6c8f7fc3ba
. add all sys/sys headers not already present to help compiling . take netbsd dirent.h and struct dirent; main result is introducing d_type and d_namlen that have to be set by getdents() in all FS code implementing it . d_off is gone . alignment of the struct has become 8 bytes instead of 4 . remove _MAX_BLOCK_SIZE, _MIN_BLOCK_SIZE, _STATIC_BLOCK_SIZE . libminlib: cleanup unused yet duplicate code . mfs: throw out the long-broken v1, v2 support . new test for dirent contents filled by getdents() Change-Id: I1459755c7ba5e5d1c9396d3a587ce6e63ddc283e
443 lines
15 KiB
C
443 lines
15 KiB
C
/* This file manages the super block structure.
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*
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* The entry points into this file are
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* get_super: search the 'superblock' table for a device
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* read_super: read a superblock
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*
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* Created (MFS based):
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* February 2010 (Evgeniy Ivanov)
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*/
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#include "fs.h"
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#include <string.h>
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#include <stdlib.h>
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#include <assert.h>
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#include <minix/com.h>
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#include <minix/u64.h>
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#include <minix/bdev.h>
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#include <machine/vmparam.h>
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#include "buf.h"
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#include "inode.h"
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#include "super.h"
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#include "const.h"
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static off_t ext2_max_size(int block_size);
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static u32_t ext2_count_dirs(struct super_block *sp);
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static void super_copy(register struct super_block *dest, register
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struct super_block *source);
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static void copy_group_descriptors(register struct group_desc
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*dest_array, register struct group_desc *source_array, unsigned int
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ngroups);
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static off_t super_block_offset;
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/*===========================================================================*
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* get_super *
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*===========================================================================*/
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struct super_block *get_super(
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dev_t dev /* device number whose super_block is sought */
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)
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{
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if (dev == NO_DEV)
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panic("request for super_block of NO_DEV");
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if (superblock->s_dev != dev)
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panic("wrong superblock: 0x%x", (int) dev);
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return(superblock);
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}
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/*===========================================================================*
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* get_block_size *
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*===========================================================================*/
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unsigned int get_block_size(dev_t dev)
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{
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if (dev == NO_DEV)
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panic("request for block size of NO_DEV");
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return(lmfs_fs_block_size());
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}
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static struct group_desc *ondisk_group_descs;
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/*===========================================================================*
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* read_super *
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*===========================================================================*/
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int read_super(sp)
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register struct super_block *sp; /* pointer to a superblock */
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{
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/* Read a superblock. */
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dev_t dev;
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int r;
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/* group descriptors, sp->s_group_desc points to this. */
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static struct group_desc *group_descs;
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char *buf;
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block_t gd_size; /* group descriptors table size in blocks */
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int gdt_position;
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static char superblock_buf[1024];
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ondisk_superblock = (struct super_block *) superblock_buf;
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dev = sp->s_dev; /* save device (will be overwritten by copy) */
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if (dev == NO_DEV)
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panic("request for super_block of NO_DEV");
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if (opt.block_with_super == 0) {
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super_block_offset = SUPER_BLOCK_BYTES;
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} else {
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/* The block number here uses 1k units */
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super_block_offset = opt.block_with_super * 1024;
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}
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r = bdev_read(dev, ((u64_t)(super_block_offset)), (char*) ondisk_superblock,
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sizeof(superblock_buf), BDEV_NOFLAGS);
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if (r != sizeof(superblock_buf))
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return(EINVAL);
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super_copy(sp, ondisk_superblock);
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sp->s_dev = NO_DEV; /* restore later */
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if (sp->s_magic != SUPER_MAGIC)
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return(EINVAL);
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sp->s_block_size = 1024*(1<<sp->s_log_block_size);
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if (sp->s_block_size < PAGE_SIZE) {
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printf("data block size (%u) is invalid\n", sp->s_block_size);
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return(EINVAL);
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}
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if ((sp->s_block_size % 512) != 0)
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return(EINVAL);
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if (SUPER_SIZE_D > sp->s_block_size)
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return(EINVAL);
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/* Variable added for convinience (i_blocks counts 512-byte blocks). */
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sp->s_sectors_in_block = sp->s_block_size / 512;
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/* TODO: this code is for revision 1 (but bw compatible with 0)
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* inode must be power of 2 and smaller, than block size.
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*/
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if ((EXT2_INODE_SIZE(sp) & (EXT2_INODE_SIZE(sp) - 1)) != 0
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|| EXT2_INODE_SIZE(sp) > sp->s_block_size) {
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printf("superblock->s_inode_size is incorrect...\n");
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return(EINVAL);
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}
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sp->s_blocksize_bits = sp->s_log_block_size + 10;
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sp->s_max_size = ext2_max_size(sp->s_block_size);
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sp->s_inodes_per_block = sp->s_block_size / EXT2_INODE_SIZE(sp);
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if (sp->s_inodes_per_block == 0 || sp->s_inodes_per_group == 0) {
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printf("either inodes_per_block or inodes_per_group count is 0\n");
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return(EINVAL);
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}
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sp->s_itb_per_group = sp->s_inodes_per_group / sp->s_inodes_per_block;
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sp->s_desc_per_block = sp->s_block_size / sizeof(struct group_desc);
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sp->s_groups_count = ((sp->s_blocks_count - sp->s_first_data_block - 1)
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/ sp->s_blocks_per_group) + 1;
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/* ceil(groups_count/desc_per_block) */
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sp->s_gdb_count = (sp->s_groups_count + sp->s_desc_per_block - 1)
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/ sp->s_desc_per_block;
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gd_size = sp->s_gdb_count * sp->s_block_size;
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buf = 0;
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STATICINIT(buf, gd_size);
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group_descs = (struct group_desc *) buf;
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buf = 0;
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STATICINIT(buf, gd_size);
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ondisk_group_descs = (struct group_desc *) buf;
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if (!group_descs || !ondisk_group_descs)
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panic("can't allocate memory for gdt buffer");
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/* s_first_data_block (block number, where superblock is stored)
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* is 1 for 1Kb blocks and 0 for larger blocks.
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* For fs with 1024-byte blocks first 1024 bytes (block0) used by MBR,
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* and block1 stores superblock. When block size is larger, block0 stores
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* both MBR and superblock, but gdt lives in next block anyway.
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* If sb=N was specified, then gdt is stored in N+1 block, the block number
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* here uses 1k units.
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*
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*/
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if (opt.block_with_super == 0) {
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gdt_position = (sp->s_first_data_block + 1) * sp->s_block_size;
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} else {
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gdt_position = (opt.block_with_super + 1) * 1024;
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}
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r = bdev_read(dev, ((u64_t)(gdt_position)), (char*) ondisk_group_descs,
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gd_size, BDEV_NOFLAGS);
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if (r != (ssize_t) gd_size) {
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printf("Can not read group descriptors\n");
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return(EINVAL);
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}
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/* TODO: check descriptors we just read */
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copy_group_descriptors(group_descs, ondisk_group_descs, sp->s_groups_count);
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sp->s_group_desc = group_descs;
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/* Make a few basic checks to see if super block looks reasonable. */
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if (sp->s_inodes_count < 1 || sp->s_blocks_count < 1) {
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printf("not enough inodes or data blocks, \n");
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return(EINVAL);
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}
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sp->s_dirs_counter = ext2_count_dirs(sp);
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/* Start block search from this block.
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* We skip superblock (1 block), group descriptors blocks (sp->s_gdb_count)
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* block and inode bitmaps (2 blocks) and inode table.
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*/
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sp->s_bsearch = sp->s_first_data_block + 1 + sp->s_gdb_count + 2
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+ sp->s_itb_per_group;
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sp->s_igsearch = 0;
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sp->s_dev = dev; /* restore device number */
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return(OK);
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}
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/*===========================================================================*
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* write_super *
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*===========================================================================*/
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void write_super(sp)
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struct super_block *sp; /* pointer to a superblock */
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{
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/* Write a superblock and gdt. */
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int r;
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block_t gd_size; /* group descriptors table size in blocks */
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int gdt_position;
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if (sp->s_rd_only)
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panic("can't write superblock on read-only filesys.");
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if (sp->s_dev == NO_DEV)
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panic("request to write super_block, but NO_DEV");
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super_copy(ondisk_superblock, sp);
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r = bdev_write(sp->s_dev, ((u64_t)(super_block_offset)), (char *) sp,
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SUPER_SIZE_D, BDEV_NOFLAGS);
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if (r != SUPER_SIZE_D)
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printf("ext2: Warning, failed to write superblock to the disk!\n");
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if (group_descriptors_dirty) {
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/* Locate the appropriate super_block. */
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gd_size = sp->s_gdb_count * sp->s_block_size;
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if (opt.block_with_super == 0) {
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gdt_position = (sp->s_first_data_block + 1) * sp->s_block_size;
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} else {
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gdt_position = (opt.block_with_super + 1) * 1024;
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}
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copy_group_descriptors(ondisk_group_descs, sp->s_group_desc,
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sp->s_groups_count);
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r = bdev_write(sp->s_dev, ((u64_t)(gdt_position)),
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(char*) ondisk_group_descs, gd_size, BDEV_NOFLAGS);
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if (r != (ssize_t) gd_size) {
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printf("Can not write group descriptors\n");
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}
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group_descriptors_dirty = 0;
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}
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}
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/*===========================================================================*
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* get_group_desc *
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*===========================================================================*/
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struct group_desc* get_group_desc(unsigned int bnum)
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{
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if (bnum >= superblock->s_groups_count) {
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printf("ext2, get_group_desc: wrong bnum (%d) requested\n", bnum);
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return NULL;
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}
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return &superblock->s_group_desc[bnum];
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}
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static u32_t ext2_count_dirs(struct super_block *sp)
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{
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u32_t count = 0;
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unsigned int i;
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for (i = 0; i < sp->s_groups_count; i++) {
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struct group_desc *desc = get_group_desc(i);
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if (!desc)
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continue; /* TODO: fail? */
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count += desc->used_dirs_count;
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}
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return count;
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}
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/*===========================================================================*
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* ext2_max_size *
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*===========================================================================*/
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/* There are several things, which affect max filesize:
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* - inode.i_blocks (512-byte blocks) is limited to (2^32 - 1).
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* - number of addressed direct, single, double and triple indirect blocks.
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* Number of addressed blocks depends on block_size only, thus unlike in
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* linux (ext2_max_size) we do not make calculations, but use constants
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* for different block sizes. Calculations (gcc code) are commented.
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* Note: linux ext2_max_size makes calculated based on shifting, not
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* arithmetics.
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* (!!!)Note: constants hardly tight to EXT2_NDIR_BLOCKS, but I doubt its value
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* will be changed someday. So if it's changed, then just recalculate constatns.
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* Anyway this function is safe for any change.
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* Note: there is also limitation from VFS (to LONG_MAX, i.e. 2GB).
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*/
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static off_t ext2_max_size(int block_size)
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{
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/* 12 is EXT2_NDIR_BLOCKS used in calculations. */
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if (EXT2_NDIR_BLOCKS != 12)
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panic("ext2_max_size needs modification!");
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switch(block_size) {
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case 1024: return LONG_MAX; /* actually 17247252480 */
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case 2048: return LONG_MAX; /* 275415851008 */
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case 4096: return LONG_MAX; /* 2194719883264 */
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default: {
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ext2_debug("ext2_max_size: Unsupported block_size! \
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Assuming bs is 1024 bytes\n");
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return 67383296L;
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}
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}
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#if 0
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long addr_in_block = block_size/4; /* 4 bytes per addr */
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long sectors_in_block = block_size/512;
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long long meta_blocks; /* single, double and triple indirect blocks */
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unsigned long long out_range_s; /* max blocks addressed by inode */
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unsigned long long max_bytes;
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unsigned long long upper_limit;
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/* 1 indirect block, 1 + addr_in_block dindirect and 1 + addr_in_block +
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* + addr_in_block*addr_in_block triple indirect blocks */
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meta_blocks = 2*addr_in_block + addr_in_block*addr_in_block + 3;
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out_range_s = EXT2_NDIR_BLOCKS + addr_in_block + addr_in_block * addr_in_block
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+ addr_in_block * addr_in_block * addr_in_block;
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max_bytes = out_range_s * block_size;
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upper_limit = (1LL << 32) - 1; /* max 512-byte blocks by i_blocks */
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upper_limit /= sectors_in_block; /* total block_size blocks */
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upper_limit -= meta_blocks; /* total data blocks */
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upper_limit *= (long long)block_size; /* max size in bytes */
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if (max_bytes > upper_limit)
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max_bytes = upper_limit;
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/* Limit s_max_size to LONG_MAX */
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if (max_bytes > LONG_MAX)
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max_bytes = LONG_MAX;
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return max_bytes;
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#endif
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}
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/*===========================================================================*
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* super_copy *
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*===========================================================================*/
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static void super_copy(
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register struct super_block *dest,
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register struct super_block *source
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)
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/* Note: we don't convert stuff, used in ext3. */
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{
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/* Copy super_block to the in-core table, swapping bytes if need be. */
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if (le_CPU) {
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/* Just use memcpy */
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memcpy(dest, source, SUPER_SIZE_D);
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return;
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}
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dest->s_inodes_count = conv4(le_CPU, source->s_inodes_count);
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dest->s_blocks_count = conv4(le_CPU, source->s_blocks_count);
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dest->s_r_blocks_count = conv4(le_CPU, source->s_r_blocks_count);
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dest->s_free_blocks_count = conv4(le_CPU, source->s_free_blocks_count);
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dest->s_free_inodes_count = conv4(le_CPU, source->s_free_inodes_count);
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dest->s_first_data_block = conv4(le_CPU, source->s_first_data_block);
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dest->s_log_block_size = conv4(le_CPU, source->s_log_block_size);
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dest->s_log_frag_size = conv4(le_CPU, source->s_log_frag_size);
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dest->s_blocks_per_group = conv4(le_CPU, source->s_blocks_per_group);
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dest->s_frags_per_group = conv4(le_CPU, source->s_frags_per_group);
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dest->s_inodes_per_group = conv4(le_CPU, source->s_inodes_per_group);
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dest->s_mtime = conv4(le_CPU, source->s_mtime);
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dest->s_wtime = conv4(le_CPU, source->s_wtime);
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dest->s_mnt_count = conv2(le_CPU, source->s_mnt_count);
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dest->s_max_mnt_count = conv2(le_CPU, source->s_max_mnt_count);
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dest->s_magic = conv2(le_CPU, source->s_magic);
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dest->s_state = conv2(le_CPU, source->s_state);
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dest->s_errors = conv2(le_CPU, source->s_errors);
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dest->s_minor_rev_level = conv2(le_CPU, source->s_minor_rev_level);
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dest->s_lastcheck = conv4(le_CPU, source->s_lastcheck);
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dest->s_checkinterval = conv4(le_CPU, source->s_checkinterval);
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dest->s_creator_os = conv4(le_CPU, source->s_creator_os);
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dest->s_rev_level = conv4(le_CPU, source->s_rev_level);
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dest->s_def_resuid = conv2(le_CPU, source->s_def_resuid);
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dest->s_def_resgid = conv2(le_CPU, source->s_def_resgid);
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dest->s_first_ino = conv4(le_CPU, source->s_first_ino);
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dest->s_inode_size = conv2(le_CPU, source->s_inode_size);
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dest->s_block_group_nr = conv2(le_CPU, source->s_block_group_nr);
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dest->s_feature_compat = conv4(le_CPU, source->s_feature_compat);
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dest->s_feature_incompat = conv4(le_CPU, source->s_feature_incompat);
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dest->s_feature_ro_compat = conv4(le_CPU, source->s_feature_ro_compat);
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memcpy(dest->s_uuid, source->s_uuid, sizeof(dest->s_uuid));
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memcpy(dest->s_volume_name, source->s_volume_name,
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sizeof(dest->s_volume_name));
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memcpy(dest->s_last_mounted, source->s_last_mounted,
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sizeof(dest->s_last_mounted));
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dest->s_algorithm_usage_bitmap =
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conv4(le_CPU, source->s_algorithm_usage_bitmap);
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dest->s_prealloc_blocks = source->s_prealloc_blocks;
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dest->s_prealloc_dir_blocks = source->s_prealloc_dir_blocks;
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dest->s_padding1 = conv2(le_CPU, source->s_padding1);
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}
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/*===========================================================================*
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* gd_copy *
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*===========================================================================*/
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static void gd_copy(
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register struct group_desc *dest,
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register struct group_desc *source
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)
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{
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/* Copy super_block to the in-core table, swapping bytes if need be. */
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if (le_CPU) {
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/* Just use memcpy */
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memcpy(dest, source, sizeof(struct group_desc));
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return;
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}
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dest->block_bitmap = conv4(le_CPU, source->block_bitmap);
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dest->inode_bitmap = conv4(le_CPU, source->inode_bitmap);
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dest->inode_table = conv4(le_CPU, source->inode_table);
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dest->free_blocks_count = conv2(le_CPU, source->free_blocks_count);
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dest->free_inodes_count = conv2(le_CPU, source->free_inodes_count);
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dest->used_dirs_count = conv2(le_CPU, source->used_dirs_count);
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}
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/*===========================================================================*
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* copy_group_descriptors *
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*===========================================================================*/
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static void copy_group_descriptors(
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register struct group_desc *dest_array,
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register struct group_desc *source_array,
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unsigned int ngroups
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)
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{
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unsigned int i;
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for (i = 0; i < ngroups; i++)
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gd_copy(&dest_array[i], &source_array[i]);
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}
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