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lvm2/lib/metadata/metadata-exported.h
Zdenek Kabelac aebf2d5cdc Add experimental code for activation of thinp targets
No dm messages yes - just a base functionality in the steps of other targets.
For now usable only for debugging and tracing.
2011-09-29 08:56:38 +00:00

840 lines
30 KiB
C

/*
* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004-2010 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/*
* This is the representation of LVM metadata that is being adapted
* for library export.
*/
#ifndef _LVM_METADATA_EXPORTED_H
#define _LVM_METADATA_EXPORTED_H
#include "uuid.h"
#include "pv.h"
#include "vg.h"
#include "lv.h"
#include "lvm-percent.h"
#define MAX_STRIPES 128U
#define SECTOR_SHIFT 9L
#define SECTOR_SIZE ( 1L << SECTOR_SHIFT )
#define STRIPE_SIZE_MIN ( (unsigned) lvm_getpagesize() >> SECTOR_SHIFT) /* PAGESIZE in sectors */
#define STRIPE_SIZE_MAX ( 512L * 1024L >> SECTOR_SHIFT) /* 512 KB in sectors */
#define STRIPE_SIZE_LIMIT ((UINT_MAX >> 2) + 1)
#define MAX_RESTRICTED_LVS 255 /* Used by FMT_RESTRICTED_LVIDS */
#define MAX_EXTENT_SIZE ((uint32_t) -1)
/* Layer suffix */
#define MIRROR_SYNC_LAYER "_mimagetmp"
/* Various flags */
/* Note that the bits no longer necessarily correspond to LVM1 disk format */
#define PARTIAL_VG UINT64_C(0x00000001) /* VG */
#define EXPORTED_VG UINT64_C(0x00000002) /* VG PV */
#define RESIZEABLE_VG UINT64_C(0x00000004) /* VG */
/* May any free extents on this PV be used or must they be left free? */
#define ALLOCATABLE_PV UINT64_C(0x00000008) /* PV */
//#define SPINDOWN_LV UINT64_C(0x00000010) /* LV */
//#define BADBLOCK_ON UINT64_C(0x00000020) /* LV */
#define VISIBLE_LV UINT64_C(0x00000040) /* LV */
#define FIXED_MINOR UINT64_C(0x00000080) /* LV */
/* FIXME Remove when metadata restructuring is completed */
#define SNAPSHOT UINT64_C(0x00001000) /* LV - internal use only */
#define PVMOVE UINT64_C(0x00002000) /* VG LV SEG */
#define LOCKED UINT64_C(0x00004000) /* LV */
#define MIRRORED UINT64_C(0x00008000) /* LV - internal use only */
//#define VIRTUAL UINT64_C(0x00010000) /* LV - internal use only */
#define MIRROR_LOG UINT64_C(0x00020000) /* LV */
#define MIRROR_IMAGE UINT64_C(0x00040000) /* LV */
#define LV_NOTSYNCED UINT64_C(0x00080000) /* LV */
//#define PRECOMMITTED UINT64_C(0x00200000) /* VG - internal use only */
#define CONVERTING UINT64_C(0x00400000) /* LV */
#define MISSING_PV UINT64_C(0x00800000) /* PV */
#define PARTIAL_LV UINT64_C(0x01000000) /* LV - derived flag, not
written out in metadata*/
//#define POSTORDER_FLAG UINT64_C(0x02000000) /* Not real flags, reserved for
//#define POSTORDER_OPEN_FLAG UINT64_C(0x04000000) temporary use inside vg_read_internal. */
//#define VIRTUAL_ORIGIN UINT64_C(0x08000000) /* LV - internal use only */
#define MERGING UINT64_C(0x10000000) /* LV SEG */
#define REPLICATOR UINT64_C(0x20000000) /* LV -internal use only for replicator */
#define REPLICATOR_LOG UINT64_C(0x40000000) /* LV -internal use only for replicator-dev */
#define UNLABELLED_PV UINT64_C(0x80000000) /* PV -this PV had no label written yet */
#define RAID UINT64_C(0x0000000100000000) /* LV */
#define RAID_META UINT64_C(0x0000000200000000) /* LV */
#define RAID_IMAGE UINT64_C(0x0000000400000000) /* LV */
#define THIN_VOLUME UINT64_C(0x0000001000000000) /* LV */
#define THIN_POOL UINT64_C(0x0000002000000000) /* LV */
#define THIN_POOL_DATA UINT64_C(0x0000004000000000) /* LV */
#define THIN_POOL_METADATA UINT64_C(0x0000008000000000) /* LV */
#define LVM_READ UINT64_C(0x00000100) /* LV, VG */
#define LVM_WRITE UINT64_C(0x00000200) /* LV, VG */
#define CLUSTERED UINT64_C(0x00000400) /* VG */
//#define SHARED UINT64_C(0x00000800) /* VG */
/* Format features flags */
#define FMT_SEGMENTS 0x00000001U /* Arbitrary segment params? */
#define FMT_MDAS 0x00000002U /* Proper metadata areas? */
#define FMT_TAGS 0x00000004U /* Tagging? */
#define FMT_UNLIMITED_VOLS 0x00000008U /* Unlimited PVs/LVs? */
#define FMT_RESTRICTED_LVIDS 0x00000010U /* LVID <= 255 */
#define FMT_ORPHAN_ALLOCATABLE 0x00000020U /* Orphan PV allocatable? */
//#define FMT_PRECOMMIT 0x00000040U /* Supports pre-commit? */
#define FMT_RESIZE_PV 0x00000080U /* Supports pvresize? */
#define FMT_UNLIMITED_STRIPESIZE 0x00000100U /* Unlimited stripe size? */
#define FMT_RESTRICTED_READAHEAD 0x00000200U /* Readahead restricted to 2-120? */
/* Mirror conversion type flags */
#define MIRROR_BY_SEG 0x00000001U /* segment-by-segment mirror */
#define MIRROR_BY_LV 0x00000002U /* mirror using whole mimage LVs */
#define MIRROR_SKIP_INIT_SYNC 0x00000010U /* skip initial sync */
/* vg_read and vg_read_for_update flags */
#define READ_ALLOW_INCONSISTENT 0x00010000U
#define READ_ALLOW_EXPORTED 0x00020000U
#define READ_WITHOUT_LOCK 0x00040000U
/* A meta-flag, useful with toollib for_each_* functions. */
#define READ_FOR_UPDATE 0x00100000U
/* vg's "read_status" field */
#define FAILED_INCONSISTENT 0x00000001U
#define FAILED_LOCKING 0x00000002U
#define FAILED_NOTFOUND 0x00000004U
#define FAILED_READ_ONLY 0x00000008U
#define FAILED_EXPORTED 0x00000010U
#define FAILED_RESIZEABLE 0x00000020U
#define FAILED_CLUSTERED 0x00000040U
#define FAILED_ALLOCATION 0x00000080U
#define FAILED_EXIST 0x00000100U
#define SUCCESS 0x00000000U
#define VGMETADATACOPIES_ALL UINT32_MAX
#define VGMETADATACOPIES_UNMANAGED 0
#define lv_is_thin_volume(lv) ((lv)->status & THIN_VOLUME ? 1 : 0)
#define lv_is_thin_pool(lv) ((lv)->status & THIN_POOL ? 1 : 0)
#define lv_is_thin_pool_data(lv) ((lv)->status & THIN_POOL_DATA ? 1 : 0)
#define lv_is_thin_pool_metadata(lv) ((lv)->status & THIN_POOL_METADATA ? 1 : 0)
#define lv_is_mirrored(lv) ((lv)->status & MIRRORED ? 1 : 0)
#define lv_is_rlog(lv) ((lv)->status & REPLICATOR_LOG ? 1 : 0)
#define lv_is_thin_type(lv) ((lv)->status & (THIN_POOL | THIN_VOLUME | THIN_POOL_DATA | THIN_POOL_METADATA) ? 1 : 0)
#define lv_is_mirror_type(lv) ((lv)->status & (MIRROR_LOG | MIRROR_IMAGE | MIRRORED | PVMOVE) ? 1 : 0)
#define lv_is_raid_type(lv) ((lv)->status & (RAID | RAID_IMAGE | RAID_META))
#define lv_is_virtual(lv) ((lv)->status & VIRTUAL)
/* Ordered list - see lv_manip.c */
typedef enum {
AREA_UNASSIGNED,
AREA_PV,
AREA_LV
} area_type_t;
/*
* Whether or not to force an operation.
*/
typedef enum {
PROMPT = 0, /* Issue yes/no prompt to confirm operation */
DONT_PROMPT = 1, /* Skip yes/no prompt */
DONT_PROMPT_OVERRIDE = 2 /* Skip prompt + override a second condition */
} force_t;
struct cmd_context;
struct format_handler;
struct labeller;
struct format_type {
struct dm_list list;
struct cmd_context *cmd;
struct format_handler *ops;
struct labeller *labeller;
const char *name;
const char *alias;
const char *orphan_vg_name;
uint32_t features;
void *library;
void *private;
};
struct pv_segment {
struct dm_list list; /* Member of pv->segments: ordered list
* covering entire data area on this PV */
struct physical_volume *pv;
uint32_t pe;
uint32_t len;
struct lv_segment *lvseg; /* NULL if free space */
uint32_t lv_area; /* Index to area in LV segment */
};
#define pvseg_is_allocated(pvseg) ((pvseg)->lvseg)
/*
* These flags define the type of the format instance to be created.
* There are two basic types: a PV-based and a VG-based format instance.
* We can further control the format_instance initialisation and functionality
* by using the other flags. Today, the primary role of the format_instance
* is to temporarily store metadata area information we are working with. More
* flags can be defined to cover even more functionality in the future...
*/
/* PV-based format instance */
#define FMT_INSTANCE_PV 0x00000000U
/* VG-based format instance */
#define FMT_INSTANCE_VG 0x00000001U
/* Include any existing PV mdas during format_instance initialisation */
#define FMT_INSTANCE_MDAS 0x00000002U
/* Include any auxiliary mdas during format_instance intialisation */
#define FMT_INSTANCE_AUX_MDAS 0x00000004U
/* Include any other format-specific mdas during format_instance initialisation */
#define FMT_INSTANCE_PRIVATE_MDAS 0x00000008U
struct format_instance {
unsigned ref_count; /* Refs to this fid from VG and PV structs */
struct dm_pool *mem;
uint32_t type;
const struct format_type *fmt;
/*
* Each mda in a vg is on exactly one of the below lists.
* MDAs on the 'in_use' list will be read from / written to
* disk, while MDAs on the 'ignored' list will not be read
* or written to.
*/
/* FIXME: Try to use the index only. Remove these lists. */
struct dm_list metadata_areas_in_use;
struct dm_list metadata_areas_ignored;
union {
struct metadata_area **array;
struct dm_hash_table *hash;
} metadata_areas_index;
void *private;
};
/* There will be one area for each stripe */
struct lv_segment_area {
area_type_t type;
union {
struct {
struct pv_segment *pvseg;
} pv;
struct {
struct logical_volume *lv;
uint32_t le;
} lv;
} u;
};
struct segment_type;
/* List with vg_name, vgid and flags */
struct cmd_vg {
struct dm_list list;
const char *vg_name;
const char *vgid;
uint32_t flags;
struct volume_group *vg;
};
/* ++ Replicator datatypes */
typedef enum {
REPLICATOR_STATE_PASSIVE,
REPLICATOR_STATE_ACTIVE,
NUM_REPLICATOR_STATE
} replicator_state_t;
struct replicator_site {
struct dm_list list; /* Chained list of sites */
struct dm_list rdevices; /* Device list */
struct logical_volume *replicator; /* Reference to replicator */
const char *name; /* Site name */
const char *vg_name; /* VG name */
struct volume_group *vg; /* resolved vg (activate/deactive) */
unsigned site_index;
replicator_state_t state; /* Active or pasive state of site */
dm_replicator_mode_t op_mode; /* Operation mode sync or async fail|warn|drop|stall */
uint64_t fall_behind_data; /* Bytes */
uint32_t fall_behind_ios; /* IO operations */
uint32_t fall_behind_timeout; /* Seconds */
};
struct replicator_device {
struct dm_list list; /* Chained list of devices from same site */
struct lv_segment *replicator_dev; /* Reference to replicator-dev segment */
struct replicator_site *rsite; /* Reference to site parameters */
uint64_t device_index;
const char *name; /* Device LV name */
struct logical_volume *lv; /* LV from replicator site's VG */
struct logical_volume *slog; /* Synclog lv from VG */
const char *slog_name; /* Debug - specify size of core synclog */
};
/* -- Replicator datatypes */
struct lv_segment {
struct dm_list list;
struct logical_volume *lv;
const struct segment_type *segtype;
uint32_t le;
uint32_t len;
uint64_t status;
/* FIXME Fields depend on segment type */
uint32_t stripe_size; /* For stripe and RAID - in sectors */
uint32_t area_count;
uint32_t area_len;
uint32_t chunk_size; /* For snapshots - in sectors */
struct logical_volume *origin; /* snap and thin */
struct logical_volume *cow;
struct dm_list origin_list;
uint32_t region_size; /* For mirrors, replicators - in sectors */
uint32_t extents_copied;
struct logical_volume *log_lv;
struct lv_segment *pvmove_source_seg;
void *segtype_private;
struct dm_list tags;
struct lv_segment_area *areas;
struct lv_segment_area *meta_areas; /* For RAID */
struct logical_volume *pool_metadata_lv;/* For thin_pool */
uint64_t transaction_id; /* For thin_pool */
uint64_t low_water_mark; /* For thin_pool */
uint32_t data_block_size; /* For thin_pool, 128..2097152 */
unsigned zero_new_blocks; /* For thin_pool */
struct logical_volume *pool_lv; /* For thin */
uint32_t device_id; /* For thin, 24bit */
struct logical_volume *replicator;/* For replicator-devs - link to replicator LV */
struct logical_volume *rlog_lv; /* For replicators */
const char *rlog_type; /* For replicators */
uint64_t rdevice_index_highest; /* For replicators */
unsigned rsite_index_highest; /* For replicators */
};
#define seg_type(seg, s) (seg)->areas[(s)].type
#define seg_pv(seg, s) (seg)->areas[(s)].u.pv.pvseg->pv
#define seg_lv(seg, s) (seg)->areas[(s)].u.lv.lv
#define seg_metalv(seg, s) (seg)->meta_areas[(s)].u.lv.lv
#define seg_metatype(seg, s) (seg)->meta_areas[(s)].type
struct pe_range {
struct dm_list list;
uint32_t start; /* PEs */
uint32_t count; /* PEs */
};
struct pv_list {
struct dm_list list;
struct physical_volume *pv;
struct dm_list *mdas; /* Metadata areas */
struct dm_list *pe_ranges; /* Ranges of PEs e.g. for allocation */
};
struct lv_list {
struct dm_list list;
struct logical_volume *lv;
};
struct pvcreate_params {
int zero;
uint64_t size;
uint64_t data_alignment;
uint64_t data_alignment_offset;
int pvmetadatacopies;
uint64_t pvmetadatasize;
int64_t labelsector;
struct id id; /* FIXME: redundant */
struct id *idp; /* 0 if no --uuid option */
uint64_t pe_start;
uint32_t extent_count;
uint32_t extent_size;
const char *restorefile; /* 0 if no --restorefile option */
force_t force;
unsigned yes;
unsigned metadataignore;
};
struct physical_volume *pvcreate_single(struct cmd_context *cmd,
const char *pv_name,
struct pvcreate_params *pp,
int write_now);
void pvcreate_params_set_defaults(struct pvcreate_params *pp);
/*
* Utility functions
*/
int vg_write(struct volume_group *vg);
int vg_commit(struct volume_group *vg);
void vg_revert(struct volume_group *vg);
struct volume_group *vg_read_internal(struct cmd_context *cmd, const char *vg_name,
const char *vgid, int warnings, int *consistent);
struct physical_volume *pv_read(struct cmd_context *cmd, const char *pv_name,
int warnings,
int scan_label_only);
struct dm_list *get_pvs(struct cmd_context *cmd);
/*
* Add/remove LV to/from volume group
*/
int link_lv_to_vg(struct volume_group *vg, struct logical_volume *lv);
int unlink_lv_from_vg(struct logical_volume *lv);
void lv_set_visible(struct logical_volume *lv);
void lv_set_hidden(struct logical_volume *lv);
struct dm_list *get_vgnames(struct cmd_context *cmd, int include_internal);
struct dm_list *get_vgids(struct cmd_context *cmd, int include_internal);
int scan_vgs_for_pvs(struct cmd_context *cmd, int warnings);
int pv_write(struct cmd_context *cmd, struct physical_volume *pv, int allow_non_orphan);
int move_pv(struct volume_group *vg_from, struct volume_group *vg_to,
const char *pv_name);
int move_pvs_used_by_lv(struct volume_group *vg_from,
struct volume_group *vg_to,
const char *lv_name);
int is_global_vg(const char *vg_name);
int is_orphan_vg(const char *vg_name);
int is_real_vg(const char *vg_name);
int vg_missing_pv_count(const struct volume_group *vg);
int vgs_are_compatible(struct cmd_context *cmd,
struct volume_group *vg_from,
struct volume_group *vg_to);
uint32_t vg_lock_newname(struct cmd_context *cmd, const char *vgname);
/*
* Return a handle to VG metadata.
*/
struct volume_group *vg_read(struct cmd_context *cmd, const char *vg_name,
const char *vgid, uint32_t flags);
struct volume_group *vg_read_for_update(struct cmd_context *cmd, const char *vg_name,
const char *vgid, uint32_t flags);
/*
* Test validity of a VG handle.
*/
uint32_t vg_read_error(struct volume_group *vg_handle);
/* pe_start and pe_end relate to any existing data so that new metadata
* areas can avoid overlap */
struct physical_volume *pv_create(const struct cmd_context *cmd,
struct device *dev,
struct id *id,
uint64_t size,
unsigned long data_alignment,
unsigned long data_alignment_offset,
uint64_t pe_start,
uint32_t existing_extent_count,
uint32_t existing_extent_size,
uint64_t label_sector,
unsigned pvmetadatacopies,
uint64_t pvmetadatasize,
unsigned metadataignore);
int pv_resize(struct physical_volume *pv, struct volume_group *vg,
uint64_t size);
int pv_analyze(struct cmd_context *cmd, const char *pv_name,
uint64_t label_sector);
/* FIXME: move internal to library */
uint32_t pv_list_extents_free(const struct dm_list *pvh);
struct volume_group *vg_create(struct cmd_context *cmd, const char *vg_name);
int vg_remove_mdas(struct volume_group *vg);
int vg_remove_check(struct volume_group *vg);
void vg_remove_pvs(struct volume_group *vg);
int vg_remove(struct volume_group *vg);
int vg_rename(struct cmd_context *cmd, struct volume_group *vg,
const char *new_name);
int vg_extend(struct volume_group *vg, int pv_count, const char *const *pv_names,
struct pvcreate_params *pp);
int vg_reduce(struct volume_group *vg, const char *pv_name);
int vg_change_tag(struct volume_group *vg, const char *tag, int add_tag);
int vg_split_mdas(struct cmd_context *cmd, struct volume_group *vg_from,
struct volume_group *vg_to);
/* FIXME: Investigate refactoring these functions to take a pv ISO pv_list */
void add_pvl_to_vgs(struct volume_group *vg, struct pv_list *pvl);
void del_pvl_from_vgs(struct volume_group *vg, struct pv_list *pvl);
/* FIXME: refactor / unexport when lvremove liblvm refactoring dones */
int remove_lvs_in_vg(struct cmd_context *cmd,
struct volume_group *vg,
force_t force);
/*
* free_pv_fid() must be called on every struct physical_volume allocated
* by pv_create, pv_read, find_pv_by_name or pv_by_path to free it when
* no longer required.
*/
void free_pv_fid(struct physical_volume *pv);
/* Manipulate LVs */
struct logical_volume *lv_create_empty(const char *name,
union lvid *lvid,
uint64_t status,
alloc_policy_t alloc,
struct volume_group *vg);
/* Write out LV contents */
int set_lv(struct cmd_context *cmd, struct logical_volume *lv,
uint64_t sectors, int value);
int lv_change_tag(struct logical_volume *lv, const char *tag, int add_tag);
/* Reduce the size of an LV by extents */
int lv_reduce(struct logical_volume *lv, uint32_t extents);
/* Empty an LV prior to deleting it */
int lv_empty(struct logical_volume *lv);
/* Empty an LV and add error segment */
int replace_lv_with_error_segment(struct logical_volume *lv);
/* Entry point for all LV extent allocations */
int lv_extend(struct logical_volume *lv,
const struct segment_type *segtype,
uint32_t stripes, uint32_t stripe_size,
uint32_t mirrors, uint32_t region_size,
uint32_t extents, const char *thin_pool_name,
struct dm_list *allocatable_pvs, alloc_policy_t alloc);
/* lv must be part of lv->vg->lvs */
int lv_remove(struct logical_volume *lv);
int lv_remove_single(struct cmd_context *cmd, struct logical_volume *lv,
force_t force);
int lv_remove_with_dependencies(struct cmd_context *cmd, struct logical_volume *lv,
force_t force, unsigned level);
int lv_rename(struct cmd_context *cmd, struct logical_volume *lv,
const char *new_name);
uint64_t extents_from_size(struct cmd_context *cmd, uint64_t size,
uint32_t extent_size);
/*
* Activation options
*/
typedef enum {
CHANGE_AY = 0,
CHANGE_AN = 1,
CHANGE_AE = 2,
CHANGE_ALY = 3,
CHANGE_ALN = 4
} activation_change_t;
/* FIXME: refactor and reduce the size of this struct! */
struct lvcreate_params {
/* flags */
int snapshot; /* snap */
int thin; /* thin */
int create_thin_pool; /* thin */
int zero; /* all */
int major; /* all */
int minor; /* all */
int log_count; /* mirror */
int nosync; /* mirror */
int activation_monitoring; /* all */
activation_change_t activate; /* non-snapshot, non-mirror */
const char *origin; /* snap */
const char *pool; /* thin */
const char *vg_name; /* all */
const char *lv_name; /* all */
uint32_t stripes; /* striped */
uint32_t stripe_size; /* striped */
uint32_t chunk_size; /* snapshot */
uint32_t region_size; /* mirror */
uint32_t mirrors; /* mirror */
const struct segment_type *segtype; /* all */
/* size */
uint32_t extents; /* all */
uint32_t voriginextents; /* snapshot */
uint64_t voriginsize; /* snapshot */
struct dm_list *pvh; /* all */
uint32_t permission; /* all */
uint32_t read_ahead; /* all */
alloc_policy_t alloc; /* all */
struct dm_list tags; /* all */
};
int lv_create_single(struct volume_group *vg,
struct lvcreate_params *lp);
/*
* Functions for layer manipulation
*/
int insert_layer_for_segments_on_pv(struct cmd_context *cmd,
struct logical_volume *lv_where,
struct logical_volume *layer_lv,
uint64_t status,
struct pv_list *pv,
struct dm_list *lvs_changed);
int remove_layers_for_segments(struct cmd_context *cmd,
struct logical_volume *lv,
struct logical_volume *layer_lv,
uint64_t status_mask, struct dm_list *lvs_changed);
int remove_layers_for_segments_all(struct cmd_context *cmd,
struct logical_volume *layer_lv,
uint64_t status_mask,
struct dm_list *lvs_changed);
int split_parent_segments_for_layer(struct cmd_context *cmd,
struct logical_volume *layer_lv);
int remove_layer_from_lv(struct logical_volume *lv,
struct logical_volume *layer_lv);
struct logical_volume *insert_layer_for_lv(struct cmd_context *cmd,
struct logical_volume *lv_where,
uint64_t status,
const char *layer_suffix);
/* Find a PV within a given VG */
struct pv_list *find_pv_in_vg(const struct volume_group *vg,
const char *pv_name);
struct pv_list *find_pv_in_vg_by_uuid(const struct volume_group *vg,
const struct id *id);
/* Find an LV within a given VG */
struct lv_list *find_lv_in_vg(const struct volume_group *vg,
const char *lv_name);
/* FIXME Merge these functions with ones above */
struct logical_volume *find_lv(const struct volume_group *vg,
const char *lv_name);
struct physical_volume *find_pv_by_name(struct cmd_context *cmd,
const char *pv_name);
const char *find_vgname_from_pvname(struct cmd_context *cmd,
const char *pvname);
const char *find_vgname_from_pvid(struct cmd_context *cmd,
const char *pvid);
/* Find LV segment containing given LE */
struct lv_segment *first_seg(const struct logical_volume *lv);
/*
* Useful functions for managing snapshots.
*/
int lv_is_origin(const struct logical_volume *lv);
int lv_is_virtual_origin(const struct logical_volume *lv);
int lv_is_cow(const struct logical_volume *lv);
int lv_is_merging_origin(const struct logical_volume *origin);
int lv_is_merging_cow(const struct logical_volume *snapshot);
/* Test if given LV is visible from user's perspective */
int lv_is_visible(const struct logical_volume *lv);
int pv_is_in_vg(struct volume_group *vg, struct physical_volume *pv);
struct lv_segment *find_merging_cow(const struct logical_volume *origin);
/* Given a cow LV, return return the snapshot lv_segment that uses it */
struct lv_segment *find_cow(const struct logical_volume *lv);
/* Given a cow LV, return its origin */
struct logical_volume *origin_from_cow(const struct logical_volume *lv);
void init_snapshot_seg(struct lv_segment *seg, struct logical_volume *origin,
struct logical_volume *cow, uint32_t chunk_size, int merge);
void init_snapshot_merge(struct lv_segment *cow_seg, struct logical_volume *origin);
void clear_snapshot_merge(struct logical_volume *origin);
int vg_add_snapshot(struct logical_volume *origin, struct logical_volume *cow,
union lvid *lvid, uint32_t extent_count,
uint32_t chunk_size);
int vg_remove_snapshot(struct logical_volume *cow);
int vg_check_status(const struct volume_group *vg, uint64_t status);
/*
* Check if the VG reached maximal LVs count (if set)
*/
int vg_max_lv_reached(struct volume_group *vg);
/*
* Mirroring functions
*/
struct lv_segment *find_mirror_seg(struct lv_segment *seg);
int lv_add_mirrors(struct cmd_context *cmd, struct logical_volume *lv,
uint32_t mirrors, uint32_t stripes, uint32_t stripe_size,
uint32_t region_size, uint32_t log_count,
struct dm_list *pvs, alloc_policy_t alloc, uint32_t flags);
int lv_split_mirror_images(struct logical_volume *lv, const char *split_lv_name,
uint32_t split_count, struct dm_list *removable_pvs);
int lv_remove_mirrors(struct cmd_context *cmd, struct logical_volume *lv,
uint32_t mirrors, uint32_t log_count,
int (*is_removable)(struct logical_volume *, void *),
void *removable_baton, uint64_t status_mask);
int is_temporary_mirror_layer(const struct logical_volume *lv);
struct logical_volume * find_temporary_mirror(const struct logical_volume *lv);
uint32_t lv_mirror_count(const struct logical_volume *lv);
uint32_t adjusted_mirror_region_size(uint32_t extent_size, uint32_t extents,
uint32_t region_size);
int remove_mirrors_from_segments(struct logical_volume *lv,
uint32_t new_mirrors, uint64_t status_mask);
int add_mirrors_to_segments(struct cmd_context *cmd, struct logical_volume *lv,
uint32_t mirrors, uint32_t region_size,
struct dm_list *allocatable_pvs, alloc_policy_t alloc);
int remove_mirror_images(struct logical_volume *lv, uint32_t num_mirrors,
int (*is_removable)(struct logical_volume *, void *),
void *removable_baton, unsigned remove_log);
int add_mirror_images(struct cmd_context *cmd, struct logical_volume *lv,
uint32_t mirrors, uint32_t stripes, uint32_t stripe_size, uint32_t region_size,
struct dm_list *allocatable_pvs, alloc_policy_t alloc,
uint32_t log_count);
struct logical_volume *detach_mirror_log(struct lv_segment *seg);
int attach_mirror_log(struct lv_segment *seg, struct logical_volume *lv);
int remove_mirror_log(struct cmd_context *cmd, struct logical_volume *lv,
struct dm_list *removable_pvs, int force);
int add_mirror_log(struct cmd_context *cmd, struct logical_volume *lv,
uint32_t log_count, uint32_t region_size,
struct dm_list *allocatable_pvs, alloc_policy_t alloc);
int reconfigure_mirror_images(struct lv_segment *mirrored_seg, uint32_t num_mirrors,
struct dm_list *removable_pvs, unsigned remove_log);
int collapse_mirrored_lv(struct logical_volume *lv);
int shift_mirror_images(struct lv_segment *mirrored_seg, unsigned mimage);
/* ++ metadata/replicator_manip.c */
int replicator_add_replicator_dev(struct logical_volume *replicator_lv,
struct lv_segment *rdev_seg);
struct logical_volume *replicator_remove_replicator_dev(struct lv_segment *rdev_seg);
int replicator_add_rlog(struct lv_segment *replicator_seg, struct logical_volume *rlog_lv);
struct logical_volume *replicator_remove_rlog(struct lv_segment *replicator_seg);
int replicator_dev_add_slog(struct replicator_device *rdev, struct logical_volume *slog_lv);
struct logical_volume *replicator_dev_remove_slog(struct replicator_device *rdev);
int replicator_dev_add_rimage(struct replicator_device *rdev, struct logical_volume *lv);
struct logical_volume *replicator_dev_remove_rimage(struct replicator_device *rdev);
int lv_is_active_replicator_dev(const struct logical_volume *lv);
int lv_is_replicator(const struct logical_volume *lv);
int lv_is_replicator_dev(const struct logical_volume *lv);
int lv_is_rimage(const struct logical_volume *lv);
int lv_is_slog(const struct logical_volume *lv);
struct logical_volume *first_replicator_dev(const struct logical_volume *lv);
/* -- metadata/replicator_manip.c */
/* ++ metadata/raid_manip.c */
uint32_t lv_raid_image_count(const struct logical_volume *lv);
int lv_raid_change_image_count(struct logical_volume *lv,
uint32_t new_count, struct dm_list *pvs);
int lv_raid_split(struct logical_volume *lv, const char *split_name,
uint32_t new_count, struct dm_list *splittable_pvs);
int lv_raid_split_and_track(struct logical_volume *lv,
struct dm_list *splittable_pvs);
int lv_raid_merge(struct logical_volume *lv);
/* -- metadata/raid_manip.c */
struct cmd_vg *cmd_vg_add(struct dm_pool *mem, struct dm_list *cmd_vgs,
const char *vg_name, const char *vgid,
uint32_t flags);
struct cmd_vg *cmd_vg_lookup(struct dm_list *cmd_vgs,
const char *vg_name, const char *vgid);
int cmd_vg_read(struct cmd_context *cmd, struct dm_list *cmd_vgs);
void free_cmd_vgs(struct dm_list *cmd_vgs);
int find_replicator_vgs(struct logical_volume *lv);
int lv_read_replicator_vgs(struct logical_volume *lv);
void lv_release_replicator_vgs(struct logical_volume *lv);
struct logical_volume *find_pvmove_lv(struct volume_group *vg,
struct device *dev, uint64_t lv_type);
struct logical_volume *find_pvmove_lv_from_pvname(struct cmd_context *cmd,
struct volume_group *vg,
const char *name,
const char *uuid,
uint64_t lv_type);
struct logical_volume *find_pvmove_lv_in_lv(struct logical_volume *lv);
const char *get_pvmove_pvname_from_lv(struct logical_volume *lv);
const char *get_pvmove_pvname_from_lv_mirr(struct logical_volume *lv_mirr);
percent_t copy_percent(const struct logical_volume *lv_mirr);
struct dm_list *lvs_using_lv(struct cmd_context *cmd, struct volume_group *vg,
struct logical_volume *lv);
uint32_t find_free_lvnum(struct logical_volume *lv);
char *generate_lv_name(struct volume_group *vg, const char *format,
char *buffer, size_t len);
/*
* Begin skeleton for external LVM library
*/
int pv_change_metadataignore(struct physical_volume *pv, uint32_t mda_ignore);
int vg_check_write_mode(struct volume_group *vg);
#define vg_is_clustered(vg) (vg_status((vg)) & CLUSTERED)
#define vg_is_exported(vg) (vg_status((vg)) & EXPORTED_VG)
#define vg_is_resizeable(vg) (vg_status((vg)) & RESIZEABLE_VG)
int lv_has_unknown_segments(const struct logical_volume *lv);
int vg_has_unknown_segments(const struct volume_group *vg);
int vg_mark_partial_lvs(struct volume_group *vg, int clear);
struct vgcreate_params {
const char *vg_name;
uint32_t extent_size;
size_t max_pv;
size_t max_lv;
alloc_policy_t alloc;
int clustered; /* FIXME: put this into a 'status' variable instead? */
uint32_t vgmetadatacopies;
};
int vgcreate_params_validate(struct cmd_context *cmd,
struct vgcreate_params *vp);
int validate_vg_rename_params(struct cmd_context *cmd,
const char *vg_name_old,
const char *vg_name_new);
#endif