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lvm2/lib/format1/format1.c

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/*
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* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2012 Red Hat, Inc. All rights reserved.
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*
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* This file is part of LVM2.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
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*
* You should have received a copy of the GNU Lesser General Public License
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* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include "lib.h"
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#include "disk-rep.h"
#include "limits.h"
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#include "display.h"
#include "toolcontext.h"
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#include "lvm1-label.h"
#include "format1.h"
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#include "segtype.h"
#include "pv_alloc.h"
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/* VG consistency checks */
static int _check_vgs(struct dm_list *pvs, struct volume_group *vg)
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{
struct dm_list *pvh, *t;
struct disk_list *dl = NULL;
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struct disk_list *first = NULL;
uint32_t pv_count = 0;
uint32_t exported = 0;
int first_time = 1;
/*
* If there are exported and unexported PVs, ignore exported ones.
* This means an active VG won't be affected if disks are inserted
* bearing an exported VG with the same name.
*/
dm_list_iterate_items(dl, pvs) {
if (first_time) {
exported = dl->pvd.pv_status & VG_EXPORTED;
first_time = 0;
continue;
}
if (exported != (dl->pvd.pv_status & VG_EXPORTED)) {
/* Remove exported PVs */
dm_list_iterate_safe(pvh, t, pvs) {
dl = dm_list_item(pvh, struct disk_list);
if (dl->pvd.pv_status & VG_EXPORTED)
dm_list_del(pvh);
}
break;
}
}
/* Remove any PVs with VG structs that differ from the first */
dm_list_iterate_safe(pvh, t, pvs) {
dl = dm_list_item(pvh, struct disk_list);
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if (!first)
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first = dl;
else if (memcmp(&first->vgd, &dl->vgd, sizeof(first->vgd))) {
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log_error("VG data differs between PVs %s and %s",
dev_name(first->dev), dev_name(dl->dev));
log_debug_metadata("VG data on %s: %s %s %" PRIu32 " %" PRIu32
" %" PRIu32 " %" PRIu32 " %" PRIu32 " %"
PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32
" %" PRIu32 " %" PRIu32 " %" PRIu32 " %"
PRIu32 " %" PRIu32 " %" PRIu32,
dev_name(first->dev), first->vgd.vg_uuid,
first->vgd.vg_name_dummy,
first->vgd.vg_number, first->vgd.vg_access,
first->vgd.vg_status, first->vgd.lv_max,
first->vgd.lv_cur, first->vgd.lv_open,
first->vgd.pv_max, first->vgd.pv_cur,
first->vgd.pv_act, first->vgd.dummy,
first->vgd.vgda, first->vgd.pe_size,
first->vgd.pe_total, first->vgd.pe_allocated,
first->vgd.pvg_total);
log_debug_metadata("VG data on %s: %s %s %" PRIu32 " %" PRIu32
" %" PRIu32 " %" PRIu32 " %" PRIu32 " %"
PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32
" %" PRIu32 " %" PRIu32 " %" PRIu32 " %"
PRIu32 " %" PRIu32 " %" PRIu32,
dev_name(dl->dev), dl->vgd.vg_uuid,
dl->vgd.vg_name_dummy, dl->vgd.vg_number,
dl->vgd.vg_access, dl->vgd.vg_status,
dl->vgd.lv_max, dl->vgd.lv_cur,
dl->vgd.lv_open, dl->vgd.pv_max,
dl->vgd.pv_cur, dl->vgd.pv_act, dl->vgd.dummy,
dl->vgd.vgda, dl->vgd.pe_size,
dl->vgd.pe_total, dl->vgd.pe_allocated,
dl->vgd.pvg_total);
dm_list_del(pvh);
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return 0;
}
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pv_count++;
}
/* On entry to fn, list known to be non-empty */
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if (pv_count != first->vgd.pv_cur) {
log_error("%d PV(s) found for VG %s: expected %d",
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pv_count, first->pvd.vg_name, first->vgd.pv_cur);
vg->status |= PARTIAL_VG;
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}
return 1;
}
static int _fix_partial_vg(struct volume_group *vg, struct dm_list *pvs)
{
uint32_t extent_count = 0;
struct disk_list *dl;
struct dm_list *pvh;
struct pv_list *pvl;
struct lv_list *ll;
struct lv_segment *seg;
/*
* FIXME: code should remap missing segments to error segment.
* Also current mapping code allocates 1 segment per missing extent.
* For now bail out completely - allocated structures are not complete
*/
dm_list_iterate_items(ll, &vg->lvs)
dm_list_iterate_items(seg, &ll->lv->segments) {
/* area_count is always 1 here, s == 0 */
if (seg_type(seg, 0) != AREA_PV)
continue;
if (seg_pv(seg, 0))
continue;
log_error("Partial mode support for missing lvm1 PVs and "
"partially available LVs is currently not implemented.");
return 0;
}
dm_list_iterate(pvh, pvs) {
dl = dm_list_item(pvh, struct disk_list);
extent_count += dl->pvd.pe_total;
}
/* FIXME: move this to one place to pv_manip */
if (!(pvl = dm_pool_zalloc(vg->vgmem, sizeof(*pvl))) ||
!(pvl->pv = dm_pool_zalloc(vg->vgmem, sizeof(*pvl->pv))))
return_0;
/* Use vg uuid with replaced first chars to "missing" as missing PV UUID */
memcpy(&pvl->pv->id.uuid, vg->id.uuid, sizeof(pvl->pv->id.uuid));
memcpy(&pvl->pv->id.uuid, "missing", 7);
if (!(pvl->pv->vg_name = dm_pool_strdup(vg->vgmem, vg->name)))
goto_out;
memcpy(&pvl->pv->vgid, &vg->id, sizeof(vg->id));
pvl->pv->status |= MISSING_PV;
dm_list_init(&pvl->pv->tags);
dm_list_init(&pvl->pv->segments);
pvl->pv->pe_size = vg->extent_size;
pvl->pv->pe_count = vg->extent_count - extent_count;
if (!alloc_pv_segment_whole_pv(vg->vgmem, pvl->pv))
goto_out;
add_pvl_to_vgs(vg, pvl);
log_debug_metadata("%s: partial VG, allocated missing PV using %d extents.",
vg->name, pvl->pv->pe_count);
return 1;
out:
dm_pool_free(vg->vgmem, pvl);
return 0;
}
static struct volume_group *_format1_vg_read(struct format_instance *fid,
const char *vg_name,
struct metadata_area *mda __attribute__((unused)),
struct cached_vg_fmtdata **vg_fmtdata __attribute__((unused)),
unsigned *use_previous_vg __attribute__((unused)),
int single_device __attribute__((unused)))
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{
struct volume_group *vg;
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struct disk_list *dl;
DM_LIST_INIT(pvs);
/* Strip dev_dir if present */
if (vg_name)
vg_name = strip_dir(vg_name, fid->fmt->cmd->dev_dir);
if (!(vg = alloc_vg("format1_vg_read", fid->fmt->cmd, NULL)))
return_NULL;
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if (!read_pvs_in_vg(fid->fmt, vg_name, fid->fmt->cmd->filter,
vg->vgmem, &pvs))
goto_bad;
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if (dm_list_empty(&pvs))
goto_bad;
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if (!_check_vgs(&pvs, vg))
goto_bad;
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dl = dm_list_item(pvs.n, struct disk_list);
if (!import_vg(vg->vgmem, vg, dl))
goto_bad;
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if (!import_pvs(fid->fmt, vg->vgmem, vg, &pvs))
goto_bad;
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if (!import_lvs(vg->vgmem, vg, &pvs))
goto_bad;
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if (!import_extents(fid->fmt->cmd, vg, &pvs))
goto_bad;
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/* FIXME: workaround - temporary assignment of fid */
vg->fid = fid;
if (!import_snapshots(vg->vgmem, vg, &pvs)) {
vg->fid = NULL;
goto_bad;
}
vg->fid = NULL;
/* Fix extents counts by adding missing PV if partial VG */
if ((vg->status & PARTIAL_VG) && !_fix_partial_vg(vg, &pvs))
goto_bad;
vg_set_fid(vg, fid);
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return vg;
bad:
release_vg(vg);
return NULL;
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}
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static struct disk_list *_flatten_pv(struct format_instance *fid,
struct dm_pool *mem, struct volume_group *vg,
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struct physical_volume *pv,
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const char *dev_dir)
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{
struct disk_list *dl = dm_pool_alloc(mem, sizeof(*dl));
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if (!dl)
return_NULL;
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dl->mem = mem;
dl->dev = pv->dev;
dm_list_init(&dl->uuids);
dm_list_init(&dl->lvds);
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if (!export_pv(fid->fmt->cmd, mem, vg, &dl->pvd, pv) ||
!export_vg(&dl->vgd, vg) ||
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!export_uuids(dl, vg) ||
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!export_lvs(dl, vg, pv, dev_dir) || !calculate_layout(dl)) {
dm_pool_free(mem, dl);
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return_NULL;
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}
return dl;
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}
static int _flatten_vg(struct format_instance *fid, struct dm_pool *mem,
struct volume_group *vg,
struct dm_list *pvds, const char *dev_dir,
struct dev_filter *filter)
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{
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struct pv_list *pvl;
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struct disk_list *data;
dm_list_iterate_items(pvl, &vg->pvs) {
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if (!(data = _flatten_pv(fid, mem, vg, pvl->pv, dev_dir)))
return_0;
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dm_list_add(pvds, &data->list);
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}
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export_numbers(pvds, vg);
export_pv_act(pvds);
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if (!export_vg_number(fid, pvds, vg->name, filter))
return_0;
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return 1;
}
static int _format1_vg_write(struct format_instance *fid, struct volume_group *vg,
struct metadata_area *mda __attribute__((unused)))
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{
struct dm_pool *mem = dm_pool_create("lvm1 vg_write", VG_MEMPOOL_CHUNK);
struct dm_list pvds;
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int r = 0;
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if (!mem)
return_0;
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dm_list_init(&pvds);
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r = (_flatten_vg(fid, mem, vg, &pvds, fid->fmt->cmd->dev_dir,
fid->fmt->cmd->filter) &&
pv_write: clean up non-orphan format1 PV write ...to not pollute the common and format-independent code in the abstraction layer above. The format1 pv_write has common code for writing metadata and PV header by calling the "write_disks" fn and when rewriting the header itself only (e.g. just for the purpose of changing the PV UUID) during the pvchange operation, we had to tweak this functionality for the format1 case and we had to assign the PV the orphan state temporarily. This patch removes the need for this format1 tweak and it calls the write_disks with appropriate flag indicating whether this is a PV write call or a VG write call, allowing for metatada update for the latter one. Also, a side effect of the former tweak was that it effectively invalidated the cache (even for the non-format1 PVs) as we assigned it the orphan state temporarily just for the format1 PV write to pass. Also, that tweak made it difficult to directly detect whether a PV was part of a VG or not because the state was incorrect. Also, it's not necessary to backup and restore some PV fields when doing a PV write: orig_pe_size = pv_pe_size(pv); orig_pe_start = pv_pe_start(pv); orig_pe_count = pv_pe_count(pv); ... pv_write(pv) ... pv->pe_size = orig_pe_size; pv->pe_start = orig_pe_start; pv->pe_count = orig_pe_count; ...this is already done by the layer below itself (the _format1_pv_write fn). So let's have this cleaned up so we don't need to be bothered about any 'format1 special case for pv_write' anymore.
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write_disks(fid->fmt, &pvds, 1));
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lvmcache_update_vg(vg, 0);
dm_pool_destroy(mem);
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return r;
}
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static int _format1_pv_read(const struct format_type *fmt, const char *pv_name,
struct physical_volume *pv, int scan_label_only __attribute__((unused)))
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{
struct dm_pool *mem = dm_pool_create("lvm1 pv_read", 1024);
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struct disk_list *dl;
struct device *dev;
int r = 0;
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log_very_verbose("Reading physical volume data %s from disk", pv_name);
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if (!mem)
return_0;
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if (!(dev = dev_cache_get(pv_name, fmt->cmd->filter)))
goto_out;
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if (!(dl = read_disk(fmt, dev, mem, NULL)))
goto_out;
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if (!import_pv(fmt, fmt->cmd->mem, dl->dev, NULL, pv, &dl->pvd, &dl->vgd))
goto_out;
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pv->fmt = fmt;
r = 1;
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out:
dm_pool_destroy(mem);
return r;
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}
static int _format1_pv_initialise(const struct format_type * fmt,
struct pv_create_args *pva,
struct physical_volume * pv)
{
if (pv->size > MAX_PV_SIZE)
pv->size--;
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if (pv->size > MAX_PV_SIZE) {
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log_error("Physical volumes cannot be bigger than %s",
display_size(fmt->cmd, (uint64_t) MAX_PV_SIZE));
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return 0;
}
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/* Nothing more to do if extent size isn't provided */
if (!pva->extent_size)
return 1;
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/*
* This works out pe_start and pe_count.
*/
if (!calculate_extent_count(pv, pva->extent_size, pva->extent_count, pva->pe_start))
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return_0;
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/* Retain existing extent locations exactly */
if (((pva->pe_start || pva->extent_count) && (pva->pe_start != pv->pe_start)) ||
(pva->extent_count && (pva->extent_count != pv->pe_count))) {
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log_error("Metadata would overwrite physical extents");
return 0;
}
return 1;
}
static int _format1_pv_setup(const struct format_type *fmt,
struct physical_volume *pv,
struct volume_group *vg)
{
struct pv_create_args pva = { .id = {{0}},
.idp = NULL,
.ba_start = 0,
.ba_size = 0,
.pe_start = 0,
.extent_count = 0,
.extent_size = vg->extent_size};
return _format1_pv_initialise(fmt, &pva, pv);
}
static int _format1_lv_setup(struct format_instance *fid, struct logical_volume *lv)
{
uint64_t max_size = UINT_MAX;
if (!*lv->lvid.s)
lvid_from_lvnum(&lv->lvid, &lv->vg->id, find_free_lvnum(lv));
if (lv->le_count > MAX_LE_TOTAL) {
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log_error("logical volumes cannot contain more than "
"%d extents.", MAX_LE_TOTAL);
return 0;
}
if (lv->size > max_size) {
log_error("logical volumes cannot be larger than %s",
display_size(fid->fmt->cmd, max_size));
return 0;
}
return 1;
}
static int _format1_pv_write(const struct format_type *fmt, struct physical_volume *pv)
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{
struct dm_pool *mem;
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struct disk_list *dl;
struct dm_list pvs;
struct lvmcache_info *info;
int pe_count, pe_size, pe_start;
int r = 1;
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if (!(info = lvmcache_add(fmt->labeller, (char *) &pv->id, pv->dev,
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pv->vg_name, NULL, 0)))
return_0;
lvmcache_update_pv(info, pv, fmt);
lvmcache_del_mdas(info);
lvmcache_del_das(info);
lvmcache_del_bas(info);
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dm_list_init(&pvs);
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pe_count = pv->pe_count;
pe_size = pv->pe_size;
pe_start = pv->pe_start;
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/* Ensure any residual PE structure is gone */
pv->pe_size = pv->pe_count = 0;
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pv->pe_start = LVM1_PE_ALIGN;
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if (!(mem = dm_pool_create("lvm1 pv_write", 1024)))
return_0;
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if (!(dl = dm_pool_alloc(mem, sizeof(*dl))))
goto_bad;
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dl->mem = mem;
dl->dev = pv->dev;
dm_list_init(&dl->uuids);
dm_list_init(&dl->lvds);
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if (!export_pv(fmt->cmd, mem, NULL, &dl->pvd, pv))
goto_bad;
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/* must be set to be able to zero gap after PV structure in
dev_write in order to make other disk tools happy */
dl->pvd.pv_on_disk.base = METADATA_BASE;
dl->pvd.pv_on_disk.size = PV_SIZE;
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dl->pvd.pe_on_disk.base = LVM1_PE_ALIGN << SECTOR_SHIFT;
dm_list_add(&pvs, &dl->list);
pv_write: clean up non-orphan format1 PV write ...to not pollute the common and format-independent code in the abstraction layer above. The format1 pv_write has common code for writing metadata and PV header by calling the "write_disks" fn and when rewriting the header itself only (e.g. just for the purpose of changing the PV UUID) during the pvchange operation, we had to tweak this functionality for the format1 case and we had to assign the PV the orphan state temporarily. This patch removes the need for this format1 tweak and it calls the write_disks with appropriate flag indicating whether this is a PV write call or a VG write call, allowing for metatada update for the latter one. Also, a side effect of the former tweak was that it effectively invalidated the cache (even for the non-format1 PVs) as we assigned it the orphan state temporarily just for the format1 PV write to pass. Also, that tweak made it difficult to directly detect whether a PV was part of a VG or not because the state was incorrect. Also, it's not necessary to backup and restore some PV fields when doing a PV write: orig_pe_size = pv_pe_size(pv); orig_pe_start = pv_pe_start(pv); orig_pe_count = pv_pe_count(pv); ... pv_write(pv) ... pv->pe_size = orig_pe_size; pv->pe_start = orig_pe_start; pv->pe_count = orig_pe_count; ...this is already done by the layer below itself (the _format1_pv_write fn). So let's have this cleaned up so we don't need to be bothered about any 'format1 special case for pv_write' anymore.
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if (!write_disks(fmt, &pvs, 0))
goto_bad;
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goto out;
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bad:
r = 0;
out:
pv->pe_size = pe_size;
pv->pe_count = pe_count;
pv->pe_start = pe_start;
dm_pool_destroy(mem);
return r;
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}
static int _format1_vg_setup(struct format_instance *fid, struct volume_group *vg)
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{
/* just check max_pv and max_lv */
if (!vg->max_lv || vg->max_lv >= MAX_LV)
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vg->max_lv = MAX_LV - 1;
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if (!vg->max_pv || vg->max_pv >= MAX_PV)
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vg->max_pv = MAX_PV - 1;
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if (!vg_check_new_extent_size(vg->fid->fmt, vg->extent_size))
return_0;
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/* Generate lvm1_system_id if not yet set */
if (!*vg->lvm1_system_id &&
!generate_lvm1_system_id(vg->cmd, vg->lvm1_system_id, ""))
return_0;
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return 1;
}
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static int _format1_segtype_supported(struct format_instance *fid __attribute__((unused)),
const struct segment_type *segtype)
{
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if (!(segtype->flags & SEG_FORMAT1_SUPPORT))
return_0;
return 1;
}
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static struct metadata_area_ops _metadata_format1_ops = {
.vg_read = _format1_vg_read,
.vg_write = _format1_vg_write,
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};
static struct format_instance *_format1_create_instance(const struct format_type *fmt,
const struct format_instance_ctx *fic)
{
struct format_instance *fid;
struct metadata_area *mda;
if (!(fid = alloc_fid(fmt, fic)))
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return_NULL;
/* Define a NULL metadata area */
if (!(mda = dm_pool_zalloc(fid->mem, sizeof(*mda)))) {
log_error("Unable to allocate metadata area structure "
"for lvm1 format");
goto bad;
}
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mda->ops = &_metadata_format1_ops;
mda->metadata_locn = NULL;
mda->status = 0;
dm_list_add(&fid->metadata_areas_in_use, &mda->list);
return fid;
bad:
dm_pool_destroy(fid->mem);
return NULL;
}
static void _format1_destroy_instance(struct format_instance *fid)
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{
if (--fid->ref_count <= 1)
dm_pool_destroy(fid->mem);
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}
static void _format1_destroy(struct format_type *fmt)
{
if (fmt->orphan_vg)
free_orphan_vg(fmt->orphan_vg);
dm_free(fmt);
}
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static struct format_handler _format1_ops = {
.pv_read = _format1_pv_read,
.pv_initialise = _format1_pv_initialise,
.pv_setup = _format1_pv_setup,
.pv_write = _format1_pv_write,
.lv_setup = _format1_lv_setup,
.vg_setup = _format1_vg_setup,
.segtype_supported = _format1_segtype_supported,
.create_instance = _format1_create_instance,
.destroy_instance = _format1_destroy_instance,
.destroy = _format1_destroy,
};
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#ifdef LVM1_INTERNAL
struct format_type *init_lvm1_format(struct cmd_context *cmd)
#else /* Shared */
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struct format_type *init_format(struct cmd_context *cmd);
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struct format_type *init_format(struct cmd_context *cmd)
#endif
{
struct format_type *fmt = dm_malloc(sizeof(*fmt));
struct format_instance_ctx fic;
struct format_instance *fid;
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if (!fmt) {
log_error("Failed to allocate format1 format type structure.");
return NULL;
}
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fmt->cmd = cmd;
fmt->ops = &_format1_ops;
fmt->name = FMT_LVM1_NAME;
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fmt->alias = NULL;
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fmt->orphan_vg_name = FMT_LVM1_ORPHAN_VG_NAME;
fmt->features = FMT_RESTRICTED_LVIDS | FMT_ORPHAN_ALLOCATABLE |
FMT_RESTRICTED_READAHEAD | FMT_OBSOLETE |
FMT_SYSTEMID_ON_PVS;
fmt->private = NULL;
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dm_list_init(&fmt->mda_ops);
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if (!(fmt->labeller = lvm1_labeller_create(fmt))) {
log_error("Couldn't create lvm1 label handler.");
dm_free(fmt);
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return NULL;
}
if (!(label_register_handler(fmt->labeller))) {
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log_error("Couldn't register lvm1 label handler.");
fmt->labeller->ops->destroy(fmt->labeller);
dm_free(fmt);
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return NULL;
}
if (!(fmt->orphan_vg = alloc_vg("format1_orphan", cmd, fmt->orphan_vg_name))) {
log_error("Couldn't create lvm1 orphan VG.");
dm_free(fmt);
return NULL;
}
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fic.type = FMT_INSTANCE_AUX_MDAS;
fic.context.vg_ref.vg_name = fmt->orphan_vg_name;
fic.context.vg_ref.vg_id = NULL;
if (!(fid = _format1_create_instance(fmt, &fic))) {
_format1_destroy(fmt);
return_NULL;
}
vg_set_fid(fmt->orphan_vg, fid);
log_very_verbose("Initialised format: %s", fmt->name);
return fmt;
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}