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lvm2/tools/lvmcmdline.c
David Teigland 83fe6e720f device usage based on devices file 
The LVM devices file lists devices that lvm can use.  The default
file is /etc/lvm/devices/system.devices, and the lvmdevices(8)
command is used to add or remove device entries.  If the file
does not exist, or if lvm.conf includes use_devicesfile=0, then
lvm will not use a devices file.  When the devices file is in use,
the regex filter is not used, and the filter settings in lvm.conf
or on the command line are ignored.

LVM records devices in the devices file using hardware-specific
IDs, such as the WWID, and attempts to use subsystem-specific
IDs for virtual device types.  These device IDs are also written
in the VG metadata.  When no hardware or virtual ID is available,
lvm falls back using the unstable device name as the device ID.
When devnames are used, lvm performs extra scanning to find
devices if their devname changes, e.g. after reboot.

When proper device IDs are used, an lvm command will not look
at devices outside the devices file, but when devnames are used
as a fallback, lvm will scan devices outside the devices file
to locate PVs on renamed devices.  A config setting
search_for_devnames can be used to control the scanning for
renamed devname entries.

Related to the devices file, the new command option
--devices <devnames> allows a list of devices to be specified for
the command to use, overriding the devices file.  The listed
devices act as a sort of devices file in terms of limiting which
devices lvm will see and use.  Devices that are not listed will
appear to be missing to the lvm command.

Multiple devices files can be kept in /etc/lvm/devices, which
allows lvm to be used with different sets of devices, e.g.
system devices do not need to be exposed to a specific application,
and the application can use lvm on its own set of devices that are
not exposed to the system.  The option --devicesfile <filename> is
used to select the devices file to use with the command.  Without
the option set, the default system devices file is used.

Setting --devicesfile "" causes lvm to not use a devices file.

An existing, empty devices file means lvm will see no devices.

The new command vgimportdevices adds PVs from a VG to the devices
file and updates the VG metadata to include the device IDs.
vgimportdevices -a will import all VGs into the system devices file.

LVM commands run by dmeventd not use a devices file by default,
and will look at all devices on the system.  A devices file can
be created for dmeventd (/etc/lvm/devices/dmeventd.devices)  If
this file exists, lvm commands run by dmeventd will use it.

Internal implementaion:

- device_ids_read - read the devices file
  . add struct dev_use (du) to cmd->use_devices for each devices file entry
- dev_cache_scan - get /dev entries
  . add struct device (dev) to dev_cache for each device on the system
- device_ids_match - match devices file entries to /dev entries
  . match each du on cmd->use_devices to a dev in dev_cache, using device ID
  . on match, set du->dev, dev->id, dev->flags MATCHED_USE_ID
- label_scan - read lvm headers and metadata from devices
  . filters are applied, those that do not need data from the device
  . filter-deviceid skips devs without MATCHED_USE_ID, i.e.
    skips /dev entries that are not listed in the devices file
  . read lvm label from dev
  . filters are applied, those that use data from the device
  . read lvm metadata from dev
  . add info/vginfo structs for PVs/VGs (info is "lvmcache")
- device_ids_find_renamed_devs - handle devices with unstable devname ID
  where devname changed
  . this step only needed when devs do not have proper device IDs,
    and their dev names change, e.g. after reboot sdb becomes sdc.
  . detect incorrect match because PVID in the devices file entry
    does not match the PVID found when the device was read above
  . undo incorrect match between du and dev above
  . search system devices for new location of PVID
  . update devices file with new devnames for PVIDs on renamed devices
  . label_scan the renamed devs
- continue with command processing
2021-02-23 16:43:32 -06:00

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/*
* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2012 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 "tools.h"
#include "lvm2cmdline.h"
#include "lib/label/label.h"
#include "lib/device/device_id.h"
#include "lvm-version.h"
#include "lib/locking/lvmlockd.h"
#include "lib/datastruct/str_list.h"
#include "stub.h"
#include "lib/misc/last-path-component.h"
#include <sys/stat.h>
#include <time.h>
#include <sys/resource.h>
#include <dirent.h>
#include <paths.h>
#include <locale.h>
#include <langinfo.h>
#ifdef HAVE_VALGRIND
#include <valgrind.h>
#endif
#ifdef HAVE_GETOPTLONG
# include <getopt.h>
# define GETOPTLONG_FN(a, b, c, d, e) getopt_long((a), (b), (c), (d), (e))
# define OPTIND_INIT 0
#else
struct option {
};
extern int optind;
extern char *optarg;
# define GETOPTLONG_FN(a, b, c, d, e) getopt((a), (b), (c))
# define OPTIND_INIT 1
#endif
/*
* Table of valid --option values.
*/
extern struct val_name val_names[VAL_COUNT + 1];
/*
* Table of valid --option's
*/
extern struct opt_name opt_names[ARG_COUNT + 1];
/*
* Table of LV properties
*/
extern struct lv_prop lv_props[LVP_COUNT + 1];
/*
* Table of LV types
*/
extern struct lv_type lv_types[LVT_COUNT + 1];
/*
* Table of command names
*/
extern struct command_name command_names[MAX_COMMAND_NAMES];
/*
* Table of commands (as defined in command-lines.in)
*/
struct command commands[COMMAND_COUNT];
static struct cmdline_context _cmdline;
/*
* Table of command line functions
*
* This table could be auto-generated once all commands have been converted
* to use these functions instead of the old per-command-name function.
* For now, any command id not included here uses the old command fn.
*/
static const struct command_function _command_functions[CMD_COUNT] = {
{ lvmconfig_general_CMD, lvmconfig },
{ lvchange_properties_CMD, lvchange_properties_cmd },
{ lvchange_resync_CMD, lvchange_resync_cmd },
{ lvchange_syncaction_CMD, lvchange_syncaction_cmd },
{ lvchange_rebuild_CMD, lvchange_rebuild_cmd },
{ lvchange_activate_CMD, lvchange_activate_cmd },
{ lvchange_refresh_CMD, lvchange_refresh_cmd },
{ lvchange_monitor_CMD, lvchange_monitor_poll_cmd },
{ lvchange_poll_CMD, lvchange_monitor_poll_cmd },
{ lvchange_persistent_CMD, lvchange_persistent_cmd },
{ vgchange_locktype_CMD, vgchange_locktype_cmd },
{ vgchange_lockstart_CMD, vgchange_lock_start_stop_cmd },
{ vgchange_lockstop_CMD, vgchange_lock_start_stop_cmd },
{ vgchange_systemid_CMD, vgchange_systemid_cmd },
/* lvconvert utilities related to repair. */
{ lvconvert_repair_CMD, lvconvert_repair_cmd },
{ lvconvert_replace_pv_CMD, lvconvert_replace_pv_cmd },
/* lvconvert utilities related to snapshots. */
{ lvconvert_split_cow_snapshot_CMD, lvconvert_split_snapshot_cmd },
{ lvconvert_merge_snapshot_CMD, lvconvert_merge_snapshot_cmd },
{ lvconvert_combine_split_snapshot_CMD, lvconvert_combine_split_snapshot_cmd },
/* lvconvert utility to trigger polling on an LV. */
{ lvconvert_start_poll_CMD, lvconvert_start_poll_cmd },
{ lvconvert_plain_CMD, lvconvert_start_poll_cmd },
/* lvconvert utilities for creating/maintaining thin and cache objects. */
{ lvconvert_to_thinpool_CMD, lvconvert_to_pool_cmd },
{ lvconvert_to_cachepool_CMD, lvconvert_to_pool_cmd },
{ lvconvert_to_thin_with_external_CMD, lvconvert_to_thin_with_external_cmd },
{ lvconvert_to_cache_with_cachevol_CMD, lvconvert_to_cache_with_cachevol_cmd },
{ lvconvert_to_cache_with_device_CMD, lvconvert_to_cache_with_cachevol_cmd },
{ lvconvert_to_cache_with_cachepool_CMD, lvconvert_to_cache_with_cachepool_cmd },
{ lvconvert_to_writecache_CMD, lvconvert_to_writecache_cmd },
{ lvconvert_to_writecache_with_device_CMD, lvconvert_to_writecache_cmd },
{ lvconvert_swap_pool_metadata_CMD, lvconvert_swap_pool_metadata_cmd },
{ lvconvert_to_thinpool_or_swap_metadata_CMD, lvconvert_to_pool_or_swap_metadata_cmd },
{ lvconvert_to_cachepool_or_swap_metadata_CMD, lvconvert_to_pool_or_swap_metadata_cmd },
{ lvconvert_merge_thin_CMD, lvconvert_merge_thin_cmd },
{ lvconvert_split_and_keep_cache_CMD, lvconvert_split_cache_cmd },
{ lvconvert_split_and_remove_cache_CMD, lvconvert_split_cache_cmd },
/* lvconvert raid-related type conversions */
{ lvconvert_raid_types_CMD, lvconvert_raid_types_cmd },
/* lvconvert utilities for raid/mirror */
{ lvconvert_split_mirror_images_CMD, lvconvert_split_mirror_images_cmd},
{ lvconvert_change_mirrorlog_CMD, lvconvert_change_mirrorlog_cmd },
{ lvconvert_merge_mirror_images_CMD, lvconvert_merge_mirror_images_cmd },
{ lvconvert_change_region_size_CMD, lvconvert_change_region_size_cmd },
/* redirected to merge_snapshot/merge_thin/merge_mirrors */
{ lvconvert_merge_CMD, lvconvert_merge_cmd },
/* lvconvert VDO pool */
{ lvconvert_to_vdopool_CMD, lvconvert_to_vdopool_cmd },
{ lvconvert_to_vdopool_param_CMD, lvconvert_to_vdopool_param_cmd },
/* lvconvert for integrity */
{ lvconvert_integrity_CMD, lvconvert_integrity_cmd },
/* lvcreate */
{ lvcreate_and_attach_cachevol_for_cache_CMD, lvcreate_and_attach_cache_cmd },
{ lvcreate_and_attach_cachedevice_for_cache_CMD, lvcreate_and_attach_cache_cmd },
{ lvcreate_and_attach_cachevol_for_writecache_CMD, lvcreate_and_attach_writecache_cmd },
{ lvcreate_and_attach_cachedevice_for_writecache_CMD, lvcreate_and_attach_writecache_cmd },
{ pvscan_display_CMD, pvscan_display_cmd },
{ pvscan_cache_CMD, pvscan_cache_cmd },
};
/* Command line args */
unsigned arg_count(const struct cmd_context *cmd, int a)
{
return cmd->opt_arg_values ? cmd->opt_arg_values[a].count : 0;
}
unsigned grouped_arg_count(const struct arg_values *av, int a)
{
return av ? av[a].count : 0;
}
unsigned arg_is_set(const struct cmd_context *cmd, int a)
{
return arg_count(cmd, a) ? 1 : 0;
}
int arg_from_list_is_set(const struct cmd_context *cmd, const char *err_found, ...)
{
int arg;
va_list ap;
va_start(ap, err_found);
while ((arg = va_arg(ap, int)) != -1 && !arg_is_set(cmd, arg))
/* empty */;
va_end(ap);
if (arg == -1)
return 0;
if (err_found)
log_error("%s %s.", arg_long_option_name(arg), err_found);
return 1;
}
int arg_outside_list_is_set(const struct cmd_context *cmd, const char *err_found, ...)
{
int i, arg;
va_list ap;
for (i = 0; i < ARG_COUNT; ++i) {
switch (i) {
/* skip common options */
case commandprofile_ARG:
case config_ARG:
case debug_ARG:
case driverloaded_ARG:
case help2_ARG:
case help_ARG:
case profile_ARG:
case quiet_ARG:
case verbose_ARG:
case version_ARG:
case yes_ARG:
continue;
}
if (!arg_is_set(cmd, i))
continue; /* unset */
va_start(ap, err_found);
while (((arg = va_arg(ap, int)) != -1) && (arg != i))
/* empty */;
va_end(ap);
if (arg == i)
continue; /* set and in list */
if (err_found)
log_error("Option %s %s.", arg_long_option_name(i), err_found);
return 1;
}
return 0;
}
int arg_from_list_is_negative(const struct cmd_context *cmd, const char *err_found, ...)
{
int arg, ret = 0;
va_list ap;
va_start(ap, err_found);
while ((arg = va_arg(ap, int)) != -1)
if (arg_sign_value(cmd, arg, SIGN_NONE) == SIGN_MINUS) {
if (err_found)
log_error("%s %s.", arg_long_option_name(arg), err_found);
ret = 1;
}
va_end(ap);
return ret;
}
int arg_from_list_is_zero(const struct cmd_context *cmd, const char *err_found, ...)
{
int arg, ret = 0;
va_list ap;
va_start(ap, err_found);
while ((arg = va_arg(ap, int)) != -1)
if (arg_is_set(cmd, arg) &&
!arg_int_value(cmd, arg, 0)) {
if (err_found)
log_error("%s %s.", arg_long_option_name(arg), err_found);
ret = 1;
}
va_end(ap);
return ret;
}
unsigned grouped_arg_is_set(const struct arg_values *av, int a)
{
return grouped_arg_count(av, a) ? 1 : 0;
}
const char *arg_long_option_name(int a)
{
return _cmdline.opt_names[a].long_opt;
}
const char *arg_value(const struct cmd_context *cmd, int a)
{
return cmd->opt_arg_values ? cmd->opt_arg_values[a].value : NULL;
}
const char *arg_str_value(const struct cmd_context *cmd, int a, const char *def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].value : def;
}
const char *grouped_arg_str_value(const struct arg_values *av, int a, const char *def)
{
return grouped_arg_count(av, a) ? av[a].value : def;
}
int32_t grouped_arg_int_value(const struct arg_values *av, int a, const int32_t def)
{
return grouped_arg_count(av, a) ? av[a].i_value : def;
}
int32_t first_grouped_arg_int_value(const struct cmd_context *cmd, int a, const int32_t def)
{
struct arg_value_group_list *current_group;
struct arg_values *av;
dm_list_iterate_items(current_group, &cmd->arg_value_groups) {
av = current_group->arg_values;
if (grouped_arg_count(av, a))
return grouped_arg_int_value(av, a, def);
}
return def;
}
int32_t arg_int_value(const struct cmd_context *cmd, int a, const int32_t def)
{
return (_cmdline.opt_names[a].flags & ARG_GROUPABLE) ?
first_grouped_arg_int_value(cmd, a, def) : (arg_is_set(cmd, a) ? cmd->opt_arg_values[a].i_value : def);
}
uint32_t arg_uint_value(const struct cmd_context *cmd, int a, const uint32_t def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].ui_value : def;
}
int64_t arg_int64_value(const struct cmd_context *cmd, int a, const int64_t def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].i64_value : def;
}
uint64_t arg_uint64_value(const struct cmd_context *cmd, int a, const uint64_t def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].ui64_value : def;
}
/* No longer used.
const void *arg_ptr_value(struct cmd_context *cmd, int a, const void *def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].ptr : def;
}
*/
sign_t arg_sign_value(const struct cmd_context *cmd, int a, const sign_t def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].sign : def;
}
percent_type_t arg_percent_value(const struct cmd_context *cmd, int a, const percent_type_t def)
{
return arg_is_set(cmd, a) ? cmd->opt_arg_values[a].percent : def;
}
int arg_count_increment(struct cmd_context *cmd, int a)
{
return cmd->opt_arg_values[a].count++;
}
int yes_no_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
av->sign = SIGN_NONE;
av->percent = PERCENT_NONE;
if (!strcmp(av->value, "y")) {
av->i_value = 1;
av->ui_value = 1;
}
else if (!strcmp(av->value, "n")) {
av->i_value = 0;
av->ui_value = 0;
}
else
return 0;
return 1;
}
int activation_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
av->sign = SIGN_NONE;
av->percent = PERCENT_NONE;
if (!strcmp(av->value, "e") || !strcmp(av->value, "ey") ||
!strcmp(av->value, "ye")) {
av->i_value = CHANGE_AEY;
av->ui_value = CHANGE_AEY;
}
else if (!strcmp(av->value, "s") || !strcmp(av->value, "sy") ||
!strcmp(av->value, "ys")) {
av->i_value = CHANGE_ASY;
av->ui_value = CHANGE_ASY;
}
else if (!strcmp(av->value, "y")) {
av->i_value = CHANGE_AY;
av->ui_value = CHANGE_AY;
}
else if (!strcmp(av->value, "a") || !strcmp(av->value, "ay") ||
!strcmp(av->value, "ya")) {
av->i_value = CHANGE_AAY;
av->ui_value = CHANGE_AAY;
}
else if (!strcmp(av->value, "n") || !strcmp(av->value, "en") ||
!strcmp(av->value, "ne")) {
av->i_value = CHANGE_AN;
av->ui_value = CHANGE_AN;
}
else if (!strcmp(av->value, "ln") || !strcmp(av->value, "nl")) {
av->i_value = CHANGE_ALN;
av->ui_value = CHANGE_ALN;
}
else if (!strcmp(av->value, "ly") || !strcmp(av->value, "yl")) {
av->i_value = CHANGE_ALY;
av->ui_value = CHANGE_ALY;
}
else
return 0;
return 1;
}
int cachemode_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
cache_mode_t mode;
if (!set_cache_mode(&mode, av->value))
return_0;
av->i_value = mode;
av->ui_value = mode;
return 1;
}
int cachemetadataformat_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "auto")) {
av->i_value = CACHE_METADATA_FORMAT_UNSELECTED;
av->ui_value = CACHE_METADATA_FORMAT_UNSELECTED;
} else if (!int_arg(cmd, av))
return_0;
switch (av->i_value) {
case CACHE_METADATA_FORMAT_UNSELECTED:
case CACHE_METADATA_FORMAT_1:
case CACHE_METADATA_FORMAT_2:
return 1;
}
log_error("Selected cache metadata format %d is not supported.", av->i_value);
return 0;
}
int discards_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
thin_discards_t discards;
if (!set_pool_discards(&discards, av->value))
return_0;
av->i_value = discards;
av->ui_value = discards;
return 1;
}
int mirrorlog_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
int log_count;
if (!set_mirror_log_count(&log_count, av->value))
return_0;
av->i_value = log_count;
av->ui_value = log_count;
return 1;
}
int metadatatype_arg(struct cmd_context *cmd, struct arg_values *av)
{
return get_format_by_name(cmd, av->value) ? 1 : 0;
}
static int _get_int_arg(struct arg_values *av, char **ptr)
{
char *val;
unsigned long long v;
av->percent = PERCENT_NONE;
val = av->value;
switch (*val) {
case '+':
av->sign = SIGN_PLUS;
val++;
break;
case '-':
av->sign = SIGN_MINUS;
val++;
break;
default:
av->sign = SIGN_NONE;
}
if (!isdigit(*val))
return 0;
errno = 0;
v = strtoull(val, ptr, 10);
if (*ptr == val || errno)
return 0;
av->i_value = (v < INT32_MAX) ? (int32_t) v : INT32_MAX;
av->ui_value = (v < UINT32_MAX) ? (uint32_t) v : UINT32_MAX;
av->i64_value = (v < INT64_MAX) ? (int64_t) v : INT64_MAX;
av->ui64_value = (v < UINT64_MAX) ? (uint64_t) v : UINT64_MAX;
return 1;
}
static int _get_percent_arg(struct arg_values *av, const char *ptr)
{
if (!strcasecmp(ptr, "V") || !strcasecmp(ptr, "VG"))
av->percent = PERCENT_VG;
else if (!strcasecmp(ptr, "L") || !strcasecmp(ptr, "LV"))
av->percent = PERCENT_LV;
else if (!strcasecmp(ptr, "P") || !strcasecmp(ptr, "PV") ||
!strcasecmp(ptr, "PVS"))
av->percent = PERCENT_PVS;
else if (!strcasecmp(ptr, "F") || !strcasecmp(ptr, "FR") ||
!strcasecmp(ptr, "FREE"))
av->percent = PERCENT_FREE;
else if (!strcasecmp(ptr, "O") || !strcasecmp(ptr, "OR") ||
!strcasecmp(ptr, "ORIGIN"))
av->percent = PERCENT_ORIGIN;
else {
log_error("Specified %%%s is unknown.", ptr);
return 0;
}
return 1;
}
/* Size stored in sectors */
static int _size_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av, int factor, int percent)
{
char *ptr;
int i;
static const char *suffixes = "kmgtpebs";
char *val;
double v;
uint64_t v_tmp, adjustment;
const char *radixchar = nl_langinfo(RADIXCHAR) ? : ".";
av->percent = PERCENT_NONE;
val = av->value;
switch (*val) {
case '+':
av->sign = SIGN_PLUS;
val++;
break;
case '-':
av->sign = SIGN_MINUS;
val++;
break;
default:
av->sign = SIGN_NONE;
}
if (*val == '+' || *val == '-') {
log_error("Multiple sign symbols detected.");
return 0;
}
if (!isdigit(*val) && (*val != '.') && (*val != radixchar[0])) {
log_error("Size requires number argument.");
return 0;
}
errno = 0;
v = strtod(val, &ptr);
if (*ptr == '.' && radixchar[0] != '.') {
/*
* Maybe user has non-C locale with different decimal point ?
* Lets be tolerant and retry with standard C locales
*/
if (setlocale(LC_ALL, "C")) {
errno = 0;
v = strtod(val, &ptr);
setlocale(LC_ALL, "");
}
}
if (ptr == val || errno) {
log_error("Can't parse size argument at '%c'.%s%s", ptr[0], (errno) ? " " :"", (errno) ? strerror(errno) : "");
return 0;
}
if (percent && *ptr == '%') {
if (!_get_percent_arg(av, ++ptr))
return_0;
if ((uint64_t) v >= UINT32_MAX) {
log_error("Percentage is too big (>=%d%%).", UINT32_MAX);
return 0;
}
} else if (*ptr) {
for (i = strlen(suffixes) - 1; i >= 0; i--)
if (suffixes[i] == tolower((int) *ptr))
break;
if (i < 0) {
log_error("Can't parse size argument.");
return 0;
} else if (i == 7) {
/* v is already in sectors */
;
} else if (i == 6) {
/* bytes */
v_tmp = (uint64_t) v;
adjustment = v_tmp % 512;
if (adjustment) {
v_tmp += (512 - adjustment);
log_error("Size is not a multiple of 512. "
"Try using %"PRIu64" or %"PRIu64".",
v_tmp - 512, v_tmp);
return 0;
}
v /= 512;
} else {
/* all other units: kmgtpe */
while (i-- > 0)
v *= 1024;
v *= 2;
}
} else
v *= factor;
/* Compare (double) */
if (v >= (double) (UINT64_MAX >> SECTOR_SHIFT)) {
log_error("Size is too big (>=16EiB).");
return 0;
}
av->i_value = (v < INT32_MAX) ? (int32_t) v : INT32_MAX;
av->ui_value = (v < UINT32_MAX) ? (uint32_t) v : UINT32_MAX;
av->i64_value = (v < INT64_MAX) ? (int64_t) v : INT64_MAX;
av->ui64_value = (v < UINT64_MAX) ? (uint64_t) v : UINT64_MAX;
return 1;
}
/* negative not accepted */
int size_kb_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!_size_arg(cmd, av, 2, 0))
return 0;
if (av->sign == SIGN_MINUS) {
log_error("Size may not be negative.");
return 0;
}
return 1;
}
int ssize_kb_arg(struct cmd_context *cmd, struct arg_values *av)
{
return _size_arg(cmd, av, 2, 0);
}
int size_mb_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!_size_arg(cmd, av, 2048, 0))
return 0;
if ((av->sign == SIGN_MINUS) || (av->sign == SIGN_PLUS)) {
log_error("Size may not be relative/signed.");
return 0;
}
return 1;
}
int ssize_mb_arg(struct cmd_context *cmd, struct arg_values *av)
{
return _size_arg(cmd, av, 2048, 0);
}
int psize_mb_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!_size_arg(cmd, av, 2048, 0))
return 0;
if (av->sign == SIGN_MINUS) {
log_error("Size may not be negative.");
return 0;
}
return 1;
}
int nsize_mb_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!_size_arg(cmd, av, 2048, 0))
return 0;
if (av->sign == SIGN_PLUS) {
log_error("Size may not be positive.");
return 0;
}
return 1;
}
int int_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
char *ptr;
if (!_get_int_arg(av, &ptr) || (*ptr) || (av->sign == SIGN_MINUS))
return 0;
return 1;
}
int uint32_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!int_arg(cmd, av) || (av->ui64_value > UINT32_MAX))
return 0;
return 1;
}
int int_arg_with_sign(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
char *ptr;
if (!_get_int_arg(av, &ptr) || (*ptr))
return 0;
return 1;
}
int int_arg_with_plus(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
char *ptr;
if (!_get_int_arg(av, &ptr) || (*ptr))
return 0;
if (av->sign == SIGN_MINUS) {
log_error("Number may not be negative.");
return 0;
}
return 1;
}
static int _extents_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av)
{
char *ptr;
if (!_get_int_arg(av, &ptr))
return 0;
if (!*ptr)
return 1;
if (*ptr++ != '%')
return 0;
if (!_get_percent_arg(av, ptr))
return_0;
if (av->ui64_value >= UINT32_MAX) {
log_error("Percentage is too big (>=%d%%).", UINT32_MAX);
return 0;
}
return 1;
}
int extents_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av)
{
if (!_extents_arg(cmd, av))
return 0;
if ((av->sign == SIGN_MINUS) || (av->sign == SIGN_PLUS)) {
log_error("Extents may not be relative/signed.");
return 0;
}
return 1;
}
int sextents_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av)
{
return _extents_arg(cmd, av);
}
int pextents_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av)
{
if (!_extents_arg(cmd, av))
return 0;
if (av->sign == SIGN_MINUS) {
log_error("Extents may not be negative.");
return 0;
}
return 1;
}
int nextents_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av)
{
if (!_extents_arg(cmd, av))
return 0;
if (av->sign == SIGN_PLUS) {
log_error("Extents may not be positive.");
return 0;
}
return 1;
}
int string_arg(struct cmd_context *cmd __attribute__((unused)),
struct arg_values *av __attribute__((unused)))
{
return 1;
}
int tag_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
char *pos = av->value;
if (*pos == '@')
pos++;
if (!validate_tag(pos))
return 0;
av->value = pos;
return 1;
}
int permission_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
av->sign = SIGN_NONE;
if ((!strcmp(av->value, "rw")) || (!strcmp(av->value, "wr")))
av->ui_value = LVM_READ | LVM_WRITE;
else if (!strcmp(av->value, "r"))
av->ui_value = LVM_READ;
else
return 0;
return 1;
}
int alloc_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
alloc_policy_t alloc;
av->sign = SIGN_NONE;
alloc = get_alloc_from_string(av->value);
if (alloc == ALLOC_INVALID)
return 0;
av->ui_value = (uint32_t) alloc;
return 1;
}
int locktype_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
lock_type_t lock_type;
av->sign = SIGN_NONE;
lock_type = get_lock_type_from_string(av->value);
if (lock_type == LOCK_TYPE_INVALID)
return 0;
return 1;
}
int segtype_arg(struct cmd_context *cmd, struct arg_values *av)
{
struct segment_type *segtype;
const char *str = (!strcmp(av->value, SEG_TYPE_NAME_LINEAR)) ? SEG_TYPE_NAME_STRIPED : av->value;
if (!(segtype = get_segtype_from_string(cmd, str)))
return_0;
return (!segtype_is_unknown(segtype)) ? 1 : 0;
}
/*
* Positive integer, zero or "auto".
*/
int readahead_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av)
{
if (!strcasecmp(av->value, "auto")) {
av->ui_value = DM_READ_AHEAD_AUTO;
return 1;
}
if (!strcasecmp(av->value, "none")) {
av->ui_value = DM_READ_AHEAD_NONE;
return 1;
}
if (!_size_arg(cmd, av, 1, 0))
return 0;
if (av->sign == SIGN_MINUS)
return 0;
return 1;
}
int regionsize_mb_arg(struct cmd_context *cmd, struct arg_values *av)
{
int pagesize = lvm_getpagesize();
uint32_t num;
if (!_size_arg(cmd, av, 2048, 0))
return 0;
if (av->sign == SIGN_MINUS) {
log_error("Region size may not be negative.");
return 0;
}
if (av->ui64_value > UINT32_MAX) {
log_error("Region size is too big (max %u).", UINT32_MAX);
return 0;
}
num = av->ui_value;
if (!num) {
log_error("Region size may not be zero.");
return 0;
}
if (num % (pagesize >> SECTOR_SHIFT)) {
log_error("Region size must be a multiple of machine memory page size (%d bytes).",
pagesize);
return 0;
}
if (!is_power_of_2(num)) {
log_error("Region size must be a power of 2.");
return 0;
}
return 1;
}
/*
* Non-zero, positive integer, "all", or "unmanaged"
*/
int vgmetadatacopies_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcasecmp(av->value, "all")) {
av->ui_value = VGMETADATACOPIES_ALL;
return 1;
}
if (!strcasecmp(av->value, "unmanaged")) {
av->ui_value = VGMETADATACOPIES_UNMANAGED;
return 1;
}
return int_arg(cmd, av);
}
int pvmetadatacopies_arg(struct cmd_context *cmd, struct arg_values *av)
{
int num;
if (!int_arg(cmd, av))
return 0;
num = av->i_value;
if ((num != 0) && (num != 1) && (num != 2))
return 0;
return 1;
}
int metadatacopies_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strncmp(cmd->name, "pv", 2))
return pvmetadatacopies_arg(cmd, av);
if (!strncmp(cmd->name, "vg", 2))
return vgmetadatacopies_arg(cmd, av);
return 0;
}
int polloperation_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "pvmove") ||
!strcmp(av->value, "convert") ||
!strcmp(av->value, "merge") ||
!strcmp(av->value, "merge_thin"))
return 1;
return 0;
}
int writemostly_arg(struct cmd_context *cmd, struct arg_values *av)
{
/* Could we verify that a PV arg looks like /dev/foo ? */
return 1;
}
int syncaction_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "check") ||
!strcmp(av->value, "repair"))
return 1;
return 0;
}
int reportformat_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "basic") ||
!strcmp(av->value, "json"))
return 1;
return 0;
}
int configreport_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "log") ||
!strcmp(av->value, "vg") ||
!strcmp(av->value, "lv") ||
!strcmp(av->value, "pv") ||
!strcmp(av->value, "pvseg") ||
!strcmp(av->value, "seg"))
return 1;
return 0;
}
int configtype_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "current") ||
!strcmp(av->value, "default") ||
!strcmp(av->value, "diff") ||
!strcmp(av->value, "full") ||
!strcmp(av->value, "list") ||
!strcmp(av->value, "missing") ||
!strcmp(av->value, "new") ||
!strcmp(av->value, "profilable") ||
!strcmp(av->value, "profilable-command") ||
!strcmp(av->value, "profilable-metadata"))
return 1;
return 0;
}
int repairtype_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "pv_header") ||
!strcmp(av->value, "metadata") ||
!strcmp(av->value, "label_header"))
return 1;
return 0;
}
int dumptype_arg(struct cmd_context *cmd, struct arg_values *av)
{
if (!strcmp(av->value, "headers") ||
!strcmp(av->value, "metadata") ||
!strcmp(av->value, "metadata_all") ||
!strcmp(av->value, "metadata_search") ||
!strcmp(av->value, "metadata_area") ||
!strcmp(av->value, "backup_to_raw"))
return 1;
return 0;
}
/*
* FIXME: there's been a confusing mixup among:
* resizeable, resizable, allocatable, allocation.
*
* resizeable and allocatable are the preferred,
* standard option names.
*
* The dispreferred "resizable" is always translated
* to the preferred resizeable.
*
* But, the dispreferred "allocation" name seems
* to translate to either or both resizeable
* and allocatable, it's not clear which.
*/
static int _opt_standard_to_synonym(const char *cmd_name, int opt)
{
switch (opt) {
case mirrorlog_ARG:
return corelog_ARG;
case resizeable_ARG:
return resizable_ARG;
case allocatable_ARG:
return allocation_ARG;
case activate_ARG:
return available_ARG;
case rebuild_ARG:
return raidrebuild_ARG;
case syncaction_ARG:
return raidsyncaction_ARG;
case writemostly_ARG:
return raidwritemostly_ARG;
case minrecoveryrate_ARG:
return raidminrecoveryrate_ARG;
case maxrecoveryrate_ARG:
return raidmaxrecoveryrate_ARG;
case writebehind_ARG:
return raidwritebehind_ARG;
case virtualsize_ARG:
return virtualoriginsize_ARG;
case splitcache_ARG:
return split_ARG;
case pvmetadatacopies_ARG:
if (!strncmp(cmd_name, "pv", 2))
return metadatacopies_ARG;
return 0;
case vgmetadatacopies_ARG:
if (!strncmp(cmd_name, "vg", 2))
return metadatacopies_ARG;
return 0;
}
return 0;
}
static int _opt_synonym_to_standard(const char *cmd_name, int opt)
{
switch (opt) {
case corelog_ARG:
return mirrorlog_ARG;
case resizable_ARG:
return resizeable_ARG;
case allocation_ARG:
return allocatable_ARG;
case available_ARG:
return activate_ARG;
case raidrebuild_ARG:
return rebuild_ARG;
case raidsyncaction_ARG:
return syncaction_ARG;
case raidwritemostly_ARG:
return writemostly_ARG;
case raidminrecoveryrate_ARG:
return minrecoveryrate_ARG;
case raidmaxrecoveryrate_ARG:
return maxrecoveryrate_ARG;
case raidwritebehind_ARG:
return writebehind_ARG;
case virtualoriginsize_ARG:
return virtualsize_ARG;
case split_ARG:
return splitcache_ARG;
case metadatacopies_ARG:
if (!strncmp(cmd_name, "pv", 2))
return pvmetadatacopies_ARG;
if (!strncmp(cmd_name, "vg", 2))
return vgmetadatacopies_ARG;
return 0;
}
return 0;
}
static void _add_getopt_arg(int arg_enum, char **optstrp, struct option **longoptsp);
/*
* The valid args for a command name in general is a union of
* required_opt_args and optional_opt_args for all commands[]
* with the given name.
*/
static void _set_valid_args_for_command_name(int ci)
{
int all_args[ARG_COUNT] = { 0 };
int num_args = 0;
int opt_enum; /* foo_ARG from args.h */
int opt_syn;
int i, ro, oo, io;
/*
* all_args is indexed by the foo_ARG enum vals
*/
for (i = 0; i < COMMAND_COUNT; i++) {
if (strcmp(commands[i].name, command_names[ci].name))
continue;
for (ro = 0; ro < (commands[i].ro_count + commands[i].any_ro_count); ro++) {
opt_enum = commands[i].required_opt_args[ro].opt;
all_args[opt_enum] = 1;
}
for (oo = 0; oo < commands[i].oo_count; oo++) {
opt_enum = commands[i].optional_opt_args[oo].opt;
all_args[opt_enum] = 1;
}
for (io = 0; io < commands[i].io_count; io++) {
opt_enum = commands[i].ignore_opt_args[io].opt;
all_args[opt_enum] = 1;
}
}
for (i = 0; i < ARG_COUNT; i++) {
if (all_args[i]) {
opt_enum = _cmdline.opt_names[i].opt_enum;
command_names[ci].valid_args[num_args] = opt_enum;
num_args++;
/* Automatically recognize --extents in addition to --size. */
if (opt_enum == size_ARG) {
command_names[ci].valid_args[num_args] = extents_ARG;
num_args++;
}
/* Recognize synonyms */
if ((opt_syn = _opt_standard_to_synonym(command_names[ci].name, opt_enum))) {
command_names[ci].valid_args[num_args] = opt_syn;
num_args++;
}
/*
* "--allocation" is a weird option that seems to be
* a synonym for either allocatable or resizeable,
* each which already have their own other synonyms,
* so just add allocation whenever either is seen.
*/
if ((opt_enum == allocatable_ARG) || (opt_enum == resizeable_ARG)) {
command_names[ci].valid_args[num_args] = allocation_ARG;
num_args++;
}
}
}
command_names[ci].num_args = num_args;
}
static struct command_name *_find_command_name(const char *name)
{
int i;
for (i = 0; i < MAX_COMMAND_NAMES; i++) {
if (!command_names[i].name)
break;
if (!strcmp(command_names[i].name, name))
return &command_names[i];
}
return NULL;
}
static const struct command_function *_find_command_id_function(int command_enum)
{
int i;
if (!command_enum)
return NULL;
for (i = 0; i < CMD_COUNT; i++) {
if (_command_functions[i].command_enum == command_enum)
return &_command_functions[i];
}
return NULL;
}
static void _unregister_commands(void)
{
_cmdline.commands = NULL;
_cmdline.num_commands = 0;
_cmdline.command_names = NULL;
_cmdline.num_command_names = 0;
memset(&commands, 0, sizeof(commands));
}
int lvm_register_commands(struct cmd_context *cmd, const char *run_name)
{
int i;
/* already initialized */
if (_cmdline.commands)
return 1;
memset(&commands, 0, sizeof(commands));
/*
* populate commands[] array with command definitions
* by parsing command-lines.in/command-lines-input.h
*/
if (!define_commands(cmd, run_name)) {
log_error(INTERNAL_ERROR "Failed to parse command definitions.");
return 0;
}
_cmdline.commands = commands;
_cmdline.num_commands = COMMAND_COUNT;
for (i = 0; i < COMMAND_COUNT; i++) {
commands[i].command_enum = command_id_to_enum(commands[i].command_id);
if (!commands[i].command_enum) {
log_error(INTERNAL_ERROR "Failed to find command id %s.", commands[i].command_id);
_cmdline.commands = NULL;
_cmdline.num_commands = 0;
return 0;
}
/* new style */
commands[i].functions = _find_command_id_function(commands[i].command_enum);
/* old style */
if (!commands[i].functions) {
struct command_name *cname = _find_command_name(commands[i].name);
if (cname)
commands[i].fn = cname->fn;
}
}
_cmdline.command_names = command_names;
_cmdline.num_command_names = 0;
for (i = 0; i < MAX_COMMAND_NAMES; i++) {
if (!command_names[i].name)
break;
_cmdline.num_command_names++;
}
for (i = 0; i < _cmdline.num_command_names; i++)
_set_valid_args_for_command_name(i);
return 1;
}
struct lv_prop *get_lv_prop(int lvp_enum)
{
if (!lvp_enum)
return NULL;
return &lv_props[lvp_enum];
}
struct lv_type *get_lv_type(int lvt_enum)
{
if (!lvt_enum)
return NULL;
return &lv_types[lvt_enum];
}
struct command *get_command(int cmd_enum)
{
int i;
for (i = 0; i < COMMAND_COUNT; i++) {
if (commands[i].command_enum == cmd_enum)
return &commands[i];
}
return NULL;
}
/*
* Also see merge_synonym(). The command definitions
* are written using just one variation of the option
* name (opt below). This function checks if the user
* entered a synonym (arg_is_set).
*/
static int _opt_synonym_is_set(struct cmd_context *cmd, int opt_std)
{
int opt_syn = _opt_standard_to_synonym(cmd->name, opt_std);
return opt_syn && arg_is_set(cmd, opt_syn);
}
static int _command_optional_opt_matches(struct cmd_context *cmd, int ci, int oo)
{
int opt_enum = commands[ci].optional_opt_args[oo].opt;
if (val_bit_is_set(commands[ci].optional_opt_args[oo].def.val_bits, conststr_VAL)) {
if (!strcmp(commands[ci].optional_opt_args[oo].def.str, arg_str_value(cmd, opt_enum, "")))
return 1;
return 0;
}
if (val_bit_is_set(commands[ci].optional_opt_args[oo].def.val_bits, constnum_VAL)) {
if (commands[ci].optional_opt_args[oo].def.num == arg_int_value(cmd, opt_enum, 0))
return 1;
return 0;
}
return 1;
}
static int _command_ignore_opt_matches(struct cmd_context *cmd, int ci, int io)
{
int opt_enum = commands[ci].ignore_opt_args[io].opt;
if (val_bit_is_set(commands[ci].ignore_opt_args[io].def.val_bits, conststr_VAL)) {
if (!strcmp(commands[ci].ignore_opt_args[io].def.str, arg_str_value(cmd, opt_enum, "")))
return 1;
return 0;
}
if (val_bit_is_set(commands[ci].ignore_opt_args[io].def.val_bits, constnum_VAL)) {
if (commands[ci].ignore_opt_args[io].def.num == arg_int_value(cmd, opt_enum, 0))
return 1;
return 0;
}
return 1;
}
static int _command_required_opt_matches(struct cmd_context *cmd, int ci, int ro)
{
int opt_enum = commands[ci].required_opt_args[ro].opt;
if (arg_is_set(cmd, opt_enum) || _opt_synonym_is_set(cmd, opt_enum))
goto check_val;
/*
* For some commands, --size and --extents are interchangable,
* but command[] definitions use only --size.
*/
if ((opt_enum == size_ARG) && arg_is_set(cmd, extents_ARG) &&
command_has_alternate_extents(commands[ci].name))
goto check_val;
return 0;
/*
* If the definition requires a literal string or number, check
* that the arg value matches.
*/
check_val:
if (val_bit_is_set(commands[ci].required_opt_args[ro].def.val_bits, conststr_VAL)) {
if (!strcmp(commands[ci].required_opt_args[ro].def.str, arg_str_value(cmd, opt_enum, "")))
return 1;
/* Special case: "raid0" (any raid<N>), matches command def "raid" */
if (!strcmp(commands[ci].required_opt_args[ro].def.str, "raid") &&
!strncmp(arg_str_value(cmd, opt_enum, ""), "raid", 4))
return 1;
return 0;
}
if (val_bit_is_set(commands[ci].required_opt_args[ro].def.val_bits, constnum_VAL)) {
if (commands[ci].required_opt_args[ro].def.num == arg_int_value(cmd, opt_enum, 0))
return 1;
return 0;
}
return 1;
}
static int _command_required_pos_matches(struct cmd_context *cmd, int ci, int rp, char **argv)
{
const char *name;
/*
* rp is the index in required_pos_args[] of the required positional arg.
* The pos values begin with 1, so the first positional arg has
* pos 1, rp 0.
*/
if (argv[rp]) {
/* FIXME: can we match object type better than just checking something exists? */
/* Some cases could be validated by looking at defs.types and at the value. */
return 1;
}
/*
* If Select is specified as a pos arg, then that pos arg can be
* empty if --select is used.
*/
if ((val_bit_is_set(commands[ci].required_pos_args[rp].def.val_bits, select_VAL)) &&
arg_is_set(cmd, select_ARG))
return 1;
/*
* For an lvcreate command with VG as the first required positional arg,
* the VG position is allowed to be empty if --name VG/LV is used, or if the
* LVM_VG_NAME env var is set.
*
* --thinpool VG/LV and --cachepool VG/LV can also function like --name
* to provide the VG name in place of the positional arg.
*/
if (!strcmp(cmd->name, "lvcreate") &&
(rp == 0) &&
val_bit_is_set(commands[ci].required_pos_args[rp].def.val_bits, vg_VAL) &&
(arg_is_set(cmd, name_ARG) ||
arg_is_set(cmd, thinpool_ARG) ||
arg_is_set(cmd, cachepool_ARG) ||
getenv("LVM_VG_NAME"))) {
if (getenv("LVM_VG_NAME"))
return 1;
if ((name = arg_str_value(cmd, name_ARG, NULL))) {
if (strstr(name, "/"))
return 1;
}
if ((name = arg_str_value(cmd, thinpool_ARG, NULL))) {
if (strstr(name, "/"))
return 1;
}
if ((name = arg_str_value(cmd, cachepool_ARG, NULL))) {
if (strstr(name, "/"))
return 1;
}
}
return 0;
}
/*
* Return 1 if we should skip this command from consideration.
* This would happen if the command does not include a --type
* option that does not match type_arg.
*/
static int _command_skip_for_type_arg(struct cmd_context *cmd, int ci, const char *type_arg)
{
int ro, oo, opt_enum;
for (ro = 0; ro < (commands[ci].ro_count + commands[ci].any_ro_count); ro++) {
opt_enum = commands[ci].required_opt_args[ro].opt;
if (opt_enum != type_ARG)
continue;
/* SegType keyword in command def matches any type_arg */
if (val_bit_is_set(commands[ci].required_opt_args[ro].def.val_bits, segtype_VAL))
return 0;
if (!commands[ci].required_opt_args[ro].def.str)
return 0;
if (!strcmp(commands[ci].required_opt_args[ro].def.str, type_arg))
return 0;
if (!strncmp(commands[ci].required_opt_args[ro].def.str, "raid", 4) &&
!strncmp(type_arg, "raid", 4))
return 0;
return 1;
}
for (oo = 0; oo < commands[ci].oo_count; oo++) {
opt_enum = commands[ci].optional_opt_args[oo].opt;
if (opt_enum != type_ARG)
continue;
/* SegType keyword in command def matches any type_arg */
if (val_bit_is_set(commands[ci].optional_opt_args[oo].def.val_bits, segtype_VAL))
return 0;
if (!commands[ci].optional_opt_args[oo].def.str)
return 0;
if (!strcmp(commands[ci].optional_opt_args[oo].def.str, type_arg))
return 0;
if (!strncmp(commands[ci].optional_opt_args[oo].def.str, "raid", 4) &&
!strncmp(type_arg, "raid", 4))
return 0;
return 1;
}
return 1;
}
/*
* Match what the user typed with a one specific command definition/prototype
* from commands[]. If nothing matches, it's not a valid command. The match
* is based on command name, required opt args and required pos args.
*
* Find an entry in the commands array that matches based the arg values.
*
* If the cmd has opt or pos args set that are not accepted by command,
* we can: silently ignore them, warn they are not being used, or fail.
* Default should probably be to warn and continue.
*
* For each command[i], check how many required opt/pos args cmd matches.
* Save the command[i] that matches the most.
*
* commands[i].cmd_flags & CMD_FLAG_ANY_REQUIRED_OPT means
* any one item from commands[i].required_opt_args needs to be
* set to match.
*
* required_pos_args[0].types & select_VAL means
* argv[] in that pos can be NULL if arg_is_set(select_ARG)
*/
/* The max number of unused options we keep track of to warn about */
#define MAX_UNUSED_COUNT 8
#define MAX_OPTS_MSG 64
static struct command *_find_command(struct cmd_context *cmd, const char *path, int *argc, char **argv)
{
const char *name;
const char *type_arg = NULL;
char opts_msg[MAX_OPTS_MSG];
char check_opts_msg[MAX_OPTS_MSG];
int match_required, match_ro, match_rp, match_any_ro, match_type, match_unused, mismatch_required;
int best_i = 0, best_required = 0, best_type = 0, best_unused = 0;
int close_i = 0, close_ro = 0, close_type = 0;
int only_i = 0;
int temp_unused_options[MAX_UNUSED_COUNT];
int temp_unused_count;
int best_unused_options[MAX_UNUSED_COUNT] = { 0 };
int best_unused_count = 0;
int opts_match_count, opts_unmatch_count;
int ro, rp;
int i, j;
int opt_enum, opt_i;
int accepted, count;
int variants = 0;
name = last_path_component(path);
/* factor_common_options() is only for usage, so cname->variants is not set. */
for (i = 0; i < COMMAND_COUNT; i++) {
if (strcmp(name, commands[i].name))
continue;
variants++;
}
if (arg_is_set(cmd, type_ARG))
type_arg = arg_str_value(cmd, type_ARG, "");
for (i = 0; i < COMMAND_COUNT; i++) {
if (strcmp(name, commands[i].name))
continue;
if (variants == 1)
only_i = i;
/* For help and version just return the first entry with matching name. */
if (arg_is_set(cmd, help_ARG) || arg_is_set(cmd, help2_ARG) || arg_is_set(cmd, longhelp_ARG) || arg_is_set(cmd, version_ARG))
return &commands[i];
/*
* The 'lvconvert LV' cmd def matches any lvconvert cmd which throws off
* nearest-command partial-match suggestions. Make it a special case so
* that it won't be used as a close match. If the command has any option
* set (other than -v), don't attempt to match it to 'lvconvert LV'.
*/
if (commands[i].command_enum == lvconvert_plain_CMD) {
if (cmd->opt_count - cmd->opt_arg_values[verbose_ARG].count)
continue;
}
/*
* '--type foo' is special. If the user has set --type foo, then
* we will only look at command defs that include the same --type foo
* (as required or optional). We'll never match some command based
* on *other* (non-type) options, and then at the end complain that
* the user's --type is not accepted.
*/
if (type_arg && _command_skip_for_type_arg(cmd, i, type_arg))
continue;
match_required = 0; /* required parameters that match */
match_ro = 0; /* required opt_args that match */
match_rp = 0; /* required pos_args that match */
match_any_ro = 0;
match_type = 0; /* type arg matches */
match_unused = 0; /* options set that are not accepted by command */
mismatch_required = 0; /* required parameters that do not match */
temp_unused_count = 0;
memset(&temp_unused_options, 0, sizeof(temp_unused_options));
/* if the command name alone is enough, then that's a match */
if (!commands[i].ro_count && !commands[i].rp_count)
match_required = 1;
/* match required_opt_args */
for (ro = 0; ro < commands[i].ro_count; ro++) {
if (_command_required_opt_matches(cmd, i, ro)) {
/* log_warn("match %d ro opt %d", i, commands[i].required_opt_args[ro].opt); */
match_required++;
match_ro++;
if (commands[i].required_opt_args[ro].opt == type_ARG)
match_type = 1;
} else {
/* cmd is missing a required opt arg */
/* log_warn("mismatch %d ro opt %d", i, commands[i].required_opt_args[ro].opt); */
mismatch_required++;
}
}
for (ro = commands[i].ro_count; ro < commands[i].ro_count + commands[i].any_ro_count; ro++) {
if (_command_required_opt_matches(cmd, i, ro)) {
/* log_warn("match %d any ro opt %d", i, commands[i].required_opt_args[ro].opt); */
match_any_ro++;
}
}
if ((commands[i].cmd_flags & CMD_FLAG_ANY_REQUIRED_OPT) && !match_any_ro) {
/* not even one of the any ro is used */
/* log_warn("match %d not one from any", i); */
mismatch_required = 1;
}
/* match required_pos_args */
for (rp = 0; rp < commands[i].rp_count; rp++) {
if (_command_required_pos_matches(cmd, i, rp, argv)) {
/* log_warn("match %d rp %d", i, commands[i].required_pos_args[rp].pos); */
match_required++;
match_rp++;
} else {
/* cmd is missing a required pos arg */
/* log_warn("mismatch %d rp %d", i, commands[i].required_pos_args[rp].pos); */
mismatch_required++;
}
}
/* if cmd is missing any required opt/pos args, it can't be this command. */
if (mismatch_required) {
/* save "closest" command that doesn't match */
if ((match_type && !close_type) ||
((match_type == close_type) && (match_ro > close_ro))) {
close_i = i;
close_ro = match_ro;
close_type = match_type;
}
continue;
}
if (!match_required)
continue;
/* Count the command name as a match if all the required opt/pos args match. */
if ((commands[i].ro_count || commands[i].rp_count) && (match_ro || match_rp))
match_required++;
/* log_warn("command %d has match_required %d match_ro %d match_rp %d",
i, match_required, match_ro, match_rp); */
/* Count how many options cmd has set that are not accepted by commands[i]. */
/* FIXME: also count unused positional args? */
for (opt_i = 0; opt_i < ARG_COUNT; opt_i++) {
if (!arg_is_set(cmd, opt_i))
continue;
if (!(opt_enum = _opt_synonym_to_standard(cmd->name, opt_i)))
opt_enum = opt_i;
/* extents are not used in command definitions */
if (opt_enum == extents_ARG)
continue;
accepted = 0;
/* NB in some cases required_opt_args are optional */
for (j = 0; j < commands[i].ro_count + commands[i].any_ro_count; j++) {
if (commands[i].required_opt_args[j].opt == opt_enum) {
accepted = 1;
break;
}
}
if (accepted)
continue;
for (j = 0; j < commands[i].oo_count; j++) {
if ((commands[i].optional_opt_args[j].opt == opt_enum) &&
_command_optional_opt_matches(cmd, i, j)) {
accepted = 1;
break;
}
}
for (j = 0; j < commands[i].io_count; j++) {
if ((commands[i].ignore_opt_args[j].opt == opt_enum) &&
_command_ignore_opt_matches(cmd, i, j)) {
accepted = 1;
break;
}
}
if (!accepted) {
match_unused++;
if (temp_unused_count < MAX_UNUSED_COUNT)
temp_unused_options[temp_unused_count++] = opt_enum;
}
}
/*
* Choose the best match, which in general is the command with
* the most matching required_{opt,pos}, but it could be a
* command with fewer required_{opt,pos} matches in the case
* where cmddef1 has more required matches, but a match_unused
* and cmddef2 has fewer required matches, but zero match_unused.
*
* A match is better if:
* . more required opt/pos args match
* . type arg matches when other doesn't
* . less unused options
*/
if (!best_required ||
((match_required > best_required) && !match_unused) ||
(match_unused < best_unused) ||
(match_type > best_type) ||
((match_required == best_required) && (match_type == best_type) && (match_unused < best_unused))) {
/* log_warn("best %d has match_required %d match_ro %d match_rp %d",
i, match_required, match_ro, match_rp); */
best_i = i;
best_required = match_required;
best_type = match_type;
best_unused = match_unused;
best_unused_count = temp_unused_count;
memcpy(&best_unused_options, &temp_unused_options, sizeof(best_unused_options));
}
}
if (!best_required) {
/* cmd did not have all the required opt/pos args of any command */
log_error("No command with matching syntax recognised. Run '%s --help' for more information.", name);
if (only_i) {
log_warn("Correct command syntax is:");
print_usage(&_cmdline.commands[only_i], 0, 0);
} else if (close_ro) {
log_warn("Nearest similar command has syntax:");
print_usage(&_cmdline.commands[close_i], 0, 0);
}
return NULL;
}
/*
* If the user passed an option that is not accepted by the matched
* command, then fail.
*
* FIXME: it might be nice to have a config setting that would turn
* these into warnings, and just ignore the unused options.
*/
if (best_unused_count) {
for (i = 0; i < best_unused_count; i++) {
const char *opt_val = NULL;
opt_enum = best_unused_options[i];
opt_val = arg_value(cmd, opt_enum);
log_error("Command does not accept option: %s%s%s.",
arg_long_option_name(opt_enum),
opt_val ? " " : "", opt_val ?: "");
}
return NULL;
}
/*
* If the user provided a positional arg that is not accepted by
* the mached command, then fail.
*
* If the last required_pos_arg or the last optional_pos_arg may repeat,
* then there won't be unused positional args.
*
* FIXME: same question as above, should there be a config setting
* to just warn/ignore about unused positional args?
*/
count = commands[best_i].rp_count;
if (count && (commands[best_i].required_pos_args[count - 1].def.flags & ARG_DEF_FLAG_MAY_REPEAT))
goto out;
count = commands[best_i].op_count;
if (count && (commands[best_i].optional_pos_args[count - 1].def.flags & ARG_DEF_FLAG_MAY_REPEAT))
goto out;
for (count = 0; ; count++) {
if (!argv[count])
break;
if (count >= (commands[best_i].rp_count + commands[best_i].op_count)) {
log_error("Command does not accept argument: %s.", argv[count]);
/* FIXME: to warn/ignore, clear so it can't be used when processing. */
/*
argv[count] = NULL;
(*argc)--;
*/
return NULL;
}
}
out:
/*
* Check any rules related to option combinations.
* Other rules are checked after VG is read.
*/
for (i = 0; i < commands[best_i].rule_count; i++) {
struct cmd_rule *rule;
rule = &commands[best_i].rules[i];
/*
* The rule wants to validate options (check_opts). That can be
* done here if the only qualification for the validation is
* other options (and not specific LV type or LV property which
* are not known here.)
*/
if (rule->check_opts_count && !rule->lvt_bits && !rule->lvp_bits) {
/*
* When no opt is specified for applying the rule, then
* the rule is always applied, otherwise the rule is
* applied when the specific option is set.
*/
if (rule->opts_count &&
!opt_in_list_is_set(cmd, rule->opts, rule->opts_count, NULL, NULL))
continue;
opt_in_list_is_set(cmd, rule->check_opts, rule->check_opts_count,
&opts_match_count, &opts_unmatch_count);
if (opts_match_count && (rule->rule == RULE_INVALID)) {
memset(opts_msg, 0, sizeof(opts_msg));
memset(check_opts_msg, 0, sizeof(check_opts_msg));
if (rule->opts_count)
opt_array_to_str(cmd, rule->opts, rule->opts_count, opts_msg, sizeof(opts_msg));
opt_array_to_str(cmd, rule->check_opts, rule->check_opts_count, check_opts_msg, sizeof(check_opts_msg));
if (rule->opts_count)
log_error("Command does not accept option combination: %s with %s", opts_msg, check_opts_msg);
else
log_error("Command does not accept options: %s", check_opts_msg);
return NULL;
}
if (opts_unmatch_count && (rule->rule == RULE_REQUIRE)) {
memset(check_opts_msg, 0, sizeof(check_opts_msg));
opt_array_to_str(cmd, rule->check_opts, rule->check_opts_count, check_opts_msg, sizeof(check_opts_msg));
log_error("Command requires options: %s", check_opts_msg);
return NULL;
}
}
}
log_debug("Recognised command %s (id %d / enum %d).",
commands[best_i].command_id, best_i, commands[best_i].command_enum);
return &commands[best_i];
}
static void _short_usage(const char *name)
{
log_error("Run `%s --help' for more information.", name);
}
static int _usage(const char *name, int longhelp, int skip_notes)
{
struct command_name *cname = _find_command_name(name);
struct command *cmd = NULL;
int show_full = longhelp;
int i;
if (!cname) {
log_print("%s: no such command.", name);
return 0;
}
configure_command_option_values(name);
/*
* Looks at all variants of each command name and figures out
* which options are common to all variants (for compact output)
*/
factor_common_options();
log_print("%s - %s\n", name, cname->desc);
/* Reduce the default output when there are several variants. */
if (cname->variants < 3)
show_full = 1;
for (i = 0; i < COMMAND_COUNT; i++) {
if (strcmp(_cmdline.commands[i].name, name))
continue;
if (_cmdline.commands[i].cmd_flags & CMD_FLAG_PREVIOUS_SYNTAX)
continue;
if ((_cmdline.commands[i].cmd_flags & CMD_FLAG_SECONDARY_SYNTAX) && !show_full)
continue;
log_very_verbose("Command definition index %d enum %d id %s",
_cmdline.commands[i].command_index,
_cmdline.commands[i].command_enum,
_cmdline.commands[i].command_id);
print_usage(&_cmdline.commands[i], 1, 1);
cmd = &_cmdline.commands[i];
}
/* Common options are printed once for all variants of a command name. */
if (!cmd) {
log_error(INTERNAL_ERROR "Command %s not found.", name);
return 0;
}
print_usage_common_cmd(cname, cmd);
print_usage_common_lvm(cname, cmd);
if (skip_notes)
return 1;
if (longhelp)
print_usage_notes(cname);
else
log_print("Use --longhelp to show all options and advanced commands.");
return 1;
}
static void _usage_all(void)
{
int i;
for (i = 0; i < MAX_COMMAND_NAMES; i++) {
if (!command_names[i].name)
break;
_usage(command_names[i].name, 1, 1);
}
print_usage_notes(NULL);
}
/*
* Sets up the arguments to pass to getopt_long().
*
* getopt_long() takes a string of short option characters
* where the char is followed by ":" if the option takes an arg,
* e.g. "abc:d:" This string is created in optstrp.
*
* getopt_long() also takes an array of struct option which
* has the name of the long option, if it takes an arg, etc,
* e.g.
*
* option long_options[] = {
* { "foo", required_argument, 0, 0 },
* { "bar", no_argument, 0, 'b' }
* };
*
* this array is created in longoptsp.
*
* Original comment:
* Sets up the short and long argument. If there
* is no short argument then the index of the
* argument in the the_args array is set as the
* long opt value. Yuck. Of course this means we
* can't have more than 'a' long arguments.
*/
static void _add_getopt_arg(int opt_enum, char **optstrp, struct option **longoptsp)
{
struct opt_name *a = _cmdline.opt_names + opt_enum;
if (a->short_opt) {
*(*optstrp)++ = a->short_opt;
if (a->val_enum)
*(*optstrp)++ = ':';
}
#ifdef HAVE_GETOPTLONG
/* long_arg is "--foo", so +2 is the offset of the name after "--" */
if (*(a->long_opt + 2)) {
(*longoptsp)->name = a->long_opt + 2;
(*longoptsp)->has_arg = a->val_enum ? 1 : 0;
(*longoptsp)->flag = NULL;
/*
* When getopt_long() sees an option that has an associated
* single letter, it returns the ascii value of that letter.
* e.g. getopt_long() returns 100 for '-d' or '--debug'
* (100 is the ascii value of 'd').
*
* When getopt_long() sees an option that does not have an
* associated single letter, it returns the value of the
* the enum for that long option name plus 128.
* e.g. getopt_long() returns 139 for --cachepool
* (11 is the enum value for --cachepool, so 11+128)
*/
if (a->short_opt)
(*longoptsp)->val = a->short_opt;
else
(*longoptsp)->val = opt_enum + 128;
(*longoptsp)++;
}
#endif
}
/*
* getopt_long() has returned goval which indicates which option it's found.
* We need to translate that goval to an enum value from the args array.
*
* For options with both long and short forms, goval is the character value
* of the short option. For options with only a long form, goval is the
* corresponding enum value plus 128.
*
* The trick with character values is that different long options share the
* same single-letter short form. So, we have to translate goval to an
* enum using only the set of valid options for the given command. And,
* a command name is not allowed to use two different long options that
* have the same single-letter short form.
*/
static int _find_arg(const char *cmd_name, int goval)
{
struct command_name *cname;
int arg_enum;
int i;
if (!(cname = _find_command_name(cmd_name)))
return -1;
for (i = 0; i < cname->num_args; i++) {
arg_enum = cname->valid_args[i];
/* assert arg_enum == _cmdline.opt_names[arg_enum].arg_enum */
/* the value returned by getopt matches the ascii value of single letter option */
if (_cmdline.opt_names[arg_enum].short_opt && (goval == _cmdline.opt_names[arg_enum].short_opt))
return arg_enum;
/* the value returned by getopt matches the enum value plus 128 */
if (!_cmdline.opt_names[arg_enum].short_opt && (goval == (arg_enum + 128)))
return arg_enum;
}
return -1;
}
static int _process_command_line(struct cmd_context *cmd, int *argc, char ***argv)
{
char str[((ARG_COUNT + 1) * 2) + 1], *ptr = str;
struct option opts[ARG_COUNT + 1], *o = opts;
struct opt_name *a;
struct arg_values *av;
struct arg_value_group_list *current_group = NULL;
int arg_enum; /* e.g. foo_ARG */
int goval; /* the number returned from getopt_long identifying what it found */
int i;
if (!(cmd->opt_arg_values = dm_pool_zalloc(cmd->mem, sizeof(*cmd->opt_arg_values) * ARG_COUNT))) {
log_fatal("Unable to allocate memory for command line arguments.");
return 0;
}
/*
* create the short-form character array (str) and the long-form option
* array (opts) to pass to the getopt_long() function. IOW we generate
* the arguments to pass to getopt_long() from the opt_names data.
*/
if (cmd->cname)
for (i = 0; i < cmd->cname->num_args; i++)
_add_getopt_arg(cmd->cname->valid_args[i], &ptr, &o);
*ptr = '\0';
memset(o, 0, sizeof(*o));
optarg = 0;
optind = OPTIND_INIT;
while ((goval = GETOPTLONG_FN(*argc, *argv, str, opts, NULL)) >= 0) {
if (goval == '?')
return 0;
cmd->opt_count++;
/*
* translate the option value used by getopt into the enum
* value (e.g. foo_ARG) from the args array.
*/
if ((arg_enum = _find_arg(cmd->name, goval)) < 0) {
log_fatal("Unrecognised option %d (%c).", goval, goval);
return 0;
}
a = _cmdline.opt_names + arg_enum;
av = &cmd->opt_arg_values[arg_enum];
if (a->flags & ARG_GROUPABLE) {
/*
* Start a new group of arguments:
* - the first time,
* - or if a non-countable argument is repeated,
* - or if argument has higher priority than current group.
*/
if (!current_group ||
(current_group->arg_values[arg_enum].count && !(a->flags & ARG_COUNTABLE)) ||
(current_group->prio < a->prio)) {
/* FIXME Reduce size including only groupable args */
if (!(current_group = dm_pool_zalloc(cmd->mem, sizeof(struct arg_value_group_list) + sizeof(*cmd->opt_arg_values) * ARG_COUNT))) {
log_fatal("Unable to allocate memory for command line arguments.");
return 0;
}
current_group->prio = a->prio;
dm_list_add(&cmd->arg_value_groups, &current_group->list);
}
/* Maintain total argument count as well as count within each group */
av->count++;
av = &current_group->arg_values[arg_enum];
}
if (av->count && !(a->flags & ARG_COUNTABLE)) {
log_error("Option%s%c%s%s may not be repeated.",
a->short_opt ? " -" : "",
a->short_opt ? : ' ',
(a->short_opt && a->long_opt) ?
"/" : "", a->long_opt ? : "");
return 0;
}
if (a->val_enum) {
if (!optarg) {
log_error("Option requires argument.");
return 0;
}
av->value = optarg;
if (!val_names[a->val_enum].fn(cmd, av)) {
log_error("Invalid argument for %s: %s", a->long_opt, optarg);
return 0;
}
}
av->count++;
}
*argc -= optind;
*argv += optind;
return 1;
}
static void _copy_arg_values(struct arg_values *av, int oldarg, int newarg)
{
const struct arg_values *old = av + oldarg;
struct arg_values *new = av + newarg;
new->count = old->count;
new->value = old->value;
new->i_value = old->i_value;
new->ui_value = old->ui_value;
new->i64_value = old->i64_value;
new->ui64_value = old->ui64_value;
new->sign = old->sign;
}
static int _merge_synonym(struct cmd_context *cmd, int oldarg, int newarg)
{
struct arg_values *av;
struct arg_value_group_list *current_group;
if (arg_is_set(cmd, oldarg) && arg_is_set(cmd, newarg)) {
log_error("%s and %s are synonyms. Please only supply one.",
_cmdline.opt_names[oldarg].long_opt, _cmdline.opt_names[newarg].long_opt);
return 0;
}
/* Not groupable? */
if (!(_cmdline.opt_names[oldarg].flags & ARG_GROUPABLE)) {
if (arg_is_set(cmd, oldarg))
_copy_arg_values(cmd->opt_arg_values, oldarg, newarg);
return 1;
}
if (arg_is_set(cmd, oldarg))
cmd->opt_arg_values[newarg].count = cmd->opt_arg_values[oldarg].count;
/* Groupable */
dm_list_iterate_items(current_group, &cmd->arg_value_groups) {
av = current_group->arg_values;
if (!grouped_arg_count(av, oldarg))
continue;
_copy_arg_values(av, oldarg, newarg);
}
return 1;
}
int systemid(struct cmd_context *cmd __attribute__((unused)),
int argc __attribute__((unused)),
char **argv __attribute__((unused)))
{
log_print("system ID: %s", cmd->system_id ? : "");
return ECMD_PROCESSED;
}
int version(struct cmd_context *cmd __attribute__((unused)),
int argc __attribute__((unused)),
char **argv __attribute__((unused)))
{
char vsn[80];
log_print("LVM version: %s", LVM_VERSION);
if (library_version(vsn, sizeof(vsn)))
log_print("Library version: %s", vsn);
if (driver_version(vsn, sizeof(vsn)))
log_print("Driver version: %s", vsn);
log_print("Configuration: %s", LVM_CONFIGURE_LINE);
return ECMD_PROCESSED;
}
static void _reset_current_settings_to_default(struct cmd_context *cmd)
{
cmd->current_settings = cmd->default_settings;
}
static void _get_current_output_settings_from_args(struct cmd_context *cmd)
{
if (arg_is_set(cmd, debug_ARG))
cmd->current_settings.debug = _LOG_FATAL + (arg_count(cmd, debug_ARG) - 1);
if (arg_is_set(cmd, verbose_ARG))
cmd->current_settings.verbose = arg_count(cmd, verbose_ARG);
if (arg_is_set(cmd, quiet_ARG)) {
cmd->current_settings.debug = 0;
cmd->current_settings.verbose = 0;
cmd->current_settings.silent = (arg_count(cmd, quiet_ARG) > 1) ? 1 : 0;
}
}
static void _apply_current_output_settings(struct cmd_context *cmd)
{
init_debug(cmd->current_settings.debug);
init_debug_classes_logged(cmd->default_settings.debug_classes);
init_verbose(cmd->current_settings.verbose + VERBOSE_BASE_LEVEL);
init_silent(cmd->current_settings.silent);
}
static int _read_devices_list(struct cmd_context *cmd)
{
struct arg_value_group_list *group;
const char *names;
struct dm_list *names_list;
dm_list_iterate_items(group, &cmd->arg_value_groups) {
if (!grouped_arg_is_set(group->arg_values, devices_ARG))
continue;
if (!(names = (char *)grouped_arg_str_value(group->arg_values, devices_ARG, NULL)))
continue;
if (!strchr(names, ',')) {
if (!str_list_add(cmd->mem, &cmd->deviceslist, names))
return 0;
} else {
if ((names_list = str_to_str_list(cmd->mem, names, ",", 1)))
dm_list_splice(&cmd->deviceslist, names_list);
}
}
return 1;
}
static int _get_current_settings(struct cmd_context *cmd)
{
const char *activation_mode;
const char *hint_mode;
const char *search_mode;
_get_current_output_settings_from_args(cmd);
if (arg_is_set(cmd, test_ARG))
cmd->current_settings.test = arg_is_set(cmd, test_ARG);
if (arg_is_set(cmd, driverloaded_ARG)) {
cmd->current_settings.activation =
arg_int_value(cmd, driverloaded_ARG,
cmd->default_settings.activation);
}
cmd->current_settings.archive = arg_int_value(cmd, autobackup_ARG, cmd->current_settings.archive);
cmd->current_settings.backup = arg_int_value(cmd, autobackup_ARG, cmd->current_settings.backup);
if (arg_is_set(cmd, readonly_ARG)) {
cmd->current_settings.activation = 0;
cmd->current_settings.archive = 0;
cmd->current_settings.backup = 0;
}
if (cmd->cname->flags & LOCKD_VG_SH)
cmd->lockd_vg_default_sh = 1;
if (cmd->cname->flags & CAN_USE_ONE_SCAN)
cmd->can_use_one_scan = 1;
cmd->include_exported_vgs = (cmd->cname->flags & ALLOW_EXPORTED) ? 1 : 0;
cmd->scan_lvs = find_config_tree_bool(cmd, devices_scan_lvs_CFG, NULL);
cmd->allow_mixed_block_sizes = find_config_tree_bool(cmd, devices_allow_mixed_block_sizes_CFG, NULL);
/*
* enable_hints is set to 1 if any commands are using hints.
* use_hints is set to 1 if this command should use the hints.
* enable_hints=1 and use_hints=0 means that this command won't
* use the hints, but it may invalidate the hints that are used
* by other commands.
*
* enable_hints=0 means no commands are using hints, so this
* command would not need to invalidate hints for other cmds.
*
* Code should check !enable_hints before checking use_hints.
*/
cmd->enable_hints = 1;
/* Only certain commands need to be optimized by using hints. */
if (cmd->cname->flags & ALLOW_HINTS)
cmd->use_hints = 1;
else
cmd->use_hints = 0;
/* The hints file is associated with the default/system devices file. */
if (arg_is_set(cmd, devicesfile_ARG) || arg_is_set(cmd, devices_ARG))
cmd->use_hints = 0;
if ((hint_mode = find_config_tree_str(cmd, devices_hints_CFG, NULL))) {
if (!strcmp(hint_mode, "none")) {
cmd->enable_hints = 0;
cmd->use_hints = 0;
}
}
cmd->partial_activation = 0;
cmd->degraded_activation = 0;
activation_mode = find_config_tree_str(cmd, activation_mode_CFG, NULL);
if (!activation_mode)
activation_mode = DEFAULT_ACTIVATION_MODE;
if (arg_is_set(cmd, activationmode_ARG)) {
activation_mode = arg_str_value(cmd, activationmode_ARG,
activation_mode);
/* complain only if the two arguments conflict */
if (arg_is_set(cmd, partial_ARG) &&
strcmp(activation_mode, "partial")) {
log_error("--partial and --activationmode are mutually"
" exclusive arguments");
return EINVALID_CMD_LINE;
}
} else if (arg_is_set(cmd, partial_ARG))
activation_mode = "partial";
if (!strcmp(activation_mode, "partial")) {
cmd->partial_activation = 1;
log_warn("PARTIAL MODE. Incomplete logical volumes will be processed.");
} else if (!strcmp(activation_mode, "degraded"))
cmd->degraded_activation = 1;
else if (strcmp(activation_mode, "complete")) {
log_error("Invalid activation mode given.");
return EINVALID_CMD_LINE;
}
cmd->include_foreign_vgs = arg_is_set(cmd, foreign_ARG) ? 1 : 0;
cmd->include_shared_vgs = arg_is_set(cmd, shared_ARG) ? 1 : 0;
cmd->include_historical_lvs = arg_is_set(cmd, history_ARG) ? 1 : 0;
cmd->record_historical_lvs = find_config_tree_bool(cmd, metadata_record_lvs_history_CFG, NULL) ?
(arg_is_set(cmd, nohistory_ARG) ? 0 : 1) : 0;
if (!(search_mode = find_config_tree_str(cmd, devices_search_for_devnames_CFG, NULL)))
cmd->search_for_devnames = DEFAULT_SEARCH_FOR_DEVNAMES;
else {
if (!strcmp(search_mode, "none") || !strcmp(search_mode, "auto") || !strcmp(search_mode, "all"))
cmd->search_for_devnames = search_mode;
else {
log_warn("Ignoring unknown search_for_devnames setting, using %s.", DEFAULT_SEARCH_FOR_DEVNAMES);
cmd->search_for_devnames = DEFAULT_SEARCH_FOR_DEVNAMES;
}
}
if (arg_is_set(cmd, devicesfile_ARG)) {
const char *devices_file = arg_str_value(cmd, devicesfile_ARG, NULL);
if (devices_file && !strlen(devices_file)) {
cmd->devicesfile = "";
} else if (!devices_file || !validate_name(devices_file)) {
log_error("Invalid devices file name.");
return EINVALID_CMD_LINE;
} else if (!(cmd->devicesfile = dm_pool_strdup(cmd->libmem, devices_file))) {
log_error("Failed to copy devices file name.");
return EINVALID_CMD_LINE;
}
}
dm_list_init(&cmd->deviceslist);
if (arg_is_set(cmd, devices_ARG)) {
if (cmd->devicesfile && strlen(cmd->devicesfile)) {
log_error("A --devices list cannot be used with --devicesfile.");
return EINVALID_CMD_LINE;
}
cmd->enable_devices_list = 1;
if (!_read_devices_list(cmd)) {
log_error("Failed to read --devices args.");
return EINVALID_CMD_LINE;
}
}
/*
* This is set to zero by process_each which wants to print errors
* itself rather than having them printed in vg_read.
*/
cmd->vg_read_print_access_error = 1;
if (arg_is_set(cmd, nosuffix_ARG))
cmd->current_settings.suffix = 0;
if (arg_is_set(cmd, units_ARG))
if (!(cmd->current_settings.unit_factor =
dm_units_to_factor(arg_str_value(cmd, units_ARG, ""),
&cmd->current_settings.unit_type, 1, NULL))) {
log_error("Invalid units specification");
return EINVALID_CMD_LINE;
}
if (arg_is_set(cmd, binary_ARG))
cmd->report_binary_values_as_numeric = 1;
if (arg_is_set(cmd, noudevsync_ARG))
cmd->current_settings.udev_sync = 0;
/* Handle synonyms */
if (!_merge_synonym(cmd, resizable_ARG, resizeable_ARG) ||
!_merge_synonym(cmd, allocation_ARG, allocatable_ARG) ||
!_merge_synonym(cmd, allocation_ARG, resizeable_ARG) ||
!_merge_synonym(cmd, virtualoriginsize_ARG, virtualsize_ARG) ||
!_merge_synonym(cmd, available_ARG, activate_ARG) ||
!_merge_synonym(cmd, raidrebuild_ARG, rebuild_ARG) ||
!_merge_synonym(cmd, raidsyncaction_ARG, syncaction_ARG) ||
!_merge_synonym(cmd, raidwritemostly_ARG, writemostly_ARG) ||
!_merge_synonym(cmd, raidminrecoveryrate_ARG, minrecoveryrate_ARG) ||
!_merge_synonym(cmd, raidmaxrecoveryrate_ARG, maxrecoveryrate_ARG) ||
!_merge_synonym(cmd, raidwritebehind_ARG, writebehind_ARG))
return EINVALID_CMD_LINE;
if ((!strncmp(cmd->name, "pv", 2) &&
!_merge_synonym(cmd, metadatacopies_ARG, pvmetadatacopies_ARG)) ||
(!strncmp(cmd->name, "vg", 2) &&
!_merge_synonym(cmd, metadatacopies_ARG, vgmetadatacopies_ARG)))
return EINVALID_CMD_LINE;
/* Zero indicates success */
return 0;
}
static int _process_common_commands(struct cmd_context *cmd)
{
if (arg_is_set(cmd, help_ARG) ||
arg_is_set(cmd, longhelp_ARG) ||
arg_is_set(cmd, help2_ARG)) {
_usage(cmd->name, arg_is_set(cmd, longhelp_ARG), 0);
return ECMD_PROCESSED;
}
if (arg_is_set(cmd, version_ARG)) {
return version(cmd, 0, (char **) NULL);
}
/* Zero indicates it's OK to continue processing this command */
return 0;
}
static void _display_help(void)
{
int i;
log_error("Available lvm commands:");
log_error("Use 'lvm help <command>' for more information");
log_error(" ");
for (i = 0; i < _cmdline.num_command_names; i++) {
struct command_name *cname = _cmdline.command_names + i;
log_error("%-16.16s%s", cname->name, cname->desc);
}
}
int help(struct cmd_context *cmd __attribute__((unused)), int argc, char **argv)
{
int ret = ECMD_PROCESSED;
if (!argc)
_display_help();
else if (argc == 1 && !strcmp(argv[0], "all"))
_usage_all();
else {
int i;
for (i = 0; i < argc; i++)
if (!_usage(argv[i], 0, 0))
ret = EINVALID_CMD_LINE;
}
return ret;
}
static void _apply_current_settings(struct cmd_context *cmd)
{
_apply_current_output_settings(cmd);
init_test(cmd->current_settings.test);
init_mirror_in_sync(0);
init_dmeventd_monitor(DEFAULT_DMEVENTD_MONITOR);
init_msg_prefix(cmd->default_settings.msg_prefix);
archive_enable(cmd, cmd->current_settings.archive);
backup_enable(cmd, cmd->current_settings.backup);
set_activation(cmd->current_settings.activation, cmd->metadata_read_only);
cmd->fmt = get_format_by_name(cmd, arg_str_value(cmd, metadatatype_ARG,
cmd->current_settings.fmt_name));
cmd->handles_missing_pvs = 0;
}
static const char *_copy_command_line(struct cmd_context *cmd, int argc, char **argv)
{
int i, space;
/*
* Build up the complete command line, used as a
* description for backups.
*/
if (!dm_pool_begin_object(cmd->mem, 128))
goto_bad;
for (i = 0; i < argc; i++) {
space = strchr(argv[i], ' ') ? 1 : 0;
if (space && !dm_pool_grow_object(cmd->mem, "'", 1))
goto_bad;
if (!dm_pool_grow_object(cmd->mem, argv[i], strlen(argv[i])))
goto_bad;
if (space && !dm_pool_grow_object(cmd->mem, "'", 1))
goto_bad;
if (i < (argc - 1))
if (!dm_pool_grow_object(cmd->mem, " ", 1))
goto_bad;
}
/*
* Terminate.
*/
if (!dm_pool_grow_object(cmd->mem, "\0", 1))
goto_bad;
return dm_pool_end_object(cmd->mem);
bad:
log_error("Couldn't copy command line.");
dm_pool_abandon_object(cmd->mem);
return NULL;
}
static int _prepare_profiles(struct cmd_context *cmd)
{
static const char COMMAND_PROFILE_ENV_VAR_NAME[] = "LVM_COMMAND_PROFILE";
static const char _cmd_profile_arg_preferred_over_env_var_msg[] = "Giving "
"preference to command profile specified on command "
"line over the one specified via environment variable.";
static const char _failed_to_add_profile_msg[] = "Failed to add %s %s.";
static const char _failed_to_apply_profile_msg[] = "Failed to apply %s %s.";
static const char _command_profile_source_name[] = "command profile";
static const char _metadata_profile_source_name[] = "metadata profile";
static const char _setting_global_profile_msg[] = "Setting global %s \"%s\".";
const char *env_cmd_profile_name = NULL;
const char *name;
struct profile *profile;
config_source_t source;
const char *source_name;
/* Check whether default global command profile is set via env. var. */
if ((env_cmd_profile_name = getenv(COMMAND_PROFILE_ENV_VAR_NAME))) {
if (!*env_cmd_profile_name)
env_cmd_profile_name = NULL;
else
log_debug("Command profile '%s' requested via "
"environment variable.",
env_cmd_profile_name);
}
if (!arg_is_set(cmd, profile_ARG) &&
!arg_is_set(cmd, commandprofile_ARG) &&
!arg_is_set(cmd, metadataprofile_ARG) &&
!env_cmd_profile_name)
/* nothing to do */
return 1;
if (arg_is_set(cmd, profile_ARG)) {
/*
* If --profile is used with dumpconfig, it's used
* to dump the profile without the profile being applied.
*/
if (!strcmp(cmd->command->name, "dumpconfig") ||
!strcmp(cmd->command->name, "lvmconfig") ||
!strcmp(cmd->command->name, "config"))
return 1;
/*
* If --profile is used with lvcreate/lvchange/vgchange,
* it's recognized as shortcut to --metadataprofile.
* The --commandprofile is assumed otherwise.
*/
if (!strcmp(cmd->command->name, "lvcreate") ||
!strcmp(cmd->command->name, "lvconvert") ||
!strcmp(cmd->command->name, "vgcreate") ||
!strcmp(cmd->command->name, "lvchange") ||
!strcmp(cmd->command->name, "vgchange")) {
if (arg_is_set(cmd, metadataprofile_ARG)) {
log_error("Only one of --profile or "
" --metadataprofile allowed.");
return 0;
}
source = CONFIG_PROFILE_METADATA;
source_name = _metadata_profile_source_name;
}
else {
if (arg_is_set(cmd, commandprofile_ARG)) {
log_error("Only one of --profile or "
"--commandprofile allowed.");
return 0;
}
/*
* Prefer command profile specified on command
* line over the profile specified via
* COMMAND_PROFILE_ENV_VAR_NAME env. var.
*/
if (env_cmd_profile_name) {
log_debug(_cmd_profile_arg_preferred_over_env_var_msg);
env_cmd_profile_name = NULL;
}
source = CONFIG_PROFILE_COMMAND;
source_name = _command_profile_source_name;
}
name = arg_str_value(cmd, profile_ARG, NULL);
if (!(profile = add_profile(cmd, name, source))) {
log_error(_failed_to_add_profile_msg, source_name, name);
return 0;
}
if (source == CONFIG_PROFILE_COMMAND) {
log_debug(_setting_global_profile_msg, _command_profile_source_name, profile->name);
cmd->profile_params->global_command_profile = profile;
} else if (source == CONFIG_PROFILE_METADATA) {
log_debug(_setting_global_profile_msg, _metadata_profile_source_name, profile->name);
/* This profile will override any VG/LV-based profile if present */
cmd->profile_params->global_metadata_profile = profile;
}
remove_config_tree_by_source(cmd, source);
if (!override_config_tree_from_profile(cmd, profile)) {
log_error(_failed_to_apply_profile_msg, source_name, name);
return 0;
}
}
if (arg_is_set(cmd, commandprofile_ARG) || env_cmd_profile_name) {
if (arg_is_set(cmd, commandprofile_ARG)) {
/*
* Prefer command profile specified on command
* line over the profile specified via
* COMMAND_PROFILE_ENV_VAR_NAME env. var.
*/
if (env_cmd_profile_name)
log_debug(_cmd_profile_arg_preferred_over_env_var_msg);
name = arg_str_value(cmd, commandprofile_ARG, NULL);
} else
name = env_cmd_profile_name;
source_name = _command_profile_source_name;
if (!(profile = add_profile(cmd, name, CONFIG_PROFILE_COMMAND))) {
log_error(_failed_to_add_profile_msg, source_name, name);
return 0;
}
remove_config_tree_by_source(cmd, CONFIG_PROFILE_COMMAND);
if (!override_config_tree_from_profile(cmd, profile)) {
log_error(_failed_to_apply_profile_msg, source_name, name);
return 0;
}
log_debug(_setting_global_profile_msg, _command_profile_source_name, profile->name);
cmd->profile_params->global_command_profile = profile;
if (!cmd->opt_arg_values)
cmd->profile_params->shell_profile = profile;
}
if (arg_is_set(cmd, metadataprofile_ARG)) {
name = arg_str_value(cmd, metadataprofile_ARG, NULL);
source_name = _metadata_profile_source_name;
if (!(profile = add_profile(cmd, name, CONFIG_PROFILE_METADATA))) {
log_error(_failed_to_add_profile_msg, source_name, name);
return 0;
}
remove_config_tree_by_source(cmd, CONFIG_PROFILE_METADATA);
if (!override_config_tree_from_profile(cmd, profile)) {
log_error(_failed_to_apply_profile_msg, source_name, name);
return 0;
}
log_debug(_setting_global_profile_msg, _metadata_profile_source_name, profile->name);
cmd->profile_params->global_metadata_profile = profile;
}
if (!process_profilable_config(cmd))
return_0;
return 1;
}
static int _init_lvmlockd(struct cmd_context *cmd)
{
const char *lvmlockd_socket;
int use_lvmlockd = find_config_tree_bool(cmd, global_use_lvmlockd_CFG, NULL);
if (cmd->command->command_enum == pvscan_cache_CMD) {
/* pvscan cache ignores shared vgs, it only activates local vgs. */
if (use_lvmlockd)
log_debug("Ignore lvmlockd for pvscan cache.");
return 1;
}
/*
* Think about when/how to enable hints with lvmlockd.
*/
if (use_lvmlockd)
cmd->enable_hints = 0;
if (use_lvmlockd && arg_is_set(cmd, nolocking_ARG)) {
/* --nolocking is only allowed with vgs/lvs/pvs commands */
cmd->lockd_gl_disable = 1;
cmd->lockd_vg_disable = 1;
cmd->lockd_lv_disable = 1;
return 1;
}
if (use_lvmlockd && arg_is_set(cmd, lockopt_ARG)) {
const char *opts = arg_str_value(cmd, lockopt_ARG, "");
if (strstr(opts, "skiplv")) {
log_warn("WARNING: skipping LV lock in lvmlockd.");
cmd->lockd_lv_disable = 1;
}
if (strstr(opts, "skipvg")) {
log_warn("WARNING: skipping VG lock in lvmlockd.");
cmd->lockd_vg_disable = 1;
}
if (strstr(opts, "skipgl")) {
log_warn("WARNING: skipping global lock in lvmlockd.");
cmd->lockd_gl_disable = 1;
}
}
lvmlockd_disconnect(); /* start over when tool context is refreshed */
lvmlockd_socket = getenv("LVM_LVMLOCKD_SOCKET");
if (!lvmlockd_socket)
lvmlockd_socket = DEFAULT_RUN_DIR "/lvmlockd.socket";
lvmlockd_set_socket(lvmlockd_socket);
lvmlockd_set_use(use_lvmlockd);
if (use_lvmlockd) {
lvmlockd_init(cmd);
lvmlockd_connect();
}
return 1;
}
/*
* md_component_check full: always set use_full_md_check
* which causes filter-md to read the start+end of every
* device on the system (this could be optimized to only
* read the end of PVs.)
*
* md_component_check start: the end of devices will
* not generally be read to check for an md superblock
* (lvm may still scan for end-of-device md superblocks
* if it knows that some exists.)
*
* md_component_check auto: lvm will use some built-in
* heuristics to decide when it should scan the end of
* devices to look for md superblocks, e.g. commands
* like pvcreate that could clobber a component, or if
* udev info is not available and hints are not available.
*/
static void _init_md_checks(struct cmd_context *cmd)
{
const char *md_check;
cmd->md_component_detection = find_config_tree_bool(cmd, devices_md_component_detection_CFG, NULL);
md_check = find_config_tree_str(cmd, devices_md_component_checks_CFG, NULL);
if (!md_check)
cmd->md_component_checks = "auto";
else if (!strcmp(md_check, "auto") ||
!strcmp(md_check, "start") ||
!strcmp(md_check, "full"))
cmd->md_component_checks = md_check;
else {
log_warn("Ignoring unknown md_component_checks setting, using auto.");
cmd->md_component_checks = "auto";
}
if (!strcmp(cmd->md_component_checks, "full"))
cmd->use_full_md_check = 1;
/* use_full_md_check can also be set later */
log_debug("Using md_component_checks %s use_full_md_check %d",
cmd->md_component_checks, cmd->use_full_md_check);
}
static int _cmd_no_meta_proc(struct cmd_context *cmd)
{
return cmd->cname->flags & NO_METADATA_PROCESSING;
}
int lvm_run_command(struct cmd_context *cmd, int argc, char **argv)
{
struct dm_config_tree *config_string_cft, *config_profile_command_cft, *config_profile_metadata_cft;
int ret = 0;
int locking_type;
int nolocking = 0;
int readonly = 0;
int sysinit = 0;
int monitoring;
char *arg_new, *arg;
int i;
int skip_hyphens;
int refresh_done = 0;
init_error_message_produced(0);
/* each command should start out with sigint flag cleared */
sigint_clear();
if (!(cmd->name = dm_pool_strdup(cmd->mem, dm_basename(argv[0])))) {
log_error("Failed to strdup command basename.");
return ECMD_FAILED;
}
set_cmd_name(cmd->name);
init_log_command(find_config_tree_bool(cmd, log_command_names_CFG, NULL), 0);
configure_command_option_values(cmd->name);
/* eliminate '-' from all options starting with -- */
for (i = 1; i < argc; i++) {
arg = argv[i];
if (*arg++ != '-' || *arg++ != '-')
continue;
/* If we reach "--" then stop. */
if (!*arg)
break;
arg_new = arg;
skip_hyphens = 1;
while (*arg) {
/* If we encounter '=', stop any further hyphen removal. */
if (*arg == '=')
skip_hyphens = 0;
/* Do we need to keep the next character? */
if (*arg != '-' || !skip_hyphens) {
if (arg_new != arg)
*arg_new = *arg;
++arg_new;
}
arg++;
}
/* Terminate a shortened arg */
if (arg_new != arg)
*arg_new = '\0';
}
/* The cmd_line string is only used for logging, not processing. */
if (!(cmd->cmd_line = _copy_command_line(cmd, argc, argv)))
return_ECMD_FAILED;
/* Look up command - will be NULL if not recognised */
if (!(cmd->cname = _find_command_name(cmd->name)))
return ENO_SUCH_CMD;
if (!_process_command_line(cmd, &argc, &argv)) {
log_error("Error during parsing of command line.");
return EINVALID_CMD_LINE;
}
/*
* Now we have the command line args, set up any known output logging
* options immediately.
*/
_reset_current_settings_to_default(cmd);
_get_current_output_settings_from_args(cmd);
_apply_current_output_settings(cmd);
log_debug("Version: %s", LVM_VERSION);
log_debug("Parsing: %s", cmd->cmd_line);
if (!(cmd->command = _find_command(cmd, cmd->name, &argc, argv)))
return EINVALID_CMD_LINE;
/*
* Remaining position args after command name and --options are removed.
*/
cmd->position_argc = argc;
cmd->position_argv = argv;
if (arg_is_set(cmd, config_ARG))
if (!override_config_tree_from_string(cmd, arg_str_value(cmd, config_ARG, ""))) {
ret = EINVALID_CMD_LINE;
goto_out;
}
if (arg_is_set(cmd, config_ARG) || !cmd->initialized.config || config_files_changed(cmd)) {
/* Reinitialise various settings inc. logging, filters */
if (!refresh_toolcontext(cmd)) {
if ((config_string_cft = remove_config_tree_by_source(cmd, CONFIG_STRING)))
dm_config_destroy(config_string_cft);
log_error("Updated config file invalid. Aborting.");
return ECMD_FAILED;
}
refresh_done = 1;
}
if (!_prepare_profiles(cmd))
return_ECMD_FAILED;
if (!cmd->initialized.connections && !_cmd_no_meta_proc(cmd) && !init_connections(cmd))
return_ECMD_FAILED;
if (!cmd->initialized.filters && !_cmd_no_meta_proc(cmd) &&
!init_filters(cmd, !refresh_done))
return_ECMD_FAILED;
cmd->metadata_read_only = arg_is_set(cmd, readonly_ARG);
cmd->is_activating = (cmd->command->command_enum == vgchange_activate_CMD) ||
(cmd->command->command_enum == lvchange_activate_CMD);
cmd->wipe_outdated_pvs = 0;
/*
* Now that all configs, profiles and command lines args are available,
* freshly calculate and apply all settings. Specific command line
* options take precedence over config files (which include --config as
* that is treated like a config file).
*/
_reset_current_settings_to_default(cmd);
if ((ret = _get_current_settings(cmd)))
goto_out;
_apply_current_settings(cmd);
if (cmd->degraded_activation)
log_debug("DEGRADED MODE. Incomplete RAID LVs will be processed.");
if (!get_activation_monitoring_mode(cmd, &monitoring))
goto_out;
init_dmeventd_monitor(monitoring);
log_debug("Processing command: %s", cmd->cmd_line);
log_debug("Command pid: %d", getpid());
log_debug("System ID: %s", cmd->system_id ? : "");
#ifdef O_DIRECT_SUPPORT
log_debug("O_DIRECT will be used");
#endif
if ((ret = _process_common_commands(cmd))) {
if (ret != ECMD_PROCESSED)
stack;
goto out;
}
if (cmd->metadata_read_only &&
!(cmd->cname->flags & PERMITTED_READ_ONLY)) {
log_error("%s: Command not permitted while global/metadata_read_only "
"is set.", cmd->cmd_line);
goto out;
}
/* Defaults to 1 if not set. */
locking_type = find_config_tree_int(cmd, global_locking_type_CFG, NULL);
if (locking_type == 3)
log_warn("WARNING: see lvmlockd(8) for information on using cluster/clvm VGs.");
if ((locking_type == 0) || (locking_type == 5)) {
log_warn("WARNING: locking_type (%d) is deprecated, using --nolocking.", locking_type);
nolocking = 1;
} else if (locking_type == 4) {
log_warn("WARNING: locking_type (%d) is deprecated, using --sysinit --readonly.", locking_type);
sysinit = 1;
readonly = 1;
} else if (locking_type != 1) {
log_warn("WARNING: locking_type (%d) is deprecated, using file locking.", locking_type);
}
cmd->nolocking = arg_is_set(cmd, nolocking_ARG);
if (cmd->nolocking || _cmd_no_meta_proc(cmd))
nolocking = 1;
if ((cmd->sysinit = arg_is_set(cmd, sysinit_ARG)))
sysinit = 1;
if (arg_is_set(cmd, readonly_ARG))
readonly = 1;
if (nolocking) {
if (!_cmd_no_meta_proc(cmd))
log_warn("WARNING: File locking is disabled.");
} else {
if (!init_locking(cmd, sysinit, readonly, arg_is_set(cmd, ignorelockingfailure_ARG))) {
ret = ECMD_FAILED;
goto_out;
}
}
_init_md_checks(cmd);
if (!_cmd_no_meta_proc(cmd) && !_init_lvmlockd(cmd)) {
ret = ECMD_FAILED;
goto_out;
}
if (cmd->command->functions)
/* A command-line-specific function is used */
ret = cmd->command->functions->fn(cmd, argc, argv);
else
/* The old style command-name function is used */
ret = cmd->command->fn(cmd, argc, argv);
lvmlockd_disconnect();
fin_locking(cmd);
if (!_cmd_no_meta_proc(cmd) && find_config_tree_bool(cmd, global_notify_dbus_CFG, NULL))
lvmnotify_send(cmd);
out:
hints_exit(cmd);
lvmcache_destroy(cmd, 1, 1);
label_scan_destroy(cmd);
if ((config_string_cft = remove_config_tree_by_source(cmd, CONFIG_STRING)))
dm_config_destroy(config_string_cft);
config_profile_command_cft = remove_config_tree_by_source(cmd, CONFIG_PROFILE_COMMAND);
config_profile_metadata_cft = remove_config_tree_by_source(cmd, CONFIG_PROFILE_METADATA);
cmd->profile_params->global_metadata_profile = NULL;
if (config_string_cft) {
/* Move this? */
if (!refresh_toolcontext(cmd))
stack;
} else if (config_profile_command_cft || config_profile_metadata_cft) {
if (!process_profilable_config(cmd))
stack;
}
if (ret == EINVALID_CMD_LINE && !cmd->is_interactive)
_short_usage(cmd->command->name);
log_debug("Completed: %s", cmd->cmd_line);
/*
* Reset all settings back to the persistent defaults that
* ignore everything supplied on the command line of the
* completed command.
*/
_reset_current_settings_to_default(cmd);
_apply_current_settings(cmd);
/*
* free off any memory the command used.
*/
dm_list_init(&cmd->arg_value_groups);
dm_pool_empty(cmd->mem);
reset_lvm_errno(1);
reset_log_duplicated();
return ret;
}
int lvm_return_code(int ret)
{
unlink_log_file(ret);
return (ret == ECMD_PROCESSED ? 0 : ret);
}
int lvm_split(char *str, int *argc, char **argv, int max)
{
char *b = str, *e;
char quote = 0;
*argc = 0;
while (*b) {
while (*b && isspace(*b))
b++;
if ((!*b) || (*b == '#'))
break;
if (*b == '\'' || *b == '"') {
quote = *b;
b++;
}
e = b;
while (*e && (quote ? *e != quote : !isspace(*e)))
e++;
argv[(*argc)++] = b;
if (!*e)
break;
*e++ = '\0';
quote = 0;
b = e;
if (*argc == max)
break;
}
if (*argc < max)
argv[*argc] = NULL;
return *argc;
}
/* Make sure we have always valid filedescriptors 0,1,2 */
static int _check_standard_fds(void)
{
int err = is_valid_fd(STDERR_FILENO);
if (!is_valid_fd(STDIN_FILENO) &&
!(stdin = fopen(_PATH_DEVNULL, "r"))) {
if (err)
perror("stdin stream open");
else
printf("stdin stream open: %s\n",
strerror(errno));
return 0;
}
if (!is_valid_fd(STDOUT_FILENO) &&
!(stdout = fopen(_PATH_DEVNULL, "w"))) {
if (err)
perror("stdout stream open");
/* else no stdout */
return 0;
}
if (!is_valid_fd(STDERR_FILENO) &&
!(stderr = fopen(_PATH_DEVNULL, "w"))) {
printf("stderr stream open: %s\n",
strerror(errno));
return 0;
}
return 1;
}
#define LVM_OUT_FD_ENV_VAR_NAME "LVM_OUT_FD"
#define LVM_ERR_FD_ENV_VAR_NAME "LVM_ERR_FD"
#define LVM_REPORT_FD_ENV_VAR_NAME "LVM_REPORT_FD"
static int _do_get_custom_fd(const char *env_var_name, int *fd)
{
const char *str;
char *endptr;
long int tmp_fd;
*fd = -1;
if (!(str = getenv(env_var_name)))
return 1;
errno = 0;
tmp_fd = strtol(str, &endptr, 10);
if (errno || *endptr || (tmp_fd < 0) || (tmp_fd > INT_MAX)) {
log_error("%s: invalid file descriptor.", env_var_name);
return 0;
}
*fd = tmp_fd;
return 1;
}
static int _get_custom_fds(struct custom_fds *custom_fds)
{
return _do_get_custom_fd(LVM_OUT_FD_ENV_VAR_NAME, &custom_fds->out) &&
_do_get_custom_fd(LVM_ERR_FD_ENV_VAR_NAME, &custom_fds->err) &&
_do_get_custom_fd(LVM_REPORT_FD_ENV_VAR_NAME, &custom_fds->report);
}
static const char *_get_cmdline(pid_t pid)
{
static char _proc_cmdline[32];
char buf[256];
int fd, n = 0;
snprintf(buf, sizeof(buf), DEFAULT_PROC_DIR "/%u/cmdline", pid);
/* FIXME Use generic read code. */
if ((fd = open(buf, O_RDONLY)) >= 0) {
if ((n = read(fd, _proc_cmdline, sizeof(_proc_cmdline) - 1)) < 0) {
log_sys_error("read", buf);
n = 0;
}
if (close(fd))
log_sys_error("close", buf);
}
_proc_cmdline[n] = '\0';
return _proc_cmdline;
}
static const char *_get_filename(int fd)
{
static char filename[PATH_MAX];
char buf[32]; /* Assumes short DEFAULT_PROC_DIR */
int size;
snprintf(buf, sizeof(buf), DEFAULT_PROC_DIR "/self/fd/%u", fd);
if ((size = readlink(buf, filename, sizeof(filename) - 1)) == -1)
filename[0] = '\0';
else
filename[size] = '\0';
return filename;
}
static void _close_descriptor(int fd, unsigned suppress_warnings,
const char *command, pid_t ppid,
const char *parent_cmdline)
{
int r;
const char *filename;
/* Ignore bad file descriptors */
if (!is_valid_fd(fd))
return;
if (!suppress_warnings)
filename = _get_filename(fd);
r = close(fd);
if (suppress_warnings)
return;
if (!r)
fprintf(stderr, "File descriptor %d (%s) leaked on "
"%s invocation.", fd, filename, command);
else if (errno == EBADF)
return;
else
fprintf(stderr, "Close failed on stray file descriptor "
"%d (%s): %s", fd, filename, strerror(errno));
fprintf(stderr, " Parent PID %" PRIpid_t ": %s\n", ppid, parent_cmdline);
}
static int _close_stray_fds(const char *command, struct custom_fds *custom_fds)
{
#ifndef VALGRIND_POOL
struct rlimit rlim;
int fd;
unsigned suppress_warnings = 0;
pid_t ppid = getppid();
const char *parent_cmdline = _get_cmdline(ppid);
static const char _fd_dir[] = DEFAULT_PROC_DIR "/self/fd";
struct dirent *dirent;
DIR *d;
#ifdef HAVE_VALGRIND
if (RUNNING_ON_VALGRIND) {
log_debug("Skipping close of descriptors within valgrind execution.");
return 1;
}
#endif
if (getenv("LVM_SUPPRESS_FD_WARNINGS"))
suppress_warnings = 1;
if (!(d = opendir(_fd_dir))) {
if (errno != ENOENT) {
log_sys_error("opendir", _fd_dir);
return 0; /* broken system */
}
/* Path does not exist, use the old way */
if (getrlimit(RLIMIT_NOFILE, &rlim) < 0) {
log_sys_error("getrlimit", "RLIMIT_NOFILE");
return 1;
}
for (fd = 3; fd < (int)rlim.rlim_cur; fd++) {
if ((fd != custom_fds->out) &&
(fd != custom_fds->err) &&
(fd != custom_fds->report)) {
_close_descriptor(fd, suppress_warnings, command, ppid,
parent_cmdline);
}
}
return 1;
}
while ((dirent = readdir(d))) {
fd = atoi(dirent->d_name);
if ((fd > 2) &&
(fd != dirfd(d)) &&
(fd != custom_fds->out) &&
(fd != custom_fds->err) &&
(fd != custom_fds->report)) {
_close_descriptor(fd, suppress_warnings,
command, ppid, parent_cmdline);
}
}
if (closedir(d))
log_sys_error("closedir", _fd_dir);
#endif
return 1;
}
struct cmd_context *init_lvm(unsigned set_connections,
unsigned set_filters,
unsigned threaded)
{
struct cmd_context *cmd;
if (!udev_init_library_context())
stack;
/*
* It's not necessary to use name mangling for LVM:
* - the character set used for LV names is subset of udev character set
* - when we check other devices (e.g. device_is_usable fn), we use major:minor, not dm names
*/
dm_set_name_mangling_mode(DM_STRING_MANGLING_NONE);
if (!(cmd = create_toolcontext(0, NULL, 1, threaded,
set_connections, set_filters))) {
udev_fin_library_context();
return_NULL;
}
_cmdline.opt_names = &opt_names[0];
if (stored_errno()) {
destroy_toolcontext(cmd);
udev_fin_library_context();
return_NULL;
}
return cmd;
}
void lvm_fin(struct cmd_context *cmd)
{
_unregister_commands();
destroy_toolcontext(cmd);
udev_fin_library_context();
}
static int _run_script(struct cmd_context *cmd, int argc, char **argv)
{
FILE *script;
char buffer[CMD_LEN];
int ret = ENO_SUCH_CMD;
int magic_number = 0;
char *script_file = argv[0];
if ((script = fopen(script_file, "r")) == NULL)
return ENO_SUCH_CMD;
while (fgets(buffer, sizeof(buffer), script) != NULL) {
if (!magic_number) {
if (buffer[0] == '#' && buffer[1] == '!')
magic_number = 1;
else {
ret = ENO_SUCH_CMD;
break;
}
}
if ((strlen(buffer) == sizeof(buffer) - 1)
&& (buffer[sizeof(buffer) - 1] - 2 != '\n')) {
buffer[50] = '\0';
log_error("Line too long (max 255) beginning: %s",
buffer);
ret = EINVALID_CMD_LINE;
break;
}
if (lvm_split(buffer, &argc, argv, MAX_ARGS) == MAX_ARGS) {
buffer[50] = '\0';
log_error("Too many arguments: %s", buffer);
ret = EINVALID_CMD_LINE;
break;
}
if (!argc)
continue;
if (!strcmp(argv[0], "quit") || !strcmp(argv[0], "exit"))
break;
ret = lvm_run_command(cmd, argc, argv);
/*
* FIXME: handling scripts with invalid or failing commands
* could use some cleaning up, e.g. error_message_produced
* check and error are repeated again in the caller.
*/
if (ret == ENO_SUCH_CMD)
break;
if (ret != ECMD_PROCESSED) {
if (!error_message_produced()) {
log_debug(INTERNAL_ERROR "Failed command did not use log_error");
log_error("Command failed with status code %d.", ret);
}
break;
}
}
if (fclose(script))
log_sys_error("fclose", script_file);
return ret;
}
static void _nonroot_warning(void)
{
if (getuid() || geteuid())
log_warn("WARNING: Running as a non-root user. Functionality may be unavailable.");
}
int lvm2_main(int argc, char **argv)
{
const char *base;
int ret, alias = 0;
struct custom_fds custom_fds;
struct cmd_context *cmd;
int run_shell = 0;
int run_script = 0;
const char *run_name;
const char *run_command_name = NULL;
if (!argv)
return EINIT_FAILED;
base = last_path_component(argv[0]);
if (strcmp(base, "lvm") && strcmp(base, "lvm.static") &&
strcmp(base, "initrd-lvm"))
alias = 1;
if (!_check_standard_fds())
return EINIT_FAILED;
if (!_get_custom_fds(&custom_fds))
return EINIT_FAILED;
if (!_close_stray_fds(base, &custom_fds))
return EINIT_FAILED;
if (!init_custom_log_streams(&custom_fds))
return EINIT_FAILED;
if (is_static() && strcmp(base, "lvm.static") &&
path_exists(LVM_PATH) &&
!getenv("LVM_DID_EXEC")) {
if (setenv("LVM_DID_EXEC", base, 1))
log_sys_error("setenv", "LVM_DID_EXEC");
if (execvp(LVM_PATH, argv) == -1)
log_sys_error("execvp", LVM_PATH);
if (unsetenv("LVM_DID_EXEC"))
log_sys_error("unsetenv", "LVM_DID_EXEC");
}
if (!alias && argc > 1) {
/* "version" command is simple enough so it doesn't need any complex init */
if (!strcmp(argv[1], "version"))
return lvm_return_code(version(NULL, argc, argv));
/* turn 'lvm -h', 'lvm --help', 'lvm -?' into 'lvm help' */
if (!strcmp(argv[1], "-h") || !strcmp(argv[1], "--help") || !strcmp(argv[1], "-?"))
argv[1] = (char *)"help";
if (*argv[1] == '-') {
log_error("Specify options after a command: lvm [command] [options].");
return EINVALID_CMD_LINE;
}
}
/* turn command -? into command -h and lvm command -? into lvm command -h */
if (alias && (argc > 1) && !strcmp(argv[1], "-?"))
argv[1] = (char *)"-h";
if (!alias && (argc > 2) && !strcmp(argv[2], "-?"))
argv[2] = (char *)"-h";
if (!(cmd = init_lvm(0, 0, 0)))
return EINIT_FAILED;
/* Store original argv location so we may customise it if we become a daemon */
cmd->argv = argv;
/*
* If the invocation command name wasn't itself an alias, shift to the
* first arg. After this point, run_name holds one of:
* the LVM command name we want to run;
* the LVM script name (handled through ENO_SUCH_CMD below);
* NULL for a shell (if readline is enabled).
*/
if (!alias) {
argc--;
argv++;
run_name = argv[0];
} else
run_name = dm_basename(argv[0]);
/*
* Decide if we are running a shell or a command or a script. When
* there is no run_name, it's a shell, when run_name is a recognized
* lvm command it's that command, when run_name is not a recognized
* command name, try it as an lvm script.
*/
if (!run_name)
run_shell = 1;
else if (!_find_command_name(run_name))
run_script = 1;
else
run_command_name = run_name;
/*
* NULL run_command_name means register all command defs because
* a script or shell needs to access any command name, while a
* single command needs to access only defs for the named command.
*/
if (!lvm_register_commands(cmd, run_command_name)) {
ret = ECMD_FAILED;
goto out;
}
if (run_shell) {
#if defined(READLINE_SUPPORT) || defined(EDITLINE_SUPPORT)
_nonroot_warning();
if (!_prepare_profiles(cmd)) {
ret = ECMD_FAILED;
goto out;
}
ret = lvm_shell(cmd, &_cmdline);
goto out;
#else
log_fatal("Please supply an LVM command.");
_display_help();
ret = EINVALID_CMD_LINE;
goto out;
#endif
}
_nonroot_warning();
if (run_script)
ret = _run_script(cmd, argc, argv);
else
ret = lvm_run_command(cmd, argc, argv);
if (ret == ENO_SUCH_CMD) {
log_error("No such command. Try 'lvm help'.");
goto out;
}
if ((ret != ECMD_PROCESSED) && !error_message_produced()) {
log_debug(INTERNAL_ERROR "Failed command did not use log_error");
log_error("Command failed with status code %d.", ret);
}
out:
lvm_fin(cmd);
return lvm_return_code(ret);
}
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