204 parameter passed to FSIterateContainer is true.
1205 yourDataPtr --> An optional pointer to whatever data structure you
1206 might want to access from within the
1207 IterateFilterProc.
1208 result <-- To stop iteration, return true; to continue
1209 iteration, return false.
1210
1211 __________
1212
1213 Also see: FSIterateContainer
1214 */
1215
1216 /*****************************************************************************/
1217
1218 #pragma mark CallIterateContainerFilterProc
1219
1220 #define CallIterateContainerFilterProc(userRoutine, containerChanged, currentLevel, catalogInfo, ref, spec, name, yourDataPtr) \
1221 (*(userRoutine))((containerChanged), (currentLevel), (catalogInfo), (ref), (spec), (name), (yourDataPtr))
1222
1223 /*****************************************************************************/
1224
1225 #pragma mark FSIterateContainer
1226
1227 OSErr
1228 FSIterateContainer(
1229 const FSRef *container,
1230 ItemCount maxLevels,
1231 FSCatalogInfoBitmap whichInfo,
1232 Boolean wantFSSpec,
1233 Boolean wantName,
1234 IterateContainerFilterProcPtr iterateFilter,
1235 void *yourDataPtr);
1236
1237 /*
1238 The FSIterateContainer function performs a recursive iteration (scan) of the
1239 specified container directory and calls your IterateContainerFilterProc
1240 function once for each file and directory found.
1241
1242 The maxLevels parameter lets you control how deep the recursion goes.
1243 If maxLevels is 1, FSIterateContainer only scans the specified directory;
1244 if maxLevels is 2, FSIterateContainer scans the specified directory and
1245 one subdirectory below the specified directory; etc. Set maxLevels to
1246 zero to scan all levels.
1247
1248 The yourDataPtr parameter can point to whatever data structure you might
1249 want to access from within your IterateContainerFilterProc.
1250
1251 container --> The FSRef to the container directory to iterate.
1252 maxLevels --> Maximum number of directory levels to scan or
1253 zero to scan all directory levels.
1254 whichInfo --> The fields of the FSCatalogInfo you wish to get.
1255 wantFSSpec --> Set to true if you want the FSSpec to each
1256 object passed to your IterateContainerFilterProc.
1257 wantName --> Set to true if you want the name of each
1258 object passed to your IterateContainerFilterProc.
1259 iterateFilter --> A pointer to the IterateContainerFilterProc you
1260 want called once for each file and directory found
1261 by FSIterateContainer.
1262 yourDataPtr --> An optional pointer to whatever data structure you
1263 might want to access from within the
1264 IterateFilterProc.
1265 */
1266
1267 /*****************************************************************************/
1268
1269 #pragma mark FSGetDirectoryItems
1270
1271 OSErr
1272 FSGetDirectoryItems(
1273 const FSRef *container,
1274 FSRef ***refsHandle, /* pointer to handle of FSRefs */
1275 ItemCount *numRefs,
1276 Boolean *containerChanged);
1277
1278 /*
1279 The FSGetDirectoryItems function returns the list of items in the specified
1280 container. The array of FSRef records is returned in a Handle, refsHandle,
1281 which is allocated by FSGetDirectoryItems. The caller is responsible for
1282 disposing of refsHandle if the FSGetDirectoryItems returns noErr.
1283
1284 container --> FSRef to a directory.
1285 refsHandle <-- Pointer to an FSRef Handle where the array of
1286 FSRefs is to be returned.
1287 numRefs <-- The number of FSRefs returned in the array.
1288 containerChanged <-- Set to true if the container changes while the
1289 list of items is being obtained.
1290 */
1291
1292 /*****************************************************************************/
1293
1294 #pragma mark FSExchangeObjectsCompat
1295
1296 OSErr
1297 FSExchangeObjectsCompat(
1298 const FSRef *sourceRef,
1299 const FSRef *destRef,
1300 FSRef *newSourceRef,
1301 FSRef *newDestRef);
1302
1303 /*
1304 The FSExchangeObjectsCompat function exchanges the data between two files.
1305
1306 The FSExchangeObjectsCompat function is an enhanced version of
1307 FSExchangeObjects function. The two enhancements FSExchangeObjectsCompat
1308 provides are:
1309
1310 1, FSExchangeObjectsCompat will work on volumes which do not support
1311 FSExchangeObjects. FSExchangeObjectsCompat does this by emulating
1312 FSExchangeObjects through a series of File Manager operations. If
1313 there is a failure at any step along the way, FSExchangeObjectsCompat
1314 attempts to undo any steps already taken to leave the files in their
1315 original state in their original locations.
1316
1317 2. FSExchangeObjectsCompat returns new FSRefs to the source and
1318 destination files. Note that if this function fails at any step along
1319 the way, newSourceRef and newDestRef still give you access to the final
1320 locations of the files being exchanged -- even if they are renamed or
1321 not in their original locations.
1322
1323 sourceRef --> FSRef to the source file.
1324 destRef --> FSRef to the destination file.
1325 newSourceRef <-- The new FSRef to the source file.
1326 newDestRef <-- The new FSRef to the destination file.
1327 */
1328
1329 /*****************************************************************************/
1330
1331 #pragma mark ----- Shared Environment Routines -----
1332
1333 /*****************************************************************************/
1334
1335 #pragma mark FSLockRange
1336
1337 OSErr
1338 FSLockRange(
1339 SInt16 refNum,
1340 SInt32 rangeLength,
1341 SInt32 rangeStart);
1342
1343 /*
1344 The LockRange function locks (denies access to) a portion of a file
1345 that was opened with shared read/write permission.
1346
1347 refNum --> The file reference number of an open file.
1348 rangeLength --> The number of bytes in the range.
1349 rangeStart --> The starting byte in the range to lock.
1350
1351 __________
1352
1353 Also see: UnlockRange
1354 */
1355
1356 /*****************************************************************************/
1357
1358 #pragma mark FSUnlockRange
1359
1360 OSErr
1361 FSUnlockRange(
1362 SInt16 refNum,
1363 SInt32 rangeLength,
1364 SInt32 rangeStart);
1365
1366 /*
1367 The UnlockRange function unlocks (allows access to) a previously locked
1368 portion of a file that was opened with shared read/write permission.
1369
1370 refNum --> The file reference number of an open file.
1371 rangeLength --> The number of bytes in the range.
1372 rangeStart --> The starting byte in the range to unlock.
1373
1374 __________
1375
1376 Also see: LockRange
1377 */
1378
1379 /*****************************************************************************/
1380
1381 #pragma mark FSGetDirAccess
1382
1383 OSErr
1384 FSGetDirAccess(
1385 const FSRef *ref,
1386 SInt32 *ownerID, /* can be NULL */
1387 SInt32 *groupID, /* can be NULL */
1388 SInt32 *accessRights); /* can be NULL */
1389
1390 /*
1391 The FSGetDirAccess function retrieves the directory access control
1392 information for a directory on a shared volume.
1393
1394 ref --> An FSRef specifying the directory.
1395 ownerID <** An optional pointer to a SInt32.
1396 If not NULL, the directory's owner ID
1397 will be returned in the SInt32.
1398 groupID <** An optional pointer to a SInt32.
1399 If not NULL, the directory's group ID, or 0
1400 if no group affiliation, will be returned in
1401 the SInt32.
1402 accessRights <** An optional pointer to a SInt32.
1403 If not NULL, the directory's access rights
1404 will be returned in the SInt32.
1405
1406 __________
1407
1408 Also see: FSSetDirAccess, FSMapID, FSMapName
1409 */
1410
1411 /*****************************************************************************/
1412
1413 #pragma mark FSSetDirAccess
1414
1415 OSErr
1416 FSSetDirAccess(
1417 const FSRef *ref,
1418 SInt32 ownerID,
1419 SInt32 groupID,
1420 SInt32 accessRights);
1421
1422 /*
1423 The FSpSetDirAccess function changes the directory access control
1424 information for a directory on a shared volume. You must be the owner of
1425 a directory to change its access control information.
1426
1427 ref --> An FSRef specifying the directory.
1428 ownerID --> The directory's owner ID.
1429 groupID --> The directory's group ID or 0 if no group affiliation.
1430 accessRights --> The directory's access rights.
1431
1432 __________
1433
1434 Also see: FSGetDirAccess, FSMapID, FSMapName
1435 */
1436
1437 /*****************************************************************************/
1438
1439 #pragma mark FSGetVolMountInfoSize
1440
1441 OSErr
1442 FSGetVolMountInfoSize(
1443 FSVolumeRefNum volRefNum,
1444 SInt16 *size);
1445
1446 /*
1447 The FSGetVolMountInfoSize function determines the how much space the
1448 program needs to allocate for a volume mounting information record.
1449
1450 volRefNum --> Volume specification.
1451 size <-- The space needed (in bytes) of the volume
1452 mounting information record.
1453
1454 __________
1455
1456 Also see: FSGetVolMountInfo, VolumeMount
1457 */
1458
1459 /*****************************************************************************/
1460
1461 #pragma mark FSGetVolMountInfo
1462
1463 OSErr
1464 FSGetVolMountInfo(
1465 FSVolumeRefNum volRefNum,
1466 void *volMountInfo);
1467
1468 /*
1469 The FSGetVolMountInfo function retrieves a volume mounting information
1470 record containing all the information needed to mount the volume,
1471 except for passwords.
1472
1473 volRefNum --> Volume specification.
1474 volMountInfo <-- The volume mounting information.
1475
1476 __________
1477
1478 Also see: FSGetVolMountInfoSize, VolumeMount
1479 */
1480
1481 /*****************************************************************************/
1482
1483 #pragma mark FSVolumeMount
1484
1485 OSErr
1486 FSVolumeMount(
1487 const void *volMountInfo,
1488 FSVolumeRefNum *volRefNum);
1489
1490 /*
1491 The VolumeMount function mounts a volume using a volume mounting
1492 information record.
1493
1494 volMountInfo --> A volume mounting information record.
1495 volRefNum <-- The volume reference number.
1496
1497 __________
1498
1499 Also see: FSGetVolMountInfoSize, FSGetVolMountInfo
1500 */
1501
1502 /*****************************************************************************/
1503
1504 #pragma mark FSMapID
1505
1506 OSErr
1507 FSMapID(
1508 FSVolumeRefNum volRefNum,
1509 SInt32 ugID,
1510 SInt16 objType,
1511 Str31 name);
1512
1513 /*
1514 The FSMapID function determines the name of a user or group if you know
1515 the user or group ID.
1516
1517 volRefNum --> Volume specification.
1518 objType --> The mapping function code:
1519 kOwnerID2Name to map a user ID to a user name
1520 kGroupID2Name to map a group ID to a group name
1521 name <** An optional pointer to a buffer (minimum Str31).
1522 If not NULL, the user or group name
1523 will be returned in the buffer.
1524
1525 __________
1526
1527 Also see: FSGetDirAccess, FSSetDirAccess, FSMapName
1528 */
1529
1530 /*****************************************************************************/
1531
1532 #pragma mark FSMapName
1533
1534 OSErr
1535 FSMapName(
1536 FSVolumeRefNum volRefNum,
1537 ConstStr255Param name,
1538 SInt16 objType,
1539 SInt32 *ugID);
1540
1541 /*
1542 The FSMapName function determines the user or group ID if you know the
1543 user or group name.
1544
1545 volRefNum --> Volume specification.
1546 name --> The user or group name.
1547 objType --> The mapping function code:
1548 kOwnerName2ID to map a user name to a user ID
1549 kGroupName2ID to map a user name to a group ID
1550 ugID <-- The user or group ID.
1551
1552 __________
1553
1554 Also see: FSGetDirAccess, FSSetDirAccess, FSMapID
1555 */
1556
1557 /*****************************************************************************/
1558
1559 #pragma mark FSCopyFile
1560
1561 OSErr
1562 FSCopyFile(
1563 const FSRef *srcFileRef,
1564 const FSRef *dstDirectoryRef,
1565 UniCharCount nameLength,
1566 const UniChar *copyName, /* can be NULL (no rename during copy) */
1567 TextEncoding textEncodingHint,
1568 FSRef *newRef); /* can be NULL */
1569
1570 /*
1571 The FSCopyFile function duplicates a file and optionally renames it.
1572 The source and destination volumes must be on the same file server.
1573 This function instructs the server to copy the file.
1574
1575 srcFileRef --> An FSRef specifying the source file.
1576 dstDirectoryRef --> An FSRef specifying the destination directory.
1577 nameLength --> Number of UniChar in copyName parameter (ignored
1578 if copyName is NULL).
1579 copyName --> Points to the new file name if the file is to be
1580 renamed, or NULL if the file isn't to be renamed.
1581 textEncodingHint --> The text encoding hint used for the rename.
1582 You can pass kTextEncodingUnknown to use the
1583 "default" textEncodingHint.
1584 newRef <** An optional pointer to a FSRef.
1585 If not NULL, the FSRef of the duplicated file
1586 will be returned in the FSRef.
1587 */
1588
1589 /*****************************************************************************/
1590
1591 #pragma mark FSMoveRename
1592
1593 OSErr
1594 FSMoveRename(
1595 const FSRef *srcFileRef,
1596 const FSRef *dstDirectoryRef,
1597 UniCharCount nameLength,
1598 const UniChar *moveName, /* can be NULL (no rename during move) */
1599 TextEncoding textEncodingHint,
1600 FSRef *newRef); /* can be NULL */
1601
1602 /*
1603 The FSMoveRename function moves a file or directory (object), and
1604 optionally renames it. The source and destination locations must be on
1605 the same shared volume.
1606
1607 srcFileRef --> An FSRef specifying the source file.
1608 dstDirectoryRef --> An FSRef specifying the destination directory.
1609 nameLength --> Number of UniChar in moveName parameter (ignored
1610 if copyName is NULL)
1611 moveName --> Points to the new object name if the object is to be
1612 renamed, or NULL if the object isn't to be renamed.
1613 textEncodingHint --> The text encoding hint used for the rename.
1614 You can pass kTextEncodingUnknown to use the
1615 "default" textEncodingHint.
1616 newRef <** An optional pointer to a FSRef.
1617 If not NULL, the FSRef of the moved object
1618 will be returned in the FSRef.
1619 */
1620
1621 /*****************************************************************************/
1622
1623 #pragma mark ----- File ID Routines -----
1624
1625 /*****************************************************************************/
1626
1627 #pragma mark FSResolveFileIDRef
1628
1629 OSErr
1630 FSResolveFileIDRef(
1631 FSVolumeRefNum volRefNum,
1632 SInt32 fileID,
1633 FSRef *ref);
1634
1635 /*
1636 The FSResolveFileIDRef function returns an FSRef for the file with the
1637 specified file ID reference.
1638
1639 volRefNum --> Volume specification.
1640 fileID --> The file ID reference.
1641 ref <-- The FSRef for the file ID reference.
1642
1643 __________
1644
1645 Also see: FSCreateFileIDRef, FSDeleteFileIDRef
1646 */
1647
1648 /*****************************************************************************/
1649
1650 #pragma mark FSCreateFileIDRef
1651
1652 OSErr
1653 FSCreateFileIDRef(
1654 const FSRef *ref,
1655 SInt32 *fileID);
1656
1657 /*
1658 The FSCreateFileIDRef function creates a file ID reference for the
1659 specified file, or if a file ID reference already exists, supplies
1660 the file ID reference and returns the result code fidExists or afpIDExists.
1661
1662 ref --> The FSRef for the file.
1663 fileID <-- The file ID reference (if result is noErr,
1664 fidExists, or afpIDExists).
1665
1666 __________
1667
1668 Also see: GetFSRefFromFileIDRef, FSDeleteFileIDRef
1669 */
1670
1671 /*****************************************************************************/
1672
1673 #pragma mark FSDeleteFileIDRef
1674
1675 /*
1676 Why is there no FSDeleteFileIDRef routine? There are two reasons:
1677
1678 1. Since Mac OS 8.1, PBDeleteFileIDRef hasn't deleted file ID references.
1679 On HFS volumes, deleting a file ID reference breaks aliases (which
1680 use file ID references to track files as they are moved around on a
1681 volume) and file ID references are automatically deleted when the file
1682 they refer to is deleted. On HFS Plus volumes, file ID references are
1683 always created when a file is created, deleted when the file is deleted,
1684 and cannot be deleted at any other time.
1685
1686 2. PBDeleteFileIDRef causes a memory access fault under Mac OS X 10.0
1687 through 10.1.x. While this will be fixed in a future release, the
1688 implementation, like the Mac OS 8/9 implementation, does not delete
1689 file ID references.
1690
1691 __________
1692
1693 Also see: GetFSRefFromFileIDRef, FSCreateFileIDRef
1694 */
1695
1696 /*****************************************************************************/
1697
1698 #pragma mark ----- Utility Routines -----
1699
1700 /*****************************************************************************/
1701
1702 #pragma mark GetTempBuffer
1703
1704 Ptr
1705 GetTempBuffer(
1706 ByteCount buffReqSize,
1707 ByteCount *buffActSize);
1708
1709 /*
1710 The GetTempBuffer function allocates a temporary buffer for file system
1711 operations which is at least 4K bytes and a multiple of 4K bytes.
1712
1713 buffReqSize --> Size you'd like the buffer to be.
1714 buffActSize <-- The size of the buffer allocated.
1715 function result <-- Pointer to memory allocated, or NULL if no memory
1716 was available. The caller is responsible for
1717 disposing of this buffer with DisposePtr.
1718 */
1719
1720 /*****************************************************************************/
1721
1722 #pragma mark FileRefNumGetFSRef
1723
1724 OSErr
1725 FileRefNumGetFSRef(
1726 short refNum,
1727 FSRef *ref);
1728
1729 /*
1730 The FileRefNumGetFSRef function gets the FSRef of an open file.
1731
1732 refNum --> The file reference number of an open file.
1733 ref <-- The FSRef to the open file.
1734 */
1735
1736 /*****************************************************************************/
1737
1738 #pragma mark FSSetDefault
1739
1740 OSErr
1741 FSSetDefault(
1742 const FSRef *newDefault,
1743 FSRef *oldDefault);
1744
1745 /*
1746 The FSSetDefault function sets the current working directory to the
1747 directory specified by newDefault. The previous current working directory
1748 is returned in oldDefault and must be used to restore the current working
1749 directory to its previous state with the FSRestoreDefault function.
1750 These two functions are designed to be used as a wrapper around
1751 Standard I/O routines where the location of the file is implied to be the
1752 current working directory. This is how you should use these functions:
1753
1754 result = FSSetDefault(&newDefault, &oldDefault);
1755 if ( noErr == result )
1756 {
1757 // call the Stdio functions like remove, rename,
1758 // fopen, freopen, etc here!
1759
1760 result = FSRestoreDefault(&oldDefault);
1761 }
1762
1763 newDefault --> An FSRef that specifies the new current working
1764 directory.
1765 oldDefault <-- The previous current working directory's FSRef.
1766
1767 __________
1768
1769 Also see: FSRestoreDefault
1770 */
1771
1772 /*****************************************************************************/
1773
1774 #pragma mark FSRestoreDefault
1775
1776 OSErr
1777 FSRestoreDefault(
1778 const FSRef *oldDefault);
1779
1780 /*
1781 The FSRestoreDefault function restores the current working directory
1782 to the directory specified by oldDefault. The oldDefault parameter was
1783 previously obtained from the FSSetDefault function.
1784 These two functions are designed to be used as a wrapper around
1785 Standard I/O routines where the location of the file is implied to be the
1786 current working directory. This is how you should use these functions:
1787
1788 result = FSSetDefault(&newDefault, &oldDefault);
1789 if ( noErr == result )
1790 {
1791 // call the Stdio functions like remove, rename,
1792 // fopen, freopen, etc here!
1793
1794 result = FSRestoreDefault(&oldDefault);
1795 }
1796
1797 oldDefault --> The FSRef of the location to restore.
1798
1799 __________
1800
1801 Also see: FSSetDefault
1802 */
1803
1804 /*****************************************************************************/
1805
1806 #if PRAGMA_STRUCT_ALIGN
1807 #pragma options align=reset
1808 #elif PRAGMA_STRUCT_PACKPUSH
1809 #pragma pack(pop)
1810 #elif PRAGMA_STRUCT_PACK
1811 #pragma pack()
1812 #endif
1813
1814 #ifdef PRAGMA_IMPORT_OFF
1815 #pragma import off
1816 #elif PRAGMA_IMPORT
1817 #pragma import reset
1818 #endif
1819
1820 #ifdef __cplusplus
1821 }
1822 #endif
1823
1824 #endif /* __MOREFILESX__ */
1825