lvm: Add LVM cache logical volume handling
The LVM cache logical volume is the logical volume consisting of the original and the cache pool logical volume. The original is usually on a larger and slower storage device while the cache pool is on a smaller and faster one. The performance of the original volume can be improved by storing the frequently used data on the cache pool to utilize the greater performance of faster device. The default cache mode "writethrough" ensures that any data written will be stored both in the cache and on the origin LV, therefore grub can be straight to read the original lv as no data loss is guarenteed. The second cache mode is "writeback", which delays writing from the cache pool back to the origin LV to have increased performance. The drawback is potential data loss if losing the associated cache device. During the boot time grub reads the LVM offline i.e. LVM volumes are not activated and mounted, hence it should be fine to read directly from original lv since all cached data should have been flushed back in the process of taking it offline. It is also not much helpful to the situation by adding fsync calls to the install code. The fsync did not force to write back dirty cache to the original device and rather it would update associated cache metadata to complete the write transaction with the cache device. IOW the writes to cached blocks still go only to the cache device. To write back dirty cache, as LVM cache did not support dirty cache flush per block range, there'no way to do it for file. On the other hand the "cleaner" policy is implemented and can be used to write back "all" dirty blocks in a cache, which effectively drain all dirty cache gradually to attain and last in the "clean" state, which can be useful for shrinking or decommissioning a cache. The result and effect is not what we are looking for here. In conclusion, as it seems no way to enforce file writes to the original device, grub may suffer from power failure as it cannot assemble the cache device and read the dirty data from it. However since the case is only applicable to writeback mode which is sensitive to data lost in nature, I'd still like to propose my (relatively simple) patch and treat reading dirty cache as improvement. Signed-off-by: Michael Chang <mchang@suse.com> Reviewed-by: Daniel Kiper <daniel.kiper@oracle.com>
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@ -33,6 +33,14 @@
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GRUB_MOD_LICENSE ("GPLv3+");
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GRUB_MOD_LICENSE ("GPLv3+");
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struct cache_lv
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{
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struct grub_diskfilter_lv *lv;
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char *cache_pool;
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char *origin;
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struct cache_lv *next;
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};
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/* Go the string STR and return the number after STR. *P will point
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/* Go the string STR and return the number after STR. *P will point
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at the number. In case STR is not found, *P will be NULL and the
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at the number. In case STR is not found, *P will be NULL and the
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@ -95,6 +103,34 @@ grub_lvm_check_flag (const char *p, const char *str, const char *flag)
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}
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}
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}
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}
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static void
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grub_lvm_free_cache_lvs (struct cache_lv *cache_lvs)
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{
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struct cache_lv *cache;
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while ((cache = cache_lvs))
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{
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cache_lvs = cache_lvs->next;
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if (cache->lv)
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{
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unsigned int i;
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for (i = 0; i < cache->lv->segment_count; ++i)
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if (cache->lv->segments)
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grub_free (cache->lv->segments[i].nodes);
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grub_free (cache->lv->segments);
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grub_free (cache->lv->fullname);
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grub_free (cache->lv->idname);
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grub_free (cache->lv->name);
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}
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grub_free (cache->lv);
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grub_free (cache->origin);
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grub_free (cache->cache_pool);
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grub_free (cache);
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}
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}
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static struct grub_diskfilter_vg *
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static struct grub_diskfilter_vg *
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grub_lvm_detect (grub_disk_t disk,
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grub_lvm_detect (grub_disk_t disk,
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struct grub_diskfilter_pv_id *id,
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struct grub_diskfilter_pv_id *id,
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@ -243,6 +279,8 @@ grub_lvm_detect (grub_disk_t disk,
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if (! vg)
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if (! vg)
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{
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{
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struct cache_lv *cache_lvs = NULL;
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/* First time we see this volume group. We've to create the
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/* First time we see this volume group. We've to create the
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whole volume group structure. */
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whole volume group structure. */
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vg = grub_malloc (sizeof (*vg));
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vg = grub_malloc (sizeof (*vg));
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@ -672,6 +710,106 @@ grub_lvm_detect (grub_disk_t disk,
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seg->nodes[seg->node_count - 1].name = tmp;
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seg->nodes[seg->node_count - 1].name = tmp;
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}
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}
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}
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}
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else if (grub_memcmp (p, "cache\"",
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sizeof ("cache\"") - 1) == 0)
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{
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struct cache_lv *cache = NULL;
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char *p2, *p3;
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grub_size_t sz;
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cache = grub_zalloc (sizeof (*cache));
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if (!cache)
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goto cache_lv_fail;
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cache->lv = grub_zalloc (sizeof (*cache->lv));
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if (!cache->lv)
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goto cache_lv_fail;
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grub_memcpy (cache->lv, lv, sizeof (*cache->lv));
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if (lv->fullname)
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{
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cache->lv->fullname = grub_strdup (lv->fullname);
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if (!cache->lv->fullname)
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goto cache_lv_fail;
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}
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if (lv->idname)
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{
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cache->lv->idname = grub_strdup (lv->idname);
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if (!cache->lv->idname)
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goto cache_lv_fail;
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}
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if (lv->name)
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{
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cache->lv->name = grub_strdup (lv->name);
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if (!cache->lv->name)
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goto cache_lv_fail;
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}
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skip_lv = 1;
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p2 = grub_strstr (p, "cache_pool = \"");
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if (!p2)
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goto cache_lv_fail;
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p2 = grub_strchr (p2, '"');
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if (!p2)
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goto cache_lv_fail;
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p3 = ++p2;
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p3 = grub_strchr (p3, '"');
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if (!p3)
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goto cache_lv_fail;
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sz = p3 - p2;
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cache->cache_pool = grub_malloc (sz + 1);
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if (!cache->cache_pool)
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goto cache_lv_fail;
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grub_memcpy (cache->cache_pool, p2, sz);
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cache->cache_pool[sz] = '\0';
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p2 = grub_strstr (p, "origin = \"");
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if (!p2)
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goto cache_lv_fail;
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p2 = grub_strchr (p2, '"');
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if (!p2)
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goto cache_lv_fail;
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p3 = ++p2;
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p3 = grub_strchr (p3, '"');
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if (!p3)
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goto cache_lv_fail;
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sz = p3 - p2;
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cache->origin = grub_malloc (sz + 1);
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if (!cache->origin)
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goto cache_lv_fail;
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grub_memcpy (cache->origin, p2, sz);
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cache->origin[sz] = '\0';
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cache->next = cache_lvs;
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cache_lvs = cache;
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break;
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cache_lv_fail:
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if (cache)
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{
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grub_free (cache->origin);
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grub_free (cache->cache_pool);
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if (cache->lv)
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{
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grub_free (cache->lv->fullname);
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grub_free (cache->lv->idname);
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grub_free (cache->lv->name);
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}
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grub_free (cache->lv);
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grub_free (cache);
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}
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grub_lvm_free_cache_lvs (cache_lvs);
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goto fail4;
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}
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else
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else
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{
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{
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#ifdef GRUB_UTIL
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#ifdef GRUB_UTIL
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@ -748,6 +886,58 @@ grub_lvm_detect (grub_disk_t disk,
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}
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}
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}
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}
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{
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struct cache_lv *cache;
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for (cache = cache_lvs; cache; cache = cache->next)
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{
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struct grub_diskfilter_lv *lv;
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for (lv = vg->lvs; lv; lv = lv->next)
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if (grub_strcmp (lv->name, cache->origin) == 0)
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break;
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if (lv)
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{
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cache->lv->segments = grub_malloc (lv->segment_count * sizeof (*lv->segments));
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if (!cache->lv->segments)
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{
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grub_lvm_free_cache_lvs (cache_lvs);
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goto fail4;
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}
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grub_memcpy (cache->lv->segments, lv->segments, lv->segment_count * sizeof (*lv->segments));
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for (i = 0; i < lv->segment_count; ++i)
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{
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struct grub_diskfilter_node *nodes = lv->segments[i].nodes;
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grub_size_t node_count = lv->segments[i].node_count;
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cache->lv->segments[i].nodes = grub_malloc (node_count * sizeof (*nodes));
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if (!cache->lv->segments[i].nodes)
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{
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for (j = 0; j < i; ++j)
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grub_free (cache->lv->segments[j].nodes);
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grub_free (cache->lv->segments);
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cache->lv->segments = NULL;
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grub_lvm_free_cache_lvs (cache_lvs);
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goto fail4;
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}
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grub_memcpy (cache->lv->segments[i].nodes, nodes, node_count * sizeof (*nodes));
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}
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if (cache->lv->segments)
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{
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cache->lv->segment_count = lv->segment_count;
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cache->lv->vg = vg;
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cache->lv->next = vg->lvs;
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vg->lvs = cache->lv;
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cache->lv = NULL;
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}
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}
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}
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}
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grub_lvm_free_cache_lvs (cache_lvs);
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if (grub_diskfilter_vg_register (vg))
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if (grub_diskfilter_vg_register (vg))
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goto fail4;
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goto fail4;
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}
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}
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