disk/lvm.c - chromiumos/third_party/grub2 - Git at Google

 /* lvm.c - module to read Logical Volumes.  */
 /*
  *  GRUB  --  GRand Unified Bootloader
  *  Copyright (C) 2006,2007,2008  Free Software Foundation, Inc.
  *
  *  GRUB 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 3 of the License, or
  *  (at your option) any later version.
  *
  *  GRUB 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 GRUB.  If not, see <http://www.gnu.org/licenses/>.
  */

 #include <grub/dl.h>
 #include <grub/disk.h>
 #include <grub/mm.h>
 #include <grub/err.h>
 #include <grub/misc.h>
 #include <grub/lvm.h>

 static struct grub_lvm_vg *vg_list;
 static int lv_count;


 /* Go the string STR and return the number after STR.  *P will point
    at the number.  In case STR is not found, *P will be NULL and the
    return value will be 0.  */
 static int
 grub_lvm_getvalue (char **p, char *str)
 {
   *p = grub_strstr (*p, str);
   if (! *p)
     return 0;
   *p += grub_strlen (str);
   return grub_strtoul (*p, NULL, 10);
 }

 static int
 grub_lvm_iterate (int (*hook) (const char *name))
 {
   struct grub_lvm_vg *vg;
   for (vg = vg_list; vg; vg = vg->next)
     {
       struct grub_lvm_lv *lv;
       if (vg->lvs)
 	for (lv = vg->lvs; lv; lv = lv->next)
 	  if (hook (lv->name))
 	    return 1;
     }

   return 0;
 }

 #ifdef GRUB_UTIL
 static grub_disk_memberlist_t
 grub_lvm_memberlist (grub_disk_t disk)
 {
   struct grub_lvm_lv *lv = disk->data;
   grub_disk_memberlist_t list = NULL, tmp;
   struct grub_lvm_pv *pv;

   if (lv->vg->pvs)
     for (pv = lv->vg->pvs; pv; pv = pv->next)
       {
 	tmp = grub_malloc (sizeof (*tmp));
 	tmp->disk = pv->disk;
 	tmp->next = list;
 	list = tmp;
       }

   return list;
 }
 #endif

 static grub_err_t
 grub_lvm_open (const char *name, grub_disk_t disk)
 {
   struct grub_lvm_vg *vg;
   struct grub_lvm_lv *lv = NULL;
   for (vg = vg_list; vg; vg = vg->next)
     {
       if (vg->lvs)
 	for (lv = vg->lvs; lv; lv = lv->next)
 	  if (! grub_strcmp (lv->name, name))
 	    break;

       if (lv)
 	break;
     }

   if (! lv)
     return grub_error (GRUB_ERR_UNKNOWN_DEVICE, "Unknown LVM device %s", name);

   disk->has_partitions = 0;
   disk->id = lv->number;
   disk->data = lv;
   disk->total_sectors = lv->size;

   return 0;
 }

 static void
 grub_lvm_close (grub_disk_t disk __attribute ((unused)))
 {
   return;
 }

 static grub_err_t
 grub_lvm_read (grub_disk_t disk, grub_disk_addr_t sector,
 		grub_size_t size, char *buf)
 {
   grub_err_t err = 0;
   struct grub_lvm_lv *lv = disk->data;
   struct grub_lvm_vg *vg = lv->vg;
   struct grub_lvm_segment *seg = lv->segments;
   struct grub_lvm_pv *pv;
   grub_uint64_t offset;
   grub_uint64_t extent;
   unsigned int i;

   extent = grub_divmod64 (sector, vg->extent_size, NULL);

   /* Find the right segment.  */
   for (i = 0; i < lv->segment_count; i++)
     {
       if ((seg->start_extent <= extent)
 	  && ((seg->start_extent + seg->extent_count) > extent))
 	{
 	  break;
 	}

       seg++;
     }

   if (seg->stripe_count == 1)
     {
       /* This segment is linear, so that's easy.  We just need to find
 	 out the offset in the physical volume and read SIZE bytes
 	 from that.  */
       struct grub_lvm_stripe *stripe = seg->stripes;
       grub_uint64_t seg_offset; /* Offset of the segment in PV device.  */

       pv = stripe->pv;
       seg_offset = ((grub_uint64_t) stripe->start
 		    * (grub_uint64_t) vg->extent_size) + pv->start;

       offset = sector - ((grub_uint64_t) seg->start_extent
 			 * (grub_uint64_t) vg->extent_size) + seg_offset;
     }
   else
     {
       /* This is a striped segment. We have to find the right PV
 	 similar to RAID0. */
       struct grub_lvm_stripe *stripe = seg->stripes;
       grub_uint32_t a, b;
       grub_uint64_t seg_offset; /* Offset of the segment in PV device.  */
       unsigned int stripenr;

       offset = sector - ((grub_uint64_t) seg->start_extent
 			 * (grub_uint64_t) vg->extent_size);

       a = grub_divmod64 (offset, seg->stripe_size, NULL);
       grub_divmod64 (a, seg->stripe_count, &stripenr);

       a = grub_divmod64 (offset, seg->stripe_size * seg->stripe_count, NULL);
       grub_divmod64 (offset, seg->stripe_size, &b);
       offset = a * seg->stripe_size + b;

       stripe += stripenr;
       pv = stripe->pv;

       seg_offset = ((grub_uint64_t) stripe->start
 		    * (grub_uint64_t) vg->extent_size) + pv->start;

       offset += seg_offset;
     }

   /* Check whether we actually know the physical volume we want to
      read from.  */
   if (pv->disk)
     err = grub_disk_read (pv->disk, offset, 0,
 			  size << GRUB_DISK_SECTOR_BITS, buf);
   else
     err = grub_error (GRUB_ERR_UNKNOWN_DEVICE,
 		      "Physical volume %s not found", pv->name);

   return err;
 }

 static grub_err_t
 grub_lvm_write (grub_disk_t disk __attribute ((unused)),
 		 grub_disk_addr_t sector __attribute ((unused)),
 		 grub_size_t size __attribute ((unused)),
 		 const char *buf __attribute ((unused)))
 {
   return GRUB_ERR_NOT_IMPLEMENTED_YET;
 }

 static int
 grub_lvm_scan_device (const char *name)
 {
   grub_err_t err;
   grub_disk_t disk;
   grub_uint64_t mda_offset, mda_size;
   char buf[GRUB_LVM_LABEL_SIZE];
   char vg_id[GRUB_LVM_ID_STRLEN+1];
   char pv_id[GRUB_LVM_ID_STRLEN+1];
   char *metadatabuf, *p, *q, *vgname;
   struct grub_lvm_label_header *lh = (struct grub_lvm_label_header *) buf;
   struct grub_lvm_pv_header *pvh;
   struct grub_lvm_disk_locn *dlocn;
   struct grub_lvm_mda_header *mdah;
   struct grub_lvm_raw_locn *rlocn;
   unsigned int i, j, vgname_len;
   struct grub_lvm_vg *vg;
   struct grub_lvm_pv *pv;

   disk = grub_disk_open (name);
   if (!disk)
     return 0;

   /* Search for label. */
   for (i = 0; i < GRUB_LVM_LABEL_SCAN_SECTORS; i++)
     {
       err = grub_disk_read (disk, i, 0, sizeof(buf), buf);
       if (err)
 	goto fail;

       if ((! grub_strncmp ((char *)lh->id, GRUB_LVM_LABEL_ID,
 			   sizeof (lh->id)))
 	  && (! grub_strncmp ((char *)lh->type, GRUB_LVM_LVM2_LABEL,
 			      sizeof (lh->type))))
 	break;
     }

   /* Return if we didn't find a label. */
   if (i == GRUB_LVM_LABEL_SCAN_SECTORS)
     goto fail;

   pvh = (struct grub_lvm_pv_header *) (buf + grub_le_to_cpu32(lh->offset_xl));

   for (i = 0, j = 0; i < GRUB_LVM_ID_LEN; i++)
     {
       pv_id[j++] = pvh->pv_uuid[i];
       if ((i != 1) && (i != 29) && (i % 4 == 1))
 	pv_id[j++] = '-';
     }
   pv_id[j] = '\0';

   dlocn = pvh->disk_areas_xl;

   dlocn++;
   /* Is it possible to have multiple data/metadata areas? I haven't
      seen devices that have it. */
   if (dlocn->offset)
     {
       grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
 		  "We don't support multiple LVM data areas");

       goto fail;
     }

   dlocn++;
   mda_offset = grub_le_to_cpu64 (dlocn->offset);
   mda_size = grub_le_to_cpu64 (dlocn->size);

   /* It's possible to have multiple copies of metadata areas, we just use the
      first one.  */

   /* Allocate buffer space for the circular worst-case scenario. */
   metadatabuf = grub_malloc (2 * mda_size);
   if (! metadatabuf)
     goto fail;

   err = grub_disk_read (disk, 0, mda_offset, mda_size, metadatabuf);
   if (err)
     goto fail2;

   mdah = (struct grub_lvm_mda_header *) metadatabuf;
   if ((grub_strncmp ((char *)mdah->magic, GRUB_LVM_FMTT_MAGIC,
 		     sizeof (mdah->magic)))
       || (grub_le_to_cpu32 (mdah->version) != GRUB_LVM_FMTT_VERSION))
     {
       grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
 		  "Unknown LVM metadata header");
       goto fail2;
     }

   rlocn = mdah->raw_locns;
   if (grub_le_to_cpu64 (rlocn->offset) + grub_le_to_cpu64 (rlocn->size) >
       grub_le_to_cpu64 (mdah->size))
     {
       /* Metadata is circular. Copy the wrap in place. */
       grub_memcpy (metadatabuf + mda_size,
                    metadatabuf + GRUB_LVM_MDA_HEADER_SIZE,
                    grub_le_to_cpu64 (rlocn->offset) +
                    grub_le_to_cpu64 (rlocn->size) -
                    grub_le_to_cpu64 (mdah->size));
     }
   p = q = metadatabuf + grub_le_to_cpu64 (rlocn->offset);

   while (*q != ' ' && q < metadatabuf + mda_size)
     q++;

   if (q == metadatabuf + mda_size)
     goto fail2;

   vgname_len = q - p;
   vgname = grub_malloc (vgname_len + 1);
   if (!vgname)
     goto fail2;

   grub_memcpy (vgname, p, vgname_len);
   vgname[vgname_len] = '\0';

   p = grub_strstr (q, "id = \"");
   if (p == NULL)
     goto fail3;
   p += sizeof ("id = \"") - 1;
   grub_memcpy (vg_id, p, GRUB_LVM_ID_STRLEN);
   vg_id[GRUB_LVM_ID_STRLEN] = '\0';

   for (vg = vg_list; vg; vg = vg->next)
     {
       if (! grub_memcmp(vg_id, vg->id, GRUB_LVM_ID_STRLEN))
 	break;
     }

   if (! vg)
     {
       /* First time we see this volume group. We've to create the
 	 whole volume group structure. */
       vg = grub_malloc (sizeof (*vg));
       if (! vg)
 	goto fail3;
       vg->name = vgname;
       grub_memcpy (vg->id, vg_id, GRUB_LVM_ID_STRLEN+1);

       vg->extent_size = grub_lvm_getvalue (&p, "extent_size = ");
       if (p == NULL)
 	goto fail4;

       vg->lvs = NULL;
       vg->pvs = NULL;

       p = grub_strstr (p, "physical_volumes {");
       if (p)
 	{
 	  p += sizeof ("physical_volumes {") - 1;

 	  /* Add all the pvs to the volume group. */
 	  while (1)
 	    {
 	      int s;
 	      while (grub_isspace (*p))
 		p++;

 	      if (*p == '}')
 		break;

 	      pv = grub_malloc (sizeof (*pv));
 	      q = p;
 	      while (*q != ' ')
 		q++;

 	      s = q - p;
 	      pv->name = grub_malloc (s + 1);
 	      grub_memcpy (pv->name, p, s);
 	      pv->name[s] = '\0';

 	      p = grub_strstr (p, "id = \"");
 	      if (p == NULL)
 		goto pvs_fail;
 	      p += sizeof("id = \"") - 1;

 	      grub_memcpy (pv->id, p, GRUB_LVM_ID_STRLEN);
 	      pv->id[GRUB_LVM_ID_STRLEN] = '\0';

 	      pv->start = grub_lvm_getvalue (&p, "pe_start = ");
 	      if (p == NULL)
 		goto pvs_fail;

 	      p = grub_strchr (p, '}');
 	      if (p == NULL)
 		goto pvs_fail;
 	      p++;

 	      pv->disk = NULL;
 	      pv->next = vg->pvs;
 	      vg->pvs = pv;

 	      continue;
 	    pvs_fail:
 	      grub_free (pv->name);
 	      grub_free (pv);
 	      goto fail4;
 	    }
 	}

       p = grub_strstr (p, "logical_volumes");
       if (p)
 	{
 	  p += 18;

 	  /* And add all the lvs to the volume group. */
 	  while (1)
 	    {
 	      int s;
 	      struct grub_lvm_lv *lv;
 	      struct grub_lvm_segment *seg;

 	      while (grub_isspace (*p))
 		p++;

 	      if (*p == '}')
 		break;

 	      lv = grub_malloc (sizeof (*lv));

 	      q = p;
 	      while (*q != ' ')
 		q++;

 	      s = q - p;
 	      lv->name = grub_malloc (vgname_len + 1 + s + 1);
 	      grub_memcpy (lv->name, vgname, vgname_len);
 	      lv->name[vgname_len] = '-';
 	      grub_memcpy (lv->name + vgname_len + 1, p, s);
 	      lv->name[vgname_len + 1 + s] = '\0';

 	      lv->size = 0;

 	      lv->segment_count = grub_lvm_getvalue (&p, "segment_count = ");
 	      if (p == NULL)
 		goto lvs_fail;
 	      lv->segments = grub_malloc (sizeof (*seg) * lv->segment_count);
 	      seg = lv->segments;

 	      for (i = 0; i < lv->segment_count; i++)
 		{
 		  struct grub_lvm_stripe *stripe;

 		  p = grub_strstr (p, "segment");
 		  if (p == NULL)
 		    goto lvs_segment_fail;

 		  seg->start_extent = grub_lvm_getvalue (&p, "start_extent = ");
 		  if (p == NULL)
 		    goto lvs_segment_fail;
 		  seg->extent_count = grub_lvm_getvalue (&p, "extent_count = ");
 		  if (p == NULL)
 		    goto lvs_segment_fail;
 		  seg->stripe_count = grub_lvm_getvalue (&p, "stripe_count = ");
 		  if (p == NULL)
 		    goto lvs_segment_fail;

 		  lv->size += seg->extent_count * vg->extent_size;

 		  if (seg->stripe_count != 1)
 		    seg->stripe_size = grub_lvm_getvalue (&p, "stripe_size = ");

 		  seg->stripes = grub_malloc (sizeof (*stripe)
 					      * seg->stripe_count);
 		  stripe = seg->stripes;

 		  p = grub_strstr (p, "stripes = [");
 		  if (p == NULL)
 		    goto lvs_segment_fail2;
 		  p += sizeof("stripes = [") - 1;

 		  for (j = 0; j < seg->stripe_count; j++)
 		    {
 		      char *pvname;

 		      p = grub_strchr (p, '"');
 		      if (p == NULL)
 			continue;
 		      q = ++p;
 		      while (*q != '"')
 			q++;

 		      s = q - p;

 		      pvname = grub_malloc (s + 1);
                       if (pvname == NULL)
                         goto lvs_segment_fail2;

 		      grub_memcpy (pvname, p, s);
 		      pvname[s] = '\0';

 		      if (vg->pvs)
 			for (pv = vg->pvs; pv; pv = pv->next)
 			  {
 			    if (! grub_strcmp (pvname, pv->name))
 			      {
 				stripe->pv = pv;
 				break;
 			      }
 			  }

 		      grub_free(pvname);

 		      stripe->start = grub_lvm_getvalue (&p, ",");
 		      if (p == NULL)
 			continue;

 		      stripe++;
 		    }

 		  seg++;

 		  continue;
 		lvs_segment_fail2:
 		  grub_free (seg->stripes);
 		lvs_segment_fail:
 		  goto fail4;
 		}

 	      if (p != NULL)
 		p = grub_strchr (p, '}');
 	      if (p == NULL)
 		goto lvs_fail;
 	      p += 3;

 	      lv->number = lv_count++;
 	      lv->vg = vg;
 	      lv->next = vg->lvs;
 	      vg->lvs = lv;

 	      continue;
 	    lvs_fail:
 	      grub_free (lv->name);
 	      grub_free (lv);
 	      goto fail4;
 	    }
 	}

 	vg->next = vg_list;
 	vg_list = vg;
     }
   else
     {
       grub_free (vgname);
     }

   /* Match the device we are currently reading from with the right
      PV. */
   if (vg->pvs)
     for (pv = vg->pvs; pv; pv = pv->next)
       {
 	if (! grub_memcmp (pv->id, pv_id, GRUB_LVM_ID_STRLEN))
 	  {
 	    /* This could happen to LVM on RAID, pv->disk points to the
 	       raid device, we shouldn't change it.  */
 	    if (! pv->disk)
 	      pv->disk = grub_disk_open (name);
 	    break;
 	  }
       }

   goto fail2;

   /* Failure path.  */
  fail4:
   grub_free (vg);
  fail3:
   grub_free (vgname);

   /* Normal exit path.  */
  fail2:
   grub_free (metadatabuf);
  fail:
   grub_disk_close (disk);
   return 0;
 }

 static struct grub_disk_dev grub_lvm_dev =
   {
     .name = "lvm",
     .id = GRUB_DISK_DEVICE_LVM_ID,
     .iterate = grub_lvm_iterate,
     .open = grub_lvm_open,
     .close = grub_lvm_close,
     .read = grub_lvm_read,
     .write = grub_lvm_write,
 #ifdef GRUB_UTIL
     .memberlist = grub_lvm_memberlist,
 #endif
     .next = 0
   };


 GRUB_MOD_INIT(lvm)
 {
   grub_device_iterate (&grub_lvm_scan_device);
   if (grub_errno)
     {
       grub_print_error ();
       grub_errno = GRUB_ERR_NONE;
     }

   grub_disk_dev_register (&grub_lvm_dev);
 }

 GRUB_MOD_FINI(lvm)
 {
   grub_disk_dev_unregister (&grub_lvm_dev);
   /* FIXME: free the lvm list. */
 }
	/* lvm.c - module to read Logical Volumes. */
	/*
	* GRUB -- GRand Unified Bootloader
	* Copyright (C) 2006,2007,2008 Free Software Foundation, Inc.
	*
	* GRUB 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 3 of the License, or
	* (at your option) any later version.
	*
	* GRUB 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 GRUB. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include <grub/dl.h>
	#include <grub/disk.h>
	#include <grub/mm.h>
	#include <grub/err.h>
	#include <grub/misc.h>
	#include <grub/lvm.h>

	static struct grub_lvm_vg *vg_list;
	static int lv_count;


	/* Go the string STR and return the number after STR. *P will point
	at the number. In case STR is not found, *P will be NULL and the
	return value will be 0. */
	static int
	grub_lvm_getvalue (char *p, char str)
	{
	p = grub_strstr (p, str);
	if (! *p)
	return 0;
	*p += grub_strlen (str);
	return grub_strtoul (*p, NULL, 10);
	}

	static int
	grub_lvm_iterate (int (hook) (const char name))
	{
	struct grub_lvm_vg *vg;
	for (vg = vg_list; vg; vg = vg->next)
	{
	struct grub_lvm_lv *lv;
	if (vg->lvs)
	for (lv = vg->lvs; lv; lv = lv->next)
	if (hook (lv->name))
	return 1;
	}

	return 0;
	}

	#ifdef GRUB_UTIL
	static grub_disk_memberlist_t
	grub_lvm_memberlist (grub_disk_t disk)
	{
	struct grub_lvm_lv *lv = disk->data;
	grub_disk_memberlist_t list = NULL, tmp;
	struct grub_lvm_pv *pv;

	if (lv->vg->pvs)
	for (pv = lv->vg->pvs; pv; pv = pv->next)
	{
	tmp = grub_malloc (sizeof (*tmp));
	tmp->disk = pv->disk;
	tmp->next = list;
	list = tmp;
	}

	return list;
	}
	#endif

	static grub_err_t
	grub_lvm_open (const char *name, grub_disk_t disk)
	{
	struct grub_lvm_vg *vg;
	struct grub_lvm_lv *lv = NULL;
	for (vg = vg_list; vg; vg = vg->next)
	{
	if (vg->lvs)
	for (lv = vg->lvs; lv; lv = lv->next)
	if (! grub_strcmp (lv->name, name))
	break;

	if (lv)
	break;
	}

	if (! lv)
	return grub_error (GRUB_ERR_UNKNOWN_DEVICE, "Unknown LVM device %s", name);

	disk->has_partitions = 0;
	disk->id = lv->number;
	disk->data = lv;
	disk->total_sectors = lv->size;

	return 0;
	}

	static void
	grub_lvm_close (grub_disk_t disk __attribute ((unused)))
	{
	return;
	}

	static grub_err_t
	grub_lvm_read (grub_disk_t disk, grub_disk_addr_t sector,
	grub_size_t size, char *buf)
	{
	grub_err_t err = 0;
	struct grub_lvm_lv *lv = disk->data;
	struct grub_lvm_vg *vg = lv->vg;
	struct grub_lvm_segment *seg = lv->segments;
	struct grub_lvm_pv *pv;
	grub_uint64_t offset;
	grub_uint64_t extent;
	unsigned int i;

	extent = grub_divmod64 (sector, vg->extent_size, NULL);

	/* Find the right segment. */
	for (i = 0; i < lv->segment_count; i++)
	{
	if ((seg->start_extent <= extent)
	&& ((seg->start_extent + seg->extent_count) > extent))
	{
	break;
	}

	seg++;
	}

	if (seg->stripe_count == 1)
	{
	/* This segment is linear, so that's easy. We just need to find
	out the offset in the physical volume and read SIZE bytes
	from that. */
	struct grub_lvm_stripe *stripe = seg->stripes;
	grub_uint64_t seg_offset; /* Offset of the segment in PV device. */

	pv = stripe->pv;
	seg_offset = ((grub_uint64_t) stripe->start
	* (grub_uint64_t) vg->extent_size) + pv->start;

	offset = sector - ((grub_uint64_t) seg->start_extent
	* (grub_uint64_t) vg->extent_size) + seg_offset;
	}
	else
	{
	/* This is a striped segment. We have to find the right PV
	similar to RAID0. */
	struct grub_lvm_stripe *stripe = seg->stripes;
	grub_uint32_t a, b;
	grub_uint64_t seg_offset; /* Offset of the segment in PV device. */
	unsigned int stripenr;

	offset = sector - ((grub_uint64_t) seg->start_extent
	* (grub_uint64_t) vg->extent_size);

	a = grub_divmod64 (offset, seg->stripe_size, NULL);
	grub_divmod64 (a, seg->stripe_count, &stripenr);

	a = grub_divmod64 (offset, seg->stripe_size * seg->stripe_count, NULL);
	grub_divmod64 (offset, seg->stripe_size, &b);
	offset = a * seg->stripe_size + b;

	stripe += stripenr;
	pv = stripe->pv;

	seg_offset = ((grub_uint64_t) stripe->start
	* (grub_uint64_t) vg->extent_size) + pv->start;

	offset += seg_offset;
	}

	/* Check whether we actually know the physical volume we want to
	read from. */
	if (pv->disk)
	err = grub_disk_read (pv->disk, offset, 0,
	size << GRUB_DISK_SECTOR_BITS, buf);
	else
	err = grub_error (GRUB_ERR_UNKNOWN_DEVICE,
	"Physical volume %s not found", pv->name);

	return err;
	}

	static grub_err_t
	grub_lvm_write (grub_disk_t disk __attribute ((unused)),
	grub_disk_addr_t sector __attribute ((unused)),
	grub_size_t size __attribute ((unused)),
	const char *buf __attribute ((unused)))
	{
	return GRUB_ERR_NOT_IMPLEMENTED_YET;
	}

	static int
	grub_lvm_scan_device (const char *name)
	{
	grub_err_t err;
	grub_disk_t disk;
	grub_uint64_t mda_offset, mda_size;
	char buf[GRUB_LVM_LABEL_SIZE];
	char vg_id[GRUB_LVM_ID_STRLEN+1];
	char pv_id[GRUB_LVM_ID_STRLEN+1];
	char metadatabuf, p, q, vgname;
	struct grub_lvm_label_header lh = (struct grub_lvm_label_header ) buf;
	struct grub_lvm_pv_header *pvh;
	struct grub_lvm_disk_locn *dlocn;
	struct grub_lvm_mda_header *mdah;
	struct grub_lvm_raw_locn *rlocn;
	unsigned int i, j, vgname_len;
	struct grub_lvm_vg *vg;
	struct grub_lvm_pv *pv;

	disk = grub_disk_open (name);
	if (!disk)
	return 0;

	/* Search for label. */
	for (i = 0; i < GRUB_LVM_LABEL_SCAN_SECTORS; i++)
	{
	err = grub_disk_read (disk, i, 0, sizeof(buf), buf);
	if (err)
	goto fail;

	if ((! grub_strncmp ((char *)lh->id, GRUB_LVM_LABEL_ID,
	sizeof (lh->id)))
	&& (! grub_strncmp ((char *)lh->type, GRUB_LVM_LVM2_LABEL,
	sizeof (lh->type))))
	break;
	}

	/* Return if we didn't find a label. */
	if (i == GRUB_LVM_LABEL_SCAN_SECTORS)
	goto fail;

	pvh = (struct grub_lvm_pv_header *) (buf + grub_le_to_cpu32(lh->offset_xl));

	for (i = 0, j = 0; i < GRUB_LVM_ID_LEN; i++)
	{
	pv_id[j++] = pvh->pv_uuid[i];
	if ((i != 1) && (i != 29) && (i % 4 == 1))
	pv_id[j++] = '-';
	}
	pv_id[j] = '\0';

	dlocn = pvh->disk_areas_xl;

	dlocn++;
	/* Is it possible to have multiple data/metadata areas? I haven't
	seen devices that have it. */
	if (dlocn->offset)
	{
	grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
	"We don't support multiple LVM data areas");

	goto fail;
	}

	dlocn++;
	mda_offset = grub_le_to_cpu64 (dlocn->offset);
	mda_size = grub_le_to_cpu64 (dlocn->size);

	/* It's possible to have multiple copies of metadata areas, we just use the
	first one. */

	/* Allocate buffer space for the circular worst-case scenario. */
	metadatabuf = grub_malloc (2 * mda_size);
	if (! metadatabuf)
	goto fail;

	err = grub_disk_read (disk, 0, mda_offset, mda_size, metadatabuf);
	if (err)
	goto fail2;

	mdah = (struct grub_lvm_mda_header *) metadatabuf;
	if ((grub_strncmp ((char *)mdah->magic, GRUB_LVM_FMTT_MAGIC,
	sizeof (mdah->magic)))
	\|\| (grub_le_to_cpu32 (mdah->version) != GRUB_LVM_FMTT_VERSION))
	{
	grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET,
	"Unknown LVM metadata header");
	goto fail2;
	}

	rlocn = mdah->raw_locns;
	if (grub_le_to_cpu64 (rlocn->offset) + grub_le_to_cpu64 (rlocn->size) >
	grub_le_to_cpu64 (mdah->size))
	{
	/* Metadata is circular. Copy the wrap in place. */
	grub_memcpy (metadatabuf + mda_size,
	metadatabuf + GRUB_LVM_MDA_HEADER_SIZE,
	grub_le_to_cpu64 (rlocn->offset) +
	grub_le_to_cpu64 (rlocn->size) -
	grub_le_to_cpu64 (mdah->size));
	}
	p = q = metadatabuf + grub_le_to_cpu64 (rlocn->offset);

	while (*q != ' ' && q < metadatabuf + mda_size)
	q++;

	if (q == metadatabuf + mda_size)
	goto fail2;

	vgname_len = q - p;
	vgname = grub_malloc (vgname_len + 1);
	if (!vgname)
	goto fail2;

	grub_memcpy (vgname, p, vgname_len);
	vgname[vgname_len] = '\0';

	p = grub_strstr (q, "id = \"");
	if (p == NULL)
	goto fail3;
	p += sizeof ("id = \"") - 1;
	grub_memcpy (vg_id, p, GRUB_LVM_ID_STRLEN);
	vg_id[GRUB_LVM_ID_STRLEN] = '\0';

	for (vg = vg_list; vg; vg = vg->next)
	{
	if (! grub_memcmp(vg_id, vg->id, GRUB_LVM_ID_STRLEN))
	break;
	}

	if (! vg)
	{
	/* First time we see this volume group. We've to create the
	whole volume group structure. */
	vg = grub_malloc (sizeof (*vg));
	if (! vg)
	goto fail3;
	vg->name = vgname;
	grub_memcpy (vg->id, vg_id, GRUB_LVM_ID_STRLEN+1);

	vg->extent_size = grub_lvm_getvalue (&p, "extent_size = ");
	if (p == NULL)
	goto fail4;

	vg->lvs = NULL;
	vg->pvs = NULL;

	p = grub_strstr (p, "physical_volumes {");
	if (p)
	{
	p += sizeof ("physical_volumes {") - 1;

	/* Add all the pvs to the volume group. */
	while (1)
	{
	int s;
	while (grub_isspace (*p))
	p++;

	if (*p == '}')
	break;

	pv = grub_malloc (sizeof (*pv));
	q = p;
	while (*q != ' ')
	q++;

	s = q - p;
	pv->name = grub_malloc (s + 1);
	grub_memcpy (pv->name, p, s);
	pv->name[s] = '\0';

	p = grub_strstr (p, "id = \"");
	if (p == NULL)
	goto pvs_fail;
	p += sizeof("id = \"") - 1;

	grub_memcpy (pv->id, p, GRUB_LVM_ID_STRLEN);
	pv->id[GRUB_LVM_ID_STRLEN] = '\0';

	pv->start = grub_lvm_getvalue (&p, "pe_start = ");
	if (p == NULL)
	goto pvs_fail;

	p = grub_strchr (p, '}');
	if (p == NULL)
	goto pvs_fail;
	p++;

	pv->disk = NULL;
	pv->next = vg->pvs;
	vg->pvs = pv;

	continue;
	pvs_fail:
	grub_free (pv->name);
	grub_free (pv);
	goto fail4;
	}
	}

	p = grub_strstr (p, "logical_volumes");
	if (p)
	{
	p += 18;

	/* And add all the lvs to the volume group. */
	while (1)
	{
	int s;
	struct grub_lvm_lv *lv;
	struct grub_lvm_segment *seg;

	while (grub_isspace (*p))
	p++;

	if (*p == '}')
	break;

	lv = grub_malloc (sizeof (*lv));

	q = p;
	while (*q != ' ')
	q++;

	s = q - p;
	lv->name = grub_malloc (vgname_len + 1 + s + 1);
	grub_memcpy (lv->name, vgname, vgname_len);
	lv->name[vgname_len] = '-';
	grub_memcpy (lv->name + vgname_len + 1, p, s);
	lv->name[vgname_len + 1 + s] = '\0';

	lv->size = 0;

	lv->segment_count = grub_lvm_getvalue (&p, "segment_count = ");
	if (p == NULL)
	goto lvs_fail;
	lv->segments = grub_malloc (sizeof (seg) lv->segment_count);
	seg = lv->segments;

	for (i = 0; i < lv->segment_count; i++)
	{
	struct grub_lvm_stripe *stripe;

	p = grub_strstr (p, "segment");
	if (p == NULL)
	goto lvs_segment_fail;

	seg->start_extent = grub_lvm_getvalue (&p, "start_extent = ");
	if (p == NULL)
	goto lvs_segment_fail;
	seg->extent_count = grub_lvm_getvalue (&p, "extent_count = ");
	if (p == NULL)
	goto lvs_segment_fail;
	seg->stripe_count = grub_lvm_getvalue (&p, "stripe_count = ");
	if (p == NULL)
	goto lvs_segment_fail;

	lv->size += seg->extent_count * vg->extent_size;

	if (seg->stripe_count != 1)
	seg->stripe_size = grub_lvm_getvalue (&p, "stripe_size = ");

	seg->stripes = grub_malloc (sizeof (*stripe)
	* seg->stripe_count);
	stripe = seg->stripes;

	p = grub_strstr (p, "stripes = [");
	if (p == NULL)
	goto lvs_segment_fail2;
	p += sizeof("stripes = [") - 1;

	for (j = 0; j < seg->stripe_count; j++)
	{
	char *pvname;

	p = grub_strchr (p, '"');
	if (p == NULL)
	continue;
	q = ++p;
	while (*q != '"')
	q++;

	s = q - p;

	pvname = grub_malloc (s + 1);
	if (pvname == NULL)
	goto lvs_segment_fail2;

	grub_memcpy (pvname, p, s);
	pvname[s] = '\0';

	if (vg->pvs)
	for (pv = vg->pvs; pv; pv = pv->next)
	{
	if (! grub_strcmp (pvname, pv->name))
	{
	stripe->pv = pv;
	break;
	}
	}

	grub_free(pvname);

	stripe->start = grub_lvm_getvalue (&p, ",");
	if (p == NULL)
	continue;

	stripe++;
	}

	seg++;

	continue;
	lvs_segment_fail2:
	grub_free (seg->stripes);
	lvs_segment_fail:
	goto fail4;
	}

	if (p != NULL)
	p = grub_strchr (p, '}');
	if (p == NULL)
	goto lvs_fail;
	p += 3;

	lv->number = lv_count++;
	lv->vg = vg;
	lv->next = vg->lvs;
	vg->lvs = lv;

	continue;
	lvs_fail:
	grub_free (lv->name);
	grub_free (lv);
	goto fail4;
	}
	}

	vg->next = vg_list;
	vg_list = vg;
	}
	else
	{
	grub_free (vgname);
	}

	/* Match the device we are currently reading from with the right
	PV. */
	if (vg->pvs)
	for (pv = vg->pvs; pv; pv = pv->next)
	{
	if (! grub_memcmp (pv->id, pv_id, GRUB_LVM_ID_STRLEN))
	{
	/* This could happen to LVM on RAID, pv->disk points to the
	raid device, we shouldn't change it. */
	if (! pv->disk)
	pv->disk = grub_disk_open (name);
	break;
	}
	}

	goto fail2;

	/* Failure path. */
	fail4:
	grub_free (vg);
	fail3:
	grub_free (vgname);

	/* Normal exit path. */
	fail2:
	grub_free (metadatabuf);
	fail:
	grub_disk_close (disk);
	return 0;
	}

	static struct grub_disk_dev grub_lvm_dev =
	{
	.name = "lvm",
	.id = GRUB_DISK_DEVICE_LVM_ID,
	.iterate = grub_lvm_iterate,
	.open = grub_lvm_open,
	.close = grub_lvm_close,
	.read = grub_lvm_read,
	.write = grub_lvm_write,
	#ifdef GRUB_UTIL
	.memberlist = grub_lvm_memberlist,
	#endif
	.next = 0
	};


	GRUB_MOD_INIT(lvm)
	{
	grub_device_iterate (&grub_lvm_scan_device);
	if (grub_errno)
	{
	grub_print_error ();
	grub_errno = GRUB_ERR_NONE;
	}

	grub_disk_dev_register (&grub_lvm_dev);
	}

	GRUB_MOD_FINI(lvm)
	{
	grub_disk_dev_unregister (&grub_lvm_dev);
	/* FIXME: free the lvm list. */
	}