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lvm2/lib/report/report.c

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/*
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* Copyright (C) 2002-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2009 Red Hat, Inc. All rights reserved.
*
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* This file is part of LVM2.
*
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* 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.
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "lib.h"
#include "metadata.h"
#include "report.h"
#include "toolcontext.h"
#include "lvm-string.h"
#include "display.h"
#include "activate.h"
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#include "segtype.h"
#include "str_list.h"
#include "lvmcache.h"
#include <stddef.h> /* offsetof() */
struct lvm_report_object {
struct volume_group *vg;
struct logical_volume *lv;
struct physical_volume *pv;
struct lv_segment *seg;
struct pv_segment *pvseg;
};
static const uint64_t _minusone64 = UINT64_C(-1);
static const int32_t _minusone32 = INT32_C(-1);
/*
* Data-munging functions to prepare each data type for display and sorting
*/
static int _string_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
return dm_report_field_string(rh, field, (const char * const *) data);
}
static int _dev_name_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const char *name = dev_name(*(const struct device * const *) data);
return dm_report_field_string(rh, field, &name);
}
static int _devices_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
char *str;
if (!(str = lvseg_devices(mem, (const struct lv_segment *) data)))
return 0;
dm_report_field_set_value(field, str, NULL);
return 1;
}
static int _peranges_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
char *str;
if (!(str = lvseg_seg_pe_ranges(mem, (const struct lv_segment *) data)))
return 0;
dm_report_field_set_value(field, str, NULL);
return 1;
}
static int _tags_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
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{
const struct dm_list *tags = (const struct dm_list *) data;
char *tags_str;
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if (!(tags_str = tags_format_and_copy(mem, tags)))
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return 0;
dm_report_field_set_value(field, tags_str, NULL);
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return 1;
}
static int _modules_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct logical_volume *lv = (const struct logical_volume *) data;
char *modules_str;
if (!(modules_str = lv_modules_dup(mem, lv)))
return 0;
dm_report_field_set_value(field, modules_str, NULL);
return 1;
}
static int _vgfmt_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
if (!vg->fid) {
dm_report_field_set_value(field, "", NULL);
return 1;
}
return _string_disp(rh, mem, field, &vg->fid->fmt->name, private);
}
static int _pvfmt_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
if (!pv->fmt) {
dm_report_field_set_value(field, "", NULL);
return 1;
}
return _string_disp(rh, mem, field, &pv->fmt->name, private);
}
static int _lvkmaj_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
int major;
if ((major = lv_kernel_major(lv)) >= 0)
return dm_report_field_int(rh, field, &major);
return dm_report_field_int32(rh, field, &_minusone32);
}
static int _lvkmin_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
int minor;
if ((minor = lv_kernel_minor(lv)) >= 0)
return dm_report_field_int(rh, field, &minor);
return dm_report_field_int32(rh, field, &_minusone32);
}
static int _lvstatus_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
char *repstr;
if (!(repstr = lv_attr_dup(mem, lv)))
return 0;
dm_report_field_set_value(field, repstr, NULL);
return 1;
}
static int _pvstatus_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
char *repstr;
if (!(repstr = pv_attr_dup(mem, pv)))
return 0;
dm_report_field_set_value(field, repstr, NULL);
return 1;
}
static int _vgstatus_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct volume_group *vg = (const struct volume_group *) data;
char *repstr;
if (!(repstr = vg_attr_dup(mem, vg)))
return 0;
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dm_report_field_set_value(field, repstr, NULL);
return 1;
}
static int _segtype_disp(struct dm_report *rh __attribute__((unused)),
struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct lv_segment *seg = (const struct lv_segment *) data;
char *name;
if (!(name = lvseg_segtype_dup(mem, seg))) {
log_error("Failed to get segtype.");
return 0;
}
dm_report_field_set_value(field, name, NULL);
return 1;
}
static int _loglv_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
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{
const struct logical_volume *lv = (const struct logical_volume *) data;
const char *name;
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if ((name = lv_mirror_log_dup(mem, lv)))
return dm_report_field_string(rh, field, &name);
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dm_report_field_set_value(field, "", NULL);
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return 1;
}
static int _poollv_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
const char *name;
if ((name = lv_pool_lv_dup(mem, lv)))
return dm_report_field_string(rh, field, &name);
dm_report_field_set_value(field, "", NULL);
return 1;
}
static int _lvname_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
char *repstr, *lvname;
size_t len;
if (lv_is_visible(lv))
return dm_report_field_string(rh, field, &lv->name);
len = strlen(lv->name) + 3;
if (!(repstr = dm_pool_zalloc(mem, len))) {
log_error("dm_pool_alloc failed");
return 0;
}
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if (dm_snprintf(repstr, len, "[%s]", lv->name) < 0) {
log_error("lvname snprintf failed");
return 0;
}
if (!(lvname = dm_pool_strdup(mem, lv->name))) {
log_error("dm_pool_strdup failed");
return 0;
}
dm_report_field_set_value(field, repstr, lvname);
return 1;
}
static int _lvpath_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
char *repstr;
if (!(repstr = lv_path_dup(mem, lv)))
return 0;
dm_report_field_set_value(field, repstr, NULL);
return 1;
}
static int _origin_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct logical_volume *lv = (const struct logical_volume *) data;
if (lv_is_cow(lv))
return _lvname_disp(rh, mem, field, origin_from_cow(lv), private);
dm_report_field_set_value(field, "", NULL);
return 1;
}
static int _movepv_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
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{
const struct logical_volume *lv = (const struct logical_volume *) data;
const char *name;
if (!(name = lv_move_pv_dup(mem, lv)))
dm_report_field_set_value(field, "", NULL);
else
return dm_report_field_string(rh, field, &name);
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return 1;
}
static int _convertlv_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
const char *name = NULL;
name = lv_convert_lv_dup(mem, lv);
if (name)
return dm_report_field_string(rh, field, &name);
dm_report_field_set_value(field, "", NULL);
return 1;
}
static int _size32_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const uint32_t size = *(const uint32_t *) data;
const char *disp, *repstr;
uint64_t *sortval;
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if (!*(disp = display_size_units(private, (uint64_t) size)))
return_0;
if (!(repstr = dm_pool_strdup(mem, disp))) {
log_error("dm_pool_strdup failed");
return 0;
}
if (!(sortval = dm_pool_alloc(mem, sizeof(uint64_t)))) {
log_error("dm_pool_alloc failed");
return 0;
}
*sortval = (uint64_t) size;
dm_report_field_set_value(field, repstr, sortval);
return 1;
}
static int _size64_disp(struct dm_report *rh __attribute__((unused)),
struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const uint64_t size = *(const uint64_t *) data;
const char *disp, *repstr;
uint64_t *sortval;
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if (!*(disp = display_size_units(private, size)))
return_0;
if (!(repstr = dm_pool_strdup(mem, disp))) {
log_error("dm_pool_strdup failed");
return 0;
}
if (!(sortval = dm_pool_alloc(mem, sizeof(uint64_t)))) {
log_error("dm_pool_alloc failed");
return 0;
}
*sortval = size;
dm_report_field_set_value(field, repstr, sortval);
return 1;
}
static int _lvreadahead_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
if (lv->read_ahead == DM_READ_AHEAD_AUTO) {
dm_report_field_set_value(field, "auto", &_minusone64);
return 1;
}
return _size32_disp(rh, mem, field, &lv->read_ahead, private);
}
static int _lvkreadahead_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data,
void *private)
{
const struct logical_volume *lv = (const struct logical_volume *) data;
uint32_t read_ahead;
if ((read_ahead = lv_kernel_read_ahead(lv)) == UINT32_MAX)
return dm_report_field_int32(rh, field, &_minusone32);
return _size32_disp(rh, mem, field, &read_ahead, private);
}
static int _vgsize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint64_t size;
size = (uint64_t) vg_size(vg);
return _size64_disp(rh, mem, field, &size, private);
}
static int _segstart_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct lv_segment *seg = (const struct lv_segment *) data;
uint64_t start;
start = lvseg_start(seg);
return _size64_disp(rh, mem, field, &start, private);
}
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static int _segstartpe_disp(struct dm_report *rh,
struct dm_pool *mem __attribute__((unused)),
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struct dm_report_field *field,
const void *data,
void *private __attribute__((unused)))
{
const struct lv_segment *seg = (const struct lv_segment *) data;
return dm_report_field_uint32(rh, field, &seg->le);
}
static int _segsize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct lv_segment *seg = (const struct lv_segment *) data;
uint64_t size;
size = lvseg_size(seg);
return _size64_disp(rh, mem, field, &size, private);
}
static int _chunksize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
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{
const struct lv_segment *seg = (const struct lv_segment *) data;
uint64_t size;
size = lvseg_chunksize(seg);
return _size64_disp(rh, mem, field, &size, private);
}
static int _originsize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct logical_volume *lv = (const struct logical_volume *) data;
uint64_t size;
size = lv_origin_size(lv);
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return _size64_disp(rh, mem, field, &size, private);
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}
static int _pvused_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
uint64_t used;
used = pv_used(pv);
return _size64_disp(rh, mem, field, &used, private);
}
static int _pvfree_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
uint64_t freespace;
freespace = pv_free(pv);
return _size64_disp(rh, mem, field, &freespace, private);
}
static int _pvsize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
uint64_t size;
size = pv_size_field(pv);
return _size64_disp(rh, mem, field, &size, private);
}
static int _devsize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
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{
const struct physical_volume *pv =
(const struct physical_volume *) data;
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uint64_t size;
size = pv_dev_size(pv);
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return _size64_disp(rh, mem, field, &size, private);
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}
static int _vgfree_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint64_t freespace;
freespace = (uint64_t) vg_free(vg);
return _size64_disp(rh, mem, field, &freespace, private);
}
static int _uuid_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
char *repstr = NULL;
if (!(repstr = id_format_and_copy(mem, data)))
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return_0;
dm_report_field_set_value(field, repstr, NULL);
return 1;
}
static int _uint32_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
return dm_report_field_uint32(rh, field, data);
}
static int _int32_disp(struct dm_report *rh, struct dm_pool *mem __attribute__((unused)),
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
return dm_report_field_int32(rh, field, data);
}
static int _pvmdas_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
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uint32_t count;
const struct physical_volume *pv =
(const struct physical_volume *) data;
count = pv_mda_count(pv);
return _uint32_disp(rh, mem, field, &count, private);
}
Define new functions and vgs/pvs fields related to mda ignore. Define a new pvs field, pv_mda_used_count, and a new vgs field, vg_mda_used_count to match the existing pv_mda_count and vg_mda_count. These new fields count the number of mdas that have the 'ignored' bit clear (they are in use on the PV / VG). Also define various supporting functions to implement the counting as well as setting the ignored flag and determining if an mda is ignored. These high level functions call into the lower level location independent mda ignore functions defined by earlier patches. Note that counting ignored mdas in a vg requires traversing both lists and checking for the ignored bit on the mda. The count of 'ignored' mdas then is defined by having the bit set, not by which list the mda is on. The list does determine whether LVM actually does read/write to the mda, though we must count the bits in order to return accurate numbers for the various counts. Also, pv_mda_set_ignored must search both vg lists for ignored mda. If the state changes and needs to be committed to disk, the ignored mda will be on the non-ignored list. Note also in pv_mda_set_ignored(), we must properly manage the mda lists. If we change the ignored state of an mda, we must change any mdas on vg->fid->metadata_areas that correspond to this pv. Also, we may need to allocate a copy of the mda, as is done when fid->metadata_areas is populated from _vg_read(), if we are un-ignoring an ignored mda. Signed-off-by: Dave Wysochanski <dwysocha@redhat.com>
2010-06-29 00:33:44 +04:00
static int _pvmdasused_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
uint32_t count;
const struct physical_volume *pv =
(const struct physical_volume *) data;
count = pv_mda_used_count(pv);
return _uint32_disp(rh, mem, field, &count, private);
}
static int _vgmdas_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint32_t count;
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count = vg_mda_count(vg);
return _uint32_disp(rh, mem, field, &count, private);
}
Define new functions and vgs/pvs fields related to mda ignore. Define a new pvs field, pv_mda_used_count, and a new vgs field, vg_mda_used_count to match the existing pv_mda_count and vg_mda_count. These new fields count the number of mdas that have the 'ignored' bit clear (they are in use on the PV / VG). Also define various supporting functions to implement the counting as well as setting the ignored flag and determining if an mda is ignored. These high level functions call into the lower level location independent mda ignore functions defined by earlier patches. Note that counting ignored mdas in a vg requires traversing both lists and checking for the ignored bit on the mda. The count of 'ignored' mdas then is defined by having the bit set, not by which list the mda is on. The list does determine whether LVM actually does read/write to the mda, though we must count the bits in order to return accurate numbers for the various counts. Also, pv_mda_set_ignored must search both vg lists for ignored mda. If the state changes and needs to be committed to disk, the ignored mda will be on the non-ignored list. Note also in pv_mda_set_ignored(), we must properly manage the mda lists. If we change the ignored state of an mda, we must change any mdas on vg->fid->metadata_areas that correspond to this pv. Also, we may need to allocate a copy of the mda, as is done when fid->metadata_areas is populated from _vg_read(), if we are un-ignoring an ignored mda. Signed-off-by: Dave Wysochanski <dwysocha@redhat.com>
2010-06-29 00:33:44 +04:00
static int _vgmdasused_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint32_t count;
count = vg_mda_used_count(vg);
return _uint32_disp(rh, mem, field, &count, private);
}
static int _vgmdacopies_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint32_t count;
count = vg_mda_copies(vg);
if (count == VGMETADATACOPIES_UNMANAGED) {
dm_report_field_set_value(field, "unmanaged", &_minusone64);
return 1;
}
return _uint32_disp(rh, mem, field, &count, private);
}
static int _pvmdafree_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
uint64_t freespace;
freespace = pv_mda_free(pv);
return _size64_disp(rh, mem, field, &freespace, private);
}
static int _pvmdasize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct physical_volume *pv =
(const struct physical_volume *) data;
uint64_t min_mda_size;
min_mda_size = pv_mda_size(pv);
return _size64_disp(rh, mem, field, &min_mda_size, private);
}
static int _vgmdasize_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint64_t min_mda_size;
min_mda_size = vg_mda_size(vg);
return _size64_disp(rh, mem, field, &min_mda_size, private);
}
static int _vgmdafree_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint64_t freespace;
freespace = vg_mda_free(vg);
return _size64_disp(rh, mem, field, &freespace, private);
}
static int _lvcount_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint32_t count;
count = vg_visible_lvs(vg);
return _uint32_disp(rh, mem, field, &count, private);
}
static int _lvsegcount_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct logical_volume *lv = (const struct logical_volume *) data;
uint32_t count;
count = dm_list_size(&lv->segments);
return _uint32_disp(rh, mem, field, &count, private);
}
static int _snapcount_disp(struct dm_report *rh, struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private)
{
const struct volume_group *vg = (const struct volume_group *) data;
uint32_t count;
count = snapshot_count(vg);
return _uint32_disp(rh, mem, field, &count, private);
}
static int _snpercent_disp(struct dm_report *rh __attribute__((unused)), struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
{
const struct logical_volume *lv = (const struct logical_volume *) data;
struct lvinfo info;
percent_t snap_percent;
uint64_t *sortval;
char *repstr;
/* Suppress snapshot percentage if not using driver */
if (!activation()) {
dm_report_field_set_value(field, "", NULL);
return 1;
}
if (!(sortval = dm_pool_alloc(mem, sizeof(uint64_t)))) {
log_error("dm_pool_alloc failed");
return 0;
}
if ((!lv_is_cow(lv) && !lv_is_merging_origin(lv)) ||
!lv_info(lv->vg->cmd, lv, 0, &info, 0, 0) || !info.exists) {
*sortval = UINT64_C(0);
dm_report_field_set_value(field, "", sortval);
return 1;
}
if (!lv_snapshot_percent(lv, &snap_percent) ||
(snap_percent == PERCENT_INVALID)) {
if (!lv_is_merging_origin(lv)) {
*sortval = UINT64_C(100);
dm_report_field_set_value(field, "100.00", sortval);
} else {
/* onactivate merge that hasn't started yet would
* otherwise display incorrect snap% in origin
*/
*sortval = UINT64_C(0);
dm_report_field_set_value(field, "", sortval);
}
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return 1;
}
if (!(repstr = dm_pool_zalloc(mem, 8))) {
log_error("dm_pool_alloc failed");
return 0;
}
if (dm_snprintf(repstr, 7, "%.2f", percent_to_float(snap_percent)) < 0) {
log_error("snapshot percentage too large");
return 0;
}
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*sortval = (uint64_t)(snap_percent * 1000.f);
dm_report_field_set_value(field, repstr, sortval);
return 1;
}
static int _copypercent_disp(struct dm_report *rh __attribute__((unused)),
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struct dm_pool *mem,
struct dm_report_field *field,
const void *data, void *private __attribute__((unused)))
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{
const struct logical_volume *lv = (const struct logical_volume *) data;
percent_t percent;
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uint64_t *sortval;
char *repstr;
if (!(sortval = dm_pool_alloc(mem, sizeof(uint64_t)))) {
log_error("dm_pool_alloc failed");
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return 0;
}
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if ((!(lv->status & PVMOVE) && !(lv->status & MIRRORED)) ||
!lv_mirror_percent(lv->vg->cmd, lv, 0, &percent,
NULL) || (percent == PERCENT_INVALID)) {
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*sortval = UINT64_C(0);
dm_report_field_set_value(field, "", sortval);
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return 1;
}
percent = copy_percent(lv);
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if (!(repstr = dm_pool_zalloc(mem, 8))) {
log_error("dm_pool_alloc failed");
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return 0;
}
if (dm_snprintf(repstr, 7, "%.2f", percent_to_float(percent)) < 0) {
log_error("copy percentage too large");
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return 0;
}
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*sortval = (uint64_t)(percent * 1000.f);
dm_report_field_set_value(field, repstr, sortval);
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return 1;
}
/* Report object types */
/* necessary for displaying something for PVs not belonging to VG */
static struct format_instance _dummy_fid = {
.metadata_areas_in_use = { &(_dummy_fid.metadata_areas_in_use), &(_dummy_fid.metadata_areas_in_use) },
.metadata_areas_ignored = { &(_dummy_fid.metadata_areas_ignored), &(_dummy_fid.metadata_areas_ignored) },
};
static struct volume_group _dummy_vg = {
.fid = &_dummy_fid,
.name = "",
.system_id = (char *) "",
.pvs = { &(_dummy_vg.pvs), &(_dummy_vg.pvs) },
.lvs = { &(_dummy_vg.lvs), &(_dummy_vg.lvs) },
.tags = { &(_dummy_vg.tags), &(_dummy_vg.tags) },
};
static void *_obj_get_vg(void *obj)
{
struct volume_group *vg = ((struct lvm_report_object *)obj)->vg;
return vg ? vg : &_dummy_vg;
}
static void *_obj_get_lv(void *obj)
{
return ((struct lvm_report_object *)obj)->lv;
}
static void *_obj_get_pv(void *obj)
{
return ((struct lvm_report_object *)obj)->pv;
}
static void *_obj_get_seg(void *obj)
{
return ((struct lvm_report_object *)obj)->seg;
}
static void *_obj_get_pvseg(void *obj)
{
return ((struct lvm_report_object *)obj)->pvseg;
}
static const struct dm_report_object_type _report_types[] = {
{ VGS, "Volume Group", "vg_", _obj_get_vg },
{ LVS, "Logical Volume", "lv_", _obj_get_lv },
{ PVS, "Physical Volume", "pv_", _obj_get_pv },
{ LABEL, "Physical Volume Label", "pv_", _obj_get_pv },
{ SEGS, "Logical Volume Segment", "seg_", _obj_get_seg },
{ PVSEGS, "Physical Volume Segment", "pvseg_", _obj_get_pvseg },
{ 0, "", "", NULL },
};
/*
* Import column definitions
*/
#define STR DM_REPORT_FIELD_TYPE_STRING
#define NUM DM_REPORT_FIELD_TYPE_NUMBER
#define FIELD(type, strct, sorttype, head, field, width, func, id, desc, writeable) \
{type, sorttype, offsetof(type_ ## strct, field), width, \
#id, head, &_ ## func ## _disp, desc},
typedef struct physical_volume type_pv;
typedef struct logical_volume type_lv;
typedef struct volume_group type_vg;
typedef struct lv_segment type_seg;
typedef struct pv_segment type_pvseg;
static const struct dm_report_field_type _fields[] = {
#include "columns.h"
{0, 0, 0, 0, "", "", NULL, NULL},
};
#undef STR
#undef NUM
#undef FIELD
void *report_init(struct cmd_context *cmd, const char *format, const char *keys,
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report_type_t *report_type, const char *separator,
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int aligned, int buffered, int headings, int field_prefixes,
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int quoted, int columns_as_rows)
{
uint32_t report_flags = 0;
void *rh;
if (aligned)
report_flags |= DM_REPORT_OUTPUT_ALIGNED;
if (buffered)
report_flags |= DM_REPORT_OUTPUT_BUFFERED;
if (headings)
report_flags |= DM_REPORT_OUTPUT_HEADINGS;
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if (field_prefixes)
report_flags |= DM_REPORT_OUTPUT_FIELD_NAME_PREFIX;
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if (!quoted)
report_flags |= DM_REPORT_OUTPUT_FIELD_UNQUOTED;
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if (columns_as_rows)
report_flags |= DM_REPORT_OUTPUT_COLUMNS_AS_ROWS;
rh = dm_report_init(report_type, _report_types, _fields, format,
separator, report_flags, keys, cmd);
if (rh && field_prefixes)
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dm_report_set_output_field_name_prefix(rh, "lvm2_");
return rh;
}
/*
* Create a row of data for an object
*/
int report_object(void *handle, struct volume_group *vg,
struct logical_volume *lv, struct physical_volume *pv,
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struct lv_segment *seg, struct pv_segment *pvseg)
{
struct lvm_report_object obj;
/* The two format fields might as well match. */
if (!vg && pv)
_dummy_fid.fmt = pv->fmt;
obj.vg = vg;
obj.lv = lv;
obj.pv = pv;
obj.seg = seg;
obj.pvseg = pvseg;
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return dm_report_object(handle, &obj);
}