android_kernel_sony_msm8994/fs/ntfs/logfile.h
Harvey Harrison 63cd885426 ntfs: remove private wrapper of endian helpers
The base versions handle constant folding now and are shorter than these
private wrappers, use them directly.

Signed-off-by: Harvey Harrison <harvey.harrison@gmail.com>
Cc: Anton Altaparmakov <aia21@cantab.net>
Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2009-04-01 08:59:18 -07:00

310 lines
14 KiB
C

/*
* logfile.h - Defines for NTFS kernel journal ($LogFile) handling. Part of
* the Linux-NTFS project.
*
* Copyright (c) 2000-2005 Anton Altaparmakov
*
* This program/include file is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as published
* by the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program/include file is distributed in the hope that it will be
* useful, but WITHOUT ANY WARRANTY; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program (in the main directory of the Linux-NTFS
* distribution in the file COPYING); if not, write to the Free Software
* Foundation,Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef _LINUX_NTFS_LOGFILE_H
#define _LINUX_NTFS_LOGFILE_H
#ifdef NTFS_RW
#include <linux/fs.h>
#include "types.h"
#include "endian.h"
#include "layout.h"
/*
* Journal ($LogFile) organization:
*
* Two restart areas present in the first two pages (restart pages, one restart
* area in each page). When the volume is dismounted they should be identical,
* except for the update sequence array which usually has a different update
* sequence number.
*
* These are followed by log records organized in pages headed by a log record
* header going up to log file size. Not all pages contain log records when a
* volume is first formatted, but as the volume ages, all records will be used.
* When the log file fills up, the records at the beginning are purged (by
* modifying the oldest_lsn to a higher value presumably) and writing begins
* at the beginning of the file. Effectively, the log file is viewed as a
* circular entity.
*
* NOTE: Windows NT, 2000, and XP all use log file version 1.1 but they accept
* versions <= 1.x, including 0.-1. (Yes, that is a minus one in there!) We
* probably only want to support 1.1 as this seems to be the current version
* and we don't know how that differs from the older versions. The only
* exception is if the journal is clean as marked by the two restart pages
* then it doesn't matter whether we are on an earlier version. We can just
* reinitialize the logfile and start again with version 1.1.
*/
/* Some $LogFile related constants. */
#define MaxLogFileSize 0x100000000ULL
#define DefaultLogPageSize 4096
#define MinLogRecordPages 48
/*
* Log file restart page header (begins the restart area).
*/
typedef struct {
/*Ofs*/
/* 0 NTFS_RECORD; -- Unfolded here as gcc doesn't like unnamed structs. */
/* 0*/ NTFS_RECORD_TYPE magic; /* The magic is "RSTR". */
/* 4*/ le16 usa_ofs; /* See NTFS_RECORD definition in layout.h.
When creating, set this to be immediately
after this header structure (without any
alignment). */
/* 6*/ le16 usa_count; /* See NTFS_RECORD definition in layout.h. */
/* 8*/ leLSN chkdsk_lsn; /* The last log file sequence number found by
chkdsk. Only used when the magic is changed
to "CHKD". Otherwise this is zero. */
/* 16*/ le32 system_page_size; /* Byte size of system pages when the log file
was created, has to be >= 512 and a power of
2. Use this to calculate the required size
of the usa (usa_count) and add it to usa_ofs.
Then verify that the result is less than the
value of the restart_area_offset. */
/* 20*/ le32 log_page_size; /* Byte size of log file pages, has to be >=
512 and a power of 2. The default is 4096
and is used when the system page size is
between 4096 and 8192. Otherwise this is
set to the system page size instead. */
/* 24*/ le16 restart_area_offset;/* Byte offset from the start of this header to
the RESTART_AREA. Value has to be aligned
to 8-byte boundary. When creating, set this
to be after the usa. */
/* 26*/ sle16 minor_ver; /* Log file minor version. Only check if major
version is 1. */
/* 28*/ sle16 major_ver; /* Log file major version. We only support
version 1.1. */
/* sizeof() = 30 (0x1e) bytes */
} __attribute__ ((__packed__)) RESTART_PAGE_HEADER;
/*
* Constant for the log client indices meaning that there are no client records
* in this particular client array. Also inside the client records themselves,
* this means that there are no client records preceding or following this one.
*/
#define LOGFILE_NO_CLIENT cpu_to_le16(0xffff)
#define LOGFILE_NO_CLIENT_CPU 0xffff
/*
* These are the so far known RESTART_AREA_* flags (16-bit) which contain
* information about the log file in which they are present.
*/
enum {
RESTART_VOLUME_IS_CLEAN = cpu_to_le16(0x0002),
RESTART_SPACE_FILLER = cpu_to_le16(0xffff), /* gcc: Force enum bit width to 16. */
} __attribute__ ((__packed__));
typedef le16 RESTART_AREA_FLAGS;
/*
* Log file restart area record. The offset of this record is found by adding
* the offset of the RESTART_PAGE_HEADER to the restart_area_offset value found
* in it. See notes at restart_area_offset above.
*/
typedef struct {
/*Ofs*/
/* 0*/ leLSN current_lsn; /* The current, i.e. last LSN inside the log
when the restart area was last written.
This happens often but what is the interval?
Is it just fixed time or is it every time a
check point is written or somethine else?
On create set to 0. */
/* 8*/ le16 log_clients; /* Number of log client records in the array of
log client records which follows this
restart area. Must be 1. */
/* 10*/ le16 client_free_list; /* The index of the first free log client record
in the array of log client records.
LOGFILE_NO_CLIENT means that there are no
free log client records in the array.
If != LOGFILE_NO_CLIENT, check that
log_clients > client_free_list. On Win2k
and presumably earlier, on a clean volume
this is != LOGFILE_NO_CLIENT, and it should
be 0, i.e. the first (and only) client
record is free and thus the logfile is
closed and hence clean. A dirty volume
would have left the logfile open and hence
this would be LOGFILE_NO_CLIENT. On WinXP
and presumably later, the logfile is always
open, even on clean shutdown so this should
always be LOGFILE_NO_CLIENT. */
/* 12*/ le16 client_in_use_list;/* The index of the first in-use log client
record in the array of log client records.
LOGFILE_NO_CLIENT means that there are no
in-use log client records in the array. If
!= LOGFILE_NO_CLIENT check that log_clients
> client_in_use_list. On Win2k and
presumably earlier, on a clean volume this
is LOGFILE_NO_CLIENT, i.e. there are no
client records in use and thus the logfile
is closed and hence clean. A dirty volume
would have left the logfile open and hence
this would be != LOGFILE_NO_CLIENT, and it
should be 0, i.e. the first (and only)
client record is in use. On WinXP and
presumably later, the logfile is always
open, even on clean shutdown so this should
always be 0. */
/* 14*/ RESTART_AREA_FLAGS flags;/* Flags modifying LFS behaviour. On Win2k
and presumably earlier this is always 0. On
WinXP and presumably later, if the logfile
was shutdown cleanly, the second bit,
RESTART_VOLUME_IS_CLEAN, is set. This bit
is cleared when the volume is mounted by
WinXP and set when the volume is dismounted,
thus if the logfile is dirty, this bit is
clear. Thus we don't need to check the
Windows version to determine if the logfile
is clean. Instead if the logfile is closed,
we know it must be clean. If it is open and
this bit is set, we also know it must be
clean. If on the other hand the logfile is
open and this bit is clear, we can be almost
certain that the logfile is dirty. */
/* 16*/ le32 seq_number_bits; /* How many bits to use for the sequence
number. This is calculated as 67 - the
number of bits required to store the logfile
size in bytes and this can be used in with
the specified file_size as a consistency
check. */
/* 20*/ le16 restart_area_length;/* Length of the restart area including the
client array. Following checks required if
version matches. Otherwise, skip them.
restart_area_offset + restart_area_length
has to be <= system_page_size. Also,
restart_area_length has to be >=
client_array_offset + (log_clients *
sizeof(log client record)). */
/* 22*/ le16 client_array_offset;/* Offset from the start of this record to
the first log client record if versions are
matched. When creating, set this to be
after this restart area structure, aligned
to 8-bytes boundary. If the versions do not
match, this is ignored and the offset is
assumed to be (sizeof(RESTART_AREA) + 7) &
~7, i.e. rounded up to first 8-byte
boundary. Either way, client_array_offset
has to be aligned to an 8-byte boundary.
Also, restart_area_offset +
client_array_offset has to be <= 510.
Finally, client_array_offset + (log_clients
* sizeof(log client record)) has to be <=
system_page_size. On Win2k and presumably
earlier, this is 0x30, i.e. immediately
following this record. On WinXP and
presumably later, this is 0x40, i.e. there
are 16 extra bytes between this record and
the client array. This probably means that
the RESTART_AREA record is actually bigger
in WinXP and later. */
/* 24*/ sle64 file_size; /* Usable byte size of the log file. If the
restart_area_offset + the offset of the
file_size are > 510 then corruption has
occured. This is the very first check when
starting with the restart_area as if it
fails it means that some of the above values
will be corrupted by the multi sector
transfer protection. The file_size has to
be rounded down to be a multiple of the
log_page_size in the RESTART_PAGE_HEADER and
then it has to be at least big enough to
store the two restart pages and 48 (0x30)
log record pages. */
/* 32*/ le32 last_lsn_data_length;/* Length of data of last LSN, not including
the log record header. On create set to
0. */
/* 36*/ le16 log_record_header_length;/* Byte size of the log record header.
If the version matches then check that the
value of log_record_header_length is a
multiple of 8, i.e.
(log_record_header_length + 7) & ~7 ==
log_record_header_length. When creating set
it to sizeof(LOG_RECORD_HEADER), aligned to
8 bytes. */
/* 38*/ le16 log_page_data_offset;/* Offset to the start of data in a log record
page. Must be a multiple of 8. On create
set it to immediately after the update
sequence array of the log record page. */
/* 40*/ le32 restart_log_open_count;/* A counter that gets incremented every
time the logfile is restarted which happens
at mount time when the logfile is opened.
When creating set to a random value. Win2k
sets it to the low 32 bits of the current
system time in NTFS format (see time.h). */
/* 44*/ le32 reserved; /* Reserved/alignment to 8-byte boundary. */
/* sizeof() = 48 (0x30) bytes */
} __attribute__ ((__packed__)) RESTART_AREA;
/*
* Log client record. The offset of this record is found by adding the offset
* of the RESTART_AREA to the client_array_offset value found in it.
*/
typedef struct {
/*Ofs*/
/* 0*/ leLSN oldest_lsn; /* Oldest LSN needed by this client. On create
set to 0. */
/* 8*/ leLSN client_restart_lsn;/* LSN at which this client needs to restart
the volume, i.e. the current position within
the log file. At present, if clean this
should = current_lsn in restart area but it
probably also = current_lsn when dirty most
of the time. At create set to 0. */
/* 16*/ le16 prev_client; /* The offset to the previous log client record
in the array of log client records.
LOGFILE_NO_CLIENT means there is no previous
client record, i.e. this is the first one.
This is always LOGFILE_NO_CLIENT. */
/* 18*/ le16 next_client; /* The offset to the next log client record in
the array of log client records.
LOGFILE_NO_CLIENT means there are no next
client records, i.e. this is the last one.
This is always LOGFILE_NO_CLIENT. */
/* 20*/ le16 seq_number; /* On Win2k and presumably earlier, this is set
to zero every time the logfile is restarted
and it is incremented when the logfile is
closed at dismount time. Thus it is 0 when
dirty and 1 when clean. On WinXP and
presumably later, this is always 0. */
/* 22*/ u8 reserved[6]; /* Reserved/alignment. */
/* 28*/ le32 client_name_length;/* Length of client name in bytes. Should
always be 8. */
/* 32*/ ntfschar client_name[64];/* Name of the client in Unicode. Should
always be "NTFS" with the remaining bytes
set to 0. */
/* sizeof() = 160 (0xa0) bytes */
} __attribute__ ((__packed__)) LOG_CLIENT_RECORD;
extern bool ntfs_check_logfile(struct inode *log_vi,
RESTART_PAGE_HEADER **rp);
extern bool ntfs_is_logfile_clean(struct inode *log_vi,
const RESTART_PAGE_HEADER *rp);
extern bool ntfs_empty_logfile(struct inode *log_vi);
#endif /* NTFS_RW */
#endif /* _LINUX_NTFS_LOGFILE_H */