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inode.c
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inode.c
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/*
This file contains the routines that manipulate inodes.
THIS CODE COPYRIGHT DOMINIC GIAMPAOLO. NO WARRANTY IS EXPRESSED
OR IMPLIED. YOU MAY USE THIS CODE AND FREELY DISTRIBUTE IT FOR
NON-COMMERCIAL USE AS LONG AS THIS NOTICE REMAINS ATTACHED.
FOR COMMERCIAL USE, CONTACT DOMINIC GIAMPAOLO ([email protected]).
Dominic Giampaolo
*/
#include "myfs.h"
int
myfs_create_inodes(myfs_info *myfs)
{
int bsize = myfs->dsb.block_size;
fs_off_t map_start;
fs_off_t inodes_start;
fs_off_t num_inodes;
fs_off_t num_map_blocks;
fs_off_t num_inode_blocks;
fs_off_t i;
void *block;
/* we allocate 1 inode for every 4 disk blocks */
num_inodes = (myfs->dsb.num_blocks >> 2);
num_inode_blocks = (num_inodes * sizeof(myfs_inode)) / bsize;
num_map_blocks = (num_inode_blocks / 8 / bsize) + 1;
printf("num inodes %ld num_map_blocks %ld num_inode blocks %ld\n",
num_inodes, num_map_blocks, num_inode_blocks);
if (pre_allocate_blocks(myfs, &num_map_blocks, &map_start) != 0) {
printf("failed to allocate inode map blocks\n");
return ENOSPC;
}
if (map_start != myfs->bbm.num_bitmap_blocks + 1)
printf("that's weird... map_start == %ld, not %ld\n",
map_start, myfs->bbm.num_bitmap_blocks);
if (pre_allocate_blocks(myfs, &num_inode_blocks, &inodes_start) != 0) {
printf("failed to allocate inode data blocks\n");
return ENOSPC;
}
if (inodes_start != map_start+num_map_blocks)
printf("that's weird inode_start == %ld not %ld\n", inodes_start,
map_start+num_map_blocks);
/* now we go through and zero out the inode map and the inode table */
block = get_tmp_blocks(myfs, 1);
memset(block, 0, bsize);
for(i=0; i < num_map_blocks; i++) {
if (write_blocks(myfs, map_start+i, block, 1) != 1) {
printf("error writing inode map block %ld\n", map_start+i);
break;
}
}
for(i=0; i < num_inode_blocks; i++) {
if (write_blocks(myfs, inodes_start+i, block, 1) != 1) {
printf("error writing inode data block %ld\n", inodes_start+i);
break;
}
}
free_tmp_blocks(myfs, block, 1);
myfs->dsb.num_inodes = num_inodes;
myfs->dsb.inodes_start = inodes_start;
myfs->dsb.num_inode_blocks = num_inode_blocks;
myfs->dsb.inode_map_start = map_start;
myfs->dsb.num_inode_map_blocks = num_map_blocks;
myfs->inode_map.bits = calloc(1, num_map_blocks * bsize);
myfs->inode_map.numbits = num_inodes;
if (myfs->inode_map.bits == NULL) {
printf("couldn't allocate space for the in memory inode map\n");
return ENOMEM;
}
/* allocate inode 0 so no one else gets (to enable better error checks) */
GetFreeRangeOfBits(&myfs->inode_map, 1, NULL);
write_blocks(myfs, map_start, myfs->inode_map.bits, 1);
return 0;
}
int
myfs_init_inodes(myfs_info *myfs)
{
int bsize = myfs->dsb.block_size;
int amt;
myfs->inode_map.bits = calloc(1, myfs->dsb.num_inode_map_blocks*bsize);
myfs->inode_map.numbits = myfs->dsb.num_inodes;
if (myfs->inode_map.bits == NULL)
return ENOMEM;
amt = read_blocks(myfs, myfs->dsb.inode_map_start,
myfs->inode_map.bits, myfs->dsb.num_inode_map_blocks);
if (amt != myfs->dsb.num_inode_map_blocks) {
printf("failed to read the inode map!\n");
return EINVAL;
}
return 0;
}
void
myfs_shutdown_inodes(myfs_info *myfs)
{
free(myfs->inode_map.bits);
myfs->inode_map.bits = NULL;
myfs->inode_map.numbits = 0;
}
myfs_inode *
myfs_allocate_inode(myfs_info *myfs, myfs_inode *parent, int mode)
{
int bsize = myfs->dsb.block_size;
int offset;
char tmp[IDENT_NAME_LENGTH];
char *block;
inode_addr ia;
myfs_inode *mi;
mi = (myfs_inode *)calloc(1, sizeof(myfs_inode));
if (mi == NULL)
return NULL;
mi->etc = calloc(1, sizeof(myfs_inode_etc));
if (mi->etc == NULL) {
free(mi);
return NULL;
}
ia = GetFreeRangeOfBits(&myfs->inode_map, 1, NULL);
if (ia < 0) {
free(mi->etc);
free(mi);
printf("no inodes left!\n");
return NULL;
}
mi->magic1 = INODE_MAGIC1;
mi->uid = getuid();
mi->gid = getgid();
mi->mode = mode;
mi->inode_num = ia;
mi->create_time = time(NULL);
mi->last_modified_time = mi->create_time;
sprintf(tmp, "ino#%ld", ia);
new_lock(&mi->etc->lock, tmp);
/*
now we write the updated inode map back to disk. we only write
the changed inode map block. the inode itself will be written
later in update_inode().
*/
block = (char *)myfs->inode_map.bits;
offset = (ia / 8 / bsize);
if (offset >= myfs->dsb.num_inode_map_blocks) {
myfs_die("inode map offset %d is too big (max %ld)\n",
offset, myfs->dsb.num_inode_map_blocks);
}
write_blocks(myfs, myfs->dsb.inode_map_start+offset,
&block[offset*bsize], 1);
return mi;
}
int
myfs_free_inode(myfs_info *myfs, inode_addr ia)
{
int bsize = myfs->dsb.block_size;
int offset;
char *block;
UnSetBV(&myfs->inode_map, ia);
/* now update the on-disk inode map. */
block = (char *)myfs->inode_map.bits;
offset = (ia / 8 / bsize);
write_blocks(myfs, myfs->dsb.inode_map_start+offset,
&block[offset*bsize], 1);
return 0;
}
int
update_inode(myfs_info *myfs, myfs_inode *mi)
{
int bsize = myfs->dsb.block_size, offset;
char *block;
fs_off_t addr;
addr = myfs->dsb.inodes_start + ((mi->inode_num*sizeof(myfs_inode))/bsize);
offset = (mi->inode_num % (bsize / sizeof(myfs_inode)))*sizeof(myfs_inode);
if (addr > myfs->dsb.inodes_start + myfs->dsb.num_inode_blocks)
myfs_die("error updating inode %ld: addr %ld out of range (max %ld)\n",
mi->inode_num,
addr,
myfs->dsb.inodes_start + myfs->dsb.num_inode_blocks);
block = get_block(myfs->fd, addr, bsize);
memcpy(&block[offset], mi, sizeof(myfs_inode));
mark_blocks_dirty(myfs->fd, addr, 1);
release_block(myfs->fd, addr);
return 0;
}