/* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2013 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 */ /* * This is the in core representation of a volume group and its * associated physical and logical volumes. */ #ifndef _LVM_METADATA_H #define _LVM_METADATA_H #include "ctype.h" #include "lib/device/dev-cache.h" #include "lib/misc/lvm-string.h" #include "lib/metadata/metadata-exported.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 MIN_PE_SIZE (8192L >> SECTOR_SHIFT) /* 8 KB in sectors - format1 only */ #define MAX_PE_SIZE (16L * 1024L * (1024L >> SECTOR_SHIFT) * 1024L) /* format1 only */ #define MIRROR_LOG_OFFSET 2 /* sectors */ #define VG_MEMPOOL_CHUNK 10240 /* in bytes, hint only */ /* * Ceiling(n / sz) */ #define dm_div_up(n, sz) (((n) + (sz) - 1) / (sz)) /* * Ceiling(n / size) * size */ #define dm_round_up(n, sz) (dm_div_up((n), (sz)) * (sz)) /* Various flags */ /* See metadata-exported.h for the complete list. */ /* Note that the bits no longer necessarily correspond to LVM1 disk format */ /* May any free extents on this PV be used or must they be left free? */ #define SPINDOWN_LV UINT64_C(0x00000010) /* LV */ #define BADBLOCK_ON UINT64_C(0x00000020) /* LV */ //#define VIRTUAL UINT64_C(0x00010000) /* LV - internal use only */ #define PRECOMMITTED UINT64_C(0x00200000) /* VG - internal use only */ #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 SHARED UINT64_C(0x00000800) /* VG */ /* Format features flags */ #define FMT_PRECOMMIT 0x00000040U /* Supports pre-commit? */ struct dm_config_tree; struct metadata_area; struct alloc_handle; struct lvmcache_info; struct cached_vg_fmtdata; /* Per-format per-metadata area operations */ struct metadata_area_ops { struct dm_list list; struct volume_group *(*vg_read) (struct format_instance * fi, const char *vg_name, struct metadata_area * mda, struct cached_vg_fmtdata **vg_fmtdata, unsigned *use_previous_vg); struct volume_group *(*vg_read_precommit) (struct format_instance * fi, const char *vg_name, struct metadata_area * mda, struct cached_vg_fmtdata **vg_fmtdata, unsigned *use_previous_vg); /* * Write out complete VG metadata. You must ensure internal * consistency before calling. eg. PEs can't refer to PVs not * part of the VG. * * It is also the responsibility of the caller to ensure external * consistency, eg by calling pv_write() if removing PVs from * a VG or calling vg_write() a second time if splitting a VG * into two. * * vg_write() should not read or write from any PVs not included * in the volume_group structure it is handed. * (format1 currently breaks this rule.) */ int (*vg_write) (struct format_instance * fid, struct volume_group * vg, struct metadata_area * mda); int (*vg_precommit) (struct format_instance * fid, struct volume_group * vg, struct metadata_area * mda); int (*vg_commit) (struct format_instance * fid, struct volume_group * vg, struct metadata_area * mda); int (*vg_revert) (struct format_instance * fid, struct volume_group * vg, struct metadata_area * mda); int (*vg_remove) (struct format_instance * fi, struct volume_group * vg, struct metadata_area * mda); /* * Per location copy constructor. */ void *(*mda_metadata_locn_copy) (struct dm_pool *mem, void *metadata_locn); /* * Per location description for logging. */ const char *(*mda_metadata_locn_name) (void *metadata_locn); uint64_t (*mda_metadata_locn_offset) (void *metadata_locn); /* * Returns number of free sectors in given metadata area. */ uint64_t (*mda_free_sectors) (struct metadata_area *mda); /* * Returns number of total sectors in given metadata area. */ uint64_t (*mda_total_sectors) (struct metadata_area *mda); /* * Check if metadata area belongs to vg */ int (*mda_in_vg) (struct format_instance * fi, struct volume_group * vg, struct metadata_area *mda); /* * Analyze a metadata area on a PV. */ int (*pv_analyze_mda) (const struct format_type * fmt, struct metadata_area *mda); /* * Do these two metadata_area structures match with respect to * their underlying location? */ unsigned (*mda_locns_match)(struct metadata_area *mda1, struct metadata_area *mda2); struct device *(*mda_get_device)(struct metadata_area *mda); int (*mda_export_text)(struct metadata_area *mda, struct dm_config_tree *cft, struct dm_config_node *parent); int (*mda_import_text)(struct lvmcache_info *info, const struct dm_config_node *cn); }; #define MDA_IGNORED 0x00000001 #define MDA_INCONSISTENT 0x00000002 #define MDA_FAILED 0x00000004 /* The primary metadata area on a device if the format supports more than one. */ #define MDA_PRIMARY 0x00000008 #define mda_is_primary(mda) (((mda->status) & MDA_PRIMARY) ? 1 : 0) #define MDA_CONTENT_REASON(primary_mda) ((primary_mda) ? DEV_IO_MDA_CONTENT : DEV_IO_MDA_EXTRA_CONTENT) #define MDA_HEADER_REASON(primary_mda) ((primary_mda) ? DEV_IO_MDA_HEADER : DEV_IO_MDA_EXTRA_HEADER) /* * Flags describing errors found while reading. */ #define BAD_MDA_INTERNAL 0x00000001 /* internal lvm error */ #define BAD_MDA_READ 0x00000002 /* read io failed */ #define BAD_MDA_HEADER 0x00000004 /* general problem with header */ #define BAD_MDA_TEXT 0x00000008 /* general problem with text */ #define BAD_MDA_CHECKSUM 0x00000010 #define BAD_MDA_MAGIC 0x00000020 #define BAD_MDA_VERSION 0x00000040 #define BAD_MDA_START 0x00000080 struct metadata_area { struct dm_list list; struct metadata_area_ops *ops; void *metadata_locn; uint32_t status; uint64_t header_start; /* mda_header.start */ int mda_num; uint32_t bad_fields; /* BAD_MDA_ flags are set to indicate errors found when reading */ uint32_t ignore_bad_fields; /* BAD_MDA_ flags are set to indicate errors to ignore */ }; struct metadata_area *mda_copy(struct dm_pool *mem, struct metadata_area *mda); unsigned mda_is_ignored(struct metadata_area *mda); void mda_set_ignored(struct metadata_area *mda, unsigned mda_ignored); unsigned mda_locns_match(struct metadata_area *mda1, struct metadata_area *mda2); struct device *mda_get_device(struct metadata_area *mda); /* * fic is used to create an fid. It's used to pass fmt/vgname/vgid args * to create_instance() which creates an fid for the specified vg. */ struct format_instance_ctx { uint32_t type; union { const char *pv_id; struct { const char *vg_name; const char *vg_id; } vg_ref; void *private; } context; }; struct format_instance *alloc_fid(const struct format_type *fmt, const struct format_instance_ctx *fic); /* * Format instance must always be set using pv_set_fid or vg_set_fid * (NULL value as well), never asign it directly! This is essential * for proper reference counting for the format instance. */ void pv_set_fid(struct physical_volume *pv, struct format_instance *fid); void vg_set_fid(struct volume_group *vg, struct format_instance *fid); /* FIXME: Add generic interface for mda counts based on given key. */ int fid_add_mda(struct format_instance *fid, struct metadata_area *mda, const char *key, size_t key_len, const unsigned sub_key); int fid_add_mdas(struct format_instance *fid, struct dm_list *mdas, const char *key, size_t key_len); int fid_remove_mda(struct format_instance *fid, struct metadata_area *mda, const char *key, size_t key_len, const unsigned sub_key); struct metadata_area *fid_get_mda_indexed(struct format_instance *fid, const char *key, size_t key_len, const unsigned sub_key); int mdas_empty_or_ignored(struct dm_list *mdas); #define seg_pvseg(seg, s) (seg)->areas[(s)].u.pv.pvseg #define seg_dev(seg, s) (seg)->areas[(s)].u.pv.pvseg->pv->dev #define seg_pe(seg, s) (seg)->areas[(s)].u.pv.pvseg->pe #define seg_le(seg, s) (seg)->areas[(s)].u.lv.le #define seg_metale(seg, s) (seg)->meta_areas[(s)].u.lv.le struct name_list { struct dm_list list; char *name; }; struct mda_list { struct dm_list list; struct metadata_area *mda; }; struct peg_list { struct dm_list list; struct pv_segment *peg; }; struct seg_list { struct dm_list list; unsigned count; struct lv_segment *seg; }; /* * Ownership of objects passes to caller. */ struct format_handler { /* * Scan any metadata areas that aren't referenced in PV labels */ int (*scan) (const struct format_type * fmt, const char *vgname); /* * Return PV with given path. */ int (*pv_read) (const struct format_type * fmt, const char *pv_name, struct physical_volume * pv, int scan_label_only); /* * Initialise a new PV. */ int (*pv_initialise) (const struct format_type * fmt, struct pv_create_args *pva, struct physical_volume * pv); /* * Tweak an already filled out a pv ready for importing into a * vg. eg. pe_count is format specific. */ int (*pv_setup) (const struct format_type * fmt, struct physical_volume * pv, struct volume_group * vg); /* * Add metadata area to a PV. Changes will take effect on pv_write. */ int (*pv_add_metadata_area) (const struct format_type * fmt, struct physical_volume * pv, int pe_start_locked, unsigned metadata_index, uint64_t metadata_size, unsigned metadata_ignored); /* * Remove metadata area from a PV. Changes will take effect on pv_write. */ int (*pv_remove_metadata_area) (const struct format_type *fmt, struct physical_volume *pv, unsigned metadata_index); /* * Recalculate the PV size taking into account any existing metadata areas. */ int (*pv_resize) (const struct format_type *fmt, struct physical_volume *pv, struct volume_group *vg, uint64_t size); /* * Write a PV structure to disk. Fails if the PV is in a VG ie * pv->vg_name must be a valid orphan VG name */ int (*pv_write) (const struct format_type * fmt, struct physical_volume * pv); /* * Check if PV needs rewriting. This is used to check whether there are any * format-specific changes before actually writing the PV (by calling pv_write). * With this, we can call pv_write conditionally only if it's really needed. */ int (*pv_needs_rewrite) (const struct format_type *fmt, struct physical_volume *pv, int *needs_rewrite); /* * Tweak an already filled out a lv eg, check there * aren't too many extents. */ int (*lv_setup) (struct format_instance * fi, struct logical_volume * lv); /* * Tweak an already filled out vg. eg, max_pv is format * specific. */ int (*vg_setup) (struct format_instance * fi, struct volume_group * vg); /* * Check whether particular segment type is supported. */ int (*segtype_supported) (struct format_instance *fid, const struct segment_type *segtype); /* * Create format instance with a particular metadata area */ struct format_instance *(*create_instance) (const struct format_type *fmt, const struct format_instance_ctx *fic); /* * Destructor for format instance */ void (*destroy_instance) (struct format_instance * fid); /* * Destructor for format type */ void (*destroy) (struct format_type * fmt); }; /* * Utility functions */ int get_default_pvmetadatasize_sectors(void); void set_pe_align(struct physical_volume *pv, uint64_t data_alignment); void set_pe_align_offset(struct physical_volume *pv, uint64_t data_alignment_offset); int pv_write_orphan(struct cmd_context *cmd, struct physical_volume *pv); int check_dev_block_size_for_vg(struct device *dev, const struct volume_group *vg, unsigned int *max_phys_block_size_found); int check_pv_dev_sizes(struct volume_group *vg); uint32_t vg_bad_status_bits(const struct volume_group *vg, uint64_t status); int add_pv_to_vg(struct volume_group *vg, const char *pv_name, struct physical_volume *pv, int new_pv); struct logical_volume *find_lv_in_vg_by_lvid(struct volume_group *vg, const union lvid *lvid); struct lv_list *find_lv_in_lv_list(const struct dm_list *ll, const struct logical_volume *lv); /* FIXME Merge these functions with ones above */ struct physical_volume *find_pv(struct volume_group *vg, struct device *dev); struct pv_list *find_pv_in_pv_list(const struct dm_list *pl, const struct physical_volume *pv); /* Find LV segment containing given LE */ struct lv_segment *find_seg_by_le(const struct logical_volume *lv, uint32_t le); /* Find pool LV segment given a thin pool data or metadata segment. */ struct lv_segment *find_pool_seg(const struct lv_segment *seg); /* Find some unused device_id for thin pool LV segment. */ uint32_t get_free_pool_device_id(struct lv_segment *thin_pool_seg); /* Check if the new thin-pool could be used for lvm2 thin volumes */ int check_new_thin_pool(const struct logical_volume *pool_lv); /* * Remove a dev_dir if present. */ const char *strip_dir(const char *vg_name, const char *dev_dir); struct logical_volume *alloc_lv(struct dm_pool *mem); /* * Checks that an lv has no gaps or overlapping segments. * Set complete_vg to perform additional VG level checks. */ int check_lv_segments(struct logical_volume *lv, int complete_vg); /* * Does every LV segment have the same number of stripes? */ int lv_has_constant_stripes(struct logical_volume *lv); /* * Sometimes (eg, after an lvextend), it is possible to merge two * adjacent segments into a single segment. This function trys * to merge as many segments as possible. */ int lv_merge_segments(struct logical_volume *lv); /* * Ensure there's a segment boundary at a given LE, splitting if necessary */ int lv_split_segment(struct logical_volume *lv, uint32_t le); /* * Add/remove upward link from underlying LV to the segment using it * FIXME: ridiculously long name */ int add_seg_to_segs_using_this_lv(struct logical_volume *lv, struct lv_segment *seg); int remove_seg_from_segs_using_this_lv(struct logical_volume *lv, struct lv_segment *seg); int add_glv_to_indirect_glvs(struct dm_pool *mem, struct generic_logical_volume *origin_glv, struct generic_logical_volume *glv); int remove_glv_from_indirect_glvs(struct generic_logical_volume *origin_glv, struct generic_logical_volume *glv); int for_each_sub_lv(struct logical_volume *lv, int (*fn)(struct logical_volume *lv, void *data), void *data); int move_lv_segments(struct logical_volume *lv_to, struct logical_volume *lv_from, uint64_t set_status, uint64_t reset_status); /* Widen existing segment areas */ int add_lv_segment_areas(struct lv_segment *seg, uint32_t new_area_count); /* * Calculate readahead from underlying PV devices */ void lv_calculate_readahead(const struct logical_volume *lv, uint32_t *read_ahead); /* * For internal metadata caching. */ struct dm_config_tree *export_vg_to_config_tree(struct volume_group *vg); struct volume_group *import_vg_from_config_tree(const struct dm_config_tree *cft, struct format_instance *fid); /* * Mirroring functions */ /* * Given mirror image or mirror log segment, find corresponding mirror segment */ int fixup_imported_mirrors(struct volume_group *vg); /* * From thin_manip.c */ int attach_pool_lv(struct lv_segment *seg, struct logical_volume *pool_lv, struct logical_volume *origin, struct generic_logical_volume *indirect_origin, struct logical_volume *merge_lv); int detach_pool_lv(struct lv_segment *seg); int attach_pool_message(struct lv_segment *pool_seg, dm_thin_message_t type, struct logical_volume *lv, uint32_t delete_id, int no_update); int lv_is_merging_thin_snapshot(const struct logical_volume *lv); int pool_has_message(const struct lv_segment *seg, const struct logical_volume *lv, uint32_t device_id); int pool_metadata_min_threshold(const struct lv_segment *pool_seg); int pool_below_threshold(const struct lv_segment *pool_seg); int pool_check_overprovisioning(const struct logical_volume *lv); int create_pool(struct logical_volume *pool_lv, const struct segment_type *segtype, struct alloc_handle *ah, uint32_t stripes, uint32_t stripe_size); uint64_t estimate_thin_pool_metadata_size(uint32_t data_extents, uint32_t extent_size, uint32_t chunk_size); /* * Begin skeleton for external LVM library */ struct id pv_id(const struct physical_volume *pv); const struct format_type *pv_format_type(const struct physical_volume *pv); struct id pv_vgid(const struct physical_volume *pv); uint64_t find_min_mda_size(struct dm_list *mdas); char *tags_format_and_copy(struct dm_pool *mem, const struct dm_list *tagsl); void set_pv_devices(struct format_instance *fid, struct volume_group *vg, int *found_md_component); #endif