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lvm2/lib/format1/import-export.c

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/*
* Copyright (C) 2001 Sistina Software (UK) Limited.
*
* Translates between disk and in-core formats.
*
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* This file is released under the LGPL.
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*/
#include "disk-rep.h"
#include "dbg_malloc.h"
#include "pool.h"
#include "hash.h"
#include "list.h"
#include "log.h"
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#include <time.h>
#include <sys/utsname.h>
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static int _check_vg_name(const char *name)
{
return strlen(name) < NAME_LEN;
}
/*
* Extracts the last part of a path.
*/
static char *_create_lv_name(struct pool *mem, const char *full_name)
{
const char *ptr = strrchr(full_name, '/');
if (!ptr)
ptr = full_name;
else
ptr++;
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return pool_strdup(mem, ptr);
}
int import_pv(struct pool *mem, struct device *dev,
struct physical_volume *pv, struct pv_disk *pvd)
{
memset(pv, 0, sizeof(*pv));
memcpy(&pv->id, pvd->pv_uuid, ID_LEN);
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pv->dev = dev;
if (!(pv->vg_name = pool_strdup(mem, pvd->vg_name))) {
stack;
return 0;
}
if (pvd->pv_allocatable)
pv->status |= ALLOCATABLE_PV;
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pv->size = pvd->pv_size;
pv->pe_size = pvd->pe_size;
pv->pe_start = pvd->pe_start;
pv->pe_count = pvd->pe_total;
pv->pe_allocated = pvd->pe_allocated;
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return 1;
}
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static int _system_id(char *system_id)
{
struct utsname uts;
if (uname(&uts) != 0) {
log_sys_error("uname", "_system_id");
return 0;
}
sprintf(system_id, "%s%lu", uts.nodename, time(NULL));
return 1;
}
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int export_pv(struct pv_disk *pvd, struct physical_volume *pv)
{
memset(pvd, 0, sizeof(*pvd));
pvd->id[0] = 'H';
pvd->id[1] = 'M';
pvd->version = 1;
memcpy(pvd->pv_uuid, pv->id.uuid, ID_LEN);
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if (!_check_vg_name(pv->vg_name)) {
stack;
return 0;
}
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memset(pvd->vg_name, 0, sizeof(pvd->vg_name));
if (pv->vg_name)
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strncpy(pvd->vg_name, pv->vg_name, sizeof(pvd->vg_name));
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//pvd->pv_major = MAJOR(pv->dev);
if (pv->status & ALLOCATABLE_PV)
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pvd->pv_allocatable = PV_ALLOCATABLE;
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pvd->pv_size = pv->size;
pvd->lv_cur = 0; /* this is set when exporting the lv list */
pvd->pe_size = pv->pe_size;
pvd->pe_total = pv->pe_count;
pvd->pe_allocated = pv->pe_allocated;
pvd->pe_start = pv->pe_start;
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if (!_system_id(pvd->system_id)) {
stack;
return 0;
}
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return 1;
}
int import_vg(struct pool *mem,
struct volume_group *vg, struct disk_list *dl)
{
struct vg_disk *vgd = &dl->vgd;
memcpy(vg->id.uuid, vgd->vg_uuid, ID_LEN);
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if (!_check_vg_name(dl->pvd.vg_name)) {
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stack;
return 0;
}
if (!(vg->name = pool_strdup(mem, dl->pvd.vg_name))) {
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stack;
return 0;
}
if (vgd->vg_status & VG_EXPORTED)
vg->status |= EXPORTED_VG;
if (vgd->vg_status & VG_EXTENDABLE)
vg->status |= RESIZEABLE_VG;
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if (vgd->vg_access & VG_READ)
vg->status |= LVM_READ;
if (vgd->vg_access & VG_WRITE)
vg->status |= LVM_WRITE;
if (vgd->vg_access & VG_CLUSTERED)
vg->status |= CLUSTERED;
if (vgd->vg_access & VG_SHARED)
vg->status |= SHARED;
vg->extent_size = vgd->pe_size;
vg->extent_count = vgd->pe_total;
vg->free_count = vgd->pe_total - vgd->pe_allocated;
vg->max_lv = vgd->lv_max;
vg->max_pv = vgd->pv_max;
return 1;
}
int export_vg(struct vg_disk *vgd, struct volume_group *vg)
{
memset(vgd, 0, sizeof(*vgd));
memcpy(vgd->vg_uuid, vg->id.uuid, ID_LEN);
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if (vg->status & LVM_READ)
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vgd->vg_access |= VG_READ;
if (vg->status & LVM_WRITE)
vgd->vg_access |= VG_WRITE;
if (vg->status & CLUSTERED)
vgd->vg_access |= VG_CLUSTERED;
if (vg->status & SHARED)
vgd->vg_access |= VG_SHARED;
if (vg->status & EXPORTED_VG)
vgd->vg_status |= VG_EXPORTED;
if (vg->status & RESIZEABLE_VG)
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vgd->vg_status |= VG_EXTENDABLE;
vgd->lv_max = vg->max_lv;
vgd->lv_cur = vg->lv_count;
vgd->pv_max = vg->max_pv;
vgd->pv_cur = vg->pv_count;
vgd->pe_size = vg->extent_size;
vgd->pe_total = vg->extent_count;
vgd->pe_allocated = vg->extent_count - vg->free_count;
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return 1;
}
int import_lv(struct pool *mem, struct logical_volume *lv, struct lv_disk *lvd)
{
memset(&lv->id, 0, sizeof(lv->id));
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if (!(lv->name = _create_lv_name(mem, lvd->lv_name))) {
stack;
return 0;
}
if (lvd->lv_status & LV_SPINDOWN)
lv->status |= SPINDOWN_LV;
if (lvd->lv_access & LV_READ)
lv->status |= LVM_READ;
if (lvd->lv_access & LV_WRITE)
lv->status |= LVM_WRITE;
if (lvd->lv_access & LV_SNAPSHOT)
lv->status |= SNAPSHOT;
if (lvd->lv_access & LV_SNAPSHOT_ORG)
lv->status |= SNAPSHOT_ORG;
if (lvd->lv_badblock)
lv->status |= BADBLOCK_ON;
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if (lvd->lv_allocation & LV_STRICT)
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lv->status |= ALLOC_STRICT;
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if (lvd->lv_allocation & LV_CONTIGUOUS)
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lv->status |= ALLOC_CONTIGUOUS;
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else
lv->status |= ALLOC_SIMPLE;
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lv->read_ahead = lvd->lv_read_ahead;
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lv->size = lvd->lv_size;
lv->le_count = lvd->lv_allocated_le;
list_init(&lv->segments);
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return 1;
}
void export_lv(struct lv_disk *lvd, struct volume_group *vg,
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struct logical_volume *lv, const char *dev_dir)
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{
memset(lvd, 0, sizeof(*lvd));
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snprintf(lvd->lv_name, sizeof(lvd->lv_name), "%s%s/%s",
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dev_dir, vg->name, lv->name);
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/* FIXME: Add 'if' test */
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_check_vg_name(vg->name);
strcpy(lvd->vg_name, vg->name);
if (lv->status & LVM_READ)
lvd->lv_access |= LV_READ;
if (lv->status & LVM_WRITE)
lvd->lv_access |= LV_WRITE;
if (lv->status & SNAPSHOT)
lvd->lv_access |= LV_SNAPSHOT;
if (lv->status & SNAPSHOT_ORG)
lvd->lv_access |= LV_SNAPSHOT_ORG;
if (lv->status & SPINDOWN_LV)
lvd->lv_status |= LV_SPINDOWN;
lvd->lv_read_ahead = lv->read_ahead;
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lvd->lv_stripes = list_item(lv->segments.n,
struct stripe_segment)->stripes;
lvd->lv_stripesize = list_item(lv->segments.n,
struct stripe_segment)->stripe_size;
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lvd->lv_size = lv->size;
lvd->lv_allocated_le = lv->le_count;
if (lv->status & BADBLOCK_ON)
lvd->lv_badblock = LV_BADBLOCK_ON;
if (lv->status & ALLOC_STRICT)
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lvd->lv_allocation |= LV_STRICT;
if (lv->status & ALLOC_CONTIGUOUS)
lvd->lv_allocation |= LV_CONTIGUOUS;
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}
int export_extents(struct disk_list *dl, int lv_num,
struct logical_volume *lv,
struct physical_volume *pv)
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{
struct list *segh;
struct pe_disk *ped;
struct stripe_segment *seg;
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uint32_t pe, s;
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list_iterate (segh, &lv->segments) {
seg = list_item(segh, struct stripe_segment);
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for (s = 0; s < seg->stripes; s++) {
if (seg->area[s].pv != pv)
continue; /* not our pv */
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for (pe = 0; pe < (seg->len / seg->stripes); pe++) {
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ped = &dl->extents[pe + seg->area[s].pe];
ped->lv_num = lv_num;
ped->le_num = seg->le + pe +
s * (seg->len / seg->stripes);
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}
}
}
return 1;
}
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int import_pvs(struct pool *mem, struct list *pvds,
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struct list *results, int *count)
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{
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struct list *pvdh;
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struct disk_list *dl;
struct pv_list *pvl;
*count = 0;
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list_iterate(pvdh, pvds) {
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dl = list_item(pvdh, struct disk_list);
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if (!(pvl = pool_alloc(mem, sizeof(*pvl))) ||
!(pvl->pv = pool_alloc(mem, sizeof(*pvl->pv)))) {
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stack;
return 0;
}
if (!import_pv(mem, dl->dev, pvl->pv, &dl->pvd)) {
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stack;
return 0;
}
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list_add(results, &pvl->list);
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(*count)++;
}
return 1;
}
static struct logical_volume *_add_lv(struct pool *mem,
struct volume_group *vg,
struct lv_disk *lvd)
{
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struct lv_list *ll;
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struct logical_volume *lv;
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if (!(ll = pool_zalloc(mem, sizeof(*ll))) ||
!(ll->lv = pool_zalloc(mem, sizeof(*ll->lv)))) {
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stack;
return NULL;
}
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lv = ll->lv;
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if (!import_lv(mem, lv, lvd)) {
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stack;
return NULL;
}
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list_add(&vg->lvs, &ll->list);
lv->vg = vg;
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vg->lv_count++;
return lv;
}
int import_lvs(struct pool *mem, struct volume_group *vg,
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struct list *pvds)
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{
struct disk_list *dl;
struct lvd_list *ll;
struct lv_disk *lvd;
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struct list *pvdh, *lvdh;
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list_iterate(pvdh, pvds) {
dl = list_item(pvdh, struct disk_list);
list_iterate(lvdh, &dl->lvds) {
ll = list_item(lvdh, struct lvd_list);
lvd = &ll->lvd;
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if (!find_lv(vg, lvd->lv_name) &&
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!_add_lv(mem, vg, lvd)) {
stack;
return 0;
}
}
}
return 1;
}
int export_lvs(struct disk_list *dl, struct volume_group *vg,
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struct physical_volume *pv, const char *dev_dir)
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{
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struct list *lvh;
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struct lv_list *ll;
struct lvd_list *lvdl;
int lv_num = 0, len;
/*
* setup the pv's extents array
*/
len = sizeof(struct pe_disk) * dl->pvd.pe_total;
if (!(dl->extents = pool_alloc(dl->mem, len))) {
stack;
return 0;
}
memset(dl->extents, 0, len);
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list_iterate(lvh, &vg->lvs) {
ll = list_item(lvh, struct lv_list);
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if (!(lvdl = pool_alloc(dl->mem, sizeof(*lvdl)))) {
stack;
return 0;
}
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export_lv(&lvdl->lvd, vg, ll->lv, dev_dir);
lvdl->lvd.lv_number = lv_num;
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if (!export_extents(dl, lv_num + 1, ll->lv, pv)) {
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stack;
return 0;
}
list_add(&dl->lvds, &lvdl->list);
dl->pvd.lv_cur++;
lv_num++;
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}
return 1;
}
int export_uuids(struct disk_list *dl, struct volume_group *vg)
{
struct uuid_list *ul;
struct pv_list *pvl;
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struct list *pvh;
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list_iterate(pvh, &vg->pvs) {
pvl = list_item(pvh, struct pv_list);
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if (!(ul = pool_alloc(dl->mem, sizeof(*ul)))) {
stack;
return 0;
}
memset(ul->uuid, 0, sizeof(ul->uuid));
memcpy(ul->uuid, pvl->pv->id.uuid, ID_LEN);
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list_add(&dl->uuids, &ul->list);
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}
return 1;
}
/*
* This calculates the nasty pv_number and
* lv_number fields used by LVM1. Very
* inefficient code.
*/
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void export_numbers(struct list *pvds, struct volume_group *vg)
{
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struct list *pvdh;
struct disk_list *dl;
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int pv_num = 1;
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list_iterate(pvdh, pvds) {
dl = list_item(pvdh, struct disk_list);
dl->pvd.pv_number = pv_num++;
}
}
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/*
* Calculate vg_disk->pv_act.
*/
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void export_pv_act(struct list *pvds)
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{
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struct list *pvdh;
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struct disk_list *dl;
int act = 0;
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list_iterate(pvdh, pvds) {
dl = list_item(pvdh, struct disk_list);
if (dl->pvd.pv_status & PV_ACTIVE)
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act++;
}
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list_iterate(pvdh, pvds) {
dl = list_item(pvdh, struct disk_list);
dl->vgd.pv_act = act;
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}
}
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int export_vg_number(struct list *pvds, const char *vg_name,
struct dev_filter *filter)
{
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struct list *pvdh;
struct disk_list *dl;
int vg_num;
if (!get_free_vg_number(filter, vg_name, &vg_num)) {
stack;
return 0;
}
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list_iterate(pvdh, pvds) {
dl = list_item(pvdh, struct disk_list);
dl->vgd.vg_number = vg_num;
}
return 1;
}