364 lines
13 KiB
C
364 lines
13 KiB
C
/* This file manages the inode table. There are procedures to allocate and
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* deallocate inodes, acquire, erase, and release them, and read and write
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* them from the disk.
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*
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* The entry points into this file are
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* get_inode: search inode table for a given inode; if not there, read it
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* put_inode: indicate that an inode is no longer needed in memory
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* alloc_inode: allocate a new, unused inode
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* wipe_inode: erase some fields of a newly allocated inode
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* free_inode: mark an inode as available for a new file
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* update_times: update atime, ctime, and mtime
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* rw_inode: read a disk block and extract an inode, or corresp. write
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* old_icopy: copy to/from in-core inode struct and disk inode (V1.x)
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* new_icopy: copy to/from in-core inode struct and disk inode (V2.x)
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* dup_inode: indicate that someone else is using an inode table entry
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*/
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#include "fs.h"
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#include "buf.h"
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#include "file.h"
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#include "fproc.h"
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#include "inode.h"
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#include "super.h"
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FORWARD _PROTOTYPE( void old_icopy, (struct inode *rip, d1_inode *dip,
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int direction, int norm));
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FORWARD _PROTOTYPE( void new_icopy, (struct inode *rip, d2_inode *dip,
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int direction, int norm));
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/*===========================================================================*
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* get_inode *
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*===========================================================================*/
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PUBLIC struct inode *get_inode(dev, numb)
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dev_t dev; /* device on which inode resides */
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int numb; /* inode number (ANSI: may not be unshort) */
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{
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/* Find a slot in the inode table, load the specified inode into it, and
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* return a pointer to the slot. If 'dev' == NO_DEV, just return a free slot.
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*/
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register struct inode *rip, *xp;
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/* Search the inode table both for (dev, numb) and a free slot. */
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xp = NIL_INODE;
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for (rip = &inode[0]; rip < &inode[NR_INODES]; rip++) {
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if (rip->i_count > 0) { /* only check used slots for (dev, numb) */
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if (rip->i_dev == dev && rip->i_num == numb) {
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/* This is the inode that we are looking for. */
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rip->i_count++;
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return(rip); /* (dev, numb) found */
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}
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} else {
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xp = rip; /* remember this free slot for later */
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}
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}
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/* Inode we want is not currently in use. Did we find a free slot? */
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if (xp == NIL_INODE) { /* inode table completely full */
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err_code = ENFILE;
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return(NIL_INODE);
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}
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/* A free inode slot has been located. Load the inode into it. */
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xp->i_dev = dev;
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xp->i_num = numb;
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xp->i_count = 1;
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if (dev != NO_DEV) rw_inode(xp, READING); /* get inode from disk */
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xp->i_update = 0; /* all the times are initially up-to-date */
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return(xp);
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}
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/*===========================================================================*
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* put_inode *
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*===========================================================================*/
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PUBLIC void put_inode(rip)
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register struct inode *rip; /* pointer to inode to be released */
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{
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/* The caller is no longer using this inode. If no one else is using it either
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* write it back to the disk immediately. If it has no links, truncate it and
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* return it to the pool of available inodes.
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*/
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if (rip == NIL_INODE) return; /* checking here is easier than in caller */
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if (--rip->i_count == 0) { /* i_count == 0 means no one is using it now */
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if (rip->i_nlinks == 0) {
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/* i_nlinks == 0 means free the inode. */
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truncate(rip); /* return all the disk blocks */
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rip->i_mode = I_NOT_ALLOC; /* clear I_TYPE field */
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rip->i_dirt = DIRTY;
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free_inode(rip->i_dev, rip->i_num);
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} else {
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if (rip->i_pipe == I_PIPE) truncate(rip);
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}
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rip->i_pipe = NO_PIPE; /* should always be cleared */
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if (rip->i_dirt == DIRTY) rw_inode(rip, WRITING);
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}
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}
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/*===========================================================================*
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* alloc_inode *
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*===========================================================================*/
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PUBLIC struct inode *alloc_inode(dev_t dev, mode_t bits)
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{
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/* Allocate a free inode on '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 major, minor, inumb;
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bit_t b;
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sp = get_super(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(NIL_INODE);
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}
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/* Acquire an inode from the bit map. */
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b = alloc_bit(sp, IMAP, sp->s_isearch);
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if (b == NO_BIT) {
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err_code = ENFILE;
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major = (int) (sp->s_dev >> MAJOR) & BYTE;
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minor = (int) (sp->s_dev >> MINOR) & BYTE;
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printf("Out of i-nodes on %sdevice %d/%d\n",
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sp->s_dev == root_dev ? "root " : "", major, minor);
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return(NIL_INODE);
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}
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sp->s_isearch = b; /* next time start here */
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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)) == NIL_INODE) {
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/* No inode table slots available. Free the inode just allocated. */
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free_bit(sp, IMAP, b);
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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_nlinks = 0; /* initial no links */
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rip->i_uid = fp->fp_effuid; /* file's uid is owner's */
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rip->i_gid = fp->fp_effgid; /* ditto group id */
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rip->i_dev = dev; /* mark which device it is on */
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rip->i_ndzones = sp->s_ndzones; /* number of direct zones */
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rip->i_nindirs = sp->s_nindirs; /* number of indirect zones per blk*/
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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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* wipe_inode *
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*===========================================================================*/
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PUBLIC void wipe_inode(rip)
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register struct inode *rip; /* the inode to be erased */
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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_dirt = DIRTY;
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for (i = 0; i < V2_NR_TZONES; i++) rip->i_zone[i] = NO_ZONE;
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}
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/*===========================================================================*
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* free_inode *
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*===========================================================================*/
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PUBLIC void free_inode(dev, inumb)
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dev_t dev; /* on which device is the inode */
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ino_t inumb; /* number of inode to be freed */
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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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bit_t b;
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/* Locate the appropriate super_block. */
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sp = get_super(dev);
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if (inumb <= 0 || inumb > sp->s_ninodes) return;
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b = inumb;
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free_bit(sp, IMAP, b);
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if (b < sp->s_isearch) sp->s_isearch = b;
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}
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/*===========================================================================*
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* update_times *
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*===========================================================================*/
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PUBLIC void update_times(rip)
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register struct inode *rip; /* pointer to inode to be read/written */
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{
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/* Various system calls are required by the standard to update atime, ctime,
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* or mtime. Since updating a time requires sending a message to the clock
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* task--an expensive business--the times are marked for update by setting
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* bits in i_update. When a stat, fstat, or sync is done, or an inode is
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* released, update_times() may be called to actually fill in the times.
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*/
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time_t cur_time;
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struct super_block *sp;
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sp = rip->i_sp; /* get pointer to super block. */
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if (sp->s_rd_only) return; /* no updates for read-only file systems */
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cur_time = clock_time();
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if (rip->i_update & ATIME) rip->i_atime = cur_time;
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if (rip->i_update & CTIME) rip->i_ctime = cur_time;
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if (rip->i_update & MTIME) rip->i_mtime = cur_time;
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rip->i_update = 0; /* they are all up-to-date now */
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}
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/*===========================================================================*
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* rw_inode *
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*===========================================================================*/
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PUBLIC void rw_inode(rip, rw_flag)
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register struct inode *rip; /* pointer to inode to be read/written */
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int rw_flag; /* READING or WRITING */
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{
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/* An entry in the inode table is to be copied to or from the disk. */
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register struct buf *bp;
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register struct super_block *sp;
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d1_inode *dip;
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d2_inode *dip2;
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block_t b, offset;
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/* Get the block where the inode resides. */
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sp = get_super(rip->i_dev); /* get pointer to super block */
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rip->i_sp = sp; /* inode must contain super block pointer */
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offset = sp->s_imap_blocks + sp->s_zmap_blocks + 2;
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b = (block_t) (rip->i_num - 1)/sp->s_inodes_per_block + offset;
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bp = get_block(rip->i_dev, b, NORMAL);
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dip = bp->b_v1_ino + (rip->i_num - 1) % V1_INODES_PER_BLOCK;
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dip2 = bp->b_v2_ino + (rip->i_num - 1) % V2_INODES_PER_BLOCK(sp->s_block_size);
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/* Do the read or write. */
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if (rw_flag == WRITING) {
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if (rip->i_update) update_times(rip); /* times need updating */
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if (sp->s_rd_only == FALSE) bp->b_dirt = DIRTY;
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}
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/* Copy the inode from the disk block to the in-core table or vice versa.
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* If the fourth parameter below is FALSE, the bytes are swapped.
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*/
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if (sp->s_version == V1)
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old_icopy(rip, dip, rw_flag, sp->s_native);
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else
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new_icopy(rip, dip2, rw_flag, sp->s_native);
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put_block(bp, INODE_BLOCK);
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rip->i_dirt = CLEAN;
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}
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/*===========================================================================*
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* old_icopy *
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*===========================================================================*/
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PRIVATE void old_icopy(rip, dip, direction, norm)
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register struct inode *rip; /* pointer to the in-core inode struct */
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register d1_inode *dip; /* pointer to the d1_inode inode struct */
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int direction; /* READING (from disk) or WRITING (to disk) */
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int norm; /* TRUE = do not swap bytes; FALSE = swap */
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{
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/* The V1.x IBM disk, the V1.x 68000 disk, and the V2 disk (same for IBM and
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* 68000) all have different inode layouts. When an inode is read or written
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* this routine handles the conversions so that the information in the inode
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* table is independent of the disk structure from which the inode came.
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* The old_icopy routine copies to and from V1 disks.
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*/
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int i;
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if (direction == READING) {
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/* Copy V1.x inode to the in-core table, swapping bytes if need be. */
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rip->i_mode = conv2(norm, (int) dip->d1_mode);
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rip->i_uid = conv2(norm, (int) dip->d1_uid );
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rip->i_size = conv4(norm, dip->d1_size);
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rip->i_mtime = conv4(norm, dip->d1_mtime);
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rip->i_atime = rip->i_mtime;
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rip->i_ctime = rip->i_mtime;
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rip->i_nlinks = dip->d1_nlinks; /* 1 char */
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rip->i_gid = dip->d1_gid; /* 1 char */
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rip->i_ndzones = V1_NR_DZONES;
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rip->i_nindirs = V1_INDIRECTS;
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for (i = 0; i < V1_NR_TZONES; i++)
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rip->i_zone[i] = conv2(norm, (int) dip->d1_zone[i]);
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} else {
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/* Copying V1.x inode to disk from the in-core table. */
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dip->d1_mode = conv2(norm, (int) rip->i_mode);
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dip->d1_uid = conv2(norm, (int) rip->i_uid );
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dip->d1_size = conv4(norm, rip->i_size);
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dip->d1_mtime = conv4(norm, rip->i_mtime);
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dip->d1_nlinks = rip->i_nlinks; /* 1 char */
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dip->d1_gid = rip->i_gid; /* 1 char */
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for (i = 0; i < V1_NR_TZONES; i++)
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dip->d1_zone[i] = conv2(norm, (int) rip->i_zone[i]);
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}
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}
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/*===========================================================================*
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* new_icopy *
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*===========================================================================*/
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PRIVATE void new_icopy(rip, dip, direction, norm)
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register struct inode *rip; /* pointer to the in-core inode struct */
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register d2_inode *dip; /* pointer to the d2_inode struct */
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int direction; /* READING (from disk) or WRITING (to disk) */
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int norm; /* TRUE = do not swap bytes; FALSE = swap */
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{
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/* Same as old_icopy, but to/from V2 disk layout. */
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int i;
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if (direction == READING) {
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/* Copy V2.x inode to the in-core table, swapping bytes if need be. */
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rip->i_mode = conv2(norm,dip->d2_mode);
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rip->i_uid = conv2(norm,dip->d2_uid);
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rip->i_nlinks = conv2(norm,dip->d2_nlinks);
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rip->i_gid = conv2(norm,dip->d2_gid);
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rip->i_size = conv4(norm,dip->d2_size);
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rip->i_atime = conv4(norm,dip->d2_atime);
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rip->i_ctime = conv4(norm,dip->d2_ctime);
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rip->i_mtime = conv4(norm,dip->d2_mtime);
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rip->i_ndzones = V2_NR_DZONES;
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rip->i_nindirs = V2_INDIRECTS(rip->i_sp->s_block_size);
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for (i = 0; i < V2_NR_TZONES; i++)
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rip->i_zone[i] = conv4(norm, (long) dip->d2_zone[i]);
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} else {
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/* Copying V2.x inode to disk from the in-core table. */
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dip->d2_mode = conv2(norm,rip->i_mode);
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dip->d2_uid = conv2(norm,rip->i_uid);
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dip->d2_nlinks = conv2(norm,rip->i_nlinks);
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dip->d2_gid = conv2(norm,rip->i_gid);
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dip->d2_size = conv4(norm,rip->i_size);
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dip->d2_atime = conv4(norm,rip->i_atime);
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dip->d2_ctime = conv4(norm,rip->i_ctime);
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dip->d2_mtime = conv4(norm,rip->i_mtime);
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for (i = 0; i < V2_NR_TZONES; i++)
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dip->d2_zone[i] = conv4(norm, (long) rip->i_zone[i]);
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}
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}
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/*===========================================================================*
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* dup_inode *
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*===========================================================================*/
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PUBLIC void dup_inode(ip)
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struct inode *ip; /* The inode to be duplicated. */
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{
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/* This routine is a simplified form of get_inode() for the case where
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* the inode pointer is already known.
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*/
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ip->i_count++;
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}
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