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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [fs/] [hfs/] [dir_cap.c] - Rev 1774
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/* * Copyright (C) 1995-1997 Paul H. Hargrove * This file may be distributed under the terms of the GNU General Public License. * * This file contains the inode_operations and file_operations * structures for HFS directories under the CAP scheme. * * Based on the minix file system code, (C) 1991, 1992 by Linus Torvalds * * The source code distribution of the Columbia AppleTalk Package for * UNIX, version 6.0, (CAP) was used as a specification of the * location and format of files used by CAP's Aufs. No code from CAP * appears in hfs_fs. hfs_fs is not a work ``derived'' from CAP in * the sense of intellectual property law. * * "XXX" in a comment is a note to myself to consider changing something. * * In function preconditions the term "valid" applied to a pointer to * a structure means that the pointer is non-NULL and the structure it * points to has all fields initialized to consistent values. */ #include "hfs.h" #include <linux/hfs_fs_sb.h> #include <linux/hfs_fs_i.h> #include <linux/hfs_fs.h> /*================ Forward declarations ================*/ static struct dentry *cap_lookup(struct inode *, struct dentry *); static int cap_readdir(struct file *, void *, filldir_t); /*================ Global variables ================*/ #define DOT_LEN 1 #define DOT_DOT_LEN 2 #define DOT_RESOURCE_LEN 9 #define DOT_FINDERINFO_LEN 11 #define DOT_ROOTINFO_LEN 9 const struct hfs_name hfs_cap_reserved1[] = { {DOT_LEN, "."}, {DOT_DOT_LEN, ".."}, {DOT_RESOURCE_LEN, ".resource"}, {DOT_FINDERINFO_LEN, ".finderinfo"}, {0, ""}, }; const struct hfs_name hfs_cap_reserved2[] = { {DOT_ROOTINFO_LEN, ".rootinfo"}, {0, ""}, }; #define DOT (&hfs_cap_reserved1[0]) #define DOT_DOT (&hfs_cap_reserved1[1]) #define DOT_RESOURCE (&hfs_cap_reserved1[2]) #define DOT_FINDERINFO (&hfs_cap_reserved1[3]) #define DOT_ROOTINFO (&hfs_cap_reserved2[0]) struct file_operations hfs_cap_dir_operations = { read: generic_read_dir, readdir: cap_readdir, fsync: file_fsync, }; struct inode_operations hfs_cap_ndir_inode_operations = { create: hfs_create, lookup: cap_lookup, unlink: hfs_unlink, mkdir: hfs_mkdir, rmdir: hfs_rmdir, rename: hfs_rename, setattr: hfs_notify_change, }; struct inode_operations hfs_cap_fdir_inode_operations = { lookup: cap_lookup, setattr: hfs_notify_change, }; struct inode_operations hfs_cap_rdir_inode_operations = { create: hfs_create, lookup: cap_lookup, setattr: hfs_notify_change, }; /*================ File-local functions ================*/ /* * cap_lookup() * * This is the lookup() entry in the inode_operations structure for * HFS directories in the CAP scheme. The purpose is to generate the * inode corresponding to an entry in a directory, given the inode for * the directory and the name (and its length) of the entry. */ static struct dentry *cap_lookup(struct inode * dir, struct dentry *dentry) { ino_t dtype; struct hfs_name cname; struct hfs_cat_entry *entry; struct hfs_cat_key key; struct inode *inode = NULL; dentry->d_op = &hfs_dentry_operations; entry = HFS_I(dir)->entry; dtype = HFS_ITYPE(dir->i_ino); /* Perform name-mangling */ hfs_nameout(dir, &cname, dentry->d_name.name, dentry->d_name.len); /* no need to check for "." or ".." */ /* Check for special directories if in a normal directory. Note that cap_dupdir() does an iput(dir). */ if (dtype==HFS_CAP_NDIR) { /* Check for ".resource", ".finderinfo" and ".rootinfo" */ if (hfs_streq(cname.Name, cname.Len, DOT_RESOURCE->Name, DOT_RESOURCE_LEN)) { ++entry->count; /* __hfs_iget() eats one */ inode = hfs_iget(entry, HFS_CAP_RDIR, dentry); goto done; } else if (hfs_streq(cname.Name, cname.Len, DOT_FINDERINFO->Name, DOT_FINDERINFO_LEN)) { ++entry->count; /* __hfs_iget() eats one */ inode = hfs_iget(entry, HFS_CAP_FDIR, dentry); goto done; } else if ((entry->cnid == htonl(HFS_ROOT_CNID)) && hfs_streq(cname.Name, cname.Len, DOT_ROOTINFO->Name, DOT_ROOTINFO_LEN)) { ++entry->count; /* __hfs_iget() eats one */ inode = hfs_iget(entry, HFS_CAP_FNDR, dentry); goto done; } } /* Do an hfs_iget() on the mangled name. */ hfs_cat_build_key(entry->cnid, &cname, &key); inode = hfs_iget(hfs_cat_get(entry->mdb, &key), HFS_I(dir)->file_type, dentry); /* Don't return a resource fork for a directory */ if (inode && (dtype == HFS_CAP_RDIR) && (HFS_I(inode)->entry->type == HFS_CDR_DIR)) { iput(inode); /* this does an hfs_cat_put */ inode = NULL; } done: d_add(dentry, inode); return NULL; } /* * cap_readdir() * * This is the readdir() entry in the file_operations structure for * HFS directories in the CAP scheme. The purpose is to enumerate the * entries in a directory, given the inode of the directory and a * (struct file *), the 'f_pos' field of which indicates the location * in the directory. The (struct file *) is updated so that the next * call with the same 'dir' and 'filp' arguments will produce the next * directory entry. The entries are returned in 'dirent', which is * "filled-in" by calling filldir(). This allows the same readdir() * function be used for different dirent formats. We try to read in * as many entries as we can before filldir() refuses to take any more. * * XXX: In the future it may be a good idea to consider not generating * metadata files for covered directories since the data doesn't * correspond to the mounted directory. However this requires an * iget() for every directory which could be considered an excessive * amount of overhead. Since the inode for a mount point is always * in-core this is another argument for a call to get an inode if it * is in-core or NULL if it is not. */ static int cap_readdir(struct file * filp, void * dirent, filldir_t filldir) { ino_t type; int skip_dirs; struct hfs_brec brec; struct hfs_cat_entry *entry; struct inode *dir = filp->f_dentry->d_inode; entry = HFS_I(dir)->entry; type = HFS_ITYPE(dir->i_ino); skip_dirs = (type == HFS_CAP_RDIR); if (filp->f_pos == 0) { /* Entry 0 is for "." */ if (filldir(dirent, DOT->Name, DOT_LEN, 0, dir->i_ino, DT_DIR)) { return 0; } filp->f_pos = 1; } if (filp->f_pos == 1) { /* Entry 1 is for ".." */ hfs_u32 cnid; if (type == HFS_CAP_NDIR) { cnid = hfs_get_nl(entry->key.ParID); } else { cnid = entry->cnid; } if (filldir(dirent, DOT_DOT->Name, DOT_DOT_LEN, 1, ntohl(cnid), DT_DIR)) { return 0; } filp->f_pos = 2; } if (filp->f_pos < (dir->i_size - 3)) { hfs_u32 cnid; hfs_u8 type; if (hfs_cat_open(entry, &brec) || hfs_cat_next(entry, &brec, filp->f_pos - 2, &cnid, &type)) { return 0; } while (filp->f_pos < (dir->i_size - 3)) { if (hfs_cat_next(entry, &brec, 1, &cnid, &type)) { return 0; } if (!skip_dirs || (type != HFS_CDR_DIR)) { ino_t ino; unsigned int len; unsigned char tmp_name[HFS_NAMEMAX]; ino = ntohl(cnid) | HFS_I(dir)->file_type; len = hfs_namein(dir, tmp_name, &((struct hfs_cat_key *)brec.key)->CName); if (filldir(dirent, tmp_name, len, filp->f_pos, ino, DT_UNKNOWN)) { hfs_cat_close(entry, &brec); return 0; } } ++filp->f_pos; } hfs_cat_close(entry, &brec); } if (filp->f_pos == (dir->i_size - 3)) { if ((entry->cnid == htonl(HFS_ROOT_CNID)) && (type == HFS_CAP_NDIR)) { /* In root dir last-2 entry is for ".rootinfo" */ if (filldir(dirent, DOT_ROOTINFO->Name, DOT_ROOTINFO_LEN, filp->f_pos, ntohl(entry->cnid) | HFS_CAP_FNDR, DT_UNKNOWN)) { return 0; } } ++filp->f_pos; } if (filp->f_pos == (dir->i_size - 2)) { if (type == HFS_CAP_NDIR) { /* In normal dirs last-1 entry is for ".finderinfo" */ if (filldir(dirent, DOT_FINDERINFO->Name, DOT_FINDERINFO_LEN, filp->f_pos, ntohl(entry->cnid) | HFS_CAP_FDIR, DT_UNKNOWN)) { return 0; } } ++filp->f_pos; } if (filp->f_pos == (dir->i_size - 1)) { if (type == HFS_CAP_NDIR) { /* In normal dirs last entry is for ".resource" */ if (filldir(dirent, DOT_RESOURCE->Name, DOT_RESOURCE_LEN, filp->f_pos, ntohl(entry->cnid) | HFS_CAP_RDIR, DT_UNKNOWN)) { return 0; } } ++filp->f_pos; } return 0; } /* due to the dcache caching negative dentries for non-existent files, * we need to drop those entries when a file silently gets created. * as far as i can tell, the calls that need to do this are the file * related calls (create, rename, and mknod). the directory calls * should be immune. the relevant calls in dir.c call drop_dentry * upon successful completion. */ void hfs_cap_drop_dentry(struct dentry *dentry, const ino_t type) { if (type == HFS_CAP_DATA) { /* given name */ hfs_drop_special(dentry->d_parent, DOT_FINDERINFO, dentry); hfs_drop_special(dentry->d_parent, DOT_RESOURCE, dentry); } else { struct dentry *de; /* given {.resource,.finderinfo}/name, look for name */ if ((de = hfs_lookup_dentry(dentry->d_parent->d_parent, dentry->d_name.name, dentry->d_name.len))) { if (!de->d_inode) d_drop(de); dput(de); } switch (type) { case HFS_CAP_RSRC: /* given .resource/name */ /* look for .finderinfo/name */ hfs_drop_special(dentry->d_parent->d_parent, DOT_FINDERINFO, dentry); break; case HFS_CAP_FNDR: /* given .finderinfo/name. i don't this * happens. */ /* look for .resource/name */ hfs_drop_special(dentry->d_parent->d_parent, DOT_RESOURCE, dentry); break; } } }
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