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#include "types.h"
#include "param.h"
#include "x86.h"
#include "mmu.h"
#include "proc.h"
#include "defs.h"
#include "spinlock.h"
#include "buf.h"
#include "fs.h"
#include "fsvar.h"
// these are inodes currently in use
// an entry is free if count == 0
struct inode inode[NINODE];
struct spinlock inode_table_lock = { "inode_table" };
uint rootdev = 1;
// returns an inode with busy set and incremented reference count.
struct inode *
iget(uint dev, uint inum)
{
struct inode *ip, *nip = 0;
struct dinode *dip;
struct buf *bp;
acquire(&inode_table_lock);
loop:
for(ip = &inode[0]; ip < &inode[NINODE]; ip++){
if(ip->count > 0 && ip->dev == dev && ip->inum == inum){
if(ip->busy){
sleep(ip, &inode_table_lock);
goto loop;
}
ip->count++;
release(&inode_table_lock);
return ip;
}
if(nip == 0 && ip->count == 0)
nip = ip;
}
if(nip == 0)
panic("out of inodes");
nip->dev = dev;
nip->inum = inum;
nip->count = 1;
nip->busy = 1;
release(&inode_table_lock);
bp = bread(dev, inum / IPB + 2);
dip = &((struct dinode *)(bp->data))[inum % IPB];
nip->type = dip->type;
nip->major = dip->major;
nip->minor = dip->minor;
nip->nlink = dip->nlink;
nip->size = dip->size;
memmove(nip->addrs, dip->addrs, sizeof(nip->addrs));
brelse(bp);
return nip;
}
// allocate an inode on disk
struct inode *
ialloc(uint dev, short type)
{
struct inode *ip;
struct dinode *dip = 0;
struct superblock *sb;
int ninodes;
int inum;
struct buf *bp;
bp = bread(dev, 1);
sb = (struct superblock *) bp;
ninodes = sb->ninodes;
brelse(bp);
for (inum = 1; inum < ninodes; inum++) { // loop over inode blocks
bp = bread(dev, inum / IPB + 2);
dip = &((struct dinode *)(bp->data))[inum % IPB];
if (dip->type == 0) { // a free inode
break;
}
brelse(bp);
}
if (inum >= ninodes) {
cprintf ("ialloc: no inodes left\n");
return 0;
}
cprintf ("ialloc: %d\n", inum);
dip->type = type;
bwrite (dev, bp, inum / IPB + 2); // mark it allocated on the disk
brelse(bp);
ip = iget (dev, inum);
return ip;
}
void
iupdate (struct inode *ip)
{
struct buf *bp;
struct dinode *dip;
bp = bread(ip->dev, ip->inum / IPB + 2);
dip = &((struct dinode *)(bp->data))[ip->inum % IPB];
dip->type = ip->type;
dip->major = ip->major;
dip->minor = ip->minor;
dip->nlink = ip->nlink;
dip->size = ip->size;
bwrite (ip->dev, bp, ip->inum / IPB + 2); // mark it allocated on the disk
brelse(bp);
}
void
ilock(struct inode *ip)
{
if(ip->count < 1)
panic("ilock");
acquire(&inode_table_lock);
while(ip->busy)
sleep(ip, &inode_table_lock);
ip->busy = 1;
release(&inode_table_lock);
}
// caller is holding onto a reference to this inode, but no
// longer needs to examine or change it, so clear ip->busy.
void
iunlock(struct inode *ip)
{
if(ip->busy != 1)
panic("iunlock");
acquire(&inode_table_lock);
ip->busy = 0;
wakeup(ip);
release(&inode_table_lock);
}
// caller is releasing a reference to this inode.
// you must have the inode lock.
void
iput(struct inode *ip)
{
if(ip->count < 1 || ip->busy != 1)
panic("iput");
acquire(&inode_table_lock);
ip->count -= 1;
ip->busy = 0;
wakeup(ip);
release(&inode_table_lock);
}
void
idecref(struct inode *ip)
{
acquire(&inode_table_lock);
if(ip->count < 1)
panic("idecref");
ip->count -= 1;
release(&inode_table_lock);
}
uint
bmap(struct inode *ip, uint bn)
{
unsigned x;
if(bn >= NDIRECT)
panic("bmap 1");
x = ip->addrs[bn];
if(x == 0)
panic("bmap 2");
return x;
}
#define min(a, b) ((a) < (b) ? (a) : (b))
int
readi(struct inode *ip, void *xdst, uint off, uint n)
{
char *dst = (char *) xdst;
uint target = n, n1;
struct buf *bp;
while(n > 0 && off < ip->size){
bp = bread(ip->dev, bmap(ip, off / 512));
n1 = min(n, ip->size - off);
n1 = min(n1, 512 - (off % 512));
memmove(dst, bp->data + (off % 512), n1);
n -= n1;
off += n1;
dst += n1;
brelse(bp);
}
return target - n;
}
struct inode *
namei(char *path)
{
struct inode *dp;
char *cp = path;
uint off, dev;
struct buf *bp;
struct dirent *ep;
int i;
unsigned ninum;
dp = iget(rootdev, 1);
while(*cp == '/')
cp++;
while(1){
if(*cp == '\0')
return dp;
if(dp->type != T_DIR){
iput(dp);
return 0;
}
for(off = 0; off < dp->size; off += 512){
bp = bread(dp->dev, bmap(dp, off / 512));
for(ep = (struct dirent *) bp->data;
ep < (struct dirent *) (bp->data + 512);
ep++){
if(ep->inum == 0)
continue;
for(i = 0; i < DIRSIZ && cp[i] != '/' && cp[i]; i++)
if(cp[i] != ep->name[i])
break;
if((cp[i] == '\0' || cp[i] == '/') && (i >= DIRSIZ || ep->name[i] == '\0')){
ninum = ep->inum;
brelse(bp);
cp += i;
goto found;
}
}
brelse(bp);
}
iput(dp);
return 0;
found:
dev = dp->dev;
iput(dp);
dp = iget(dev, ninum);
while(*cp == '/')
cp++;
}
}
struct inode *
mknod(struct inode *dp, char *cp, short type, short major, short minor)
{
struct inode *ip;
struct dirent *ep = 0;
int off;
int i;
struct buf *bp = 0;
cprintf("mknod: %s %d %d %d\n", cp, type, major, minor);
ip = ialloc(dp->dev, type);
if (ip == 0) return 0;
ip->major = major;
ip->minor = minor;
for(off = 0; off < dp->size; off += 512) {
bp = bread(dp->dev, bmap(dp, off / 512));
for(ep = (struct dirent *) bp->data;
ep < (struct dirent *) (bp->data + 512);
ep++){
if(ep->inum == 0) {
goto found;
}
}
brelse(bp);
}
panic("mknod: no dir entry free\n");
found:
ep->inum = ip->inum;
for(i = 0; i < DIRSIZ && cp[i]; i++) ep->name[i] = cp[i];
bwrite (dp->dev, bp, bmap(dp, off/512)); // write directory
brelse(bp);
iupdate (ip);
return ip;
}
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