nsresult nsCollationOS2::AllocateRawSortKey(int32_t strength,
const nsAString& stringIn, uint8_t** key, uint32_t* outLen)
{
nsresult res = NS_OK;
nsAutoString stringNormalized;
if (strength != kCollationCaseSensitive) {
res = mCollation->NormalizeString(stringIn, stringNormalized);
if (NS_FAILED(res))
return res;
} else {
stringNormalized = stringIn;
}
LocaleObject locObj = nullptr;
int ret = UniCreateLocaleObject(UNI_UCS_STRING_POINTER, (UniChar *)L"", &locObj);
if (ret != ULS_SUCCESS)
UniCreateLocaleObject(UNI_UCS_STRING_POINTER, (UniChar *)L"C", &locObj);
res = NS_ERROR_FAILURE; // From here on out assume failure...
int length = UniStrxfrm(locObj,
nullptr,
reinterpret_cast<const UniChar *>(stringNormalized.get()),
0);
if (length >= 0) {
length += 5; // Allow for the "extra" chars UniStrxfrm()
// will out put (overrunning the buffer if
// you let it...)
// Magic, persistent buffer. If it's not twice the size we need,
// we grow/reallocate it 4X so it doesn't grow often.
static UniChar* pLocalBuffer = nullptr;
static int iBufferLength = 100;
if (iBufferLength < length*2) {
if ( pLocalBuffer ) {
free(pLocalBuffer);
pLocalBuffer = nullptr;
}
iBufferLength = length*4;
}
if (!pLocalBuffer)
pLocalBuffer = (UniChar*) malloc(sizeof(UniChar) * iBufferLength);
if (pLocalBuffer) {
// Do the Xfrm
int uLen = UniStrxfrm(locObj, pLocalBuffer, reinterpret_cast<const UniChar *>(stringNormalized.get()), iBufferLength);
// See how big the result really is
uLen = UniStrlen(pLocalBuffer);
// make sure it will fit in the output buffer...
if (uLen < iBufferLength) {
// Success!
// Give 'em the real size in bytes...
*key = (uint8_t *)NS_strdup((char16_t*) pLocalBuffer);
*outLen = uLen * 2 + 2;
res = NS_OK;
}
}
}
UniFreeLocaleObject(locObj);
return res;
}
/*
* NAME: jfs_lookup(dvp, vpp, pname, flag, vattrp, crp)
*
* FUNCTION: resolve <pname> in directory <dvp> to vnode <vpp>
* with a reference acquired and attribute <vattrp>.
*
* PARAMETERS: dvp _ directory vnode
* vpp - object vnode (out)
* pname - object name
* flag -
* vattrp - object attribute (out)
* crp - credential
*
* RETURN: errors from subroutines.
*/
jfs_lookup(
struct vnode *dvp,
struct vnode **vpp,
UniChar *pname, /* NULL terminated */
int32 flag,
struct vattr *vattrp,
struct ucred *crp)
{
int32 rc = 0;
struct vfs *vfsp = dvp->v_vfsp;
inode_t *dip = VP2IP(dvp); /* parent directory inode */
ino_t ino; /* object i_number */
inode_t *ip; /* object inode */
component_t dname; /* object name */
ncookie_t ncookie;
btstack_t btstack;
NOISE(1,("jfs_lookup: dip:0x%08x name:%s\n", dip, pname));
*vpp = NULL;
/* <dvp> must be a directory */
if ((dip->i_mode & IFMT) != IFDIR)
return ENOTDIR;
IREAD_LOCK(dip);
if (dip->i_nlink == 0)
{
rc = ENOENT;
goto out;
}
/*
* resolve name to i_number via dnlc/directory lookup
*/
getInumber:
/*
* for "." or "..", lookup directory inode
*/
if (pname[0] == '.')
{
/* looking up ".." */
if (pname[1] == '.' && pname[2] == '\0')
{
ino = dip->i_parent;
goto getInode;
}
/* looking up "." */
else if (pname[1] == '\0')
{
ip = dip;
jfs_hold(dvp);
*vpp = dvp;
goto getAttribute;
}
}
/*
* search dnlc/directory
*/
dname.name = pname;
dname.namlen = UniStrlen(pname);
if ((ino = ncLookup(dip->i_ipimap, dip->i_number, &dname, &ncookie)) == 0)
{
/*
* dnlc miss: search directory
*/
if (rc = dtSearch(dip, &dname, &ino, &btstack, JFS_LOOKUP))
goto out;
/* insert name entry to dnlc */
ncEnter(dip->i_ipimap, dip->i_number, &dname, ino, &ncookie);
}
/*
* resolve i_number to inode/vnode with a reference
*/
getInode:
ICACHE_LOCK();
rc = iget(vfsp, ino, &ip, 0);
ICACHE_UNLOCK();
if (rc)
goto out;
*vpp = IP2VP(ip);
/*
* get attribute
*/
getAttribute:
if (vattrp != NULL)
get_vattr(ip, vattrp);
out:
IREAD_UNLOCK(dip);
NOISE(1,("jfs_lookup: rc:%d\n", rc));
return rc;
}
/*
* NAME: pathlookup_pc
*
* FUNCTION: Lookup path, preserving case.
* Lookup path, copying each component into output string
* preserving its case.
*
* PARAMETERS: vfsp - pointer to VFS
* path - full path name
* path_pc - output - full path name w/preserved case
*
* RETURN: errors from subroutines.
*
* NOTES: We assume path is in canonical form: "X:\<path>" where there
* are no extraneous backslashes and . and .. have been removed.
*
* dtFind is not very efficient for finding a directory entry
* without wildcards, but infolevel 7 does not seem to actually
* be used anywhere, so it must not be too important.
*/
int32 pathlookup_pc(
struct vfs *vfsp,
UniChar *path, /* input - Path */
UniChar *path_pc) /* output - path w/preserved case */
{
int32 comp_len;
uint32 count;
UniChar *component;
struct dirent *dbuf;
inode_t *ip;
int32 offset;
UniChar *outptr = path_pc;
component_t pattern;
int rc;
UniChar *slash;
int32 tbytes;
struct vnode *vp;
if (vfsp == NULL)
{
jERROR(2,("pathlookup_pc: invalid VPB!\n"));
return ENOTDIR;
}
/* Copy "X:\" to output string */
UniStrncpy(outptr, path, 3);
outptr += 3;
path += 3;
if (*path == 0)
{
/* Trivial case "X:\" */
*outptr = 0;
return NO_ERROR;
}
component = (UniChar *)allocpool(unipool, 0);
if (component == 0)
return ENOSPC;
pattern.name = component;
dbuf = (struct dirent *)allocpool(dirent_pool, 0);
if (dbuf == 0)
{
freepool(unipool, (caddr_t *)component);
return ENOSPC;
}
vp = vfsp->vfs_mntd; /* vnode of root directory */
jfs_hold(vp);
while (path)
{
slash = UniStrchr(path, '\\');
if (slash)
{
comp_len = slash - path;
slash++;
}
else
comp_len = UniStrlen(path);
UniStrncpy(component, path, comp_len);
component[comp_len] = 0;
UniStrupr(component); /* Convert to upper case */
pattern.namlen = comp_len;
path = slash;
offset = 0;
count = 1;
tbytes = 0;
rc = dtFind(VP2IP(vp), &pattern, 0, &offset, &count, PSIZE,
&tbytes, dbuf);
jfs_rele(vp);
if (rc || (count == 0))
{
freepool(dirent_pool, (caddr_t *)dbuf);
freepool(unipool, (caddr_t *)component);
return ENOENT;
}
UniStrncpy(outptr, dbuf->d_name, dbuf->d_namlen);
outptr += dbuf->d_namlen;
if (path)
{
ICACHE_LOCK();
rc = iget(vfsp, dbuf->d_ino, &ip, 0);
ICACHE_UNLOCK();
if (rc)
{
freepool(dirent_pool, (caddr_t *)dbuf);
freepool(unipool, (caddr_t *)component);
return rc;
}
vp = IP2VP(ip);
*(outptr++) = '\\';
}
else
*outptr = 0;
}
freepool(dirent_pool, (caddr_t *)dbuf);
freepool(unipool, (caddr_t *)component);
return NO_ERROR;
}
PRBool nsClipboard::GetClipboardDataByID(ULONG ulFormatID, const char *aFlavor)
{
PVOID pDataMem;
PRUint32 NumOfBytes;
PRBool TempBufAllocated = PR_FALSE;
PVOID pClipboardData = reinterpret_cast<PVOID>(WinQueryClipbrdData( 0, ulFormatID ));
if (!pClipboardData)
return PR_FALSE;
if (strstr( aFlavor, "text/" )) // All text/.. flavors are null-terminated
{
pDataMem = pClipboardData;
if (ulFormatID == CF_TEXT) // CF_TEXT is one byte character set
{
PRUint32 NumOfChars = strlen( static_cast<char*>(pDataMem) );
NumOfBytes = NumOfChars;
if (!strcmp( aFlavor, kUnicodeMime )) // Asked for unicode, but only plain text available. Convert it!
{
nsAutoChar16Buffer buffer;
PRInt32 bufLength;
MultiByteToWideChar(0, static_cast<char*>(pDataMem), NumOfChars,
buffer, bufLength);
pDataMem = ToNewUnicode(nsDependentString(buffer.Elements()));
TempBufAllocated = PR_TRUE;
NumOfBytes = bufLength * sizeof(UniChar);
}
}
else // All other text/.. flavors are in unicode
{
PRUint32 NumOfChars = UniStrlen( static_cast<UniChar*>(pDataMem) );
NumOfBytes = NumOfChars * sizeof(UniChar);
PVOID pTempBuf = nsMemory::Alloc(NumOfBytes);
memcpy(pTempBuf, pDataMem, NumOfBytes);
pDataMem = pTempBuf;
TempBufAllocated = PR_TRUE;
}
// DOM wants LF only, so convert from CRLF
nsLinebreakHelpers::ConvertPlatformToDOMLinebreaks( aFlavor, &pDataMem, // pDataMem could be reallocated !!
reinterpret_cast<PRInt32*>(&NumOfBytes) ); // yuck
}
else // Assume rest of flavors are binary data
{
if (ulFormatID == CF_BITMAP)
{
if (!strcmp( aFlavor, kJPEGImageMime ))
{
// OS2TODO Convert bitmap to jpg
#ifdef DEBUG
printf( "nsClipboard:: No JPG found on clipboard; need to convert BMP\n");
#endif
}
else if (!strcmp( aFlavor, kGIFImageMime ))
{
// OS2TODO Convert bitmap to gif
#ifdef DEBUG
printf( "nsClipboard:: No GIF found on clipboard; need to convert BMP\n");
#endif
}
else if (!strcmp( aFlavor, kPNGImageMime ))
{
// OS2TODO Convert bitmap to png
#ifdef DEBUG
printf( "nsClipboard:: No PNG found on clipboard; need to convert BMP\n");
#endif
}
}
else
{
pDataMem = static_cast<PBYTE>(pClipboardData) + sizeof(PRUint32);
NumOfBytes = *(static_cast<PRUint32*>(pClipboardData));
}
}
nsCOMPtr<nsISupports> genericDataWrapper;
nsPrimitiveHelpers::CreatePrimitiveForData( aFlavor, pDataMem, NumOfBytes, getter_AddRefs(genericDataWrapper) );
#ifdef DEBUG
nsresult errCode =
#endif
mTransferable->SetTransferData( aFlavor, genericDataWrapper, NumOfBytes );
#ifdef DEBUG
if (errCode != NS_OK)
printf( "nsClipboard:: Error setting data into transferable\n" );
#endif
if (TempBufAllocated)
nsMemory::Free(pDataMem);
return PR_TRUE;
}
/*
* NAME: jfs_rename
*
* FUNCTION: rename a file or directory
*
* PARAMETER: from_vp - pointer to source vnode
* frompar_vp - pointer to source parent vnode
* from_name - original name
* to_vp - pointer to target vnode (if it exists)
* topar_vp - pointer to target parent vnode
* to_name - new name
* crp - pointer to caller's credentials
*
* RETURN: errors from subroutines
*
* JFS supports sticky bit permission.
*
* normally, to rename an object, user needs execute and write
* permission of the directory containing the object as well as
* on the target directory.
* EACCESS: if S_ISVTX (aka sticky) bit is set for a directory,
* a file in the directory can be renamed only if
* the user has write permission for the directory, and
* either owns the file, owns the directory, or
* is the superuser (or have appropriate privileges).
* (e.g., /tmp in which any user can create a file but
* should not be able to delete or rename files owned
* by others) [XPG4.2]
*
* Basic algorithm is:
*
* 1) Check validity of parameters and then obtain locks on the source parent
* directory, destination parent directory, source, and the destination
* inode. This ensures neither the source or destination will be deleted out
* from underneath us. It also ensures the source or destination won't be
* modified before we finish.
* 2) Link source to destination. If destination already exists,
* delete it first.
* 3) Unlink source reference to inode if still around. If a
* directory was moved and the parent of the destination
* is different from the source, patch the ".." entry in the
* directory.
*
* The transaction log needs to have the changes journalled in such a
* way that a crash meets the requirement that the destination always
* exists (if it existed before). For directory objects it is critical
* that the changes in i-numbers occur in such a way that loops and
* orphans aren't created by a crash.
*/
int32
jfs_rename(
struct vnode *from_vp, /* source vnode */
struct vnode *frompar_vp, /* source parent vnode */
UniChar *from_name, /* source name */
struct vnode *to_vp, /* destination vnode */
struct vnode *topar_vp, /* destination parent vnode */
UniChar *to_name, /* destination name */
struct dasd_usage *from_dlim, /* dasd usage structure for source F226941 */
struct dasd_usage *to_dlim, /* dasd usage structure for dest F226941 */
uint32 flags) /* INEWNAME if new pathname not 8.3 */
{
inode_t *ipmnt;
int32 tid = -1; /* Transaction ID */
int32 txCount = 0; /* Count of inodes in txList */
inode_t *txList[4]; /* List of modified inodes */
inode_t *from_ip = VP2IP (from_vp); /* Source inode */
inode_t *frompar_ip = VP2IP (frompar_vp); /* Source parent inode */
inode_t *to_ip = to_vp ? VP2IP (to_vp) : 0;
/* Target inode (if it exists) */
inode_t *topar_ip = VP2IP (topar_vp); /* Target parent inode */
struct vfs *vfsf = frompar_vp->v_vfsp;
struct vfs *vfst = topar_vp->v_vfsp;
int32 doingdirectory = 0, /* Source inode is a directory */
newparent = 0; /* New i-number of parent */
int32 got_from = 0, got_to = 0;
btstack_t btstack; /* Temporary stack for B-tree struct */
component_t dname; /* Directory name structure */
ino_t ino; /* I-number for directory searches */
int32 error = 0, rc;
tlock_t *tlck; /* Transaction lock */
dtlock_t *dtlck; /* dtree line lock */
lv_t *lv; /* line lock vector */
// BEGIN F226941
#ifdef _JFS_OS2
int64 blocks_moving; /* Number of blocks being moved */
int64 orig_fromblocks; /* original dasd usage of from dir */
int64 orig_toblocks; /* original dasd usage of to dir */
uint32 start_here; /* index in limits array */
int32 i;
inode_t *lock_arr[64]; /* Array of inodes to lock */
inode_t **lock_list; /* List of inodes to lock */
int32 num_locks; /* Number of inodes to lock */
int32 upper_limit; /* Upper limit to number of inodes
* we need to lock */
#ifdef _JFS_FASTDASD
int32 first_locked; /* index in lock_list array of first
* inode still locked. D233382
*/
#endif /* _JFS_FASTDASD */
#endif /* _JFS_OS2 */
// BEGIN F226941
assert( to_name != NULL && from_name != NULL);
ipmnt = frompar_ip->i_ipmnt;
RENAME_LOCK(ipmnt);
/*
* Make sure that we are not renaming the "." or ".." entries in
* a directory.
*/
if (from_name[0] == '.' &&
(!from_name[1] || (from_name[1] == '.' && !from_name[2])))
{
error = EINVAL;
goto abortit;
}
/*
* Now we want to verify the proper realationship between the inodes.
* If everything checks out we need to obtain locks on the source parent
* directory, destination parent directory, source, and destination
* inodes. This allows us to proceed knowing that noone can delete
* either the source or destination from underneath us. It also allows
* us to know noone will be modifying the destination so we can delete
* it safely. We need the lock on the source since we might need to
* modify its .. entry.
*/
/*
* In OS/2, the destination cannot exist unless it is the same as
* the source. This is to allow DosMove to change the case of a
* filename.
*/
if (to_ip && (from_ip != to_ip))
{
error = EINVAL;
goto abortit;
}
/*
* Check for cross-device rename.
*/
if (frompar_ip->i_dev != topar_ip->i_dev)
{
error = EXDEV;
goto abortit;
}
/*
* Check if source is the destination parent. Can't do this
* since this would orphan everything under the source.
*/
if (from_ip == topar_ip)
{
error = EINVAL;
goto abortit;
}
/*
* Now we know both the parents are okay. We will lock both the
* parent inodes so we can guarantee the children will not be
* deleted underneath us. We will also lock the source.
* When locking the inodes we will use the protocol of locking
* regular files first, then directories. When locking more than
* one of each type, we do it in descending inode order. We also need
* to make sure we don't attempt to lock one inode twice if the
* two parents are the same.
*/
if ((from_ip->i_mode & IFMT) == IFDIR)
doingdirectory = 1;
// BEGIN F226941
if (from_dlim->num_limits)
{
/* We need to lock all directories from the root to each of
* the from and to parent directories. The DASD usage lists
* will contain at least one common entry (the root). We need
* to compile a list of all unique inodes to lock. The upper
* limit will be the sum of both num_limits fields.
*/
if (frompar_ip == topar_ip)
upper_limit = from_dlim->num_limits + 1;
else
upper_limit = from_dlim->num_limits +
to_dlim->num_limits;
if (upper_limit > 64)
lock_list = (inode_t **)
xmalloc(upper_limit* sizeof(inode_t *),
0, kernel_heap);
else
lock_list = lock_arr;
/* Put from parents dasd usage list into lock_list */
for (num_locks = 0; num_locks < from_dlim->num_limits;
num_locks++)
lock_list[num_locks] = from_dlim->pLimits[num_locks];
/*
* We need to lock regular files before directories. If
* we are moving a regular file, lock it now, otherwise add
* it to the lock list.
*/
if (doingdirectory)
lock_list[num_locks++] = from_ip;
else
IWRITE_LOCK(from_ip);
if (frompar_ip != topar_ip)
{
/* Add unique members of to parent's dasd usage list */
for (i = 0; i < to_dlim->num_limits; i++)
if (to_dlim->pLimits[i] != lock_list[i])
break;
start_here = i; /* Needed by over_limit() */
while (i < to_dlim->num_limits)
lock_list[num_locks++] = to_dlim->pLimits[i++];
}
/* Lock them! */
sort_and_lock(0, num_locks, lock_list);
/*
* If this was a regular file, add the inode to the lock list
* now, so we include it in the txCommit, and unlock it
*/
if (!doingdirectory)
lock_list[num_locks++] = from_ip;
from_dlim->flag |= DLIM_DIRS_LOCKED;
frompar_ip->i_dasdlim = from_dlim;
if (frompar_ip != topar_ip) // D230860
{
to_dlim->flag |= DLIM_DIRS_LOCKED;
topar_ip->i_dasdlim = to_dlim;
}
}
else
// END F226941
{
if (doingdirectory)
{
if (frompar_ip == topar_ip)
iwritelocklist(2, frompar_ip, from_ip);
else
iwritelocklist(3, frompar_ip, topar_ip,
from_ip);
}
else
{
if (frompar_ip == topar_ip)
{
IWRITE_LOCK(from_ip);
IWRITE_LOCK(frompar_ip);
}
else
{
IWRITE_LOCK(from_ip);
iwritelocklist(2, frompar_ip, topar_ip);
}
}
}
/*
* Now that we have the source parent locked we can lookup the
* source inode to make sure it hasn't changed since we did our
* initial verification. If it has we will need to release our
* locks and repeat our verification with the new version.
* Otherwise we know the source is valid and we can continue.
*/
dname.name = from_name;
dname.namlen = UniStrlen (from_name);
rc = dtSearch(frompar_ip, &dname, &ino, &btstack, JFS_LOOKUP);
switch (rc)
{
case 0:
/*
* An entry was found, need to see if it is the
* same inode as we had before.
*/
if (ino != from_ip->i_number)
{
rc = ENOENT;
goto cleanup;
}
break;
default:
/*
* Either the source cannot be found or
* something went wrong in the search
*/
error = rc;
goto cleanup;
}
/*
* If changing case, no need to search for destination inode
*/
if (!to_ip)
{
/*
* Now we can lookup the destination inode to make sure it
* hasn't been created since we did our verifications. If it
* has we abort.
*/
dname.name = to_name;
dname.namlen = UniStrlen (to_name);
if (dname.namlen > JFS_NAME_MAX-1)
{
error = ERROR_FILENAME_EXCED_RANGE;
goto cleanup;
}
rc = dtSearch(topar_ip, &dname, &ino, &btstack, JFS_LOOKUP);
switch (rc)
{
case 0:
/*
* We found an entry; fail with EEXIST
*/
rc = EEXIST;
goto cleanup;
case ENOENT:
break;
default:
/*
* Some error from dtSearch(). cleanup and
* return
*/
error = rc;
goto cleanup;
}
}
/*
* Now we need to validate parameters and check for proper inodes
*/
/*
* Make sure the source inode has a positive link count
*/
if (from_ip->i_nlink <= 0)
{
error = EINVAL;
goto cleanup;
}
if ((topar_ip->i_mode & IFMT) != IFDIR)
{
error = EINVAL;
goto cleanup;
}
/* Check for the appropriate permissions on the source */
if (doingdirectory && (frompar_ip->i_number != topar_ip->i_number))
{
/*
* Account for ".." in new directory. When source and
* destination have the same parent we don't fool with the link
* count.
*/
if ((nlink_t)topar_ip->i_nlink >= LINK_MAX)
{
error = EMLINK;
goto cleanup;
}
/*
* If ".." must be changed (i.e. the directory gets a new
* parent) then the source directory must not be in the
* directory hierarchy above the target, as this would orphan
* everything below the source directory.
*/
newparent = topar_ip->i_number;
/* RENAME_LOCK(topar_ip->i_ipmnt); */
if (error = jfs_checkpath(from_ip, frompar_ip, topar_ip, vfst))
goto cleanup;
}
/*
* Check for write-protected media
*/
if (isReadOnly(topar_ip))
{
error = EROFS;
goto cleanup;
}
// BEGIN F226941
/*
* Check to see if there is room in the destination directory
*/
blocks_moving = doingdirectory ? DASDUSED(&from_ip->i_DASD) :
from_ip->i_nblocks;
if ((topar_ip != frompar_ip) && (topar_ip->i_dasdlim) &&
over_limit(topar_ip->i_dasdlim, blocks_moving, start_here))
{
error = ERROR_DISK_FULL;
goto cleanup;
}
orig_fromblocks = frompar_ip->i_nblocks;
if (topar_ip != frompar_ip)
orig_toblocks = topar_ip->i_nblocks;
// END F226941
/*
* Perform rename
*/
txBegin(topar_ip->i_ipmnt, &tid, 0);
dname.name = to_name;
dname.namlen = UniStrlen (to_name);
if (to_ip != NULL)
{
/*
* We change the case of the name in place.
*/
ino = to_ip->i_number;
if (error = dtChangeCase(tid, frompar_ip, &dname, &ino,
JFS_RENAME))
goto cleanup;
imark(topar_ip, ICHG|IUPD|IFSYNC);
}
else
{
/*
* We already know the destination does not exist, so link
* source inode as destination.
*/
if (error = dtSearch(topar_ip, &dname, &ino, &btstack,
JFS_CREATE))
{
/*
* Problem, can't find where to put this guy, or it
* already exists!!
*/
goto cleanup;
}
ino = from_ip->i_number;
if (error = dtInsert(tid, topar_ip, &dname, &ino, &btstack))
{
/*
* Failed adding source to destination parent
*/
goto cleanup;
}
imark(topar_ip, ICHG|IUPD|IFSYNC);
/* Insert entry for the new file to name cache */
ncEnter(topar_ip->i_ipimap, topar_ip->i_number, &dname,
from_ip->i_number, NULL);
/* Remove source name from source parent and name cache */
dname.name = from_name;
dname.namlen = UniStrlen (from_name);
ino = from_ip->i_number;
ncDelete(frompar_ip->i_ipimap, frompar_ip->i_number, &dname);
if (error = dtDelete(tid, frompar_ip, &dname, &ino, JFS_REMOVE))
{
/*
* Another unexpected error -- the original file does not
* appear to exist ...
*/
assert(0);
}
imark(frompar_ip, ICHG|IUPD|IFSYNC);
/*
* If this is a directory we need to update the ".." i-number
* in the inode. Also, there is now one fewer ".." referencing
* the source parent directory. Decrement the link count to
* the source parent directory for this.
*/
if (doingdirectory && newparent)
{
/* linelock header of dtree root (containing idotdot)
*/
tlck = txLock(tid, from_ip,
(jbuf_t *)&from_ip->i_bxflag,
tlckDTREE|tlckBTROOT);
dtlck = (dtlock_t *)&tlck->lock;
ASSERT(dtlck->index == 0);
lv = (lv_t *)&dtlck->lv[0];
lv->offset = 0;
lv->length = 1;
dtlck->index++;
((dtroot_t *) &from_ip->i_btroot)->header.idotdot =
newparent;
frompar_ip->i_nlink--;
topar_ip->i_nlink++;
/* RENAME_UNLOCK(topar_ip->i_ipmnt); */
}
/* Set or reset INEWNAME flag as appropriate */
from_ip->i_mode = (from_ip->i_mode & ~INEWNAME) |
(flags & INEWNAME);
imark(from_ip, ICHG|IFSYNC); // D231252
txList[txCount++] = from_ip; // D231252
}
// BEGIN F226941
/*
* Modify dasd usage for source and destination directories.
* Number of blocks for object being moved didn't change.
*/
if (frompar_ip == topar_ip)
{
DLIM_UPDATE(tid, frompar_ip, frompar_ip->i_nblocks
- orig_fromblocks);
}
else
{
DLIM_UPDATE(tid, topar_ip, topar_ip->i_nblocks +
blocks_moving - orig_toblocks);
DLIM_UPDATE(tid, frompar_ip, frompar_ip->i_nblocks -
(orig_fromblocks + blocks_moving));
}
// BEGIN D233382
#ifdef _JFS_FASTDASD
if (from_dlim->num_limits)
{
/*
* Let's remove any ancestor directories at the beginning of
* the lock list that aren't directly involved in the rename.
* i_dasdlim will be non-zero for frompar_ip & topar_ip
*/
for(i = 0; i < num_locks; i++)
{
if (lock_list[i]->i_dasdlim)
{
first_locked = i;
break;
}
IWRITE_UNLOCK(lock_list[i]);
}
ASSERT(i < num_locks); // We shouldn't have unlocked them all.
}
#endif /* _JFS_FASTDASD */
// END D233382
#ifndef _JFS_FASTDASD // D233382
if ((from_dlim->flag & DLIM_LOGGED) || (to_dlim->flag & DLIM_LOGGED))
{
error = txCommit(tid, num_locks, lock_list, 0);
from_dlim->flag &= ~DLIM_LOGGED;
to_dlim->flag &= ~DLIM_LOGGED;
}
else
#endif /* _JFS_FASTDASD */ // D233382
// END F226941
{
if (frompar_ip != topar_ip)
{
/*
* Different parent, so we need to add the other parent
* to our transaction list
*/
txList[txCount++] = topar_ip;
}
/* Add source parent directory to transaction list */
txList[txCount++] = frompar_ip;
assert(txCount <= 4);
error = txCommit(tid, txCount, txList, 0);
}
cleanup:
/*
* Come to this label when all locks have been taken and ready to leave.
* error should be set to return value.
*/
if (tid != -1) txEnd(tid);
// BEGIN F226941
if (from_dlim->num_limits)
{
frompar_ip->i_dasdlim->flag &= ~DLIM_DIRS_LOCKED;
frompar_ip->i_dasdlim = 0;
if (frompar_ip != topar_ip)
{
topar_ip->i_dasdlim->flag &= ~DLIM_DIRS_LOCKED;
topar_ip->i_dasdlim = 0;
}
#ifdef _JFS_FASTDASD
for(i = first_locked; i < num_locks; i++) // D233382
#else
for(i = 0; i < num_locks; i++)
#endif
IWRITE_UNLOCK(lock_list[i]);
if (lock_list != lock_arr)
xmfree((void *)lock_list, kernel_heap);
}
else
// END F226941
{
IWRITE_UNLOCK(from_ip);
IWRITE_UNLOCK(frompar_ip);
if (frompar_ip != topar_ip)
{
IWRITE_UNLOCK(topar_ip);
}
}
abortit:
/*
* Come to this label when none of the locks have been taken and ready
* to leave. error should be set to return value.
*/
if (to_ip && got_to)
{
ICACHE_LOCK();
iput(to_ip, vfst);
ICACHE_UNLOCK();
}
if (got_from)
{
ICACHE_LOCK();
iput(from_ip, vfsf);
ICACHE_UNLOCK();
}
RENAME_UNLOCK(ipmnt);
return error;
}
/*
* NAME: jfs_mkdir(dvp, name, mode, crp)
*
* FUNCTION: create a child directory in the parent directory <dvp>
* with name = <name> and mode = <mode>
*
* PARAMETER: dvp - parent directory vnode
* name - name of child directory
* mode - create mode (rwxrwxrwx).
* crp - credential
*
* RETURN: Errors from subroutines
*
* note:
* EACCESS: user needs search+write permission on the parent directory
*/
jfs_mkdir(
struct vnode *dvp,
UniChar *name,
mode_t mode,
#ifdef _JFS_OS2
EAOP *pEABuf,
#endif /* _JFS_OS2 */
struct ucred *crp)
{
int32 rc = 0, rc1 = 0;
int32 tid; /* transaction id */
struct vfs *vfsp = dvp->v_vfsp;
inode_t *dip = VP2IP(dvp); /* parent directory inode */
struct dasd_usage *du; // F226941
inode_t *ip = NULL; /* child directory inode */
ino_t ino;
component_t dname; /* child directory name */
btstack_t btstack;
inode_t *iplist[2];
int64 orig_nblocks; // F226941
#ifdef _JFS_LAZYCOMMIT
tblock_t *tblk; // D230860
#endif
#ifdef _JFS_OS2
FEALIST *pfealist = NULL;
#endif /* _JFS_OS2 */
NOISE(1,("jfs_mkdir: dip:0x%08x name:%s\n", dip, name));
/*
* the named file exists for "." or ".."
*/
if (name[0] == '.')
{
if ((name[1] == '.' && name[2] == '\0') ||
name[1] == '\0')
return EEXIST;
}
#ifdef _JFS_OS2
/* validate the EAOP buffer, FEALIST size storage location and the
* entire FEALIST storage area. Once all the storage has been
* validated, the entire FEALIST is validated for format and the size is
* computed and compared against the limit.
*/
if (pEABuf)
{
if (rc = jfs_ValidateUserFEAList(pEABuf, &pfealist,
&pEABuf->oError))
{
/* something failed -- bail out */
return rc;
}
}
#endif /* _JFS_OS2 */
if (dip->i_nlink == 0)
{
rc = ENOENT;
goto out1;
}
/* link count overflow on parent directory ? */
if (dip->i_nlink >= LINK_MAX)
{
rc = EMLINK;
goto out1;
}
/*
* search parent directory for entry/freespace
* (dtSearch() returns parent directory page pinned)
*/
dname.name = name;
dname.namlen = UniStrlen(name);
if (dname.namlen > JFS_NAME_MAX-1)
{
rc = ERROR_FILENAME_EXCED_RANGE;
goto out1;
}
// BEGIN D233382
#ifdef _JFS_LAZYCOMMIT
if (isReadOnly(dip))
{
rc = EROFS;
goto out1;
}
/*
* Either iAlloc() or txBegin() may block. Deadlock can occur if we
* block there while holding dtree page, so we allocate the inode &
* begin the transaction before we search the directory.
*/
if (rc = iAlloc(vfsp, dip, IFDIR|mode|IDIRECTORY, &ip, crp))
goto out1;
txBegin(dip->i_ipmnt, &tid, 0);
if (rc = dtSearch(dip, &dname, &ino, &btstack, JFS_CREATE))
{
ip->i_nlink = 0;
ICACHE_LOCK();
iput(ip, vfsp);
ICACHE_UNLOCK();
txEnd(tid);
goto out1;
}
tblk = &TxBlock[tid]; // D230860
tblk->xflag |= COMMIT_CREATE; // D230860
tblk->ip = ip; // D230860
#else /* ! _JFS_LAZYCOMMIT */
// END D233382
if (rc = dtSearch(dip, &dname, &ino, &btstack, JFS_CREATE))
goto out1;
if (isReadOnly(dip))
{
rc = EROFS;
/* release parent directory page */
BT_PUTSEARCH(&btstack);
goto out1;
}
/*
* allocate on-disk/in-memory inode for child directory:
* (iAlloc() returns new, locked inode)
*/
if (rc = iAlloc(vfsp, dip, IFDIR|mode|IDIRECTORY, &ip, crp))
{
/* release parent directory page */
BT_PUTSEARCH(&btstack);
jEVENT(0,("jfs_mkdir: iAlloc error(%d)\n", rc));
goto out1;
}
txBegin(dip->i_ipmnt, &tid, 0);
#endif /* _JFS_LAZYCOMMIT */
du = ip->i_dasdlim = dip->i_dasdlim; // F226941
orig_nblocks = dip->i_nblocks; // F226941
iplist[0] = dip;
iplist[1] = ip;
/*
* initialize the child directory in-line in inode
*/
dtInitRoot(tid, ip, dip->i_number);
/*
* create entry in parent directory for child directory
* (dtInsert() releases parent directory page)
*/
ino = ip->i_number;
if (rc = dtInsert(tid, dip, &dname, &ino, &btstack))
{
/* discard new directory inode */
ip->i_nlink = 0;
if (rc == EIO)
txAbort(tid, 1); /* Marks Filesystem dirty */
else
txAbort(tid, 0); /* Filesystem full */
txEnd(tid);
goto out3;
}
/* update child directory inode */
// BEGIN F226941
setDASDLIMIT(&ip->i_DASD, 0);
setDASDUSED(&ip->i_DASD, 0);
// END F226941
ip->i_nlink++; /* for '.' */
imark(ip, IACC|ICHG|IUPD|IFSYNC);
/* update parent directory inode */
dip->i_nlink++; /* for '..' from child directory */
imark(dip, ICHG|IUPD|IFSYNC);
/*
* insert entry for the new file to dnlc
*/
ncEnter(dip->i_ipimap, dip->i_number, &dname, ino, NULL);
#ifdef _JFS_OS2
if ((rc1 == 0) && pfealist) // F226941
rc1 = jfs_InitializeFEAList(ip, tid, pfealist);
if ((rc1 == 0) && (dip->i_acl.flag) && (dip->i_acl.size))
rc1 = jfs_CopyACL(ip, dip, tid);
#endif /* _JFS_OS2 */
// BEGIN FF226941
DLIM_UPDATE(tid, dip, dip->i_nblocks + ip->i_nblocks - orig_nblocks);
setDASDUSED(&ip->i_DASD, ip->i_nblocks); // D233382
#ifndef _JFS_FASTDASD // D233382
/*
* If the transaction modified the ancestors of the inode, the
* parent will be in the dasd usage list. Otherwise, transaction
* will only change new directory and parent.
*/
if (du && (du->flag & DLIM_LOGGED))
rc = dasd_commit(tid, ip, 0);
else
#endif /* _JFS_FASTDASD */ // D233382
// END FF226941
rc = txCommit(tid, 2, &iplist[0], 0);
txEnd(tid);
#ifdef _JFS_OS2
/* If we successfully added the directory, but failed adding the EA or
* ACL, we must cleanup the created directory entry and return the
* error.
*/
if (rc1)
{
// BEGIN D230860
if ((du) && (du->first_locked))
{
/*
* txCommit unlocked one or more inodes.
* We need to unlock all the directories &
* relock them.
*/
dip->i_dasdlim = 0;
DLIM_WRITE_UNLOCK_DETACH(ip, du);
DLIM_WRITE_LOCK_ATTACH(ip, du);
dip->i_dasdlim = du;
}
// END D230860
jfs_xrmdir(dip, ip, name);
rc = rc1;
}
#endif /* _JFS_OS2 */
out3:
ip->i_dasdlim = 0; // F226941
IWRITE_UNLOCK(ip);
ICACHE_LOCK();
iput(ip, vfsp);
ICACHE_UNLOCK();
out1:
#ifdef _JFS_OS2
/*
* this buffer was allocated by
* jfs_ValidateUserFEAList() at twice the
* size of the given list to provide buffer
* space for eliminating duplicate names
*/
if (pfealist)
jfs_EABufFree((char *)pfealist, (pfealist->cbList << 1));
#endif /* _JFS_OS2 */
NOISE(1,("jfs_mkdir: rc:%d\n", rc));
return rc;
}
SOM_Scope void SOMLINK ODExclusiveFocusModuleSetFocusOwnership(ODExclusiveFocusModule *somSelf, Environment *ev,
ODTypeToken focus,
ODFrame* frame)
{
ODExclusiveFocusModuleData *somThis = ODExclusiveFocusModuleGetData(somSelf);
ODExclusiveFocusModuleMethodDebug("ODExclusiveFocusModule","SetFocusOwnership");
#if !defined(_PLATFORM_OS2_) && !defined(_PLATFORM_WIN32_)
ODFacet* facet = kODNULL;
ODFrameFacetIterator* facets = kODNULL;
#endif
SOM_TRY
if (focus == _fSelectionFocus)
{
if (_fFrame)
_fFrame->InvalidateActiveBorder(ev);
#if !defined(_PLATFORM_OS2_) && !defined(_PLATFORM_WIN32_)
TempODFrame contFrame = _fFrame->AcquireContainingFrame(ev); // -- T‚ tempobj'd
if ((ODFrame*) contFrame )
{
TempODPart contPart = contFrame->AcquirePart(ev); // -- T‚ tempobj'd
facets = _fFrame->CreateFacetIterator(ev);
for ( facet = facets->First(ev);
facets->IsNotComplete(ev);
facet = facets->Next(ev) )
{
ODShape* border = contPart->AdjustBorderShape(ev, facet, kODNULL);
ODReleaseObject(ev, border);
}
ODDeleteObject(facets);
}
}
// Note: window->Update(ev);
if (frame)
frame->DrawActiveBorder(ev);
ResolveClipboardPromises(ev, _fFrame, _fSession);
#endif // !defined(_PLATFORM_OS2_) && !defined(_PLATFORM_WIN32_)
#ifdef _PLATFORM_OS2_ // [124872] - ced OS2 TASK LIST MODIFICATION CODE
{
#if 0 // was not implemented in OS2 code
// if selection focus changes update the Title bar and Window List
// with the active editor name.
USHORT nopreferredparteditor, rc;
ULONG size=0;
// Str255 edt;
CHAR string[256];
CHAR * edt, *str ;
ODName * name;
// HWND hwndplat = _fSession->GetPlatformWindow(ev); // ced
TempODWindow aWindow = frame->AcquireWindow(ev);
HWND hwndplat = aWindow->GetPlatformWindow(ev); // ced
ODNameSpaceMana ger* nsm = _fSession->GetNameSpaceManager(ev);
TempODPart party1 = frame->AcquirePart(ev);
ODStorageUnit * psu = party1->GetStorageUnit(ev);
ODType pEdit =(ODType) ODGetISOStrProp(ev,psu, kODPropPreferredEditor,kODEditor,kODNULL,&size);
// GetPreferredEditorForPart(psu,&nopreferredparteditor);
rc = GetUserEditorFromEditor(nsm, pEdit,&name);
#ifdef _UNICODE_
convert = ConvertFromUnicode(((ODPlainITextData *)name->text._buffer)->theText,
CharStr,
UniStrlen(((ODPlainITextData *)name->text._buffer)->theText),
co);
edt = CharStr;
#else
edt = ((ODPlainITextData *)name->text._buffer)->theText;
#endif
// get the root part
ODFrame * contFrame, * newFrame;
SWCNTRL swctl;
newFrame = frame;
do {
contFrame = newFrame;
newFrame = contFrame->AcquireContainingFrame(ev);
} while ( newFrame ); /* enddo */
TempODPart party2 = contFrame->AcquirePart(ev);
// get window list data
HSWITCH hswitch = WinQuerySwitchHandle(hwndplat,0);
WinQuerySwitchEntry ( hswitch, &swctl);
strcpy (string,swctl.szSwtitle);
USHORT i=0;
while (string[i] != '\0') {
if (string[i]== '-' ) {
if ((string[i-1]==' ')&&(string[i+1]==' ')) {
break;
} /* endif */
} /* endif */
i++;
} /* endwhile */
string[i] = '\0';
// get part name
ODName * pname = kODNULL; // [127087]
pname = ODGetPOName(ev,party2,pname); // [127087]
if (pname != kODNULL)
{
str = GetCStringFromIText(pname); // [127087]
strcat(string, " - ");
strcat(string,str);
DisposeIText(pname); // [127087]
}
strcat(string, " - ");
strcat(string,edt);
// change the Window List Text
strcpy(swctl.szSwtitle,string);
// WinChangeSwitchEntry (hswitch, &swctl);
// WinSetWindowText(hwndplat,string);
#endif // #if 0
frame->DrawActiveBorder(ev);
}
frame->DrawActiveBorder(ev);
#endif // _PLATFORM_OS2
#ifdef _PLATFORM_WIN32_
// ********* OLE Interop start ******
TempODPart part = frame->AcquirePart(ev);
OleWrapper* wrapper = ODOLEManager::GetShell()->GetDocumentManagerOfDraft(ev, part->GetStorageUnit(ev)->GetDraft(ev))->GetOleWrapper(ev);
if (wrapper) {
if ((wrapper->fWFlg & WFLG_UIACTIVATED) && (wrapper->fActiveDocumentWindow == wrapper->fRootDocumentWindow))
wrapper->ActiveFocusChanging(frame);
}
// **********OLE Interop end
if(frame)
frame->DrawActiveBorder(ev);
#endif // _PLATFORM_WIN32_
} // end for - if (focus == _fSelectionFocus)
