b6aa3714a1
Now that we have enough room in the message, remove these types. Change-Id: Ib734c6f0209b259a14a1189b3886b9c8474e1b9a
475 lines
13 KiB
C
475 lines
13 KiB
C
/* This files manages inodes allocation and deallocation.
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*
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* The entry points into this file are:
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* alloc_inode: allocate a new, unused inode.
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* free_inode: mark an inode as available for a new file.
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*
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* Created (alloc_inode/free_inode/wipe_inode are from MFS):
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* June 2010 (Evgeniy Ivanov)
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*/
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#include "fs.h"
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#include <string.h>
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#include <stdlib.h>
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#include <minix/com.h>
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#include <minix/u64.h>
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#include "buf.h"
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#include "inode.h"
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#include "super.h"
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#include "const.h"
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static bit_t alloc_inode_bit(struct super_block *sp, struct inode
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*parent, int is_dir);
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static void free_inode_bit(struct super_block *sp, bit_t bit_returned,
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int is_dir);
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static void wipe_inode(struct inode *rip);
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/*===========================================================================*
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* alloc_inode *
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*===========================================================================*/
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struct inode *alloc_inode(struct inode *parent, mode_t bits)
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{
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/* Allocate a free inode on parent's dev, and return a pointer to it. */
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register struct inode *rip;
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register struct super_block *sp;
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int inumb;
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bit_t b;
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static int print_oos_msg = 1;
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sp = get_super(parent->i_dev); /* get pointer to super_block */
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if (sp->s_rd_only) { /* can't allocate an inode on a read only device. */
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err_code = EROFS;
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return(NULL);
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}
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/* Acquire an inode from the bit map. */
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b = alloc_inode_bit(sp, parent, (bits & I_TYPE) == I_DIRECTORY);
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if (b == NO_BIT) {
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err_code = ENOSPC;
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if (print_oos_msg)
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ext2_debug("Out of i-nodes on device %d/%d\n",
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major(sp->s_dev), minor(sp->s_dev));
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print_oos_msg = 0; /* Don't repeat message */
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return(NULL);
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}
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print_oos_msg = 1;
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inumb = (int) b; /* be careful not to pass unshort as param */
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/* Try to acquire a slot in the inode table. */
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if ((rip = get_inode(NO_DEV, inumb)) == NULL) {
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/* No inode table slots available. Free the inode just allocated. */
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free_inode_bit(sp, b, (bits & I_TYPE) == I_DIRECTORY);
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} else {
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/* An inode slot is available. Put the inode just allocated into it. */
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rip->i_mode = bits; /* set up RWX bits */
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rip->i_links_count = NO_LINK; /* initial no links */
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rip->i_uid = caller_uid; /* file's uid is owner's */
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rip->i_gid = caller_gid; /* ditto group id */
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rip->i_dev = parent->i_dev; /* mark which device it is on */
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rip->i_sp = sp; /* pointer to super block */
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/* Fields not cleared already are cleared in wipe_inode(). They have
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* been put there because truncate() needs to clear the same fields if
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* the file happens to be open while being truncated. It saves space
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* not to repeat the code twice.
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*/
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wipe_inode(rip);
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}
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return(rip);
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}
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/*===========================================================================*
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* free_inode *
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*===========================================================================*/
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void free_inode(
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register struct inode *rip /* inode to free */
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)
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{
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/* Return an inode to the pool of unallocated inodes. */
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register struct super_block *sp;
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dev_t dev = rip->i_dev;
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bit_t b = rip->i_num;
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u16_t mode = rip->i_mode;
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/* Locate the appropriate super_block. */
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sp = get_super(dev);
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if (b <= NO_ENTRY || b > sp->s_inodes_count)
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return;
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free_inode_bit(sp, b, (mode & I_TYPE) == I_DIRECTORY);
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rip->i_mode = I_NOT_ALLOC; /* clear I_TYPE field */
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}
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static int find_group_dir(struct super_block *sp);
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static int find_group_hashalloc(struct super_block *sp, struct inode
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*parent);
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static int find_group_any(struct super_block *sp);
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static int find_group_orlov(struct super_block *sp, struct inode
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*parent);
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/*===========================================================================*
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* alloc_inode_bit *
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*===========================================================================*/
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static bit_t alloc_inode_bit(sp, parent, is_dir)
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struct super_block *sp; /* the filesystem to allocate from */
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struct inode *parent; /* parent of newly allocated inode */
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int is_dir; /* inode will be a directory if it is TRUE */
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{
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int group;
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ino_t inumber = NO_BIT;
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bit_t bit;
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struct buf *bp;
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struct group_desc *gd;
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if (sp->s_rd_only)
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panic("can't alloc inode on read-only filesys.");
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if (opt.mfsalloc) {
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group = find_group_any(sp);
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} else {
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if (is_dir) {
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if (opt.use_orlov) {
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group = find_group_orlov(sp, parent);
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} else {
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group = find_group_dir(sp);
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}
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} else {
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group = find_group_hashalloc(sp, parent);
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}
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}
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/* Check if we have a group where to allocate an inode */
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if (group == -1)
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return(NO_BIT); /* no bit could be allocated */
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc block");
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/* find_group_* should always return either a group with
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* a free inode slot or -1, which we checked earlier.
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*/
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ASSERT(gd->free_inodes_count);
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bp = get_block(sp->s_dev, gd->inode_bitmap, NORMAL);
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bit = setbit(b_bitmap(bp), sp->s_inodes_per_group, 0);
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ASSERT(bit != -1); /* group definitly contains free inode */
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inumber = group * sp->s_inodes_per_group + bit + 1;
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/* Extra checks before real allocation.
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* Only major bug can cause problems. Since setbit changed
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* bp->b_bitmap there is no way to recover from this bug.
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* Should never happen.
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*/
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if (inumber > sp->s_inodes_count) {
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panic("ext2: allocator returned inum greater, than\
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total number of inodes.\n");
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}
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if (inumber < EXT2_FIRST_INO(sp)) {
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panic("ext2: allocator tryed to use reserved inode.\n");
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}
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lmfs_markdirty(bp);
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put_block(bp, MAP_BLOCK);
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gd->free_inodes_count--;
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sp->s_free_inodes_count--;
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if (is_dir) {
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gd->used_dirs_count++;
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sp->s_dirs_counter++;
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}
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group_descriptors_dirty = 1;
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/* Almost the same as previous 'group' ASSERT */
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ASSERT(inumber != NO_BIT);
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return inumber;
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}
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/*===========================================================================*
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* free_inode_bit *
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*===========================================================================*/
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static void free_inode_bit(struct super_block *sp, bit_t bit_returned,
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int is_dir)
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{
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/* Return an inode by turning off its bitmap bit. */
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int group; /* group number of bit_returned */
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int bit; /* bit_returned number within its group */
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struct buf *bp;
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struct group_desc *gd;
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if (sp->s_rd_only)
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panic("can't free bit on read-only filesys.");
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/* At first search group, to which bit_returned belongs to
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* and figure out in what word bit is stored.
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*/
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if (bit_returned > sp->s_inodes_count ||
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bit_returned < EXT2_FIRST_INO(sp))
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panic("trying to free inode %d beyond inodes scope.", bit_returned);
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group = (bit_returned - 1) / sp->s_inodes_per_group;
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bit = (bit_returned - 1) % sp->s_inodes_per_group; /* index in bitmap */
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc block");
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bp = get_block(sp->s_dev, gd->inode_bitmap, NORMAL);
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if (unsetbit(b_bitmap(bp), bit))
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panic("Tried to free unused inode %d", bit_returned);
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lmfs_markdirty(bp);
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put_block(bp, MAP_BLOCK);
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gd->free_inodes_count++;
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sp->s_free_inodes_count++;
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if (is_dir) {
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gd->used_dirs_count--;
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sp->s_dirs_counter--;
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}
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group_descriptors_dirty = 1;
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if (group < sp->s_igsearch)
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sp->s_igsearch = group;
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}
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/* it's implemented very close to the linux' find_group_dir() */
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static int find_group_dir(struct super_block *sp)
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{
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int avefreei = sp->s_free_inodes_count / sp->s_groups_count;
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struct group_desc *gd, *best_gd = NULL;
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int group, best_group = -1;
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for (group = 0; group < sp->s_groups_count; ++group) {
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count == 0)
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continue;
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if (gd->free_inodes_count < avefreei)
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continue;
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if (!best_gd ||
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gd->free_blocks_count > best_gd->free_blocks_count) {
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best_gd = gd;
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best_group = group;
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}
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}
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return best_group; /* group or -1 */
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}
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/* Analog of ffs_hashalloc() from *BSD.
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* 1) Check parent's for free inodes and blocks.
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* 2) Quadradically rehash on the group number.
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* 3) Make a linear search for free inode.
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*/
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static int find_group_hashalloc(struct super_block *sp, struct inode *parent)
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{
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int ngroups = sp->s_groups_count;
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struct group_desc *gd;
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int group, i;
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int parent_group = (parent->i_num - 1) / sp->s_inodes_per_group;
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/* Try to place new inode in its parent group */
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gd = get_group_desc(parent_group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count && gd->free_blocks_count)
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return parent_group;
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/* We can't allocate inode in the parent's group.
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* Now we will try to place it in another blockgroup.
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* The main idea is still to keep files from the same
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* directory together and use different blockgroups for
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* files from another directory, which lives in the same
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* blockgroup as our parent.
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* Thus we will spread things on the disk.
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*/
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group = (parent_group + parent->i_num) % ngroups;
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/* Make quadratic probing to find a group with free inodes and blocks. */
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for (i = 1; i < ngroups; i <<= 1) {
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group += i;
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if (group >= ngroups)
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group -= ngroups;
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count && gd->free_blocks_count)
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return group;
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}
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/* Still no group for new inode, try linear search.
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* Also check parent again (but for free inodes only).
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*/
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group = parent_group;
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for (i = 0; i < ngroups; i++, group++) {
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if (group >= ngroups)
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group = 0;
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count)
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return group;
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}
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return -1;
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}
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/* Find first group which has free inode slot.
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* This is similar to what MFS does.
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*/
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static int find_group_any(struct super_block *sp)
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{
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int ngroups = sp->s_groups_count;
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struct group_desc *gd;
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int group = sp->s_igsearch;
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for (; group < ngroups; group++) {
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count) {
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sp->s_igsearch = group;
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return group;
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}
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}
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return -1;
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}
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/* We try to spread first-level directories (i.e. directories in the root
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* or in the directory marked as TOPDIR).
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* If there are blockgroups with counts for blocks and inodes less than average
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* we return a group with lowest directory count. Otherwise we either
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* return a group with good free inodes and blocks counts or just a group
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* with free inode.
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*
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* For other directories we try to find a 'good' group, we consider a group as
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* a 'good' if it has enough blocks and inodes (greater than min_blocks and
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* min_inodes).
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*
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*/
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static int find_group_orlov(struct super_block *sp, struct inode *parent)
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{
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int avefreei = sp->s_free_inodes_count / sp->s_groups_count;
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int avefreeb = sp->s_free_blocks_count / sp->s_groups_count;
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int group = -1;
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int fallback_group = -1; /* Group with at least 1 free inode */
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struct group_desc *gd;
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int i;
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if (parent->i_num == ROOT_INODE ||
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parent->i_flags & EXT2_TOPDIR_FL) {
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int best_group = -1;
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int best_avefree_group = -1; /* Best value of avefreei/avefreeb */
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int best_ndir = sp->s_inodes_per_group;
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group = (unsigned int)random();
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for (i = 0; i < sp->s_groups_count; i++, group++) {
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if (group >= sp->s_groups_count)
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group = 0;
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count == 0)
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continue;
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fallback_group = group;
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if (gd->free_inodes_count < avefreei ||
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gd->free_blocks_count < avefreeb)
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continue;
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best_avefree_group = group;
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if (gd->used_dirs_count >= best_ndir)
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continue;
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best_ndir = gd->used_dirs_count;
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best_group = group;
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}
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if (best_group >= 0)
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return best_group;
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if (best_avefree_group >= 0)
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return best_avefree_group;
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return fallback_group;
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} else {
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int parent_group = (parent->i_num - 1) / sp->s_inodes_per_group;
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/* 2 is kind of random thing for now,
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* but performance results are still good.
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*/
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int min_blocks = avefreeb / 2;
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int min_inodes = avefreei / 2;
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group = parent_group;
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for (i = 0; i < sp->s_groups_count; i++, group++) {
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if (group >= sp->s_groups_count)
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group = 0;
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gd = get_group_desc(group);
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if (gd == NULL)
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panic("can't get group_desc to alloc inode");
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if (gd->free_inodes_count == 0)
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continue;
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fallback_group = group;
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if (gd->free_inodes_count >= min_inodes &&
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gd->free_blocks_count >= min_blocks)
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return group;
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}
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return fallback_group;
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}
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return -1;
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}
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/*===========================================================================*
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* wipe_inode *
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*===========================================================================*/
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static void wipe_inode(
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register struct inode *rip /* the inode to be erased */
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)
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{
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/* Erase some fields in the inode. This function is called from alloc_inode()
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* when a new inode is to be allocated, and from truncate(), when an existing
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* inode is to be truncated.
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*/
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register int i;
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rip->i_size = 0;
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rip->i_update = ATIME | CTIME | MTIME; /* update all times later */
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rip->i_blocks = 0;
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rip->i_flags = 0;
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rip->i_generation = 0;
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rip->i_file_acl = 0;
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rip->i_dir_acl = 0;
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rip->i_faddr = 0;
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for (i = 0; i < EXT2_N_BLOCKS; i++)
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rip->i_block[i] = NO_BLOCK;
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rip->i_block[0] = NO_BLOCK;
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rip->i_dirt = IN_DIRTY;
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}
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