V6/usr/sys/ken/iget.c
#
#include "../param.h"
#include "../systm.h"
#include "../user.h"
#include "../inode.h"
#include "../filsys.h"
#include "../conf.h"
#include "../buf.h"
/*
* Look up an inode by device,inumber.
* If it is in core (in the inode structure),
* honor the locking protocol.
* If it is not in core, read it in from the
* specified device.
* If the inode is mounted on, perform
* the indicated indirection.
* In all cases, a pointer to a locked
* inode structure is returned.
*
* printf warning: no inodes -- if the inode
* structure is full
* panic: no imt -- if the mounted file
* system is not in the mount table.
* "cannot happen"
*/
iget(dev, ino)
{
register struct inode *p;
register *ip2;
int *ip1;
register struct mount *ip;
loop:
ip = NULL;
for(p = &inode[0]; p < &inode[NINODE]; p++) {
if(dev==p->i_dev && ino==p->i_number) {
if((p->i_flag&ILOCK) != 0) {
p->i_flag =| IWANT;
sleep(p, PINOD);
goto loop;
}
if((p->i_flag&IMOUNT) != 0) {
for(ip = &mount[0]; ip < &mount[NMOUNT]; ip++)
if(ip->m_inodp == p) {
dev = ip->m_dev;
ino = ROOTINO;
goto loop;
}
panic("no imt");
}
p->i_count++;
p->i_flag =| ILOCK;
return(p);
}
if(ip==NULL && p->i_count==0)
ip = p;
}
if((p=ip) == NULL) {
printf("Inode table overflow\n");
u.u_error = ENFILE;
return(NULL);
}
p->i_dev = dev;
p->i_number = ino;
p->i_flag = ILOCK;
p->i_count++;
p->i_lastr = -1;
ip = bread(dev, ldiv(ino+31,16));
/*
* Check I/O errors
*/
if (ip->b_flags&B_ERROR) {
brelse(ip);
iput(p);
return(NULL);
}
ip1 = ip->b_addr + 32*lrem(ino+31, 16);
ip2 = &p->i_mode;
while(ip2 < &p->i_addr[8])
*ip2++ = *ip1++;
brelse(ip);
return(p);
}
/*
* Decrement reference count of
* an inode structure.
* On the last reference,
* write the inode out and if necessary,
* truncate and deallocate the file.
*/
iput(p)
struct inode *p;
{
register *rp;
rp = p;
if(rp->i_count == 1) {
rp->i_flag =| ILOCK;
if(rp->i_nlink <= 0) {
itrunc(rp);
rp->i_mode = 0;
ifree(rp->i_dev, rp->i_number);
}
iupdat(rp, time);
prele(rp);
rp->i_flag = 0;
rp->i_number = 0;
}
rp->i_count--;
prele(rp);
}
/*
* Check accessed and update flags on
* an inode structure.
* If either is on, update the inode
* with the corresponding dates
* set to the argument tm.
*/
iupdat(p, tm)
int *p;
int *tm;
{
register *ip1, *ip2, *rp;
int *bp, i;
rp = p;
if((rp->i_flag&(IUPD|IACC)) != 0) {
if(getfs(rp->i_dev)->s_ronly)
return;
i = rp->i_number+31;
bp = bread(rp->i_dev, ldiv(i,16));
ip1 = bp->b_addr + 32*lrem(i, 16);
ip2 = &rp->i_mode;
while(ip2 < &rp->i_addr[8])
*ip1++ = *ip2++;
if(rp->i_flag&IACC) {
*ip1++ = time[0];
*ip1++ = time[1];
} else
ip1 =+ 2;
if(rp->i_flag&IUPD) {
*ip1++ = *tm++;
*ip1++ = *tm;
}
bwrite(bp);
}
}
/*
* Free all the disk blocks associated
* with the specified inode structure.
* The blocks of the file are removed
* in reverse order. This FILO
* algorithm will tend to maintain
* a contiguous free list much longer
* than FIFO.
*/
itrunc(ip)
int *ip;
{
register *rp, *bp, *cp;
int *dp, *ep;
rp = ip;
if((rp->i_mode&(IFCHR&IFBLK)) != 0)
return;
for(ip = &rp->i_addr[7]; ip >= &rp->i_addr[0]; ip--)
if(*ip) {
if((rp->i_mode&ILARG) != 0) {
bp = bread(rp->i_dev, *ip);
for(cp = bp->b_addr+512; cp >= bp->b_addr; cp--)
if(*cp) {
if(ip == &rp->i_addr[7]) {
dp = bread(rp->i_dev, *cp);
for(ep = dp->b_addr+512; ep >= dp->b_addr; ep--)
if(*ep)
free(rp->i_dev, *ep);
brelse(dp);
}
free(rp->i_dev, *cp);
}
brelse(bp);
}
free(rp->i_dev, *ip);
*ip = 0;
}
rp->i_mode =& ~ILARG;
rp->i_size0 = 0;
rp->i_size1 = 0;
rp->i_flag =| IUPD;
}
/*
* Make a new file.
*/
maknode(mode)
{
register *ip;
ip = ialloc(u.u_pdir->i_dev);
if (ip==NULL)
return(NULL);
ip->i_flag =| IACC|IUPD;
ip->i_mode = mode|IALLOC;
ip->i_nlink = 1;
ip->i_uid = u.u_uid;
ip->i_gid = u.u_gid;
wdir(ip);
return(ip);
}
/*
* Write a directory entry with
* parameters left as side effects
* to a call to namei.
*/
wdir(ip)
int *ip;
{
register char *cp1, *cp2;
u.u_dent.u_ino = ip->i_number;
cp1 = &u.u_dent.u_name[0];
for(cp2 = &u.u_dbuf[0]; cp2 < &u.u_dbuf[DIRSIZ];)
*cp1++ = *cp2++;
u.u_count = DIRSIZ+2;
u.u_segflg = 1;
u.u_base = &u.u_dent;
writei(u.u_pdir);
iput(u.u_pdir);
}