minix/servers/ext2/super.c

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/* This file manages the super block structure.
*
* The entry points into this file are
* get_super: search the 'superblock' table for a device
* read_super: read a superblock
*
* Created (MFS based):
* February 2010 (Evgeniy Ivanov)
*/
#include "fs.h"
#include <string.h>
#include <stdlib.h>
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#include <assert.h>
#include <minix/com.h>
#include <minix/u64.h>
#include <minix/bdev.h>
#include "buf.h"
#include "inode.h"
#include "super.h"
#include "const.h"
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static off_t ext2_max_size(int block_size);
static u32_t ext2_count_dirs(struct super_block *sp);
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static void super_copy(register struct super_block *dest, register
struct super_block *source);
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static void copy_group_descriptors(register struct group_desc
*dest_array, register struct group_desc *source_array, unsigned int
ngroups);
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static off_t super_block_offset;
/*===========================================================================*
* get_super *
*===========================================================================*/
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struct super_block *get_super(
dev_t dev /* device number whose super_block is sought */
)
{
if (dev == NO_DEV)
panic("request for super_block of NO_DEV");
if (superblock->s_dev != dev)
panic("wrong superblock", (int) dev);
return(superblock);
}
/*===========================================================================*
* get_block_size *
*===========================================================================*/
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unsigned int get_block_size(dev_t dev)
{
if (dev == NO_DEV)
panic("request for block size of NO_DEV");
return(fs_block_size);
}
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static struct group_desc *ondisk_group_descs;
/*===========================================================================*
* read_super *
*===========================================================================*/
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int read_super(sp)
register struct super_block *sp; /* pointer to a superblock */
{
/* Read a superblock. */
dev_t dev;
int r;
/* group descriptors, sp->s_group_desc points to this. */
static struct group_desc *group_descs;
char *buf;
block_t gd_size; /* group descriptors table size in blocks */
int gdt_position;
dev = sp->s_dev; /* save device (will be overwritten by copy) */
if (dev == NO_DEV)
panic("request for super_block of NO_DEV");
if (opt.block_with_super == 0) {
super_block_offset = SUPER_BLOCK_BYTES;
} else {
/* The block number here uses 1k units */
super_block_offset = opt.block_with_super * 1024;
}
STATICINIT(ondisk_superblock, 1);
if (!sp || !ondisk_superblock)
panic("can't allocate memory for super_block buffers");
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assert(_MIN_BLOCK_SIZE <= sizeof(*ondisk_superblock));
r = bdev_read(dev, cvu64(super_block_offset), (char*) ondisk_superblock,
_MIN_BLOCK_SIZE, BDEV_NOFLAGS);
if (r != _MIN_BLOCK_SIZE)
return(EINVAL);
super_copy(sp, ondisk_superblock);
sp->s_dev = NO_DEV; /* restore later */
if (sp->s_magic != SUPER_MAGIC)
return(EINVAL);
sp->s_block_size = 1024*(1<<sp->s_log_block_size);
if (sp->s_block_size < _MIN_BLOCK_SIZE
|| sp->s_block_size >_MAX_BLOCK_SIZE) {
return(EINVAL);
printf("data block size is too large\n");
}
if ((sp->s_block_size % 512) != 0)
return(EINVAL);
if (SUPER_SIZE_D > sp->s_block_size)
return(EINVAL);
/* Variable added for convinience (i_blocks counts 512-byte blocks). */
sp->s_sectors_in_block = sp->s_block_size / 512;
/* TODO: this code is for revision 1 (but bw compatible with 0)
* inode must be power of 2 and smaller, than block size.
*/
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if ((EXT2_INODE_SIZE(sp) & (EXT2_INODE_SIZE(sp) - 1)) != 0
|| EXT2_INODE_SIZE(sp) > sp->s_block_size) {
printf("superblock->s_inode_size is incorrect...\n");
return(EINVAL);
}
sp->s_blocksize_bits = sp->s_log_block_size + 10;
sp->s_max_size = ext2_max_size(sp->s_block_size);
sp->s_inodes_per_block = sp->s_block_size / EXT2_INODE_SIZE(sp);
if (sp->s_inodes_per_block == 0 || sp->s_inodes_per_group == 0) {
printf("either inodes_per_block or inodes_per_group count is 0\n");
return(EINVAL);
}
sp->s_itb_per_group = sp->s_inodes_per_group / sp->s_inodes_per_block;
sp->s_desc_per_block = sp->s_block_size / sizeof(struct group_desc);
sp->s_groups_count = ((sp->s_blocks_count - sp->s_first_data_block - 1)
/ sp->s_blocks_per_group) + 1;
/* ceil(groups_count/desc_per_block) */
sp->s_gdb_count = (sp->s_groups_count + sp->s_desc_per_block - 1)
/ sp->s_desc_per_block;
gd_size = sp->s_gdb_count * sp->s_block_size;
buf = 0;
STATICINIT(buf, gd_size);
group_descs = (struct group_desc *) buf;
buf = 0;
STATICINIT(buf, gd_size);
ondisk_group_descs = (struct group_desc *) buf;
if (!group_descs || !ondisk_group_descs)
panic("can't allocate memory for gdt buffer");
/* s_first_data_block (block number, where superblock is stored)
* is 1 for 1Kb blocks and 0 for larger blocks.
* For fs with 1024-byte blocks first 1024 bytes (block0) used by MBR,
* and block1 stores superblock. When block size is larger, block0 stores
* both MBR and superblock, but gdt lives in next block anyway.
* If sb=N was specified, then gdt is stored in N+1 block, the block number
* here uses 1k units.
*
*/
if (opt.block_with_super == 0) {
gdt_position = (sp->s_first_data_block + 1) * sp->s_block_size;
} else {
gdt_position = (opt.block_with_super + 1) * 1024;
}
r = bdev_read(dev, cvu64(gdt_position), (char*) ondisk_group_descs,
gd_size, BDEV_NOFLAGS);
Split block/character protocols and libdriver This patch separates the character and block driver communication protocols. The old character protocol remains the same, but a new block protocol is introduced. The libdriver library is replaced by two new libraries: libchardriver and libblockdriver. Their exposed API, and drivers that use them, have been updated accordingly. Together, libbdev and libblockdriver now completely abstract away the message format used by the block protocol. As the memory driver is both a character and a block device driver, it now implements its own message loop. The most important semantic change made to the block protocol is that it is no longer possible to return both partial results and an error for a single transfer. This simplifies the interaction between the caller and the driver, as the I/O vector no longer needs to be copied back. Also, drivers are now no longer supposed to decide based on the layout of the I/O vector when a transfer should be cut short. Put simply, transfers are now supposed to either succeed completely, or result in an error. After this patch, the state of the various pieces is as follows: - block protocol: stable - libbdev API: stable for synchronous communication - libblockdriver API: needs slight revision (the drvlib/partition API in particular; the threading API will also change shortly) - character protocol: needs cleanup - libchardriver API: needs cleanup accordingly - driver restarts: largely unsupported until endpoint changes are reintroduced As a side effect, this patch eliminates several bugs, hacks, and gcc -Wall and -W warnings all over the place. It probably introduces a few new ones, too. Update warning: this patch changes the protocol between MFS and disk drivers, so in order to use old/new images, the MFS from the ramdisk must be used to mount all file systems.
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if (r != (ssize_t) gd_size) {
printf("Can not read group descriptors\n");
return(EINVAL);
}
/* TODO: check descriptors we just read */
copy_group_descriptors(group_descs, ondisk_group_descs, sp->s_groups_count);
sp->s_group_desc = group_descs;
/* Make a few basic checks to see if super block looks reasonable. */
if (sp->s_inodes_count < 1 || sp->s_blocks_count < 1) {
printf("not enough inodes or data blocks, \n");
return(EINVAL);
}
sp->s_dirs_counter = ext2_count_dirs(sp);
/* Start block search from this block.
* We skip superblock (1 block), group descriptors blocks (sp->s_gdb_count)
* block and inode bitmaps (2 blocks) and inode table.
*/
sp->s_bsearch = sp->s_first_data_block + 1 + sp->s_gdb_count + 2
+ sp->s_itb_per_group;
sp->s_igsearch = 0;
sp->s_dev = dev; /* restore device number */
return(OK);
}
/*===========================================================================*
* write_super *
*===========================================================================*/
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void write_super(sp)
struct super_block *sp; /* pointer to a superblock */
{
/* Write a superblock and gdt. */
int r;
block_t gd_size; /* group descriptors table size in blocks */
int gdt_position;
if (sp->s_rd_only)
panic("can't write superblock on read-only filesys.");
if (sp->s_dev == NO_DEV)
panic("request to write super_block, but NO_DEV");
super_copy(ondisk_superblock, sp);
r = bdev_write(sp->s_dev, cvu64(super_block_offset), (char *) sp,
SUPER_SIZE_D, BDEV_NOFLAGS);
if (r != SUPER_SIZE_D)
printf("ext2: Warning, failed to write superblock to the disk!\n");
if (group_descriptors_dirty == DIRTY) {
/* Locate the appropriate super_block. */
gd_size = sp->s_gdb_count * sp->s_block_size;
if (opt.block_with_super == 0) {
gdt_position = (sp->s_first_data_block + 1) * sp->s_block_size;
} else {
gdt_position = (opt.block_with_super + 1) * 1024;
}
copy_group_descriptors(ondisk_group_descs, sp->s_group_desc,
sp->s_groups_count);
r = bdev_write(sp->s_dev, cvu64(gdt_position),
(char*) ondisk_group_descs, gd_size, BDEV_NOFLAGS);
Split block/character protocols and libdriver This patch separates the character and block driver communication protocols. The old character protocol remains the same, but a new block protocol is introduced. The libdriver library is replaced by two new libraries: libchardriver and libblockdriver. Their exposed API, and drivers that use them, have been updated accordingly. Together, libbdev and libblockdriver now completely abstract away the message format used by the block protocol. As the memory driver is both a character and a block device driver, it now implements its own message loop. The most important semantic change made to the block protocol is that it is no longer possible to return both partial results and an error for a single transfer. This simplifies the interaction between the caller and the driver, as the I/O vector no longer needs to be copied back. Also, drivers are now no longer supposed to decide based on the layout of the I/O vector when a transfer should be cut short. Put simply, transfers are now supposed to either succeed completely, or result in an error. After this patch, the state of the various pieces is as follows: - block protocol: stable - libbdev API: stable for synchronous communication - libblockdriver API: needs slight revision (the drvlib/partition API in particular; the threading API will also change shortly) - character protocol: needs cleanup - libchardriver API: needs cleanup accordingly - driver restarts: largely unsupported until endpoint changes are reintroduced As a side effect, this patch eliminates several bugs, hacks, and gcc -Wall and -W warnings all over the place. It probably introduces a few new ones, too. Update warning: this patch changes the protocol between MFS and disk drivers, so in order to use old/new images, the MFS from the ramdisk must be used to mount all file systems.
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if (r != (ssize_t) gd_size) {
printf("Can not write group descriptors\n");
}
group_descriptors_dirty = CLEAN;
}
}
/*===========================================================================*
* get_group_desc *
*===========================================================================*/
struct group_desc* get_group_desc(unsigned int bnum)
{
if (bnum >= superblock->s_groups_count) {
printf("ext2, get_group_desc: wrong bnum (%d) requested\n", bnum);
return NULL;
}
return &superblock->s_group_desc[bnum];
}
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static u32_t ext2_count_dirs(struct super_block *sp)
{
u32_t count = 0;
Split block/character protocols and libdriver This patch separates the character and block driver communication protocols. The old character protocol remains the same, but a new block protocol is introduced. The libdriver library is replaced by two new libraries: libchardriver and libblockdriver. Their exposed API, and drivers that use them, have been updated accordingly. Together, libbdev and libblockdriver now completely abstract away the message format used by the block protocol. As the memory driver is both a character and a block device driver, it now implements its own message loop. The most important semantic change made to the block protocol is that it is no longer possible to return both partial results and an error for a single transfer. This simplifies the interaction between the caller and the driver, as the I/O vector no longer needs to be copied back. Also, drivers are now no longer supposed to decide based on the layout of the I/O vector when a transfer should be cut short. Put simply, transfers are now supposed to either succeed completely, or result in an error. After this patch, the state of the various pieces is as follows: - block protocol: stable - libbdev API: stable for synchronous communication - libblockdriver API: needs slight revision (the drvlib/partition API in particular; the threading API will also change shortly) - character protocol: needs cleanup - libchardriver API: needs cleanup accordingly - driver restarts: largely unsupported until endpoint changes are reintroduced As a side effect, this patch eliminates several bugs, hacks, and gcc -Wall and -W warnings all over the place. It probably introduces a few new ones, too. Update warning: this patch changes the protocol between MFS and disk drivers, so in order to use old/new images, the MFS from the ramdisk must be used to mount all file systems.
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unsigned int i;
for (i = 0; i < sp->s_groups_count; i++) {
struct group_desc *desc = get_group_desc(i);
if (!desc)
continue; /* TODO: fail? */
count += desc->used_dirs_count;
}
return count;
}
/*===========================================================================*
* ext2_max_size *
*===========================================================================*/
/* There are several things, which affect max filesize:
* - inode.i_blocks (512-byte blocks) is limited to (2^32 - 1).
* - number of addressed direct, single, double and triple indirect blocks.
* Number of addressed blocks depends on block_size only, thus unlike in
* linux (ext2_max_size) we do not make calculations, but use constants
* for different block sizes. Calculations (gcc code) are commented.
* Note: linux ext2_max_size makes calculated based on shifting, not
* arithmetics.
* (!!!)Note: constants hardly tight to EXT2_NDIR_BLOCKS, but I doubt its value
* will be changed someday. So if it's changed, then just recalculate constatns.
* Anyway this function is safe for any change.
* Note: there is also limitation from VFS (to LONG_MAX, i.e. 2GB).
*/
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static off_t ext2_max_size(int block_size)
{
/* 12 is EXT2_NDIR_BLOCKS used in calculations. */
if (EXT2_NDIR_BLOCKS != 12)
panic("ext2_max_size needs modification!");
switch(block_size) {
case 1024: return LONG_MAX; /* actually 17247252480 */
case 2048: return LONG_MAX; /* 275415851008 */
case 4096: return LONG_MAX; /* 2194719883264 */
default: {
ext2_debug("ext2_max_size: Unsupported block_size! \
Assuming bs is 1024 bytes\n");
return 67383296L;
}
}
#if 0
long addr_in_block = block_size/4; /* 4 bytes per addr */
long sectors_in_block = block_size/512;
long long meta_blocks; /* single, double and triple indirect blocks */
unsigned long long out_range_s; /* max blocks addressed by inode */
unsigned long long max_bytes;
unsigned long long upper_limit;
/* 1 indirect block, 1 + addr_in_block dindirect and 1 + addr_in_block +
* + addr_in_block*addr_in_block triple indirect blocks */
meta_blocks = 2*addr_in_block + addr_in_block*addr_in_block + 3;
out_range_s = EXT2_NDIR_BLOCKS + addr_in_block + addr_in_block * addr_in_block
+ addr_in_block * addr_in_block * addr_in_block;
max_bytes = out_range_s * block_size;
upper_limit = (1LL << 32) - 1; /* max 512-byte blocks by i_blocks */
upper_limit /= sectors_in_block; /* total block_size blocks */
upper_limit -= meta_blocks; /* total data blocks */
upper_limit *= (long long)block_size; /* max size in bytes */
if (max_bytes > upper_limit)
max_bytes = upper_limit;
/* Limit s_max_size to LONG_MAX */
if (max_bytes > LONG_MAX)
max_bytes = LONG_MAX;
return max_bytes;
#endif
}
/*===========================================================================*
* super_copy *
*===========================================================================*/
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static void super_copy(
register struct super_block *dest,
register struct super_block *source
)
/* Note: we don't convert stuff, used in ext3. */
{
/* Copy super_block to the in-core table, swapping bytes if need be. */
if (le_CPU) {
/* Just use memcpy */
memcpy(dest, source, SUPER_SIZE_D);
return;
}
dest->s_inodes_count = conv4(le_CPU, source->s_inodes_count);
dest->s_blocks_count = conv4(le_CPU, source->s_blocks_count);
dest->s_r_blocks_count = conv4(le_CPU, source->s_r_blocks_count);
dest->s_free_blocks_count = conv4(le_CPU, source->s_free_blocks_count);
dest->s_free_inodes_count = conv4(le_CPU, source->s_free_inodes_count);
dest->s_first_data_block = conv4(le_CPU, source->s_first_data_block);
dest->s_log_block_size = conv4(le_CPU, source->s_log_block_size);
dest->s_log_frag_size = conv4(le_CPU, source->s_log_frag_size);
dest->s_blocks_per_group = conv4(le_CPU, source->s_blocks_per_group);
dest->s_frags_per_group = conv4(le_CPU, source->s_frags_per_group);
dest->s_inodes_per_group = conv4(le_CPU, source->s_inodes_per_group);
dest->s_mtime = conv4(le_CPU, source->s_mtime);
dest->s_wtime = conv4(le_CPU, source->s_wtime);
dest->s_mnt_count = conv2(le_CPU, source->s_mnt_count);
dest->s_max_mnt_count = conv2(le_CPU, source->s_max_mnt_count);
dest->s_magic = conv2(le_CPU, source->s_magic);
dest->s_state = conv2(le_CPU, source->s_state);
dest->s_errors = conv2(le_CPU, source->s_errors);
dest->s_minor_rev_level = conv2(le_CPU, source->s_minor_rev_level);
dest->s_lastcheck = conv4(le_CPU, source->s_lastcheck);
dest->s_checkinterval = conv4(le_CPU, source->s_checkinterval);
dest->s_creator_os = conv4(le_CPU, source->s_creator_os);
dest->s_rev_level = conv4(le_CPU, source->s_rev_level);
dest->s_def_resuid = conv2(le_CPU, source->s_def_resuid);
dest->s_def_resgid = conv2(le_CPU, source->s_def_resgid);
dest->s_first_ino = conv4(le_CPU, source->s_first_ino);
dest->s_inode_size = conv2(le_CPU, source->s_inode_size);
dest->s_block_group_nr = conv2(le_CPU, source->s_block_group_nr);
dest->s_feature_compat = conv4(le_CPU, source->s_feature_compat);
dest->s_feature_incompat = conv4(le_CPU, source->s_feature_incompat);
dest->s_feature_ro_compat = conv4(le_CPU, source->s_feature_ro_compat);
memcpy(dest->s_uuid, source->s_uuid, sizeof(dest->s_uuid));
memcpy(dest->s_volume_name, source->s_volume_name,
sizeof(dest->s_volume_name));
memcpy(dest->s_last_mounted, source->s_last_mounted,
sizeof(dest->s_last_mounted));
dest->s_algorithm_usage_bitmap =
conv4(le_CPU, source->s_algorithm_usage_bitmap);
dest->s_prealloc_blocks = source->s_prealloc_blocks;
dest->s_prealloc_dir_blocks = source->s_prealloc_dir_blocks;
dest->s_padding1 = conv2(le_CPU, source->s_padding1);
}
/*===========================================================================*
* gd_copy *
*===========================================================================*/
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static void gd_copy(
register struct group_desc *dest,
register struct group_desc *source
)
{
/* Copy super_block to the in-core table, swapping bytes if need be. */
if (le_CPU) {
/* Just use memcpy */
memcpy(dest, source, sizeof(struct group_desc));
return;
}
dest->block_bitmap = conv4(le_CPU, source->block_bitmap);
dest->inode_bitmap = conv4(le_CPU, source->inode_bitmap);
dest->inode_table = conv4(le_CPU, source->inode_table);
dest->free_blocks_count = conv2(le_CPU, source->free_blocks_count);
dest->free_inodes_count = conv2(le_CPU, source->free_inodes_count);
dest->used_dirs_count = conv2(le_CPU, source->used_dirs_count);
}
/*===========================================================================*
* copy_group_descriptors *
*===========================================================================*/
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static void copy_group_descriptors(
register struct group_desc *dest_array,
register struct group_desc *source_array,
unsigned int ngroups
)
{
Split block/character protocols and libdriver This patch separates the character and block driver communication protocols. The old character protocol remains the same, but a new block protocol is introduced. The libdriver library is replaced by two new libraries: libchardriver and libblockdriver. Their exposed API, and drivers that use them, have been updated accordingly. Together, libbdev and libblockdriver now completely abstract away the message format used by the block protocol. As the memory driver is both a character and a block device driver, it now implements its own message loop. The most important semantic change made to the block protocol is that it is no longer possible to return both partial results and an error for a single transfer. This simplifies the interaction between the caller and the driver, as the I/O vector no longer needs to be copied back. Also, drivers are now no longer supposed to decide based on the layout of the I/O vector when a transfer should be cut short. Put simply, transfers are now supposed to either succeed completely, or result in an error. After this patch, the state of the various pieces is as follows: - block protocol: stable - libbdev API: stable for synchronous communication - libblockdriver API: needs slight revision (the drvlib/partition API in particular; the threading API will also change shortly) - character protocol: needs cleanup - libchardriver API: needs cleanup accordingly - driver restarts: largely unsupported until endpoint changes are reintroduced As a side effect, this patch eliminates several bugs, hacks, and gcc -Wall and -W warnings all over the place. It probably introduces a few new ones, too. Update warning: this patch changes the protocol between MFS and disk drivers, so in order to use old/new images, the MFS from the ramdisk must be used to mount all file systems.
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unsigned int i;
for (i = 0; i < ngroups; i++)
gd_copy(&dest_array[i], &source_array[i]);
}