627 lines
14 KiB
C
627 lines
14 KiB
C
// File system implementation. Four layers:
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// + Blocks: allocator for raw disk blocks.
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// + Files: inode allocator, reading, writing, metadata.
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// + Directories: inode with special contents (list of other inodes!)
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// + Names: paths like /usr/rtm/xv6/fs.c for convenient naming.
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//
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// Disk layout is: superblock, inodes, block in-use bitmap, data blocks.
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//
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// This file contains the low-level file system manipulation
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// routines. The (higher-level) system call implementations
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// are in sysfile.c.
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#include "types.h"
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#include "defs.h"
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#include "param.h"
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#include "stat.h"
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#include "mmu.h"
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#include "proc.h"
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#include "spinlock.h"
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#include "buf.h"
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#include "fs.h"
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#include "fsvar.h"
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#include "dev.h"
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#define min(a, b) ((a) < (b) ? (a) : (b))
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static void itrunc(struct inode*);
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// Read the super block.
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static void
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readsb(int dev, struct superblock *sb)
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{
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struct buf *bp;
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bp = bread(dev, 1);
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memmove(sb, bp->data, sizeof(*sb));
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brelse(bp);
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}
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// Zero a block.
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static void
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bzero(int dev, int bno)
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{
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struct buf *bp;
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bp = bread(dev, bno);
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memset(bp->data, 0, BSIZE);
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bwrite(bp);
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brelse(bp);
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}
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// Blocks.
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// Allocate a disk block.
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static uint
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balloc(uint dev)
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{
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int b, bi, m;
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struct buf *bp;
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struct superblock sb;
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bp = 0;
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readsb(dev, &sb);
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for(b = 0; b < sb.size; b += BPB){
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bp = bread(dev, BBLOCK(b, sb.ninodes));
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for(bi = 0; bi < BPB; bi++){
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m = 1 << (bi % 8);
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if((bp->data[bi/8] & m) == 0){ // Is block free?
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bp->data[bi/8] |= m; // Mark block in use on disk.
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bwrite(bp);
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brelse(bp);
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return b + bi;
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}
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}
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brelse(bp);
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}
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panic("balloc: out of blocks");
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}
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// Free a disk block.
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static void
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bfree(int dev, uint b)
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{
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struct buf *bp;
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struct superblock sb;
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int bi, m;
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bzero(dev, b);
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readsb(dev, &sb);
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bp = bread(dev, BBLOCK(b, sb.ninodes));
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bi = b % BPB;
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m = 1 << (bi % 8);
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if((bp->data[bi/8] & m) == 0)
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panic("freeing free block");
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bp->data[bi/8] &= ~m; // Mark block free on disk.
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bwrite(bp);
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brelse(bp);
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}
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// Inodes.
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//
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// An inode is a single, unnamed file in the file system.
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// The inode disk structure holds metadata (the type, device numbers,
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// and data size) along with a list of blocks where the associated
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// data can be found.
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//
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// The inodes are laid out sequentially on disk immediately after
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// the superblock. The kernel keeps a cache of the in-use
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// on-disk structures to provide a place for synchronizing access
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// to inodes shared between multiple processes.
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//
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// ip->ref counts the number of pointer references to this cached
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// inode; references are typically kept in struct file and in cp->cwd.
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// When ip->ref falls to zero, the inode is no longer cached.
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// It is an error to use an inode without holding a reference to it.
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//
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// Processes are only allowed to read and write inode
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// metadata and contents when holding the inode's lock,
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// represented by the I_BUSY flag in the in-memory copy.
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// Because inode locks are held during disk accesses,
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// they are implemented using a flag rather than with
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// spin locks. Callers are responsible for locking
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// inodes before passing them to routines in this file; leaving
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// this responsibility with the caller makes it possible for them
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// to create arbitrarily-sized atomic operations.
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//
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// To give maximum control over locking to the callers,
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// the routines in this file that return inode pointers
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// return pointers to *unlocked* inodes. It is the callers'
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// responsibility to lock them before using them. A non-zero
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// ip->ref keeps these unlocked inodes in the cache.
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struct {
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struct spinlock lock;
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struct inode inode[NINODE];
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} icache;
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void
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iinit(void)
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{
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initlock(&icache.lock, "icache.lock");
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}
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// Find the inode with number inum on device dev
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// and return the in-memory copy.
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static struct inode*
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iget(uint dev, uint inum)
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{
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struct inode *ip, *empty;
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acquire(&icache.lock);
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// Try for cached inode.
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empty = 0;
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for(ip = &icache.inode[0]; ip < &icache.inode[NINODE]; ip++){
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if(ip->ref > 0 && ip->dev == dev && ip->inum == inum){
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ip->ref++;
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release(&icache.lock);
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return ip;
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}
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if(empty == 0 && ip->ref == 0) // Remember empty slot.
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empty = ip;
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}
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// Allocate fresh inode.
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if(empty == 0)
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panic("iget: no inodes");
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ip = empty;
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ip->dev = dev;
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ip->inum = inum;
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ip->ref = 1;
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ip->flags = 0;
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release(&icache.lock);
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return ip;
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}
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// Increment reference count for ip.
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// Returns ip to enable ip = idup(ip1) idiom.
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struct inode*
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idup(struct inode *ip)
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{
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acquire(&icache.lock);
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ip->ref++;
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release(&icache.lock);
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return ip;
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}
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// Lock the given inode.
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void
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ilock(struct inode *ip)
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{
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struct buf *bp;
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struct dinode *dip;
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if(ip == 0 || ip->ref < 1)
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panic("ilock");
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acquire(&icache.lock);
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while(ip->flags & I_BUSY)
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sleep(ip, &icache.lock);
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ip->flags |= I_BUSY;
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release(&icache.lock);
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if(!(ip->flags & I_VALID)){
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bp = bread(ip->dev, IBLOCK(ip->inum));
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dip = &((struct dinode*)(bp->data))[ip->inum % IPB];
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ip->type = dip->type;
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ip->major = dip->major;
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ip->minor = dip->minor;
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ip->nlink = dip->nlink;
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ip->size = dip->size;
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memmove(ip->addrs, dip->addrs, sizeof(ip->addrs));
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brelse(bp);
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ip->flags |= I_VALID;
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if(ip->type == 0)
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panic("ilock: no type");
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}
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}
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// Unlock the given inode.
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void
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iunlock(struct inode *ip)
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{
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if(ip == 0 || !(ip->flags & I_BUSY) || ip->ref < 1)
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panic("iunlock");
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acquire(&icache.lock);
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ip->flags &= ~I_BUSY;
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wakeup(ip);
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release(&icache.lock);
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}
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// Caller holds reference to unlocked ip. Drop reference.
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void
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iput(struct inode *ip)
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{
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acquire(&icache.lock);
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if(ip->ref == 1 && (ip->flags & I_VALID) && ip->nlink == 0) {
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// inode is no longer used: truncate and free inode.
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if(ip->flags & I_BUSY)
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panic("iput busy");
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ip->flags |= I_BUSY;
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release(&icache.lock);
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// XXX convince rsc that no one will come find this inode.
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itrunc(ip);
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ip->type = 0;
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iupdate(ip);
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acquire(&icache.lock);
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ip->flags &= ~I_BUSY;
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}
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ip->ref--;
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release(&icache.lock);
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}
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// Common idiom: unlock, then put.
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void
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iunlockput(struct inode *ip)
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{
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iunlock(ip);
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iput(ip);
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}
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//PAGEBREAK!
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// Allocate a new inode with the given type on device dev.
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struct inode*
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ialloc(uint dev, short type)
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{
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int inum;
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struct buf *bp;
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struct dinode *dip;
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struct superblock sb;
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readsb(dev, &sb);
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for(inum = 1; inum < sb.ninodes; inum++) { // loop over inode blocks
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bp = bread(dev, IBLOCK(inum));
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dip = (struct dinode*)(bp->data) + inum%IPB;
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if(dip->type == 0) { // a free inode
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memset(dip, 0, sizeof(*dip));
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dip->type = type;
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bwrite(bp); // mark it allocated on the disk
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brelse(bp);
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return iget(dev, inum);
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}
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brelse(bp);
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}
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panic("ialloc: no inodes");
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}
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// Copy inode, which has changed, from memory to disk.
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void
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iupdate(struct inode *ip)
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{
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struct buf *bp;
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struct dinode *dip;
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bp = bread(ip->dev, IBLOCK(ip->inum));
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dip = (struct dinode*)(bp->data) + ip->inum%IPB;
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dip->type = ip->type;
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dip->major = ip->major;
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dip->minor = ip->minor;
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dip->nlink = ip->nlink;
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dip->size = ip->size;
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memmove(dip->addrs, ip->addrs, sizeof(ip->addrs));
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bwrite(bp);
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brelse(bp);
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}
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//PAGEBREAK!
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// Inode contents
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//
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// The contents (data) associated with each inode is stored
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// in a sequence of blocks on the disk. The first NDIRECT blocks
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// are listed in ip->addrs[]. The next NINDIRECT blocks are
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// listed in the block ip->addrs[INDIRECT].
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// Return the disk block address of the nth block in inode ip.
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// If there is no such block, alloc controls whether one is allocated.
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static uint
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bmap(struct inode *ip, uint bn, int alloc)
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{
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uint addr, *a;
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struct buf *bp;
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if(bn < NDIRECT) {
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if((addr = ip->addrs[bn]) == 0) {
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if(!alloc)
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return -1;
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ip->addrs[bn] = addr = balloc(ip->dev);
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}
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return addr;
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}
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bn -= NDIRECT;
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if(bn < NINDIRECT) {
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// Load indirect block, allocating if necessary.
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if((addr = ip->addrs[INDIRECT]) == 0) {
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if(!alloc)
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return -1;
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ip->addrs[INDIRECT] = addr = balloc(ip->dev);
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}
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bp = bread(ip->dev, addr);
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a = (uint*)bp->data;
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if((addr = a[bn]) == 0) {
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if(!alloc) {
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brelse(bp);
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return -1;
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}
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a[bn] = addr = balloc(ip->dev);
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bwrite(bp);
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}
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brelse(bp);
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return addr;
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}
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panic("bmap: out of range");
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}
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// PAGEBREAK: 30
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// Truncate inode (discard contents).
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static void
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itrunc(struct inode *ip)
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{
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int i, j;
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struct buf *bp;
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uint *a;
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for(i = 0; i < NDIRECT; i++) {
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if(ip->addrs[i]) {
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bfree(ip->dev, ip->addrs[i]);
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ip->addrs[i] = 0;
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}
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}
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if(ip->addrs[INDIRECT]) {
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bp = bread(ip->dev, ip->addrs[INDIRECT]);
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a = (uint*)bp->data;
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for(j = 0; j < NINDIRECT; j++) {
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if(a[j])
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bfree(ip->dev, a[j]);
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}
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brelse(bp);
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ip->addrs[INDIRECT] = 0;
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}
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ip->size = 0;
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iupdate(ip);
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}
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// Copy stat information from inode.
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void
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stati(struct inode *ip, struct stat *st)
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{
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st->dev = ip->dev;
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st->ino = ip->inum;
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st->type = ip->type;
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st->nlink = ip->nlink;
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st->size = ip->size;
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}
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//PAGEBREAK!
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// Read data from inode.
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int
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readi(struct inode *ip, char *dst, uint off, uint n)
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{
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uint tot, m;
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struct buf *bp;
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if(ip->type == T_DEV) {
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if(ip->major < 0 || ip->major >= NDEV || !devsw[ip->major].read)
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return -1;
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return devsw[ip->major].read(ip->minor, dst, n);
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}
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if(off > ip->size || off + n < off)
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return -1;
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if(off + n > ip->size)
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n = ip->size - off;
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for(tot=0; tot<n; tot+=m, off+=m, dst+=m) {
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bp = bread(ip->dev, bmap(ip, off/BSIZE, 0));
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m = min(n - tot, BSIZE - off%BSIZE);
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memmove(dst, bp->data + off%BSIZE, m);
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brelse(bp);
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}
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return n;
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}
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// PAGEBREAK!
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// Write data to inode.
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int
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writei(struct inode *ip, char *src, uint off, uint n)
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{
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uint tot, m;
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struct buf *bp;
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if(ip->type == T_DEV) {
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if(ip->major < 0 || ip->major >= NDEV || !devsw[ip->major].write)
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return -1;
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return devsw[ip->major].write(ip->minor, src, n);
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}
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if(off + n < off)
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return -1;
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if(off + n > MAXFILE*BSIZE)
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n = MAXFILE*BSIZE - off;
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for(tot=0; tot<n; tot+=m, off+=m, src+=m) {
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bp = bread(ip->dev, bmap(ip, off/BSIZE, 1));
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m = min(n - tot, BSIZE - off%BSIZE);
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memmove(bp->data + off%BSIZE, src, m);
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bwrite(bp);
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brelse(bp);
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}
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if(n > 0 && off > ip->size) {
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ip->size = off;
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iupdate(ip);
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}
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return n;
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}
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//PAGEBREAK!
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// Directories
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int
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namecmp(const char *s, const char *t)
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{
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return strncmp(s, t, DIRSIZ);
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}
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// Look for a directory entry in a directory.
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// If found, set *poff to byte offset of entry.
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// Caller must have already locked dp.
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struct inode*
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dirlookup(struct inode *dp, char *name, uint *poff)
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{
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uint off, inum;
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struct buf *bp;
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struct dirent *de;
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if(dp->type != T_DIR)
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panic("dirlookup not DIR");
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for(off = 0; off < dp->size; off += BSIZE){
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bp = bread(dp->dev, bmap(dp, off / BSIZE, 0));
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for(de = (struct dirent*)bp->data;
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de < (struct dirent*)(bp->data + BSIZE);
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de++){
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if(de->inum == 0)
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continue;
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if(namecmp(name, de->name) == 0){
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// entry matches path element
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if(poff)
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*poff = off + (uchar*)de - bp->data;
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inum = de->inum;
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brelse(bp);
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return iget(dp->dev, inum);
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}
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}
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brelse(bp);
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}
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return 0;
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}
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// Write a new directory entry (name, ino) into the directory dp.
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int
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dirlink(struct inode *dp, char *name, uint ino)
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{
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int off;
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struct dirent de;
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struct inode *ip;
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// Check that name is not present.
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if((ip = dirlookup(dp, name, 0)) != 0){
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iput(ip);
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return -1;
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}
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// Look for an empty dirent.
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for(off = 0; off < dp->size; off += sizeof(de)){
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if(readi(dp, (char*)&de, off, sizeof(de)) != sizeof(de))
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panic("dirlink read");
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if(de.inum == 0)
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break;
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}
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strncpy(de.name, name, DIRSIZ);
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de.inum = ino;
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if(writei(dp, (char*)&de, off, sizeof(de)) != sizeof(de))
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panic("dirlink");
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return 0;
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}
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//PAGEBREAK!
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// Paths
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// Copy the next path element from path into name.
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// Return a pointer to the element following the copied one.
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// The returned path has no leading slashes,
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// so the caller can check *path=='\0' to see if the name is the last one.
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// If no name to remove, return 0.
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//
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// Examples:
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// skipelem("a/bb/c", name) = "bb/c", setting name = "a"
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// skipelem("///a//bb", name) = "bb", setting name = "a"
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// skipelem("", name) = skipelem("////", name) = 0
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//
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static char*
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skipelem(char *path, char *name)
|
|
{
|
|
char *s;
|
|
int len;
|
|
|
|
while(*path == '/')
|
|
path++;
|
|
if(*path == 0)
|
|
return 0;
|
|
s = path;
|
|
while(*path != '/' && *path != 0)
|
|
path++;
|
|
len = path - s;
|
|
if(len >= DIRSIZ)
|
|
memmove(name, s, DIRSIZ);
|
|
else{
|
|
memmove(name, s, len);
|
|
name[len] = 0;
|
|
}
|
|
while(*path == '/')
|
|
path++;
|
|
return path;
|
|
}
|
|
|
|
// Look up and return the inode for a path name.
|
|
// If parent is set, return the inode for the parent
|
|
// and write the final path element to name, which
|
|
// should have room for DIRSIZ bytes.
|
|
static struct inode*
|
|
_namei(char *path, int parent, char *name)
|
|
{
|
|
struct inode *ip, *next;
|
|
|
|
if(*path == '/')
|
|
ip = iget(ROOTDEV, 1);
|
|
else
|
|
ip = idup(cp->cwd);
|
|
|
|
while((path = skipelem(path, name)) != 0){
|
|
ilock(ip);
|
|
if(ip->type != T_DIR){
|
|
iunlockput(ip);
|
|
return 0;
|
|
}
|
|
if(parent && *path == '\0'){
|
|
// Stop one level early.
|
|
iunlock(ip);
|
|
return ip;
|
|
}
|
|
if((next = dirlookup(ip, name, 0)) == 0){
|
|
iunlockput(ip);
|
|
return 0;
|
|
}
|
|
iunlockput(ip);
|
|
ip = next;
|
|
}
|
|
if(parent){
|
|
iput(ip);
|
|
return 0;
|
|
}
|
|
return ip;
|
|
}
|
|
|
|
struct inode*
|
|
namei(char *path)
|
|
{
|
|
char name[DIRSIZ];
|
|
return _namei(path, 0, name);
|
|
}
|
|
struct inode*
|
|
nameiparent(char *path, char *name)
|
|
{
|
|
return _namei(path, 1, name);
|
|
}
|