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/* Inode management routines
Copyright (C) 1994, 1995, 1996 Free Software Foundation, Inc.
Converted for ext2fs by Miles Bader <miles@gnu.ai.mit.edu>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2, or (at
your option) any later version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
#include "ext2fs.h"
#include <string.h>
#include <unistd.h>
#include <stdio.h>
#define INOHSZ 512
#if ((INOHSZ&(INOHSZ-1)) == 0)
#define INOHASH(ino) ((ino)&(INOHSZ-1))
#else
#define INOHASH(ino) (((unsigned)(ino))%INOHSZ)
#endif
static struct node *nodehash[INOHSZ];
static error_t read_disknode (struct node *np);
spin_lock_t generation_lock = SPIN_LOCK_INITIALIZER;
/* Initialize the inode hash table. */
void
inode_init ()
{
int n;
for (n = 0; n < INOHSZ; n++)
nodehash[n] = 0;
}
/* Fetch inode INUM, set *NPP to the node structure;
gain one user reference and lock the node. */
error_t
diskfs_cached_lookup (int inum, struct node **npp)
{
error_t err;
struct node *np;
struct disknode *dn;
spin_lock (&diskfs_node_refcnt_lock);
for (np = nodehash[INOHASH(inum)]; np; np = np->dn->hnext)
if (np->cache_id == inum)
{
np->references++;
spin_unlock (&diskfs_node_refcnt_lock);
mutex_lock (&np->lock);
*npp = np;
return 0;
}
/* Format specific data for the new node. */
dn = malloc (sizeof (struct disknode));
if (! dn)
{
spin_unlock (&diskfs_node_refcnt_lock);
return ENOMEM;
}
dn->dirents = 0;
dn->pager = 0;
rwlock_init (&dn->alloc_lock);
pokel_init (&dn->indir_pokel, disk_pager, disk_image);
/* Create the new node. */
np = diskfs_make_node (dn);
np->cache_id = inum;
mutex_lock (&np->lock);
/* Put NP in NODEHASH. */
dn->hnext = nodehash[INOHASH(inum)];
if (dn->hnext)
dn->hnext->dn->hprevp = &dn->hnext;
dn->hprevp = &nodehash[INOHASH(inum)];
nodehash[INOHASH(inum)] = np;
spin_unlock (&diskfs_node_refcnt_lock);
/* Get the contents of NP off disk. */
err = read_disknode (np);
if (!diskfs_readonly && !np->dn_stat.st_gen)
{
spin_lock (&generation_lock);
if (++next_generation < diskfs_mtime->seconds)
next_generation = diskfs_mtime->seconds;
np->dn_stat.st_gen = next_generation;
spin_unlock (&generation_lock);
np->dn_set_ctime = 1;
}
if (err)
return err;
else
{
*npp = np;
return 0;
}
}
/* Lookup node INUM (which must have a reference already) and return it
without allocating any new references. */
struct node *
ifind (ino_t inum)
{
struct node *np;
spin_lock (&diskfs_node_refcnt_lock);
for (np = nodehash[INOHASH(inum)]; np; np = np->dn->hnext)
{
if (np->cache_id != inum)
continue;
assert (np->references);
spin_unlock (&diskfs_node_refcnt_lock);
return np;
}
assert (0);
}
/* The last reference to a node has gone away; drop
it from the hash table and clean all state in the dn structure. */
void
diskfs_node_norefs (struct node *np)
{
*np->dn->hprevp = np->dn->hnext;
if (np->dn->hnext)
np->dn->hnext->dn->hprevp = np->dn->hprevp;
if (np->dn->dirents)
free (np->dn->dirents);
assert (!np->dn->pager);
/* Move any pending writes of indirect blocks. */
pokel_inherit (&global_pokel, &np->dn->indir_pokel);
pokel_finalize (&np->dn->indir_pokel);
free (np->dn);
free (np);
}
/* The last hard reference to a node has gone away; arrange to have
all the weak references dropped that can be. */
void
diskfs_try_dropping_softrefs (struct node *np)
{
drop_pager_softrefs (np);
}
/* The last hard reference to a node has gone away. */
void
diskfs_lost_hardrefs (struct node *np)
{
}
/* A new hard reference to a node has been created; it's now OK to
have unused weak references. */
void
diskfs_new_hardrefs (struct node *np)
{
allow_pager_softrefs (np);
}
/* Read stat information out of the ext2_inode. */
static error_t
read_disknode (struct node *np)
{
error_t err;
unsigned offset;
static int fsid, fsidset;
struct stat *st = &np->dn_stat;
struct disknode *dn = np->dn;
struct ext2_inode *di = dino (np->cache_id);
struct ext2_inode_info *info = &dn->info;
err = diskfs_catch_exception ();
if (err)
return err;
np->istranslated = sblock->s_creator_os == EXT2_OS_HURD && di->i_translator;
if (!fsidset)
{
fsid = getpid ();
fsidset = 1;
}
st->st_fstype = FSTYPE_EXT2FS;
st->st_fsid = fsid;
st->st_ino = np->cache_id;
st->st_blksize = vm_page_size * 2;
st->st_mode = di->i_mode | (di->i_mode_high << 16);
st->st_nlink = di->i_links_count;
st->st_size = di->i_size;
st->st_gen = di->i_version;
st->st_atime = di->i_atime;
st->st_mtime = di->i_mtime;
st->st_ctime = di->i_ctime;
#ifdef XXX
st->st_atime_usec = di->i_atime.ts_nsec / 1000;
st->st_mtime_usec = di->i_mtime.ts_nsec / 1000;
st->st_ctime_usec = di->i_ctime.ts_nsec / 1000;
#endif
st->st_blocks = di->i_blocks;
st->st_flags = di->i_flags;
st->st_uid = di->i_uid | (di->i_uid_high << 16);
st->st_gid = di->i_gid | (di->i_gid_high << 16);
st->st_author = di->i_author;
if (st->st_author == -1)
st->st_author = st->st_uid;
/* Setup the ext2fs auxiliary inode info. */
info->i_dtime = di->i_dtime;
info->i_flags = di->i_flags;
info->i_faddr = di->i_faddr;
info->i_frag_no = di->i_frag;
info->i_frag_size = di->i_fsize;
info->i_osync = 0;
info->i_file_acl = di->i_file_acl;
info->i_dir_acl = di->i_dir_acl;
info->i_version = di->i_version;
info->i_block_group = inode_group_num (np->cache_id);
info->i_next_alloc_block = 0;
info->i_next_alloc_goal = 0;
info->i_prealloc_count = 0;
if (S_ISCHR(st->st_mode) || S_ISBLK(st->st_mode))
st->st_rdev = di->i_block[0];
else
{
int block;
for (block = 0; block < EXT2_N_BLOCKS; block++)
info->i_data[block] = di->i_block[block];
st->st_rdev = 0;
}
diskfs_end_catch_exception ();
/* Set these to conservative values. */
dn->last_page_partially_writable = 0;
np->allocsize = np->dn_stat.st_size;
offset = np->allocsize & ((1 << log2_block_size) - 1);
if (offset > 0)
np->allocsize += block_size - offset;
return 0;
}
/* Writes everything from NP's inode to the disk image, and returns a pointer
to it, or NULL if nothing need be done. */
static struct ext2_inode *
write_node (struct node *np)
{
error_t err;
struct stat *st = &np->dn_stat;
struct ext2_inode *di = dino (np->cache_id);
if (np->dn->info.i_prealloc_count)
ext2_discard_prealloc (np);
assert (!np->dn_set_ctime && !np->dn_set_atime && !np->dn_set_mtime);
if (np->dn_stat_dirty)
{
assert (!diskfs_readonly);
ext2_debug ("writing inode %d to disk", np->cache_id);
err = diskfs_catch_exception ();
if (err)
return NULL;
di->i_version = st->st_gen;
/* We happen to know that the stat mode bits are the same
as the ext2fs mode bits. */
/* XXX? */
di->i_mode = st->st_mode & 0xffff;
di->i_mode_high = (st->st_mode >> 16) & 0xffff;
di->i_uid = st->st_uid & 0xFFFF;
di->i_gid = st->st_gid & 0xFFFF;
di->i_uid_high = st->st_uid >> 16;
di->i_gid_high = st->st_gid >> 16;
di->i_author = st->st_author;
di->i_links_count = st->st_nlink;
di->i_size = st->st_size;
di->i_atime = st->st_atime;
di->i_mtime = st->st_mtime;
di->i_ctime = st->st_ctime;
#ifdef XXX
di->i_atime.ts_nsec = st->st_atime_usec * 1000;
di->i_mtime.ts_nsec = st->st_mtime_usec * 1000;
di->i_ctime.ts_nsec = st->st_ctime_usec * 1000;
#endif
di->i_blocks = st->st_blocks;
di->i_flags = st->st_flags;
if (! np->istranslated)
di->i_translator = 0;
/* Set dtime non-zero to indicate a deleted file. */
di->i_dtime = (st->st_mode ? 0 : di->i_mtime);
if (S_ISCHR(st->st_mode) || S_ISBLK(st->st_mode))
di->i_block[0] = st->st_rdev;
else
{
int block;
for (block = 0; block < EXT2_N_BLOCKS; block++)
di->i_block[block] = np->dn->info.i_data[block];
}
diskfs_end_catch_exception ();
np->dn_stat_dirty = 0;
return di;
}
else
return NULL;
}
/* Reload all data specific to NODE from disk, without writing anything.
Always called with DISKFS_READONLY true. */
error_t
diskfs_node_reload (struct node *node)
{
struct disknode *dn = node->dn;
if (dn->dirents)
{
free (dn->dirents);
dn->dirents = 0;
}
pokel_flush (&dn->indir_pokel);
flush_node_pager (node);
read_disknode (node);
return 0;
}
/* For each active node, call FUN. The node is to be locked around the call
to FUN. If FUN returns non-zero for any node, then immediately stop, and
return that value. */
error_t
diskfs_node_iterate (error_t (*fun)(struct node *))
{
error_t err = 0;
int n, num_nodes = 0;
struct node *node, **node_list, **p;
spin_lock (&diskfs_node_refcnt_lock);
/* We must copy everything from the hash table into another data structure
to avoid running into any problems with the hash-table being modified
during processing (normally we delegate access to hash-table with
diskfs_node_refcnt_lock, but we can't hold this while locking the
individual node locks). */
for (n = 0; n < INOHSZ; n++)
for (node = nodehash[n]; node; node = node->dn->hnext)
num_nodes++;
node_list = alloca (num_nodes * sizeof (struct node *));
p = node_list;
for (n = 0; n < INOHSZ; n++)
for (node = nodehash[n]; node; node = node->dn->hnext)
{
*p++ = node;
node->references++;
}
spin_unlock (&diskfs_node_refcnt_lock);
p = node_list;
while (num_nodes-- > 0)
{
node = *p++;
if (!err)
{
mutex_lock (&node->lock);
err = (*fun)(node);
mutex_unlock (&node->lock);
}
diskfs_nrele (node);
}
return err;
}
/* Write all active disknodes into the ext2_inode pager. */
void
write_all_disknodes ()
{
error_t write_one_disknode (struct node *node)
{
struct ext2_inode *di;
diskfs_set_node_times (node);
/* Sync the indirect blocks here; they'll all be done before any
inodes. Waiting for them shouldn't be too bad. */
pokel_sync (&node->dn->indir_pokel, 1);
/* Update the inode image. */
di = write_node (node);
if (di)
record_global_poke (di);
return 0;
}
diskfs_node_iterate (write_one_disknode);
}
/* Sync the info in NP->dn_stat and any associated format-specific
information to disk. If WAIT is true, then return only after the
physicial media has been completely updated. */
void
diskfs_write_disknode (struct node *np, int wait)
{
struct ext2_inode *di = write_node (np);
if (di && wait)
sync_global_ptr (di, 1);
}
/* Set *ST with appropriate values to reflect the current state of the
filesystem. */
error_t
diskfs_set_statfs (struct fsys_statfsbuf *st)
{
st->fsys_stb_type = FSTYPE_EXT2FS;
st->fsys_stb_iosize = block_size;
st->fsys_stb_bsize = frag_size;
st->fsys_stb_blocks = sblock->s_blocks_count;
st->fsys_stb_bfree = sblock->s_free_blocks_count;
st->fsys_stb_bavail = st->fsys_stb_bfree - sblock->s_r_blocks_count;
st->fsys_stb_files = sblock->s_inodes_count;
st->fsys_stb_ffree = sblock->s_free_inodes_count;
st->fsys_stb_fsid = getpid ();
return 0;
}
/* Implement the diskfs_set_translator callback from the diskfs
library; see <hurd/diskfs.h> for the interface description. */
error_t
diskfs_set_translator (struct node *np, char *name, unsigned namelen,
struct protid *cred)
{
daddr_t blkno;
error_t err;
char buf[block_size];
struct ext2_inode *di;
assert (!diskfs_readonly);
if (sblock->s_creator_os != EXT2_OS_HURD)
return EOPNOTSUPP;
if (namelen + 2 > block_size)
return ENAMETOOLONG;
err = diskfs_catch_exception ();
if (err)
return err;
di = dino (np->cache_id);
blkno = di->i_translator;
if (namelen && !blkno)
{
/* Allocate block for translator */
blkno =
ext2_new_block ((np->dn->info.i_block_group
* EXT2_BLOCKS_PER_GROUP (sblock))
+ sblock->s_first_data_block,
0, 0);
if (blkno == 0)
{
diskfs_end_catch_exception ();
return ENOSPC;
}
di->i_translator = blkno;
record_global_poke (di);
np->dn_stat.st_blocks += 1 << log2_stat_blocks_per_fs_block;
np->dn_set_ctime = 1;
}
else if (!namelen && blkno)
{
/* Clear block for translator going away. */
di->i_translator = 0;
record_global_poke (di);
ext2_free_blocks (blkno, 1);
np->dn_stat.st_blocks -= 1 << log2_stat_blocks_per_fs_block;
np->istranslated = 0;
np->dn_set_ctime = 1;
}
if (namelen)
{
buf[0] = namelen & 0xFF;
buf[1] = (namelen >> 8) & 0xFF;
bcopy (name, buf + 2, namelen);
bcopy (buf, bptr (blkno), block_size);
record_global_poke (bptr (blkno));
np->istranslated = 1;
np->dn_set_ctime = 1;
}
diskfs_end_catch_exception ();
return err;
}
/* Implement the diskfs_get_translator callback from the diskfs library.
See <hurd/diskfs.h> for the interface description. */
error_t
diskfs_get_translator (struct node *np, char **namep, unsigned *namelen)
{
error_t err;
daddr_t blkno;
unsigned datalen;
void *transloc;
assert (sblock->s_creator_os == EXT2_OS_HURD);
err = diskfs_catch_exception ();
if (err)
return err;
blkno = (dino (np->cache_id))->i_translator;
assert (blkno);
transloc = bptr (blkno);
datalen =
((unsigned char *)transloc)[0] + (((unsigned char *)transloc)[1] << 8);
*namep = malloc (datalen);
bcopy (transloc + 2, *namep, datalen);
diskfs_end_catch_exception ();
*namelen = datalen;
return 0;
}
/* Called when all hard ports have gone away. */
void
diskfs_shutdown_soft_ports ()
{
/* Should initiate termination of internally held pager ports
(the only things that should be soft) XXX */
}
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