minix/commands/de/de_diskio.c

352 lines
8.4 KiB
C
Executable file

/****************************************************************/
/* */
/* de_diskio.c */
/* */
/* Reading and writing to a file system device. */
/* */
/****************************************************************/
/* origination 1989-Jan-15 Terrence W. Holm */
/****************************************************************/
#include <minix/config.h>
#include <sys/types.h>
#include <unistd.h>
#include <limits.h>
#include <string.h>
#include <dirent.h>
#include <minix/const.h>
#include <minix/type.h>
#include "../../servers/fs/const.h"
#include "../../servers/fs/type.h"
#include "../../servers/fs/super.h"
#include "../../servers/fs/inode.h"
#include <minix/fslib.h>
#include "de.h"
/****************************************************************/
/* */
/* Read_Disk( state, block_addr, buffer ) */
/* */
/* Reads a 1k block at "block_addr" into "buffer". */
/* */
/****************************************************************/
void Read_Disk( s, block_addr, buffer )
de_state *s;
off_t block_addr;
char *buffer;
{
if ( lseek( s->device_d, block_addr, SEEK_SET ) == -1 )
Error( "Error seeking %s", s->device_name );
if ( read( s->device_d, buffer, s->block_size ) != s->block_size )
Error( "Error reading %s", s->device_name );
}
/****************************************************************/
/* */
/* Read_Block( state, buffer ) */
/* */
/* Reads a 1k block from "state->address" into */
/* "buffer". Checks "address", and updates */
/* "block" and "offset". */
/* */
/****************************************************************/
void Read_Block( s, buffer )
de_state *s;
char *buffer;
{
off_t end_addr;
off_t block_addr;
end_addr = (long) s->device_size * s->block_size - 1;
if ( s->address < 0 )
s->address = 0L;
if ( s->address > end_addr )
s->address = end_addr;
/* The address must be rounded off for */
/* certain visual display modes. */
if ( s->mode == WORD )
s->address &= ~1L;
else if ( s->mode == MAP )
s->address &= ~3L;
block_addr = s->address & K_MASK;
s->block = (zone_t) (block_addr >> K_SHIFT);
s->offset = (unsigned) (s->address - block_addr);
Read_Disk( s, block_addr, buffer );
}
/****************************************************************/
/* */
/* Read_Super_Block( state ) */
/* */
/* Read and check the super block. */
/* */
/****************************************************************/
void Read_Super_Block( s )
de_state *s;
{
struct super_block *super = (struct super_block *) s->buffer;
unsigned inodes_per_block;
off_t size;
s->block_size = K;
Read_Disk( s, (long) SUPER_BLOCK_BYTES, s->buffer );
s->magic = super->s_magic;
if ( s->magic == SUPER_MAGIC )
{
s->is_fs = TRUE;
s->v1 = TRUE;
s->inode_size = V1_INODE_SIZE;
inodes_per_block = V1_INODES_PER_BLOCK;
s->nr_indirects = V1_INDIRECTS;
s->zone_num_size = V1_ZONE_NUM_SIZE;
s->zones = super->s_nzones;
s->ndzones = V1_NR_DZONES;
s->block_size = STATIC_BLOCK_SIZE;
}
else if ( s->magic == SUPER_V2 || s->magic == SUPER_V3)
{
if(s->magic == SUPER_V3)
s->block_size = super->s_block_size;
else
s->block_size = STATIC_BLOCK_SIZE;
s->is_fs = TRUE;
s->v1 = FALSE;
s->inode_size = V2_INODE_SIZE;
inodes_per_block = V2_INODES_PER_BLOCK(s->block_size);
s->nr_indirects = V2_INDIRECTS(s->block_size);
s->zone_num_size = V2_ZONE_NUM_SIZE;
s->zones = super->s_zones;
s->ndzones = V2_NR_DZONES;
}
else
{
if ( super->s_magic == SUPER_REV )
Warning( "V1-bytes-swapped file system (?)" );
else if ( super->s_magic == SUPER_V2_REV )
Warning( "V2-bytes-swapped file system (?)" );
else
Warning( "Not a Minix file system" );
Warning( "The file system features will not be available" );
s->zones = 100000L;
return;
}
s->inodes = super->s_ninodes;
s->inode_maps = bitmapsize( (bit_t) s->inodes + 1 , s->block_size);
if ( s->inode_maps != super->s_imap_blocks )
{
if ( s->inode_maps > super->s_imap_blocks )
Error( "Corrupted inode map count or inode count in super block" );
else
Warning( "Count of inode map blocks in super block suspiciously high" );
s->inode_maps = super->s_imap_blocks;
}
s->zone_maps = bitmapsize( (bit_t) s->zones , s->block_size);
if ( s->zone_maps != super->s_zmap_blocks )
{
if ( s->zone_maps > super->s_zmap_blocks )
Error( "Corrupted zone map count or zone count in super block" );
else
Warning( "Count of zone map blocks in super block suspiciously high" );
s->zone_maps = super->s_zmap_blocks;
}
s->inode_blocks = (s->inodes + inodes_per_block - 1) / inodes_per_block;
s->first_data = 2 + s->inode_maps + s->zone_maps + s->inode_blocks;
if ( s->first_data != super->s_firstdatazone )
{
if ( s->first_data > super->s_firstdatazone )
Error( "Corrupted first data zone offset or inode count in super block" );
else
Warning( "First data zone in super block suspiciously high" );
s->first_data = super->s_firstdatazone;
}
s->inodes_in_map = s->inodes + 1;
s->zones_in_map = s->zones + 1 - s->first_data;
/*
if ( s->zones != s->device_size )
Warning( "Zone count does not equal device size" );
*/
s->device_size = s->zones;
if ( super->s_log_zone_size != 0 )
Error( "Can not handle multiple blocks per zone" );
}
/****************************************************************/
/* */
/* Read_Bit_Maps( state ) */
/* */
/* Read in the i-node and zone bit maps from the */
/* specified file system device. */
/* */
/****************************************************************/
void Read_Bit_Maps( s )
de_state *s;
{
int i;
if ( s->inode_maps > I_MAP_SLOTS || s->zone_maps > Z_MAP_SLOTS )
{
Warning( "Super block specifies too many bit map blocks" );
return;
}
for ( i = 0; i < s->inode_maps; ++i )
{
Read_Disk( s, (long) (2 + i) * K,
(char *) &s->inode_map[ i * K / sizeof (bitchunk_t ) ] );
}
for ( i = 0; i < s->zone_maps; ++i )
{
Read_Disk( s, (long) (2 + s->inode_maps + i) * K,
(char *) &s->zone_map[ i * K / sizeof (bitchunk_t ) ] );
}
}
/****************************************************************/
/* */
/* Search( state, string ) */
/* */
/* Search from the current address for the ASCII */
/* "string" on the device. */
/* */
/****************************************************************/
off_t Search( s, string )
de_state *s;
char *string;
{
off_t address = s->address + 1;
off_t last_addr = address;
char buffer[ SEARCH_BUFFER ];
int offset;
int tail_length = strlen( string ) - 1;
int count = SEARCH_BUFFER;
int last_offset;
for ( ; count == SEARCH_BUFFER; address += SEARCH_BUFFER - tail_length )
{
if ( lseek( s->device_d, address, SEEK_SET ) == -1 )
Error( "Error seeking %s", s->device_name );
if ( (count = read( s->device_d, buffer, SEARCH_BUFFER)) == -1 )
Error( "Error reading %s", s->device_name );
if ( address - last_addr >= 500L * K )
{
putchar( '.' );
fflush( stdout );
last_addr += 500L * K;
}
last_offset = count - tail_length;
for ( offset = 0; offset < last_offset; ++offset )
{
register char c = buffer[ offset ];
if ( c == *string )
{
char *tail_buffer = &buffer[ offset + 1 ];
char *tail_string = string + 1;
do
{
if ( *tail_string == '\0' )
return( address + offset );
}
while ( *tail_buffer++ == *tail_string++ );
}
} /* end for ( offset ) */
} /* end for ( address ) */
return( -1L );
}
/****************************************************************/
/* */
/* Write_Word( state, word ) */
/* */
/* Write a word at address. */
/* */
/****************************************************************/
void Write_Word( s, word )
de_state *s;
word_t word;
{
if ( s->address & 01 )
Error( "Internal fault (unaligned address)" );
if ( lseek( s->device_d, s->address, SEEK_SET ) == -1 )
Error( "Error seeking %s", s->device_name );
if ( write( s->device_d, (char *) &word, sizeof word ) != sizeof word )
Error( "Error writing %s", s->device_name );
}