c89bc85009
This patch makes PFS, EXT2 and MFS print only once that they're out of space. After freeing up space and running out of space again, the message will be printed again also.
338 lines
10 KiB
C
338 lines
10 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,
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* 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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* find_inode: retrieve pointer to inode in inode cache
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*
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*/
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#include "fs.h"
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#include "buf.h"
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#include "inode.h"
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#include <minix/vfsif.h>
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FORWARD _PROTOTYPE( void addhash_inode, (struct inode * const node) );
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FORWARD _PROTOTYPE( void unhash_inode, (struct inode * const node) );
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/*===========================================================================*
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* fs_putnode *
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*===========================================================================*/
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PUBLIC int fs_putnode(message *fs_m_in, message *fs_m_out)
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{
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/* Find the inode specified by the request message and decrease its counter.*/
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struct inode *rip;
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int count;
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dev_t dev;
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ino_t inum;
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rip = find_inode( (ino_t) fs_m_in->REQ_INODE_NR);
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if(!rip) {
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printf("%s:%d put_inode: inode #%ld dev: %d not found\n", __FILE__,
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__LINE__, fs_m_in->REQ_INODE_NR, (dev_t) fs_m_in->REQ_DEV);
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panic("fs_putnode failed");
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}
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count = fs_m_in->REQ_COUNT;
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if (count <= 0) {
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printf("%s:%d put_inode: bad value for count: %d\n", __FILE__,
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__LINE__, count);
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panic("fs_putnode failed");
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} else if(count > rip->i_count) {
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printf("%s:%d put_inode: count too high: %d > %d\n", __FILE__,
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__LINE__, count, rip->i_count);
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panic("fs_putnode failed");
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}
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/* Decrease reference counter, but keep one reference; it will be consumed by
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* put_inode(). */
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rip->i_count -= count - 1;
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dev = rip->i_dev;
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inum = rip->i_num;
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put_inode(rip);
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if (rip->i_count == 0) put_block(dev, inum);
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return(OK);
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}
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/*===========================================================================*
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* init_inode_cache *
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*===========================================================================*/
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PUBLIC void init_inode_cache()
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{
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struct inode *rip;
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struct inodelist *rlp;
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/* init free/unused list */
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TAILQ_INIT(&unused_inodes);
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/* init hash lists */
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for (rlp = &hash_inodes[0]; rlp < &hash_inodes[INODE_HASH_SIZE]; ++rlp)
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LIST_INIT(rlp);
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/* add free inodes to unused/free list */
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for (rip = &inode[0]; rip < &inode[NR_INODES]; ++rip) {
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rip->i_num = NO_ENTRY;
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TAILQ_INSERT_HEAD(&unused_inodes, rip, i_unused);
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}
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/* Reserve the first inode (bit 0) to prevent it from being allocated later*/
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if (alloc_bit() != NO_BIT) printf("PFS could not reserve NO_BIT\n");
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busy = 0; /* This bit does not make the server 'in use/busy'. */
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}
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/*===========================================================================*
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* addhash_inode *
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*===========================================================================*/
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PRIVATE void addhash_inode(struct inode * const node)
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{
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int hashi = (int) (node->i_num & INODE_HASH_MASK);
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/* insert into hash table */
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LIST_INSERT_HEAD(&hash_inodes[hashi], node, i_hash);
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}
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/*===========================================================================*
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* unhash_inode *
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*===========================================================================*/
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PRIVATE void unhash_inode(struct inode * const node)
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{
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/* remove from hash table */
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LIST_REMOVE(node, i_hash);
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}
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/*===========================================================================*
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* get_inode *
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*===========================================================================*/
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PUBLIC struct inode *get_inode(
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dev_t dev, /* device on which inode resides */
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ino_t numb /* inode number */
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)
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{
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/* Find the inode in the hash table. If it is not there, get a free inode
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* load it from the disk if it's necessary and put on the hash list
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*/
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register struct inode *rip;
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int hashi;
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hashi = (int) (numb & INODE_HASH_MASK);
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/* Search inode in the hash table */
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LIST_FOREACH(rip, &hash_inodes[hashi], i_hash) {
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if (rip->i_num == numb && rip->i_dev == dev) {
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/* If unused, remove it from the unused/free list */
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if (rip->i_count == 0) {
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TAILQ_REMOVE(&unused_inodes, rip, i_unused);
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}
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++rip->i_count;
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return(rip);
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}
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}
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/* Inode is not on the hash, get a free one */
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if (TAILQ_EMPTY(&unused_inodes)) {
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err_code = ENFILE;
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return(NULL);
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}
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rip = TAILQ_FIRST(&unused_inodes);
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/* If not free unhash it */
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if (rip->i_num != NO_ENTRY) unhash_inode(rip);
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/* Inode is not unused any more */
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TAILQ_REMOVE(&unused_inodes, rip, i_unused);
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/* Load the inode. */
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rip->i_dev = dev;
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rip->i_num = numb;
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rip->i_count = 1;
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rip->i_update = 0; /* all the times are initially up-to-date */
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/* Add to hash */
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addhash_inode(rip);
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return(rip);
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}
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/*===========================================================================*
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* find_inode *
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*===========================================================================*/
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PUBLIC struct inode *find_inode(numb)
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ino_t numb; /* inode number */
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{
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/* Find the inode specified by the inode and device number.
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*/
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struct inode *rip;
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int hashi;
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hashi = (int) (numb & INODE_HASH_MASK);
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/* Search inode in the hash table */
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LIST_FOREACH(rip, &hash_inodes[hashi], i_hash) {
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if (rip->i_count > 0 && rip->i_num == numb) {
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return(rip);
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}
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}
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return(NULL);
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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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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 == NULL) return; /* checking here is easier than in caller */
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if (rip->i_count < 1)
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panic("put_inode: i_count already below 1: %d", rip->i_count);
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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 == NO_LINK) { /* Are there links to this file? */
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/* no links, free the inode. */
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truncate_inode(rip, 0); /* return all the disk blocks */
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rip->i_mode = I_NOT_ALLOC; /* clear I_TYPE field */
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free_inode(rip);
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} else {
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truncate_inode(rip, (off_t) 0);
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}
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if (rip->i_nlinks == NO_LINK) {
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/* free, put at the front of the LRU list */
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unhash_inode(rip);
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rip->i_num = NO_ENTRY;
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rip->i_dev = NO_DEV;
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rip->i_rdev = NO_DEV;
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TAILQ_INSERT_HEAD(&unused_inodes, rip, i_unused);
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} else {
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/* unused, put at the back of the LRU (cache it) */
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TAILQ_INSERT_TAIL(&unused_inodes, rip, i_unused);
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}
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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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bit_t b;
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ino_t i_num;
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int print_oos_msg = 1;
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b = alloc_bit();
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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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printf("PipeFS is out of inodes\n");
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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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i_num = (ino_t) b;
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print_oos_msg = 1;
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/* Try to acquire a slot in the inode table. */
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if ((rip = get_inode(dev, i_num)) == NULL) {
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/* No inode table slots available. Free the inode if just allocated.*/
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if (dev == NO_DEV) free_bit(b);
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} else {
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/* An inode slot is available. */
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rip->i_mode = bits; /* set up RWX bits */
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rip->i_nlinks = 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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/* 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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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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rip->i_size = 0;
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rip->i_update = ATIME | CTIME | MTIME; /* update all times later */
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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(rip)
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struct inode *rip;
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{
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/* Return an inode to the pool of unallocated inodes. */
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bit_t b;
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if (rip->i_num <= (ino_t) 0 || rip->i_num >= (ino_t) NR_INODES) return;
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b = (bit_t) rip->i_num;
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free_bit(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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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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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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