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lvm2/lib/label/label.c

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/*
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* Copyright (C) 2002-2004 Sistina Software, Inc. All rights reserved.
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* Copyright (C) 2004-2007 Red Hat, Inc. All rights reserved.
*
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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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#include "lib.h"
#include "label.h"
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#include "crc.h"
#include "xlate.h"
#include "lvmcache.h"
#include "bcache.h"
#include "toolcontext.h"
#include "activate.h"
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#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include <sys/time.h>
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/* FIXME Allow for larger labels? Restricted to single sector currently */
/*
* Internal labeller struct.
*/
struct labeller_i {
struct dm_list list;
struct labeller *l;
char name[0];
};
static struct dm_list _labellers;
static struct labeller_i *_alloc_li(const char *name, struct labeller *l)
{
struct labeller_i *li;
size_t len;
len = sizeof(*li) + strlen(name) + 1;
if (!(li = dm_malloc(len))) {
log_error("Couldn't allocate memory for labeller list object.");
return NULL;
}
li->l = l;
strcpy(li->name, name);
return li;
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}
int label_init(void)
{
dm_list_init(&_labellers);
return 1;
}
void label_exit(void)
{
struct labeller_i *li, *tli;
dm_list_iterate_items_safe(li, tli, &_labellers) {
dm_list_del(&li->list);
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li->l->ops->destroy(li->l);
dm_free(li);
}
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dm_list_init(&_labellers);
}
int label_register_handler(struct labeller *handler)
{
struct labeller_i *li;
if (!(li = _alloc_li(handler->fmt->name, handler)))
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return_0;
dm_list_add(&_labellers, &li->list);
return 1;
}
struct labeller *label_get_handler(const char *name)
{
struct labeller_i *li;
dm_list_iterate_items(li, &_labellers)
if (!strcmp(li->name, name))
return li->l;
return NULL;
}
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/* FIXME Also wipe associated metadata area headers? */
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int label_remove(struct device *dev)
{
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char readbuf[LABEL_SIZE] __attribute__((aligned(8)));
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int r = 1;
uint64_t sector;
int wipe;
struct labeller_i *li;
struct label_header *lh;
struct lvmcache_info *info;
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log_very_verbose("Scanning for labels to wipe from %s", dev_name(dev));
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if (!label_scan_open(dev)) {
log_error("Failed to open device %s", dev_name(dev));
return 0;
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}
/* Scan first few sectors for anything looking like a label */
for (sector = 0; sector < LABEL_SCAN_SECTORS;
sector += LABEL_SIZE >> SECTOR_SHIFT) {
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memset(readbuf, 0, sizeof(readbuf));
if (!dev_read_bytes(dev, sector << SECTOR_SHIFT, LABEL_SIZE, readbuf)) {
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log_error("Failed to read label from %s sector %llu",
dev_name(dev), (unsigned long long)sector);
continue;
}
lh = (struct label_header *)readbuf;
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wipe = 0;
if (!strncmp((char *)lh->id, LABEL_ID, sizeof(lh->id))) {
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if (xlate64(lh->sector_xl) == sector)
wipe = 1;
} else {
dm_list_iterate_items(li, &_labellers) {
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if (li->l->ops->can_handle(li->l, (char *)lh, sector)) {
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wipe = 1;
break;
}
}
}
if (wipe) {
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log_very_verbose("%s: Wiping label at sector %llu",
dev_name(dev), (unsigned long long)sector);
if (!dev_write_zeros(dev, sector << SECTOR_SHIFT, LABEL_SIZE)) {
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log_error("Failed to remove label from %s at sector %llu",
dev_name(dev), (unsigned long long)sector);
r = 0;
} else {
/* Also remove the PV record from cache. */
info = lvmcache_info_from_pvid(dev->pvid, dev, 0);
if (info)
lvmcache_del(info);
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}
}
}
return r;
}
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/* Caller may need to use label_get_handler to create label struct! */
int label_write(struct device *dev, struct label *label)
{
char buf[LABEL_SIZE] __attribute__((aligned(8)));
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struct label_header *lh = (struct label_header *) buf;
int r = 1;
if (!label->labeller->ops->write) {
log_error("Label handler does not support label writes");
return 0;
}
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if ((LABEL_SIZE + (label->sector << SECTOR_SHIFT)) > LABEL_SCAN_SIZE) {
log_error("Label sector %" PRIu64 " beyond range (%ld)",
label->sector, LABEL_SCAN_SECTORS);
return 0;
}
memset(buf, 0, LABEL_SIZE);
strncpy((char *)lh->id, LABEL_ID, sizeof(lh->id));
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lh->sector_xl = xlate64(label->sector);
lh->offset_xl = xlate32(sizeof(*lh));
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if (!(label->labeller->ops->write)(label, buf))
return_0;
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lh->crc_xl = xlate32(calc_crc(INITIAL_CRC, (uint8_t *)&lh->offset_xl, LABEL_SIZE -
((uint8_t *) &lh->offset_xl - (uint8_t *) lh)));
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log_very_verbose("%s: Writing label to sector %" PRIu64 " with stored offset %"
PRIu32 ".", dev_name(dev), label->sector,
xlate32(lh->offset_xl));
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if (!label_scan_open(dev)) {
log_error("Failed to open device %s", dev_name(dev));
return 0;
}
if (!dev_write_bytes(dev, label->sector << SECTOR_SHIFT, LABEL_SIZE, buf)) {
log_debug_devs("Failed to write label to %s", dev_name(dev));
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r = 0;
}
return r;
}
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void label_destroy(struct label *label)
{
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label->labeller->ops->destroy_label(label->labeller, label);
dm_free(label);
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}
struct label *label_create(struct labeller *labeller)
{
struct label *label;
if (!(label = dm_zalloc(sizeof(*label)))) {
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log_error("label allocaction failed");
return NULL;
}
label->labeller = labeller;
labeller->ops->initialise_label(labeller, label);
return label;
}
/* global variable for accessing the bcache populated by label scan */
struct bcache *scan_bcache;
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#define BCACHE_BLOCK_SIZE_IN_SECTORS 256 /* 256*512 = 128K */
static bool _in_bcache(struct device *dev)
{
if (!dev)
return NULL;
return (dev->flags & DEV_IN_BCACHE) ? true : false;
}
static struct labeller *_find_lvm_header(struct device *dev,
char *scan_buf,
char *label_buf,
uint64_t *label_sector,
uint64_t scan_sector)
{
struct labeller_i *li;
struct labeller *labeller_ret = NULL;
struct label_header *lh;
uint64_t sector;
int found = 0;
/*
* Find which sector in scan_buf starts with a valid label,
* and copy it into label_buf.
*/
for (sector = 0; sector < LABEL_SCAN_SECTORS;
sector += LABEL_SIZE >> SECTOR_SHIFT) {
lh = (struct label_header *) (scan_buf + (sector << SECTOR_SHIFT));
if (!strncmp((char *)lh->id, LABEL_ID, sizeof(lh->id))) {
if (found) {
log_error("Ignoring additional label on %s at sector %llu",
dev_name(dev), (unsigned long long)(sector + scan_sector));
}
if (xlate64(lh->sector_xl) != sector + scan_sector) {
log_very_verbose("%s: Label for sector %llu found at sector %llu - ignoring.",
dev_name(dev),
(unsigned long long)xlate64(lh->sector_xl),
(unsigned long long)(sector + scan_sector));
continue;
}
if (calc_crc(INITIAL_CRC, (uint8_t *)&lh->offset_xl, LABEL_SIZE -
((uint8_t *) &lh->offset_xl - (uint8_t *) lh)) !=
xlate32(lh->crc_xl)) {
log_very_verbose("Label checksum incorrect on %s - ignoring", dev_name(dev));
continue;
}
if (found)
continue;
}
dm_list_iterate_items(li, &_labellers) {
if (li->l->ops->can_handle(li->l, (char *) lh, sector + scan_sector)) {
log_very_verbose("%s: %s label detected at sector %llu",
dev_name(dev), li->name,
(unsigned long long)(sector + scan_sector));
if (found) {
log_error("Ignoring additional label on %s at sector %llu",
dev_name(dev),
(unsigned long long)(sector + scan_sector));
continue;
}
labeller_ret = li->l;
found = 1;
memcpy(label_buf, lh, LABEL_SIZE);
if (label_sector)
*label_sector = sector + scan_sector;
break;
}
}
}
return labeller_ret;
}
/*
* Process/parse the headers from the data read from a device.
* Populates lvmcache with device / mda locations / vgname
* so that vg_read(vgname) will know which devices/locations
* to read metadata from.
*
* If during processing, headers/metadata are found to be needed
* beyond the range of the scanned block, then additional reads
* are performed in the processing functions to get that data.
*/
static int _process_block(struct device *dev, struct block *bb, int *is_lvm_device)
{
char label_buf[LABEL_SIZE] __attribute__((aligned(8)));
struct label *label = NULL;
struct labeller *labeller;
struct lvmcache_info *info;
uint64_t sector;
int ret = 0;
/*
* Finds the data sector containing the label and copies into label_buf.
* label_buf: struct label_header + struct pv_header + struct pv_header_extension
*
* FIXME: we don't need to copy one sector from bb->data into label_buf,
* we can just point label_buf at one sector in ld->buf.
*/
if (!(labeller = _find_lvm_header(dev, bb->data, label_buf, &sector, 0))) {
/*
* Non-PVs exit here
*
* FIXME: check for PVs with errors that also exit here!
* i.e. this code cannot distinguish between a non-lvm
* device an an lvm device with errors.
*/
log_very_verbose("%s: No lvm label detected", dev_name(dev));
if ((info = lvmcache_info_from_pvid(dev->pvid, dev, 0))) {
/* FIXME: if this case is actually happening, fix it. */
log_warn("Device %s has no label, removing PV info from lvmcache.", dev_name(dev));
lvmcache_del(info);
}
*is_lvm_device = 0;
goto_out;
}
*is_lvm_device = 1;
/*
* This is the point where the scanning code dives into the rest of
* lvm. ops->read() is usually _text_read() which reads the pv_header,
* mda locations, mda contents. As these bits of data are read, they
* are saved into lvmcache as info/vginfo structs.
*/
if ((ret = (labeller->ops->read)(labeller, dev, label_buf, &label)) && label) {
label->dev = dev;
label->sector = sector;
} else {
/* FIXME: handle errors */
}
out:
return ret;
}
static int _scan_dev_open(struct device *dev)
{
const char *name;
int flags = 0;
int fd;
if (!dev)
return 0;
if (dev->flags & DEV_IN_BCACHE) {
log_error("scan_dev_open %s DEV_IN_BCACHE already set", dev_name(dev));
dev->flags &= ~DEV_IN_BCACHE;
}
if (dev->bcache_fd > 0) {
log_error("scan_dev_open %s already open with fd %d",
dev_name(dev), dev->bcache_fd);
return 0;
}
if (!(name = dev_name_confirmed(dev, 1))) {
log_error("scan_dev_open %s no name", dev_name(dev));
return 0;
}
flags |= O_RDWR;
flags |= O_DIRECT;
flags |= O_NOATIME;
if (dev->flags & DEV_BCACHE_EXCL)
flags |= O_EXCL;
fd = open(name, flags, 0777);
if (fd < 0) {
if ((errno == EBUSY) && (flags & O_EXCL)) {
log_error("Can't open %s exclusively. Mounted filesystem?",
dev_name(dev));
} else {
log_error("scan_dev_open %s failed errno %d", dev_name(dev), errno);
}
return 0;
}
dev->flags |= DEV_IN_BCACHE;
dev->bcache_fd = fd;
return 1;
}
static int _scan_dev_close(struct device *dev)
{
if (!(dev->flags & DEV_IN_BCACHE))
log_error("scan_dev_close %s no DEV_IN_BCACHE set", dev_name(dev));
dev->flags &= ~DEV_IN_BCACHE;
dev->flags &= ~DEV_BCACHE_EXCL;
if (dev->bcache_fd < 0) {
log_error("scan_dev_close %s already closed", dev_name(dev));
return 0;
}
if (close(dev->bcache_fd))
log_warn("close %s errno %d", dev_name(dev), errno);
dev->bcache_fd = -1;
return 1;
}
/*
* Read or reread label/metadata from selected devs.
*
* Reads and looks at label_header, pv_header, pv_header_extension,
* mda_header, raw_locns, vg metadata from each device.
*
* Effect is populating lvmcache with latest info/vginfo (PV/VG) data
* from the devs. If a scanned device does not have a label_header,
* its info is removed from lvmcache.
*/
static int _scan_list(struct dm_list *devs, int *failed)
{
struct dm_list wait_devs;
struct dm_list done_devs;
struct device_list *devl, *devl2;
struct block *bb;
int scan_failed_count = 0;
int scan_lvm_count = 0;
int rem_prefetches;
int scan_failed;
int is_lvm_device;
dm_list_init(&wait_devs);
dm_list_init(&done_devs);
log_debug_devs("Scanning %d devices.", dm_list_size(devs));
scan_more:
rem_prefetches = bcache_max_prefetches(scan_bcache);
dm_list_iterate_items_safe(devl, devl2, devs) {
/*
* If we prefetch more devs than blocks in the cache, then the
* cache will wait for earlier reads to complete, toss the
* results, and reuse those blocks before we've had a chance to
* use them. So, prefetch as many as are available, wait for
* and process them, then repeat.
*/
if (!rem_prefetches)
break;
if (!_in_bcache(devl->dev)) {
if (!_scan_dev_open(devl->dev)) {
log_debug_devs("%s: Failed to open device.", dev_name(devl->dev));
dm_list_del(&devl->list);
dm_list_add(&done_devs, &devl->list);
scan_failed_count++;
continue;
}
}
bcache_prefetch(scan_bcache, devl->dev->bcache_fd, 0);
rem_prefetches--;
dm_list_del(&devl->list);
dm_list_add(&wait_devs, &devl->list);
}
dm_list_iterate_items_safe(devl, devl2, &wait_devs) {
bb = NULL;
if (!bcache_get(scan_bcache, devl->dev->bcache_fd, 0, 0, &bb)) {
log_debug_devs("%s: Failed to scan device.", dev_name(devl->dev));
scan_failed_count++;
scan_failed = 1;
} else {
log_debug_devs("Processing data from device %s fd %d block %p", dev_name(devl->dev), devl->dev->bcache_fd, bb);
_process_block(devl->dev, bb, &is_lvm_device);
scan_lvm_count++;
scan_failed = 0;
}
if (bb)
bcache_put(bb);
/*
* Keep the bcache block of lvm devices we have processed so
* that the vg_read phase can reuse it. If bcache failed to
* read the block, or the device does not belong to lvm, then
* drop it from bcache.
*/
if (scan_failed || !is_lvm_device) {
bcache_invalidate_fd(scan_bcache, devl->dev->bcache_fd);
_scan_dev_close(devl->dev);
}
dm_list_del(&devl->list);
dm_list_add(&done_devs, &devl->list);
}
if (!dm_list_empty(devs))
goto scan_more;
log_debug_devs("Scanned devices: %d lvm, %d failed.",
scan_lvm_count, scan_failed_count);
if (failed)
*failed = scan_failed_count;
dm_list_splice(devs, &done_devs);
return 1;
}
#define MIN_BCACHE_BLOCKS 32
static int _setup_bcache(int cache_blocks)
{
struct io_engine *ioe;
/* No devices can happen, just create bcache with any small number. */
if (cache_blocks < MIN_BCACHE_BLOCKS)
cache_blocks = MIN_BCACHE_BLOCKS;
/*
* 100 is arbitrary, it's the max number of concurrent aio's
* possible, i.e, the number of devices that can be read at
* once. Should this be configurable?
*/
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if (!(ioe = create_async_io_engine())) {
log_error("Failed to create bcache io engine.");
return 0;
}
/*
* Configure one cache block for each device on the system.
* We won't generally need to cache that many because some
* of the devs will not be lvm devices, and we don't need
* an entry for those. We might want to change this.
*/
if (!(scan_bcache = bcache_create(BCACHE_BLOCK_SIZE_IN_SECTORS, cache_blocks, ioe))) {
log_error("Failed to create bcache with %d cache blocks.", cache_blocks);
return 0;
}
return 1;
}
/*
* Scan and cache lvm data from all devices on the system.
* The cache should be empty/reset before calling this.
*/
int label_scan(struct cmd_context *cmd)
{
struct dm_list all_devs;
struct dev_iter *iter;
struct device_list *devl;
struct device *dev;
log_debug_devs("Finding devices to scan");
dm_list_init(&all_devs);
/*
* Iterate through all the devices in dev-cache (block devs that appear
* under /dev that could possibly hold a PV and are not excluded by
* filters). Read each to see if it's an lvm device, and if so
* populate lvmcache with some basic info about the device and the VG
* on it. This info will be used by the vg_read() phase of the
* command.
*/
dev_cache_full_scan(cmd->full_filter);
if (!(iter = dev_iter_create(cmd->full_filter, 0))) {
log_error("Scanning failed to get devices.");
return 0;
}
while ((dev = dev_iter_get(iter))) {
if (!(devl = dm_pool_zalloc(cmd->mem, sizeof(*devl))))
return 0;
devl->dev = dev;
dm_list_add(&all_devs, &devl->list);
/*
* label_scan should not generally be called a second time,
* so this will usually not be true.
*/
if (_in_bcache(dev)) {
bcache_invalidate_fd(scan_bcache, dev->bcache_fd);
_scan_dev_close(dev);
}
};
dev_iter_destroy(iter);
if (!scan_bcache) {
/*
* FIXME: there should probably be some max number of
* cache blocks we use when setting up bcache.
*/
if (!_setup_bcache(dm_list_size(&all_devs)))
return 0;
}
_scan_list(&all_devs, NULL);
return 1;
}
/*
* Scan and cache lvm data from the listed devices. If a device is already
* scanned and cached, this replaces the previously cached lvm data for the
* device. This is called when vg_read() wants to guarantee that it is using
* the latest data from the devices in the VG (since the scan populated bcache
* without a lock.)
*/
int label_scan_devs(struct cmd_context *cmd, struct dm_list *devs)
{
struct device_list *devl;
dm_list_iterate_items(devl, devs) {
if (_in_bcache(devl->dev)) {
bcache_invalidate_fd(scan_bcache, devl->dev->bcache_fd);
_scan_dev_close(devl->dev);
}
}
_scan_list(devs, NULL);
/* FIXME: this function should probably fail if any devs couldn't be scanned */
return 1;
}
int label_scan_devs_excl(struct dm_list *devs)
{
struct device_list *devl;
int failed = 0;
dm_list_iterate_items(devl, devs) {
if (_in_bcache(devl->dev)) {
bcache_invalidate_fd(scan_bcache, devl->dev->bcache_fd);
_scan_dev_close(devl->dev);
}
/*
* With this flag set, _scan_dev_open() done by
* _scan_list() will do open EXCL
*/
devl->dev->flags |= DEV_BCACHE_EXCL;
}
_scan_list(devs, &failed);
if (failed)
return 0;
return 1;
}
void label_scan_invalidate(struct device *dev)
{
if (_in_bcache(dev)) {
bcache_invalidate_fd(scan_bcache, dev->bcache_fd);
_scan_dev_close(dev);
}
}
/*
* If a PV is stacked on an LV, then the LV is kept open
* in bcache, and needs to be closed so the open fd doesn't
* interfere with processing the LV.
*/
void label_scan_invalidate_lv(struct cmd_context *cmd, struct logical_volume *lv)
{
struct lvinfo lvinfo;
struct device *dev;
dev_t devt;
lv_info(cmd, lv, 0, &lvinfo, 0, 0);
devt = MKDEV(lvinfo.major, lvinfo.minor);
if ((dev = dev_cache_get_by_devt(devt, cmd->filter)))
label_scan_invalidate(dev);
}
/*
* Undo label_scan()
*
* Close devices that are open because bcache is holding blocks for them.
* Destroy the bcache.
*/
void label_scan_destroy(struct cmd_context *cmd)
{
struct dev_iter *iter;
struct device *dev;
if (!scan_bcache)
return;
if (!(iter = dev_iter_create(cmd->full_filter, 0))) {
return;
}
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while ((dev = dev_iter_get(iter))) {
if (_in_bcache(dev))
_scan_dev_close(dev);
}
dev_iter_destroy(iter);
bcache_destroy(scan_bcache);
scan_bcache = NULL;
}
/*
* Read (or re-read) and process (or re-process) the data for a device. This
* will reset (clear and repopulate) the bcache and lvmcache info for this
* device. There are only a couple odd places that want to reread a specific
* device, this is not a commonly used function.
*/
/* FIXME: remove unused_sector arg */
int label_read(struct device *dev, struct label **labelp, uint64_t unused_sector)
{
struct dm_list one_dev;
struct device_list *devl;
int failed = 0;
/* scanning is done by list, so make a single item list for this dev */
if (!(devl = dm_zalloc(sizeof(*devl))))
return 0;
devl->dev = dev;
dm_list_init(&one_dev);
dm_list_add(&one_dev, &devl->list);
if (_in_bcache(dev)) {
bcache_invalidate_fd(scan_bcache, dev->bcache_fd);
_scan_dev_close(dev);
}
_scan_list(&one_dev, &failed);
/*
* FIXME: this ugliness of returning a pointer to the label is
* temporary until the callers can be updated to not use this.
*/
if (labelp) {
struct lvmcache_info *info;
info = lvmcache_info_from_pvid(dev->pvid, dev, 1);
if (info)
*labelp = lvmcache_get_label(info);
}
if (failed)
return 0;
return 1;
}
/*
* Read a label from a specfic, non-zero sector. This is used in only
* one place: pvck -> pv_analyze.
*/
int label_read_sector(struct device *dev, struct label **labelp, uint64_t scan_sector)
{
if (scan_sector) {
/* TODO: not yet implemented */
/* When is this done? When does it make sense? Is it actually possible? */
return 0;
}
return label_read(dev, labelp, 0);
}
/*
* This is only needed when commands are using lvmetad, in which case they
* don't do an initial label_scan, but may later need to rescan certain devs
* from disk and call this function. FIXME: is there some better number to
* choose here?
*/
int label_scan_setup_bcache(void)
{
if (!scan_bcache) {
if (!_setup_bcache(0))
return 0;
}
return 1;
}
2018-02-20 00:40:44 +03:00
/*
* This is needed to write to a new non-lvm device.
* Scanning that dev would not keep it open or in
* bcache, but to use bcache_write we need the dev
* to be open so we can use dev->bcache_fd to write.
*/
int label_scan_open(struct device *dev)
{
if (!_in_bcache(dev))
return _scan_dev_open(dev);
return 1;
}
bool dev_read_bytes(struct device *dev, off_t start, size_t len, void *data)
{
int ret;
if (!scan_bcache) {
if (!dev_open_readonly(dev))
return false;
ret = dev_read(dev, start, len, 0, data);
if (!dev_close(dev))
stack;
return ret ? true : false;
}
if (dev->bcache_fd <= 0) {
log_error("dev_read_bytes %s with invalid fd %d", dev_name(dev), dev->bcache_fd);
return false;
}
if (!bcache_read_bytes(scan_bcache, dev->bcache_fd, start, len, data)) {
label_scan_invalidate(dev);
return false;
}
return true;
}
bool dev_write_bytes(struct device *dev, off_t start, size_t len, void *data)
{
int ret;
if (!scan_bcache) {
if (!dev_open(dev))
return false;
ret = dev_write(dev, start, len, 0, data);
if (!dev_close(dev))
stack;
return ret ? true : false;
}
if (dev->bcache_fd <= 0) {
log_error("dev_write_bytes %s with invalid fd %d", dev_name(dev), dev->bcache_fd);
return false;
}
if (!bcache_write_bytes(scan_bcache, dev->bcache_fd, start, len, data)) {
label_scan_invalidate(dev);
return false;
}
return true;
}
bool dev_write_zeros(struct device *dev, off_t start, size_t len)
{
int ret;
if (!scan_bcache) {
if (!dev_open(dev))
return false;
ret = dev_set(dev, start, len, 0, 0);
if (!dev_close(dev))
stack;
return ret ? true : false;
}
if (dev->bcache_fd <= 0) {
log_error("dev_write_bytes %s with invalid fd %d", dev_name(dev), dev->bcache_fd);
return false;
}
if (!bcache_write_zeros(scan_bcache, dev->bcache_fd, start, len)) {
label_scan_invalidate(dev);
return false;
}
return true;
}