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lvm2/lib/display/display.c
Leo Yan ef1c57e68f lib: locking: Add new type "idm"
We can consider the drive firmware a server to handle the locking
request from nodes, this essentially is a client-server model.
DLM uses the kernel as a central place to manage locks, so it also
complies with client-server model for locking operations.  This is
why IDM and DLM are similar with each other for their wrappers.

This patch largely works by generalizing the DLM code paths and then
providing degeneralized functions as wrappers for both IDM and DLM.

Signed-off-by: Leo Yan <leo.yan@linaro.org>
2021-05-20 16:01:05 -05:00

1026 lines
29 KiB
C

/*
* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2017 Red Hat, Inc. All rights reserved.
*
* 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.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "lib/misc/lib.h"
#include "lib/metadata/metadata.h"
#include "lib/display/display.h"
#include "lib/activate/activate.h"
#include "lib/commands/toolcontext.h"
#include "lib/metadata/segtype.h"
#include "lib/config/defaults.h"
#include "lib/misc/lvm-signal.h"
#include <stdarg.h>
static const struct {
alloc_policy_t alloc;
const char str[14]; /* must be changed when size extends 13 chars */
const char repchar;
} _policies[] = {
{
ALLOC_CONTIGUOUS, "contiguous", 'c'}, {
ALLOC_CLING, "cling", 'l'}, {
ALLOC_CLING_BY_TAGS, "cling_by_tags", 't'}, { /* Only used in log mesgs */
ALLOC_NORMAL, "normal", 'n'}, {
ALLOC_ANYWHERE, "anywhere", 'a'}, {
ALLOC_INHERIT, "inherit", 'i'}
};
static const int _num_policies = DM_ARRAY_SIZE(_policies);
char alloc_policy_char(alloc_policy_t alloc)
{
int i;
for (i = 0; i < _num_policies; i++)
if (_policies[i].alloc == alloc)
return _policies[i].repchar;
return '-';
}
const char *get_alloc_string(alloc_policy_t alloc)
{
int i;
for (i = 0; i < _num_policies; i++)
if (_policies[i].alloc == alloc)
return _policies[i].str;
return NULL;
}
alloc_policy_t get_alloc_from_string(const char *str)
{
int i;
/* cling_by_tags is part of cling */
if (!strcmp("cling_by_tags", str))
return ALLOC_CLING;
for (i = 0; i < _num_policies; i++)
if (!strcmp(_policies[i].str, str))
return _policies[i].alloc;
/* Special case for old metadata */
if (!strcmp("next free", str))
return ALLOC_NORMAL;
log_error("Unrecognised allocation policy %s", str);
return ALLOC_INVALID;
}
const char *get_lock_type_string(lock_type_t lock_type)
{
switch (lock_type) {
case LOCK_TYPE_INVALID:
return "invalid";
case LOCK_TYPE_NONE:
return "none";
case LOCK_TYPE_CLVM:
return "clvm";
case LOCK_TYPE_DLM:
return "dlm";
case LOCK_TYPE_SANLOCK:
return "sanlock";
case LOCK_TYPE_IDM:
return "idm";
}
return "invalid";
}
lock_type_t get_lock_type_from_string(const char *str)
{
if (!str)
return LOCK_TYPE_NONE;
if (!strcmp(str, "none"))
return LOCK_TYPE_NONE;
if (!strcmp(str, "clvm"))
return LOCK_TYPE_CLVM;
if (!strcmp(str, "dlm"))
return LOCK_TYPE_DLM;
if (!strcmp(str, "sanlock"))
return LOCK_TYPE_SANLOCK;
if (!strcmp(str, "idm"))
return LOCK_TYPE_IDM;
return LOCK_TYPE_INVALID;
}
static const char *_percent_types[7] = { "NONE", "VG", "FREE", "LV", "PVS", "ORIGIN" };
const char *get_percent_string(percent_type_t def)
{
return _percent_types[def];
}
static const char *_lv_name(const struct logical_volume *lv)
{
/* Never try to display names of the internal snapshot structures. */
if (lv_is_snapshot(lv))
return find_cow(lv)->name;
return lv->name;
}
const char *display_lvname(const struct logical_volume *lv)
{
char *name;
const char *lv_name = _lv_name(lv);
int r;
if ((lv->vg->cmd->display_lvname_idx + NAME_LEN) >= sizeof((lv->vg->cmd->display_buffer)))
lv->vg->cmd->display_lvname_idx = 0;
name = lv->vg->cmd->display_buffer + lv->vg->cmd->display_lvname_idx;
r = dm_snprintf(name, NAME_LEN, "%s/%s", lv->vg->name, lv_name);
if (r < 0) {
log_error("Full LV name \"%s/%s\" is too long.", lv->vg->name, lv_name);
return NULL;
}
lv->vg->cmd->display_lvname_idx += r + 1;
return name;
}
/* Display percentage with (TODO) configurable precision */
const char *display_percent(struct cmd_context *cmd, dm_percent_t percent)
{
char *buf;
int r;
/* Reusing same ring buffer we use for displaying LV names */
if ((cmd->display_lvname_idx + NAME_LEN) >= sizeof((cmd->display_buffer)))
cmd->display_lvname_idx = 0;
buf = cmd->display_buffer + cmd->display_lvname_idx;
/* TODO: Make configurable hardcoded 2 digits */
r = dm_snprintf(buf, NAME_LEN, "%.2f", dm_percent_to_round_float(percent, 2));
if (r < 0) {
log_error("Percentage %d does not fit.", percent);
return NULL;
}
cmd->display_lvname_idx += r + 1;
return buf;
}
/* Size supplied in sectors */
static const char *_display_size(const struct cmd_context *cmd,
uint64_t size, dm_size_suffix_t suffix_type)
{
return dm_size_to_string(cmd->mem, size, cmd->current_settings.unit_type,
cmd->si_unit_consistency,
cmd->current_settings.unit_factor,
cmd->current_settings.suffix,
suffix_type);
}
const char *display_size_long(const struct cmd_context *cmd, uint64_t size)
{
return _display_size(cmd, size, DM_SIZE_LONG);
}
const char *display_size_units(const struct cmd_context *cmd, uint64_t size)
{
return _display_size(cmd, size, DM_SIZE_UNIT);
}
const char *display_size(const struct cmd_context *cmd, uint64_t size)
{
return _display_size(cmd, size, DM_SIZE_SHORT);
}
void pvdisplay_colons(const struct physical_volume *pv)
{
char uuid[64] __attribute__((aligned(8)));
if (!pv)
return;
if (!id_write_format(&pv->id, uuid, sizeof(uuid))) {
stack;
return;
}
log_print("%s:%s:%" PRIu64 ":-1:%" PRIu64 ":%" PRIu64 ":-1:%" PRIu32 ":%u:%u:%u:%s",
pv_dev_name(pv), pv_vg_name(pv), pv->size,
/* FIXME pv->pv_number, Derive or remove? */
pv->status, /* FIXME Support old or new format here? */
pv->status & ALLOCATABLE_PV, /* FIXME remove? */
/* FIXME pv->lv_cur, Remove? */
pv->pe_size / 2,
pv->pe_count,
pv->pe_count - pv->pe_alloc_count,
pv->pe_alloc_count, *uuid ? uuid : "none");
}
void pvdisplay_segments(const struct physical_volume *pv)
{
const struct pv_segment *pvseg;
if (pv->pe_size)
log_print("--- Physical Segments ---");
dm_list_iterate_items(pvseg, &pv->segments) {
log_print("Physical extent %u to %u:",
pvseg->pe, pvseg->pe + pvseg->len - 1);
if (pvseg_is_allocated(pvseg)) {
log_print(" Logical volume\t%s%s/%s",
pvseg->lvseg->lv->vg->cmd->dev_dir,
pvseg->lvseg->lv->vg->name,
pvseg->lvseg->lv->name);
log_print(" Logical extents\t%d to %d",
pvseg->lvseg->le, pvseg->lvseg->le +
pvseg->lvseg->len - 1);
} else
log_print(" FREE");
}
log_print(" ");
}
/* FIXME Include label fields */
void pvdisplay_full(const struct cmd_context *cmd,
const struct physical_volume *pv,
void *handle __attribute__((unused)))
{
char uuid[64] __attribute__((aligned(8)));
const char *size;
uint32_t pe_free;
uint64_t data_size, pvsize, unusable;
if (!pv)
return;
if (!id_write_format(&pv->id, uuid, sizeof(uuid))) {
stack;
return;
}
log_print("--- %sPhysical volume ---", pv->pe_size ? "" : "NEW ");
log_print("PV Name %s", pv_dev_name(pv));
log_print("VG Name %s%s",
is_orphan(pv) ? "" : pv->vg_name,
pv->status & EXPORTED_VG ? " (exported)" : "");
data_size = (uint64_t) pv->pe_count * pv->pe_size;
if (pv->size > data_size + pv->pe_start) {
pvsize = pv->size;
unusable = pvsize - data_size;
} else {
pvsize = data_size + pv->pe_start;
unusable = pvsize - pv->size;
}
size = display_size(cmd, pvsize);
if (data_size)
log_print("PV Size %s / not usable %s", /* [LVM: %s]", */
size, display_size(cmd, unusable));
else
log_print("PV Size %s", size);
/* PV number not part of LVM2 design
log_print("PV# %u", pv->pv_number);
*/
pe_free = pv->pe_count - pv->pe_alloc_count;
if (pv->pe_count && (pv->status & ALLOCATABLE_PV))
log_print("Allocatable yes %s",
(!pe_free && pv->pe_count) ? "(but full)" : "");
else
log_print("Allocatable NO");
/* LV count is no longer available when displaying PV
log_print("Cur LV %u", vg->lv_count);
*/
if (cmd->si_unit_consistency)
log_print("PE Size %s", display_size(cmd, (uint64_t) pv->pe_size));
else
log_print("PE Size (KByte) %" PRIu32, pv->pe_size / 2);
log_print("Total PE %u", pv->pe_count);
log_print("Free PE %" PRIu32, pe_free);
log_print("Allocated PE %u", pv->pe_alloc_count);
log_print("PV UUID %s", *uuid ? uuid : "none");
log_print(" ");
}
int pvdisplay_short(const struct cmd_context *cmd __attribute__((unused)),
const struct volume_group *vg __attribute__((unused)),
const struct physical_volume *pv,
void *handle __attribute__((unused)))
{
char uuid[64] __attribute__((aligned(8)));
if (!pv)
return_0;
if (!id_write_format(&pv->id, uuid, sizeof(uuid)))
return_0;
log_print("PV Name %s ", pv_dev_name(pv));
/* FIXME pv->pv_number); */
log_print("PV UUID %s", *uuid ? uuid : "none");
log_print("PV Status %sallocatable",
(pv->status & ALLOCATABLE_PV) ? "" : "NOT ");
log_print("Total PE / Free PE %u / %u",
pv->pe_count, pv->pe_count - pv->pe_alloc_count);
log_print(" ");
return 1; /* ECMD_PROCESSED */
}
void lvdisplay_colons(const struct logical_volume *lv)
{
int inkernel;
struct lvinfo info;
inkernel = lv_info(lv->vg->cmd, lv, 0, &info, 1, 0) && info.exists;
log_print("%s%s/%s:%s:%" PRIu64 ":%d:-1:%d:%" PRIu64 ":%d:-1:%d:%d:%d:%d",
lv->vg->cmd->dev_dir,
lv->vg->name,
lv->name,
lv->vg->name,
((lv->status & (LVM_READ | LVM_WRITE)) >> 8) |
((inkernel && info.read_only) ? 4 : 0), inkernel ? 1 : 0,
/* FIXME lv->lv_number, */
inkernel ? info.open_count : 0, lv->size, lv->le_count,
/* FIXME Add num allocated to struct! lv->lv_allocated_le, */
(lv->alloc == ALLOC_CONTIGUOUS ? 2 : 0), lv->read_ahead,
inkernel ? info.major : -1, inkernel ? info.minor : -1);
}
static int _lvdisplay_historical_full(struct cmd_context *cmd,
const struct logical_volume *lv)
{
char uuid[64] __attribute__((aligned(8)));
int lvm1compat = find_config_tree_bool(cmd, global_lvdisplay_shows_full_device_path_CFG, NULL);
struct historical_logical_volume *hlv = lv->this_glv->historical;
if (!id_write_format(&hlv->lvid.id[1], uuid, sizeof(uuid)))
return_0;
log_print("--- Historical Logical volume ---");
if (lvm1compat)
/* /dev/vgname/lvname doen't actually exist for historical devices */
log_print("LV Name %s%s/%s",
hlv->vg->cmd->dev_dir, hlv->vg->name, hlv->name);
else
log_print("LV Name %s%s", HISTORICAL_LV_PREFIX, hlv->name);
log_print("VG Name %s", hlv->vg->name);
log_print("LV UUID %s", uuid);
log_print("LV Creation time %s", lv_creation_time_dup(cmd->mem, lv, 1));
log_print("LV Removal time %s", lv_removal_time_dup(cmd->mem, lv, 1));
log_print(" ");
return 1;
}
int lvdisplay_full(struct cmd_context *cmd,
const struct logical_volume *lv,
void *handle __attribute__((unused)))
{
struct lvinfo info;
int inkernel, snap_active = 0, partial = 0, raid_is_avail = 1;
char uuid[64] __attribute__((aligned(8)));
const char *access_str;
struct lv_segment *snap_seg = NULL, *mirror_seg = NULL;
struct lv_segment *seg = NULL;
int lvm1compat;
dm_percent_t snap_percent;
int thin_pool_active = 0;
dm_percent_t thin_data_percent = 0, thin_metadata_percent = 0;
int thin_active = 0;
dm_percent_t thin_percent = 0;
struct lv_status_thin *thin_status = NULL;
struct lv_status_thin_pool *thin_pool_status = NULL;
struct lv_status_cache *cache_status = NULL;
struct lv_status_vdo *vdo_status = NULL;
if (lv_is_historical(lv))
return _lvdisplay_historical_full(cmd, lv);
if (!id_write_format(&lv->lvid.id[1], uuid, sizeof(uuid)))
return_0;
inkernel = lv_info(cmd, lv, 0, &info, 1, 1) && info.exists;
if ((lv->status & LVM_WRITE) && inkernel && info.read_only)
access_str = "read/write (activated read only)";
else if (lv->status & LVM_WRITE)
access_str = "read/write";
else
access_str = "read only";
log_print("--- Logical volume ---");
lvm1compat = find_config_tree_bool(cmd, global_lvdisplay_shows_full_device_path_CFG, NULL);
if (lvm1compat)
/* /dev/vgname/lvname doen't actually exist for internal devices */
log_print("LV Name %s%s/%s",
lv->vg->cmd->dev_dir, lv->vg->name, lv->name);
else if (lv_is_visible(lv)) {
/* Thin pool does not have /dev/vg/name link */
if (!lv_is_thin_pool(lv))
log_print("LV Path %s%s/%s",
lv->vg->cmd->dev_dir,
lv->vg->name, lv->name);
log_print("LV Name %s", lv->name);
} else
log_print("Internal LV Name %s", lv->name);
log_print("VG Name %s", lv->vg->name);
log_print("LV UUID %s", uuid);
log_print("LV Write Access %s", access_str);
log_print("LV Creation host, time %s, %s",
lv_host_dup(cmd->mem, lv), lv_creation_time_dup(cmd->mem, lv, 1));
if (lv_is_origin(lv)) {
log_print("LV snapshot status source of");
dm_list_iterate_items_gen(snap_seg, &lv->snapshot_segs,
origin_list) {
if (inkernel &&
(snap_active = lv_snapshot_percent(snap_seg->cow,
&snap_percent)))
if (snap_percent == DM_PERCENT_INVALID)
snap_active = 0;
if (lvm1compat)
log_print(" %s%s/%s [%s]",
lv->vg->cmd->dev_dir, lv->vg->name,
snap_seg->cow->name,
snap_active ? "active" : "INACTIVE");
else
log_print(" %s [%s]",
snap_seg->cow->name,
snap_active ? "active" : "INACTIVE");
}
snap_seg = NULL;
} else if (lv_is_cow(lv) && (snap_seg = find_snapshot(lv))) {
if (inkernel &&
(snap_active = lv_snapshot_percent(snap_seg->cow,
&snap_percent)))
if (snap_percent == DM_PERCENT_INVALID)
snap_active = 0;
if (lvm1compat)
log_print("LV snapshot status %s destination for %s%s/%s",
snap_active ? "active" : "INACTIVE",
lv->vg->cmd->dev_dir, lv->vg->name,
snap_seg->origin->name);
else
log_print("LV snapshot status %s destination for %s",
snap_active ? "active" : "INACTIVE",
snap_seg->origin->name);
}
if (lv_is_thin_volume(lv)) {
seg = first_seg(lv);
log_print("LV Pool name %s", seg->pool_lv->name);
if (seg->origin)
log_print("LV Thin origin name %s",
seg->origin->name);
if (seg->external_lv)
log_print("LV External origin name %s",
seg->external_lv->name);
if (seg->merge_lv)
log_print("LV merging to %s",
seg->merge_lv->name);
if (inkernel && (thin_active = lv_thin_status(lv, 0, &thin_status))) {
thin_percent = thin_status->usage;
dm_pool_destroy(thin_status->mem);
}
if (lv_is_merging_origin(lv))
log_print("LV merged with %s",
find_snapshot(lv)->lv->name);
} else if (lv_is_thin_pool(lv)) {
if ((thin_pool_active = lv_thin_pool_status(lv, 0, &thin_pool_status))) {
thin_data_percent = thin_pool_status->data_usage;
thin_metadata_percent = thin_pool_status->metadata_usage;
dm_pool_destroy(thin_pool_status->mem);
}
/* FIXME: display thin_pool targets transid for activated LV as well */
seg = first_seg(lv);
log_print("LV Pool metadata %s", seg->metadata_lv->name);
log_print("LV Pool data %s", seg_lv(seg, 0)->name);
} else if (lv_is_cache_origin(lv)) {
if ((seg = get_only_segment_using_this_lv(lv)))
log_print("LV origin of Cache LV %s", seg->lv->name);
} else if (lv_is_cache(lv)) {
seg = first_seg(lv);
if (inkernel && lv_cache_status(lv, &cache_status)) {
log_print("LV Cache pool name %s", seg->pool_lv->name);
log_print("LV Cache origin name %s", seg_lv(seg, 0)->name);
}
} else if (lv_is_cache_pool(lv)) {
seg = first_seg(lv);
log_print("LV Pool metadata %s", seg->metadata_lv->name);
log_print("LV Pool data %s", seg_lv(seg, 0)->name);
} else if (lv_is_vdo_pool(lv)) {
seg = first_seg(lv);
log_print("LV VDO Pool data %s", seg_lv(seg, 0)->name);
if (lv_vdo_pool_status(lv, 0, &vdo_status)) { /* FIXME: flush option? */
log_print("LV VDO Pool usage %s%%",
display_percent(cmd, vdo_status->usage));
log_print("LV VDO Pool saving %s%%",
display_percent(cmd, vdo_status->saving));
log_print("LV VDO Operating mode %s",
get_vdo_operating_mode_name(vdo_status->vdo->operating_mode));
log_print("LV VDO Index state %s",
get_vdo_index_state_name(vdo_status->vdo->index_state));
log_print("LV VDO Compression st %s",
get_vdo_compression_state_name(vdo_status->vdo->compression_state));
log_print("LV VDO Used size %s",
display_size(cmd, vdo_status->vdo->used_blocks * DM_VDO_BLOCK_SIZE));
dm_pool_destroy(vdo_status->mem);
}
} else if (lv_is_vdo(lv)) {
seg = first_seg(lv);
log_print("LV VDO Pool name %s", seg_lv(seg, 0)->name);
}
if (lv_is_partial(lv))
partial = 1;
if (lv_is_raid(lv))
raid_is_avail = raid_is_available(lv) ? 1 : 0;
if (inkernel && info.suspended)
log_print("LV Status suspended");
else if (activation())
log_print("LV Status %savailable%s",
(inkernel && raid_is_avail) ? "" : "NOT ",
partial ? " (partial)" : "");
/********* FIXME lv_number
log_print("LV # %u", lv->lv_number + 1);
************/
if (inkernel)
log_print("# open %u", info.open_count);
log_print("LV Size %s",
display_size(cmd,
snap_seg ? snap_seg->origin->size : lv->size));
if (cache_status) {
log_print("Cache used blocks %s%%",
display_percent(cmd, cache_status->data_usage));
log_print("Cache metadata blocks %s%%",
display_percent(cmd, cache_status->metadata_usage));
log_print("Cache dirty blocks %s%%",
display_percent(cmd, cache_status->dirty_usage));
log_print("Cache read hits/misses " FMTu64 " / " FMTu64,
cache_status->cache->read_hits,
cache_status->cache->read_misses);
log_print("Cache wrt hits/misses " FMTu64 " / " FMTu64,
cache_status->cache->write_hits,
cache_status->cache->write_misses);
log_print("Cache demotions " FMTu64,
cache_status->cache->demotions);
log_print("Cache promotions " FMTu64,
cache_status->cache->promotions);
dm_pool_destroy(cache_status->mem);
}
if (thin_pool_active) {
log_print("Allocated pool data %s%%",
display_percent(cmd, thin_data_percent));
log_print("Allocated metadata %s%%",
display_percent(cmd, thin_metadata_percent));
}
if (thin_active)
log_print("Mapped size %s%%",
display_percent(cmd, thin_percent));
log_print("Current LE %u",
snap_seg ? snap_seg->origin->le_count : lv->le_count);
if (snap_seg) {
log_print("COW-table size %s",
display_size(cmd, (uint64_t) lv->size));
log_print("COW-table LE %u", lv->le_count);
if (snap_active)
log_print("Allocated to snapshot %s%%",
display_percent(cmd, snap_percent));
log_print("Snapshot chunk size %s",
display_size(cmd, (uint64_t) snap_seg->chunk_size));
}
if (lv_is_mirrored(lv)) {
mirror_seg = first_seg(lv);
log_print("Mirrored volumes %" PRIu32, mirror_seg->area_count);
if (lv_is_converting(lv))
log_print("LV type Mirror undergoing conversion");
}
log_print("Segments %u", dm_list_size(&lv->segments));
/********* FIXME Stripes & stripesize for each segment
log_print("Stripe size %s", display_size(cmd, (uint64_t) lv->stripesize));
***********/
log_print("Allocation %s", get_alloc_string(lv->alloc));
if (lv->read_ahead == DM_READ_AHEAD_AUTO)
log_print("Read ahead sectors auto");
else if (lv->read_ahead == DM_READ_AHEAD_NONE)
log_print("Read ahead sectors 0");
else
log_print("Read ahead sectors %u", lv->read_ahead);
if (inkernel && lv->read_ahead != info.read_ahead)
log_print("- currently set to %u", info.read_ahead);
if (lv->status & FIXED_MINOR) {
if (lv->major >= 0)
log_print("Persistent major %d", lv->major);
log_print("Persistent minor %d", lv->minor);
}
if (inkernel)
log_print("Block device %d:%d", info.major,
info.minor);
log_print(" ");
return 1; /* ECMD_PROCESSED */
}
void display_stripe(const struct lv_segment *seg, uint32_t s, const char *pre)
{
switch (seg_type(seg, s)) {
case AREA_PV:
/* FIXME Re-check the conditions for 'Missing' */
log_print("%sPhysical volume\t%s", pre,
seg_pv(seg, s) ?
pv_dev_name(seg_pv(seg, s)) :
"Missing");
if (seg_pv(seg, s))
log_print("%sPhysical extents\t%d to %d", pre,
seg_pe(seg, s),
seg_pe(seg, s) + seg->area_len - 1);
break;
case AREA_LV:
log_print("%sLogical volume\t%s", pre,
seg_lv(seg, s) ?
seg_lv(seg, s)->name : "Missing");
if (seg_lv(seg, s))
log_print("%sLogical extents\t%d to %d", pre,
seg_le(seg, s),
seg_le(seg, s) + seg->area_len - 1);
break;
case AREA_UNASSIGNED:
log_print("%sUnassigned area", pre);
}
}
int lvdisplay_segments(const struct logical_volume *lv)
{
const struct lv_segment *seg;
log_print("--- Segments ---");
dm_list_iterate_items(seg, &lv->segments) {
log_print("%s extents %u to %u:",
lv_is_virtual(lv) ? "Virtual" : "Logical",
seg->le, seg->le + seg->len - 1);
log_print(" Type\t\t%s", lvseg_name(seg));
if (seg->segtype->ops->target_monitored)
log_print(" Monitoring\t\t%s",
lvseg_monitor_dup(lv->vg->cmd->mem, seg));
if (seg->segtype->ops->display)
seg->segtype->ops->display(seg);
}
log_print(" ");
return 1;
}
void vgdisplay_extents(const struct volume_group *vg __attribute__((unused)))
{
}
void vgdisplay_full(const struct volume_group *vg)
{
uint32_t access_str;
uint32_t active_pvs;
char uuid[64] __attribute__((aligned(8)));
active_pvs = vg->pv_count - vg_missing_pv_count(vg);
log_print("--- Volume group ---");
log_print("VG Name %s", vg->name);
log_print("System ID %s", (vg->system_id && *vg->system_id) ? vg->system_id : "");
log_print("Format %s", vg->fid->fmt->name);
log_print("Metadata Areas %d", vg_mda_count(vg));
log_print("Metadata Sequence No %d", vg->seqno);
access_str = vg->status & (LVM_READ | LVM_WRITE);
log_print("VG Access %s%s%s%s",
access_str == (LVM_READ | LVM_WRITE) ? "read/write" : "",
access_str == LVM_READ ? "read" : "",
access_str == LVM_WRITE ? "write" : "",
access_str == 0 ? "error" : "");
log_print("VG Status %s%sresizable",
vg_is_exported(vg) ? "exported/" : "",
vg_is_resizeable(vg) ? "" : "NOT ");
/* vg number not part of LVM2 design
log_print ("VG # %u\n", vg->vg_number);
*/
if (vg_is_clustered(vg)) {
log_print("Clustered yes");
log_print("Shared %s",
vg->status & SHARED ? "yes" : "no");
}
log_print("MAX LV %u", vg->max_lv);
log_print("Cur LV %u", vg_visible_lvs(vg));
log_print("Open LV %u", lvs_in_vg_opened(vg));
/****** FIXME Max LV Size
log_print ( "MAX LV Size %s",
( s1 = display_size ( LVM_LV_SIZE_MAX(vg))));
free ( s1);
*********/
log_print("Max PV %u", vg->max_pv);
log_print("Cur PV %u", vg->pv_count);
log_print("Act PV %u", active_pvs);
log_print("VG Size %s",
display_size(vg->cmd,
(uint64_t) vg->extent_count * vg->extent_size));
log_print("PE Size %s",
display_size(vg->cmd, vg->extent_size));
log_print("Total PE %u", vg->extent_count);
log_print("Alloc PE / Size %u / %s",
vg->extent_count - vg->free_count,
display_size(vg->cmd,
(uint64_t) (vg->extent_count - vg->free_count) *
vg->extent_size));
log_print("Free PE / Size %u / %s", vg->free_count,
display_size(vg->cmd, vg_free(vg)));
if (!id_write_format(&vg->id, uuid, sizeof(uuid))) {
stack;
return;
}
log_print("VG UUID %s", uuid);
log_print(" ");
}
void vgdisplay_colons(const struct volume_group *vg)
{
uint32_t active_pvs;
const char *access_str;
char uuid[64] __attribute__((aligned(8)));
active_pvs = vg->pv_count - vg_missing_pv_count(vg);
switch (vg->status & (LVM_READ | LVM_WRITE)) {
case LVM_READ | LVM_WRITE:
access_str = "r/w";
break;
case LVM_READ:
access_str = "r";
break;
case LVM_WRITE:
access_str = "w";
break;
default:
access_str = "";
}
if (!id_write_format(&vg->id, uuid, sizeof(uuid))) {
stack;
return;
}
log_print("%s:%s:%" PRIu64 ":-1:%u:%u:%u:-1:%u:%u:%u:%" PRIu64 ":%" PRIu32
":%u:%u:%u:%s",
vg->name,
access_str,
vg->status,
/* internal volume group number; obsolete */
vg->max_lv,
vg_visible_lvs(vg),
lvs_in_vg_opened(vg),
/* FIXME: maximum logical volume size */
vg->max_pv,
vg->pv_count,
active_pvs,
(uint64_t) vg->extent_count * (vg->extent_size / 2),
vg->extent_size / 2,
vg->extent_count,
vg->extent_count - vg->free_count,
vg->free_count,
uuid[0] ? uuid : "none");
}
void vgdisplay_short(const struct volume_group *vg)
{
log_print("\"%s\" %-9s [%-9s used / %s free]", vg->name,
/********* FIXME if "open" print "/used" else print "/idle"??? ******/
display_size(vg->cmd,
(uint64_t) vg->extent_count * vg->extent_size),
display_size(vg->cmd,
((uint64_t) vg->extent_count -
vg->free_count) * vg->extent_size),
display_size(vg->cmd, vg_free(vg)));
}
void display_formats(const struct cmd_context *cmd)
{
const struct format_type *fmt;
dm_list_iterate_items(fmt, &cmd->formats) {
log_print("%s", fmt->name);
}
}
void display_segtypes(const struct cmd_context *cmd)
{
const struct segment_type *segtype;
dm_list_iterate_items(segtype, &cmd->segtypes) {
log_print("%s", segtype->name);
}
}
void display_tags(const struct cmd_context *cmd)
{
const struct dm_str_list *sl;
dm_list_iterate_items(sl, &cmd->tags) {
log_print("%s", sl->str);
}
}
void display_name_error(name_error_t name_error)
{
switch(name_error) {
case NAME_VALID:
/* Valid name */
break;
case NAME_INVALID_EMPTY:
log_error("Name is zero length.");
break;
case NAME_INVALID_HYPHEN:
log_error("Name cannot start with hyphen.");
break;
case NAME_INVALID_DOTS:
log_error("Name starts with . or .. and has no "
"following character(s).");
break;
case NAME_INVALID_CHARSET:
log_error("Name contains invalid character, valid set includes: "
"[a-zA-Z0-9.-_+].");
break;
case NAME_INVALID_LENGTH:
/* Report that name length - 1 to accommodate nul*/
log_error("Name length exceeds maximum limit of %d.", (NAME_LEN - 1));
break;
default:
log_error(INTERNAL_ERROR "Unknown error %d on name validation.", name_error);
break;
}
}
/*
* Prompt for y or n from stdin.
* Defaults to 'no' in silent mode.
* All callers should support --yes and/or --force to override this.
*
* Accepted are either _yes[] or _no[] strings or just their outset.
* When running without 'tty' stdin is printed to stderr.
* 'Yes' is accepted ONLY with '\n'.
*/
char yes_no_prompt(const char *prompt, ...)
{
/* Lowercase Yes/No strings */
static const char _yes[] = "yes";
static const char _no[] = "no";
const char *answer = NULL;
int c = silent_mode() ? EOF : 0;
int i = 0, ret = 0, sig = 0;
char buf[12];
va_list ap;
sigint_allow();
for (;;) {
if (!ret) {
/* Show prompt */
va_start(ap, prompt);
vfprintf(stderr, prompt, ap);
va_end(ap);
fflush(stderr);
if (c == EOF)
break;
i = 0;
answer = NULL;
}
nextchar:
if ((sig = sigint_caught()))
break; /* Check if already interrupted before getchar() */
if ((c = getchar()) == EOF) {
/* SIGNAL or no chars on stdin (missing '\n') or ^D */
if (!i)
break; /* Just shown prompt,-> print [n]\n */
goto invalid; /* Note: c holds EOF */
}
if ((i < (sizeof(buf) - 4)) && isprint(c))
buf[i++] = c;
c = tolower(c);
if ((ret > 0) && (c == answer[0]))
answer++; /* Matching, next char */
else if (c == '\n') {
if (feof(stdin))
fputc('\n', stderr);
if (ret > 0)
break; /* Answered */
invalid:
if (i >= (sizeof(buf) - 4)) {
/* '...' for missing input */
i = sizeof(buf) - 1;
buf[i - 1] = buf[i - 2] = buf[i - 3] = '.';
}
buf[i] = 0;
log_warn("WARNING: Invalid input '%s'.", buf);
ret = 0; /* Otherwise refresh prompt */
} else if (!ret && (c == _yes[0])) {
ret = 'y';
answer = _yes + 1; /* Expecting 'Yes' */
} else if (!ret && (c == _no[0])) {
ret = 'n';
answer = _no + 1; /* Expecting 'No' */
} else if (!ret && isspace(c)) {
/* Ignore any whitespace before */
--i;
goto nextchar;
} else if ((ret > 0) && isspace(c)) {
/* Ignore any whitespace after */
while (*answer)
answer++; /* jump to end-of-word */
} else
ret = -1; /* Read till '\n' and refresh */
}
sigint_restore();
/* For other then Yes answer check there is really no interrupt */
if (sig || sigint_caught()) {
stack;
ret = 'n';
} else if (c == EOF) {
fputs("[n]\n", stderr);
ret = 'n';
} else
/* Not knowing if it's terminal, makes this hard.... */
log_verbose("Accepted input: [%c]", ret);
return ret;
}