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/**

 * ldm - Support for Windows Logical Disk Manager (Dynamic Disks)

 *

 * Copyright (C) 2001,2002 Richard Russon <ldm@flatcap.org>

 * Copyright (c) 2001-2007 Anton Altaparmakov

 * Copyright (C) 2001,2002 Jakob Kemi <jakob.kemi@telia.com>

 *

 * Documentation is available at http://www.linux-ntfs.org/content/view/19/37/

 *

 * This program 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 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 source in the file COPYING); if

 * not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330,

 * Boston, MA  02111-1307  USA

 */

#include <linux/slab.h>

#include <linux/pagemap.h>

#include <linux/stringify.h>

#include "ldm.h"

#include "check.h"

#include "msdos.h"

/**

 * ldm_debug/info/error/crit - Output an error message

 * @f:    A printf format string containing the message

 * @...:  Variables to substitute into @f

 *

 * ldm_debug() writes a DEBUG level message to the syslog but only if the

 * driver was compiled with debug enabled. Otherwise, the call turns into a NOP.

 */

#ifndef CONFIG_LDM_DEBUG

#define ldm_debug(...)  do {} while (0)

#else

#define ldm_debug(f, a...) _ldm_printk (KERN_DEBUG, __FUNCTION__, f, ##a)

#endif

#define ldm_crit(f, a...)  _ldm_printk (KERN_CRIT,  __FUNCTION__, f, ##a)

#define ldm_error(f, a...) _ldm_printk (KERN_ERR,   __FUNCTION__, f, ##a)

#define ldm_info(f, a...)  _ldm_printk (KERN_INFO,  __FUNCTION__, f, ##a)

__attribute__ ((format (printf, 3, 4)))

static void _ldm_printk (const char *level, const char *function,

                         const char *fmt, ...)

{

        static char buf[128];

        va_list args;

        va_start (args, fmt);

        vsnprintf (buf, sizeof (buf), fmt, args);

        va_end (args);

        printk ("%s%s(): %s\n", level, function, buf);

}

/**

 * ldm_parse_hexbyte - Convert a ASCII hex number to a byte

 * @src:  Pointer to at least 2 characters to convert.

 *

 * Convert a two character ASCII hex string to a number.

 *

 * Return:  0-255  Success, the byte was parsed correctly

 *          -1     Error, an invalid character was supplied

 */

static int ldm_parse_hexbyte (const u8 *src)

{

        unsigned int x;         /* For correct wrapping */

        int h;

        /* high part */

        if      ((x = src[0] - '0') <= '9'-'0') h = x;

        else if ((x = src[0] - 'a') <= 'f'-'a') h = x+10;

        else if ((x = src[0] - 'A') <= 'F'-'A') h = x+10;

        else return -1;

        h <<= 4;

        /* low part */

        if ((x = src[1] - '0') <= '9'-'0') return h | x;

        if ((x = src[1] - 'a') <= 'f'-'a') return h | (x+10);

        if ((x = src[1] - 'A') <= 'F'-'A') return h | (x+10);

        return -1;

}

/**

 * ldm_parse_guid - Convert GUID from ASCII to binary

 * @src:   36 char string of the form fa50ff2b-f2e8-45de-83fa-65417f2f49ba

 * @dest:  Memory block to hold binary GUID (16 bytes)

 *

 * N.B. The GUID need not be NULL terminated.

 *

 * Return:  'true'   @dest contains binary GUID

 *          'false'  @dest contents are undefined

 */

static bool ldm_parse_guid (const u8 *src, u8 *dest)

{

        static const int size[] = { 4, 2, 2, 2, 6 };

        int i, j, v;

        if (src[8]  != '-' || src[13] != '-' ||

            src[18] != '-' || src[23] != '-')

                return false;

        for (j = 0; j < 5; j++, src++)

                for (i = 0; i < size[j]; i++, src+=2, *dest++ = v)

                        if ((v = ldm_parse_hexbyte (src)) < 0)

                                return false;

        return true;

}

/**

 * ldm_parse_privhead - Read the LDM Database PRIVHEAD structure

 * @data:  Raw database PRIVHEAD structure loaded from the device

 * @ph:    In-memory privhead structure in which to return parsed information

 *

 * This parses the LDM database PRIVHEAD structure supplied in @data and

 * sets up the in-memory privhead structure @ph with the obtained information.

 *

 * Return:  'true'   @ph contains the PRIVHEAD data

 *          'false'  @ph contents are undefined

 */

static bool ldm_parse_privhead(const u8 *data, struct privhead *ph)

{

        bool is_vista = false;

        BUG_ON(!data || !ph);

        if (MAGIC_PRIVHEAD != BE64(data)) {

                ldm_error("Cannot find PRIVHEAD structure. LDM database is"

                        " corrupt. Aborting.");

                return false;

        }

        ph->ver_major = BE16(data + 0x000C);

        ph->ver_minor = BE16(data + 0x000E);

        ph->logical_disk_start = BE64(data + 0x011B);

        ph->logical_disk_size = BE64(data + 0x0123);

        ph->config_start = BE64(data + 0x012B);

        ph->config_size = BE64(data + 0x0133);

        /* Version 2.11 is Win2k/XP and version 2.12 is Vista. */

        if (ph->ver_major == 2 && ph->ver_minor == 12)

                is_vista = true;

        if (!is_vista && (ph->ver_major != 2 || ph->ver_minor != 11)) {

                ldm_error("Expected PRIVHEAD version 2.11 or 2.12, got %d.%d."

                        " Aborting.", ph->ver_major, ph->ver_minor);

                return false;

        }

        ldm_debug("PRIVHEAD version %d.%d (Windows %s).", ph->ver_major,

                        ph->ver_minor, is_vista ? "Vista" : "2000/XP");

        if (ph->config_size != LDM_DB_SIZE) {   /* 1 MiB in sectors. */

                /* Warn the user and continue, carefully. */

                ldm_info("Database is normally %u bytes, it claims to "

                        "be %llu bytes.", LDM_DB_SIZE,

                        (unsigned long long)ph->config_size);

        }

        if ((ph->logical_disk_size == 0) || (ph->logical_disk_start +

                        ph->logical_disk_size > ph->config_start)) {

                ldm_error("PRIVHEAD disk size doesn't match real disk size");

                return false;

        }

        if (!ldm_parse_guid(data + 0x0030, ph->disk_id)) {

                ldm_error("PRIVHEAD contains an invalid GUID.");

                return false;

        }

        ldm_debug("Parsed PRIVHEAD successfully.");

        return true;

}

/**

 * ldm_parse_tocblock - Read the LDM Database TOCBLOCK structure

 * @data:  Raw database TOCBLOCK structure loaded from the device

 * @toc:   In-memory toc structure in which to return parsed information

 *

 * This parses the LDM Database TOCBLOCK (table of contents) structure supplied

 * in @data and sets up the in-memory tocblock structure @toc with the obtained

 * information.

 *

 * N.B.  The *_start and *_size values returned in @toc are not range-checked.

 *

 * Return:  'true'   @toc contains the TOCBLOCK data

 *          'false'  @toc contents are undefined

 */

static bool ldm_parse_tocblock (const u8 *data, struct tocblock *toc)

{

        BUG_ON (!data || !toc);

        if (MAGIC_TOCBLOCK != BE64 (data)) {

                ldm_crit ("Cannot find TOCBLOCK, database may be corrupt.");

                return false;

        }

        strncpy (toc->bitmap1_name, data + 0x24, sizeof (toc->bitmap1_name));

        toc->bitmap1_name[sizeof (toc->bitmap1_name) - 1] = 0;

        toc->bitmap1_start = BE64 (data + 0x2E);

        toc->bitmap1_size  = BE64 (data + 0x36);

        if (strncmp (toc->bitmap1_name, TOC_BITMAP1,

                        sizeof (toc->bitmap1_name)) != 0) {

                ldm_crit ("TOCBLOCK's first bitmap is '%s', should be '%s'.",

                                TOC_BITMAP1, toc->bitmap1_name);

                return false;

        }

        strncpy (toc->bitmap2_name, data + 0x46, sizeof (toc->bitmap2_name));

        toc->bitmap2_name[sizeof (toc->bitmap2_name) - 1] = 0;

        toc->bitmap2_start = BE64 (data + 0x50);

        toc->bitmap2_size  = BE64 (data + 0x58);

        if (strncmp (toc->bitmap2_name, TOC_BITMAP2,

                        sizeof (toc->bitmap2_name)) != 0) {

                ldm_crit ("TOCBLOCK's second bitmap is '%s', should be '%s'.",

                                TOC_BITMAP2, toc->bitmap2_name);

                return false;

        }

        ldm_debug ("Parsed TOCBLOCK successfully.");

        return true;

}

/**

 * ldm_parse_vmdb - Read the LDM Database VMDB structure

 * @data:  Raw database VMDB structure loaded from the device

 * @vm:    In-memory vmdb structure in which to return parsed information

 *

 * This parses the LDM Database VMDB structure supplied in @data and sets up

 * the in-memory vmdb structure @vm with the obtained information.

 *

 * N.B.  The *_start, *_size and *_seq values will be range-checked later.

 *

 * Return:  'true'   @vm contains VMDB info

 *          'false'  @vm contents are undefined

 */

static bool ldm_parse_vmdb (const u8 *data, struct vmdb *vm)

{

        BUG_ON (!data || !vm);

        if (MAGIC_VMDB != BE32 (data)) {

                ldm_crit ("Cannot find the VMDB, database may be corrupt.");

                return false;

        }

        vm->ver_major = BE16 (data + 0x12);

        vm->ver_minor = BE16 (data + 0x14);

        if ((vm->ver_major != 4) || (vm->ver_minor != 10)) {

                ldm_error ("Expected VMDB version %d.%d, got %d.%d. "

                        "Aborting.", 4, 10, vm->ver_major, vm->ver_minor);

                return false;

        }

        vm->vblk_size     = BE32 (data + 0x08);

        vm->vblk_offset   = BE32 (data + 0x0C);

        vm->last_vblk_seq = BE32 (data + 0x04);

        ldm_debug ("Parsed VMDB successfully.");

        return true;

}

/**

 * ldm_compare_privheads - Compare two privhead objects

 * @ph1:  First privhead

 * @ph2:  Second privhead

 *

 * This compares the two privhead structures @ph1 and @ph2.

 *

 * Return:  'true'   Identical

 *          'false'  Different

 */

static bool ldm_compare_privheads (const struct privhead *ph1,

                                   const struct privhead *ph2)

{

        BUG_ON (!ph1 || !ph2);

        return ((ph1->ver_major          == ph2->ver_major)             &&

                (ph1->ver_minor          == ph2->ver_minor)             &&

                (ph1->logical_disk_start == ph2->logical_disk_start)    &&

                (ph1->logical_disk_size  == ph2->logical_disk_size)     &&

                (ph1->config_start       == ph2->config_start)          &&

                (ph1->config_size        == ph2->config_size)           &&

                !memcmp (ph1->disk_id, ph2->disk_id, GUID_SIZE));

}

/**

 * ldm_compare_tocblocks - Compare two tocblock objects

 * @toc1:  First toc

 * @toc2:  Second toc

 *

 * This compares the two tocblock structures @toc1 and @toc2.

 *

 * Return:  'true'   Identical

 *          'false'  Different

 */

static bool ldm_compare_tocblocks (const struct tocblock *toc1,

                                   const struct tocblock *toc2)

{

        BUG_ON (!toc1 || !toc2);

        return ((toc1->bitmap1_start == toc2->bitmap1_start)    &&

                (toc1->bitmap1_size  == toc2->bitmap1_size)     &&

                (toc1->bitmap2_start == toc2->bitmap2_start)    &&

                (toc1->bitmap2_size  == toc2->bitmap2_size)     &&

                !strncmp (toc1->bitmap1_name, toc2->bitmap1_name,

                        sizeof (toc1->bitmap1_name))            &&

                !strncmp (toc1->bitmap2_name, toc2->bitmap2_name,

                        sizeof (toc1->bitmap2_name)));

}

/**

 * ldm_validate_privheads - Compare the primary privhead with its backups

 * @bdev:  Device holding the LDM Database

 * @ph1:   Memory struct to fill with ph contents

 *

 * Read and compare all three privheads from disk.

 *

 * The privheads on disk show the size and location of the main disk area and

 * the configuration area (the database).  The values are range-checked against

 * @hd, which contains the real size of the disk.

 *

 * Return:  'true'   Success

 *          'false'  Error

 */

static bool ldm_validate_privheads (struct block_device *bdev,

                                    struct privhead *ph1)

{

        static const int off[3] = { OFF_PRIV1, OFF_PRIV2, OFF_PRIV3 };

        struct privhead *ph[3] = { ph1 };

        Sector sect;

        u8 *data;

        bool result = false;

        long num_sects;

        int i;

        BUG_ON (!bdev || !ph1);

        ph[1] = kmalloc (sizeof (*ph[1]), GFP_KERNEL);

        ph[2] = kmalloc (sizeof (*ph[2]), GFP_KERNEL);

        if (!ph[1] || !ph[2]) {

                ldm_crit ("Out of memory.");

                goto out;

        }

        /* off[1 & 2] are relative to ph[0]->config_start */

        ph[0]->config_start = 0;

        /* Read and parse privheads */

        for (i = 0; i < 3; i++) {

                data = read_dev_sector (bdev,

                        ph[0]->config_start + off[i], &sect);

                if (!data) {

                        ldm_crit ("Disk read failed.");

                        goto out;

                }

                result = ldm_parse_privhead (data, ph[i]);

                put_dev_sector (sect);

                if (!result) {

                        ldm_error ("Cannot find PRIVHEAD %d.", i+1); /* Log again */

                        if (i < 2)

                                goto out;       /* Already logged */

                        else

                                break;  /* FIXME ignore for now, 3rd PH can fail on odd-sized disks */

                }

        }

        num_sects = bdev->bd_inode->i_size >> 9;

        if ((ph[0]->config_start > num_sects) ||

           ((ph[0]->config_start + ph[0]->config_size) > num_sects)) {

                ldm_crit ("Database extends beyond the end of the disk.");

                goto out;

        }

        if ((ph[0]->logical_disk_start > ph[0]->config_start) ||

           ((ph[0]->logical_disk_start + ph[0]->logical_disk_size)

                    > ph[0]->config_start)) {

                ldm_crit ("Disk and database overlap.");

                goto out;

        }

        if (!ldm_compare_privheads (ph[0], ph[1])) {

                ldm_crit ("Primary and backup PRIVHEADs don't match.");

                goto out;

        }

        /* FIXME ignore this for now

        if (!ldm_compare_privheads (ph[0], ph[2])) {

                ldm_crit ("Primary and backup PRIVHEADs don't match.");

                goto out;

        }*/

        ldm_debug ("Validated PRIVHEADs successfully.");

        result = true;

out:

        kfree (ph[1]);

        kfree (ph[2]);

        return result;

}

/**

 * ldm_validate_tocblocks - Validate the table of contents and its backups

 * @bdev:  Device holding the LDM Database

 * @base:  Offset, into @bdev, of the database

 * @ldb:   Cache of the database structures

 *

 * Find and compare the four tables of contents of the LDM Database stored on

 * @bdev and return the parsed information into @toc1.

 *

 * The offsets and sizes of the configs are range-checked against a privhead.

 *

 * Return:  'true'   @toc1 contains validated TOCBLOCK info

 *          'false'  @toc1 contents are undefined

 */

static bool ldm_validate_tocblocks(struct block_device *bdev,

        unsigned long base, struct ldmdb *ldb)

{

        static const int off[4] = { OFF_TOCB1, OFF_TOCB2, OFF_TOCB3, OFF_TOCB4};

        struct tocblock *tb[4];

        struct privhead *ph;

        Sector sect;

        u8 *data;

        int i, nr_tbs;

        bool result = false;

        BUG_ON(!bdev || !ldb);

        ph = &ldb->ph;

        tb[0] = &ldb->toc;

        tb[1] = kmalloc(sizeof(*tb[1]) * 3, GFP_KERNEL);

        if (!tb[1]) {

                ldm_crit("Out of memory.");

                goto err;

        }

        tb[2] = (struct tocblock*)((u8*)tb[1] + sizeof(*tb[1]));

        tb[3] = (struct tocblock*)((u8*)tb[2] + sizeof(*tb[2]));

        /*

         * Try to read and parse all four TOCBLOCKs.

         *

         * Windows Vista LDM v2.12 does not always have all four TOCBLOCKs so

         * skip any that fail as long as we get at least one valid TOCBLOCK.

         */

        for (nr_tbs = i = 0; i < 4; i++) {

                data = read_dev_sector(bdev, base + off[i], &sect);

                if (!data) {

                        ldm_error("Disk read failed for TOCBLOCK %d.", i);

                        continue;

                }

                if (ldm_parse_tocblock(data, tb[nr_tbs]))

                        nr_tbs++;

                put_dev_sector(sect);

        }

        if (!nr_tbs) {

                ldm_crit("Failed to find a valid TOCBLOCK.");

                goto err;

        }

        /* Range check the TOCBLOCK against a privhead. */

        if (((tb[0]->bitmap1_start + tb[0]->bitmap1_size) > ph->config_size) ||

                        ((tb[0]->bitmap2_start + tb[0]->bitmap2_size) >

                        ph->config_size)) {

                ldm_crit("The bitmaps are out of range.  Giving up.");

                goto err;

        }

        /* Compare all loaded TOCBLOCKs. */

        for (i = 1; i < nr_tbs; i++) {

                if (!ldm_compare_tocblocks(tb[0], tb[i])) {

                        ldm_crit("TOCBLOCKs 0 and %d do not match.", i);

                        goto err;

                }

        }

        ldm_debug("Validated %d TOCBLOCKs successfully.", nr_tbs);

        result = true;

err:

        kfree(tb[1]);

        return result;

}

/**

 * ldm_validate_vmdb - Read the VMDB and validate it

 * @bdev:  Device holding the LDM Database

 * @base:  Offset, into @bdev, of the database

 * @ldb:   Cache of the database structures

 *

 * Find the vmdb of the LDM Database stored on @bdev and return the parsed

 * information in @ldb.

 *

 * Return:  'true'   @ldb contains validated VBDB info

 *          'false'  @ldb contents are undefined

 */

static bool ldm_validate_vmdb (struct block_device *bdev, unsigned long base,

                               struct ldmdb *ldb)

{

        Sector sect;

        u8 *data;

        bool result = false;

        struct vmdb *vm;

        struct tocblock *toc;

        BUG_ON (!bdev || !ldb);

        vm  = &ldb->vm;

        toc = &ldb->toc;

        data = read_dev_sector (bdev, base + OFF_VMDB, &sect);

        if (!data) {

                ldm_crit ("Disk read failed.");

                return false;

        }

        if (!ldm_parse_vmdb (data, vm))

                goto out;                               /* Already logged */

        /* Are there uncommitted transactions? */

        if (BE16(data + 0x10) != 0x01) {

                ldm_crit ("Database is not in a consistent state.  Aborting.");

                goto out;

        }

        if (vm->vblk_offset != 512)

                ldm_info ("VBLKs start at offset 0x%04x.", vm->vblk_offset);

        /*

         * The last_vblkd_seq can be before the end of the vmdb, just make sure

         * it is not out of bounds.

         */

        if ((vm->vblk_size * vm->last_vblk_seq) > (toc->bitmap1_size << 9)) {

                ldm_crit ("VMDB exceeds allowed size specified by TOCBLOCK.  "

                                "Database is corrupt.  Aborting.");

                goto out;

        }

        result = true;

out:

        put_dev_sector (sect);

        return result;

}

/**

 * ldm_validate_partition_table - Determine whether bdev might be a dynamic disk

 * @bdev:  Device holding the LDM Database

 *

 * This function provides a weak test to decide whether the device is a dynamic

 * disk or not.  It looks for an MS-DOS-style partition table containing at

 * least one partition of type 0x42 (formerly SFS, now used by Windows for

 * dynamic disks).

 *

 * N.B.  The only possible error can come from the read_dev_sector and that is

 *       only likely to happen if the underlying device is strange.  If that IS

 *       the case we should return zero to let someone else try.

 *

 * Return:  'true'   @bdev is a dynamic disk

 *          'false'  @bdev is not a dynamic disk, or an error occurred

 */

static bool ldm_validate_partition_table (struct block_device *bdev)

{

        Sector sect;

        u8 *data;

        struct partition *p;

        int i;

        bool result = false;

        BUG_ON (!bdev);

        data = read_dev_sector (bdev, 0, &sect);

        if (!data) {

                ldm_crit ("Disk read failed.");

                return false;

        }

        if (*(__le16*) (data + 0x01FE) != cpu_to_le16 (MSDOS_LABEL_MAGIC))

                goto out;

        p = (struct partition*)(data + 0x01BE);

        for (i = 0; i < 4; i++, p++)

                if (SYS_IND (p) == LDM_PARTITION) {

                        result = true;

                        break;

                }

        if (result)

                ldm_debug ("Found W2K dynamic disk partition type.");

out:

        put_dev_sector (sect);

        return result;

}

/**

 * ldm_get_disk_objid - Search a linked list of vblk's for a given Disk Id

 * @ldb:  Cache of the database structures

 *

 * The LDM Database contains a list of all partitions on all dynamic disks.

 * The primary PRIVHEAD, at the beginning of the physical disk, tells us

 * the GUID of this disk.  This function searches for the GUID in a linked

 * list of vblk's.

 *

 * Return:  Pointer, A matching vblk was found

 *          NULL,    No match, or an error

 */

static struct vblk * ldm_get_disk_objid (const struct ldmdb *ldb)

{

        struct list_head *item;

        BUG_ON (!ldb);

        list_for_each (item, &ldb->v_disk) {

                struct vblk *v = list_entry (item, struct vblk, list);

                if (!memcmp (v->vblk.disk.disk_id, ldb->ph.disk_id, GUID_SIZE))

                        return v;

        }

        return NULL;

}

/**

 * ldm_create_data_partitions - Create data partitions for this device

 * @pp:   List of the partitions parsed so far

 * @ldb:  Cache of the database structures

 *

 * The database contains ALL the partitions for ALL disk groups, so we need to

 * filter out this specific disk. Using the disk's object id, we can find all

 * the partitions in the database that belong to this disk.

 *

 * Add each partition in our database, to the parsed_partitions structure.

 *

 * N.B.  This function creates the partitions in the order it finds partition

 *       objects in the linked list.

 *

 * Return:  'true'   Partition created

 *          'false'  Error, probably a range checking problem

 */

static bool ldm_create_data_partitions (struct parsed_partitions *pp,

                                        const struct ldmdb *ldb)

{

        struct list_head *item;

        struct vblk *vb;

        struct vblk *disk;

        struct vblk_part *part;

        int part_num = 1;

        BUG_ON (!pp || !ldb);

        disk = ldm_get_disk_objid (ldb);

        if (!disk) {

                ldm_crit ("Can't find the ID of this disk in the database.");

                return false;

        }

        printk (" [LDM]");

        /* Create the data partitions */

        list_for_each (item, &ldb->v_part) {

                vb = list_entry (item, struct vblk, list);

                part = &vb->vblk.part;

                if (part->disk_id != disk->obj_id)

                        continue;

                put_partition (pp, part_num, ldb->ph.logical_disk_start +

                                part->start, part->size);

                part_num++;

        }

        printk ("\n");