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FSExchangeObjectsCompat.c
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FSExchangeObjectsCompat.c
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/*
* FSExchangeObjectsCompat.c
* based on MoreFilesX
*/
#include "FSExchangeObjectsCompat.h"
#include <sys/attr.h>
#include <sys/stat.h>
#include <sys/mount.h>
__private_extern__ u_int32_t volumeCapabilities(const char *path)
{
struct attrlist alist;
bzero(&alist, sizeof(alist));
alist.bitmapcount = ATTR_BIT_MAP_COUNT;
alist.volattr = ATTR_VOL_INFO|ATTR_VOL_CAPABILITIES; // XXX: VOL_INFO must always be set
struct {
u_int32_t v_size;
/* Fixed storage */
vol_capabilities_attr_t v_caps;
} vinfo;
bzero(&vinfo, sizeof(vinfo));
if (0 == getattrlist(path, &alist, &vinfo, sizeof(vinfo), 0)
&& 0 != (alist.volattr & ATTR_VOL_CAPABILITIES)) {
return (vinfo.v_caps.capabilities[VOL_CAPABILITIES_INTERFACES]);
}
return (0);
}
static OSErr GenerateUniqueHFSUniStr(long *startSeed, const FSRef *dir1, const FSRef *dir2, HFSUniStr255 *uniqueName) {
OSErr result;
long i;
FSRefParam pb;
FSRef newRef;
unsigned char hexStr[17] = "0123456789ABCDEF";
/* set up the parameter block */
pb.name = uniqueName->unicode;
pb.nameLength = 8; /* always 8 characters */
pb.textEncodingHint = kTextEncodingUnknown;
pb.newRef = &newRef;
/* loop until we get fnfErr with a filename in both directories */
result = noErr;
while ( fnfErr != result )
{
/* convert startSeed to 8 character Unicode string */
uniqueName->length = 8;
for ( i = 0; i < 8; ++i )
{
uniqueName->unicode[i] = hexStr[((*startSeed >> ((7-i)*4)) & 0xf)];
}
/* try in dir1 */
pb.ref = dir1;
result = PBMakeFSRefUnicodeSync(&pb);
if ( fnfErr == result )
{
/* try in dir2 */
pb.ref = dir2;
result = PBMakeFSRefUnicodeSync(&pb);
if ( fnfErr != result )
{
/* exit if anything other than noErr or fnfErr */
__Require_noErr(result, Dir2PBMakeFSRefUnicodeSyncFailed);
}
}
else
{
/* exit if anything other than noErr or fnfErr */
__Require_noErr(result, Dir1PBMakeFSRefUnicodeSyncFailed);
}
/* increment seed for next pass through loop, */
/* or for next call to GenerateUniqueHFSUniStr */
++(*startSeed);
}
/* we have a unique file name which doesn't exist in dir1 or dir2 */
result = noErr;
Dir2PBMakeFSRefUnicodeSyncFailed:
Dir1PBMakeFSRefUnicodeSyncFailed:
return ( result );
}
OSErr FSExchangeObjectsEmulate(const FSRef *sourceRef, const FSRef *destRef, FSRef *newSourceRef, FSRef *newDestRef) {
enum {
/* get all settable info except for mod dates, plus the volume refNum and parent directory ID */
kGetCatInformationMask = (kFSCatInfoSettableInfo |
kFSCatInfoVolume |
kFSCatInfoParentDirID) &
~(kFSCatInfoContentMod | kFSCatInfoAttrMod),
/* set everything possible except for mod dates */
kSetCatinformationMask = kFSCatInfoSettableInfo &
~(kFSCatInfoContentMod | kFSCatInfoAttrMod)
};
OSErr result;
FSCatalogInfo sourceCatalogInfo; /* source file's catalog information */
FSCatalogInfo destCatalogInfo; /* destination file's catalog information */
HFSUniStr255 sourceName; /* source file's Unicode name */
HFSUniStr255 destName; /* destination file's Unicode name */
FSRef sourceCurrentRef; /* FSRef to current location of source file throughout this function */
FSRef destCurrentRef; /* FSRef to current location of destination file throughout this function */
FSRef sourceParentRef; /* FSRef to parent directory of source file */
FSRef destParentRef; /* FSRef to parent directory of destination file */
HFSUniStr255 sourceUniqueName; /* unique name given to source file while exchanging it with destination */
HFSUniStr255 destUniqueName; /* unique name given to destination file while exchanging it with source */
long theSeed; /* the seed for generating unique names */
Boolean sameParentDirs; /* true if source and destinatin parent directory is the same */
/* check parameters */
__Require_Action((NULL != newSourceRef) && (NULL != newDestRef), BadParameter, result = paramErr);
/* output refs and current refs = input refs to start with */
memcpy(newSourceRef, sourceRef, sizeof(FSRef));
memcpy(&sourceCurrentRef, sourceRef, sizeof(FSRef));
memcpy(newDestRef, destRef, sizeof(FSRef));
memcpy(&destCurrentRef, destRef, sizeof(FSRef));
/* Note: The compatibility case won't work for files with *Btree control blocks. */
/* Right now the only *Btree files are created by the system. */
/* get all catalog information and Unicode names for each file */
result = FSGetCatalogInfo(&sourceCurrentRef, kGetCatInformationMask, &sourceCatalogInfo, &sourceName, NULL, &sourceParentRef);
__Require_noErr(result, SourceFSGetCatalogInfoFailed);
result = FSGetCatalogInfo(&destCurrentRef, kGetCatInformationMask, &destCatalogInfo, &destName, NULL, &destParentRef);
__Require_noErr(result, DestFSGetCatalogInfoFailed);
/* make sure source and destination are on same volume */
__Require_Action(sourceCatalogInfo.volume == destCatalogInfo.volume, NotSameVolume, result = diffVolErr);
/* make sure both files are *really* files */
__Require_Action((0 == (sourceCatalogInfo.nodeFlags & kFSNodeIsDirectoryMask)) &&
(0 == (destCatalogInfo.nodeFlags & kFSNodeIsDirectoryMask)), NotAFile, result = notAFileErr);
/* generate 2 names that are unique in both directories */
theSeed = 0x4a696d4c; /* a fine unlikely filename */
result = GenerateUniqueHFSUniStr(&theSeed, &sourceParentRef, &destParentRef, &sourceUniqueName);
__Require_noErr(result, GenerateUniqueHFSUniStr1Failed);
result = GenerateUniqueHFSUniStr(&theSeed, &sourceParentRef, &destParentRef, &destUniqueName);
__Require_noErr(result, GenerateUniqueHFSUniStr2Failed);
/* rename sourceCurrentRef to sourceUniqueName */
result = FSRenameUnicode(&sourceCurrentRef, sourceUniqueName.length, sourceUniqueName.unicode, kTextEncodingUnknown, newSourceRef);
__Require_noErr(result, FSRenameUnicode1Failed);
memcpy(&sourceCurrentRef, newSourceRef, sizeof(FSRef));
/* rename destCurrentRef to destUniqueName */
result = FSRenameUnicode(&destCurrentRef, destUniqueName.length, destUniqueName.unicode, kTextEncodingUnknown, newDestRef);
__Require_noErr(result, FSRenameUnicode2Failed);
memcpy(&destCurrentRef, newDestRef, sizeof(FSRef));
/* are the source and destination parent directories the same? */
sameParentDirs = ( sourceCatalogInfo.parentDirID == destCatalogInfo.parentDirID );
if ( !sameParentDirs )
{
/* move source file to dest parent directory */
result = FSMoveObject(&sourceCurrentRef, &destParentRef, newSourceRef);
__Require_noErr(result, FSMoveObject1Failed);
memcpy(&sourceCurrentRef, newSourceRef, sizeof(FSRef));
/* move dest file to source parent directory */
result = FSMoveObject(&destCurrentRef, &sourceParentRef, newDestRef);
__Require_noErr(result, FSMoveObject2Failed);
memcpy(&destCurrentRef, newDestRef, sizeof(FSRef));
}
/* At this point, the files are in their new locations (if they were moved). */
/* The source file is named sourceUniqueName and is in the directory referred to */
/* by destParentRef. The destination file is named destUniqueName and is in the */
/* directory referred to by sourceParentRef. */
/* give source file the dest file's catalog information except for mod dates */
result = FSSetCatalogInfo(&sourceCurrentRef, kSetCatinformationMask, &destCatalogInfo);
__Require_noErr(result, FSSetCatalogInfo1Failed);
/* give dest file the source file's catalog information except for mod dates */
result = FSSetCatalogInfo(&destCurrentRef, kSetCatinformationMask, &sourceCatalogInfo);
__Require_noErr(result, FSSetCatalogInfo2Failed);
/* rename source file with dest file's name */
result = FSRenameUnicode(&sourceCurrentRef, destName.length, destName.unicode, destCatalogInfo.textEncodingHint, newSourceRef);
__Require_noErr(result, FSRenameUnicode3Failed);
memcpy(&sourceCurrentRef, newSourceRef, sizeof(FSRef));
/* rename dest file with source file's name */
result = FSRenameUnicode(&destCurrentRef, sourceName.length, sourceName.unicode, sourceCatalogInfo.textEncodingHint, newDestRef);
__Require_noErr(result, FSRenameUnicode4Failed);
/* we're done with no errors, so swap newSourceRef and newDestRef */
memcpy(newSourceRef, newDestRef, sizeof(FSRef));
memcpy(newDestRef, &sourceCurrentRef, sizeof(FSRef));
return ( result );
/**********************/
/* If there are any failures while emulating FSExchangeObjects, attempt to reverse any steps */
/* already taken. In any case, newSourceRef and newDestRef will refer to the files in whatever */
/* state and location they ended up in so that both files can be found by the calling code. */
FSRenameUnicode4Failed:
/* attempt to rename source file to sourceUniqueName */
if ( noErr == FSRenameUnicode(&sourceCurrentRef, sourceUniqueName.length, sourceUniqueName.unicode, kTextEncodingUnknown, newSourceRef) )
{
memcpy(&sourceCurrentRef, newSourceRef, sizeof(FSRef));
}
FSRenameUnicode3Failed:
/* attempt to restore dest file's catalog information */
__Verify_noErr(FSSetCatalogInfo(&destCurrentRef, kFSCatInfoSettableInfo, &destCatalogInfo));
FSSetCatalogInfo2Failed:
/* attempt to restore source file's catalog information */
__Verify_noErr(FSSetCatalogInfo(&sourceCurrentRef, kFSCatInfoSettableInfo, &sourceCatalogInfo));
FSSetCatalogInfo1Failed:
if ( !sameParentDirs )
{
/* attempt to move dest file back to dest directory */
if ( noErr == FSMoveObject(&destCurrentRef, &destParentRef, newDestRef) )
{
memcpy(&destCurrentRef, newDestRef, sizeof(FSRef));
}
}
FSMoveObject2Failed:
if ( !sameParentDirs )
{
/* attempt to move source file back to source directory */
if ( noErr == FSMoveObject(&sourceCurrentRef, &sourceParentRef, newSourceRef) )
{
memcpy(&sourceCurrentRef, newSourceRef, sizeof(FSRef));
}
}
FSMoveObject1Failed:
/* attempt to rename dest file to original name */
__Verify_noErr(FSRenameUnicode(&destCurrentRef, destName.length, destName.unicode, destCatalogInfo.textEncodingHint, newDestRef));
FSRenameUnicode2Failed:
/* attempt to rename source file to original name */
__Verify_noErr(FSRenameUnicode(&sourceCurrentRef, sourceName.length, sourceName.unicode, sourceCatalogInfo.textEncodingHint, newSourceRef));
FSRenameUnicode1Failed:
GenerateUniqueHFSUniStr2Failed:
GenerateUniqueHFSUniStr1Failed:
NotAFile:
NotSameVolume:
DestFSGetCatalogInfoFailed:
SourceFSGetCatalogInfoFailed:
BadParameter:
return ( result );
}