NetBSD/usr.sbin/sysinst/partitions.h

635 lines
22 KiB
C

/* $NetBSD: partitions.h,v 1.22 2021/01/31 22:45:46 rillig Exp $ */
/*
* Copyright (c) 2020 The NetBSD Foundation, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* Abstract interface to access arbitrary disk partitioning schemes and
* keep Sysinst proper independent of the implementation / on-disk
* details.
*
* NOTE:
* - all sector numbers, alignement and sizes are in units of the
* disks physical sector size (not necessarily 512 bytes)!
* - some interfaces pass the disks sector size (when it is easily
* available at typical callers), but the backends can always
* assume it to be equal to the real physical sector size. If
* no value is passed, the backend can query the disk data
* via get_disk_geom().
* - single exception: disk_partitioning_scheme::size_limit is in 512
* byte sectors (as it is not associated with a concrete disk)
*/
#include <sys/types.h>
#include <stdbool.h>
#include "msg_defs.h"
/*
* Import all the file system types, as enum fs_type.
*/
#define FSTYPE_ENUMNAME fs_type
#define FSTYPENAMES
#include <sys/disklabel.h>
#undef FSTYPE_ENUMNAME
#ifndef FS_TMPFS
#define FS_TMPFS 256 /* random value (outside uint8_t range) */
#endif
#ifndef FS_MFS
#define FS_MFS 257 /* another random (out of range) value */
#endif
#define MAX_LABEL_LEN 128 /* max. length of a partition label */
#define MAX_SHORTCUT_LEN 8 /* max. length of a shortcut ("a:") */
/*
* A partition index / handle, identifies a singlepartition within
* a struct disk_partitions. This is just an iterator/index - whenever
* changes to the set of partitions are done, partitions may get a new
* part_id.
* We assume that partitioning schemes keep partitions sorted (with
* key = start address, some schemes will have overlapping partitions,
* like MBR extended partitions).
*/
typedef size_t part_id;
/*
* An invalid value for a partition index / handle
*/
#define NO_PART ((part_id)~0U)
/*
* Intended usage for a partition
*/
enum part_type {
PT_undef, /* invalid value */
PT_unknown, /* anything we can not map to one of these */
PT_root, /* the NetBSD / partition (bootable) */
PT_swap, /* the NetBSD swap partition */
PT_FAT, /* boot partition (e.g. for u-boot) */
PT_EXT2, /* boot partition (for Linux appliances) */
PT_SYSVBFS, /* boot partition (for some SYSV machines) */
PT_EFI_SYSTEM, /* (U)EFI boot partition */
};
/*
* A generic structure describing partition types for menu/user interface
* purposes. The internal details may be richer and the *pointer* value
* is the unique token - that is: the partitioning scheme will hand out
* pointers to internal data and recognize the exact partition type details
* by pointer comparison.
*/
struct part_type_desc {
enum part_type generic_ptype; /* what this maps to in generic terms */
const char *short_desc; /* short type description */
const char *description; /* full description */
};
/* Bits for disk_part_info.flags: */
#define PTI_SEC_CONTAINER 1 /* this covers our secondary
partitions */
#define PTI_WHOLE_DISK 2 /* all of the NetBSD disk */
#define PTI_BOOT 4 /* required for booting */
#define PTI_PSCHEME_INTERNAL 8 /* no user partition, e.g.
MBRs extend partition */
#define PTI_RAW_PART 16 /* total disk */
#define PTI_INSTALL_TARGET 32 /* marks the target partition
* assumed to become / after
* reboot; may not be
* persistent; may only be
* set for a single partition!
*/
/* A single partition */
struct disk_part_info {
daddr_t start, size; /* start and size on disk */
uint32_t flags; /* active PTI_ flags */
const struct part_type_desc *nat_type; /* native partition type */
/*
* The following will only be available
* a) for a small subset of file system types
* b) if the partition (in this state) has already been
* used before
* It is OK to leave all these zeroed / NULL when setting
* partition data - or leave them at the last values a get operation
* returned. Backends can not rely on them to be valid.
*/
const char *last_mounted; /* last mount point or NULL */
unsigned int fs_type, fs_sub_type, /* FS_* type of filesystem
* and for some FS a sub
* type (e.g. FFSv1 vs. FFSv2)
*/
fs_opt1, fs_opt2, fs_opt3; /* FS specific option, used
* for FFS block/fragsize
* and inodes
*/
};
/* An unused area that may be used for new partitions */
struct disk_part_free_space {
daddr_t start, size;
};
/*
* Some partition schemes define additional data that needs to be edited.
* These attributes are described in this structure and referenced by
* their index into the fixed list of available attributes.
*/
enum custom_attr_type { pet_bool, pet_cardinal, pet_str };
struct disk_part_custom_attribute {
msg label; /* Name, like "active partition" */
enum custom_attr_type type; /* bool, long, char* */
size_t strlen; /* maximum length if pet_str */
};
/*
* When displaying a partition editor, we have standard colums, but
* partitioning schemes add custom columns to the table as well.
* There is a fixed number of columns and they are described by this
* structure:
*/
struct disk_part_edit_column_desc {
msg title;
unsigned int width;
};
struct disk_partitions; /* in-memory represenation of a set of partitions */
/*
* When querying partition "device" names, we may ask for:
*/
enum dev_name_usage {
parent_device_only, /* wd0 instead of wd0i, no path */
logical_name, /* NAME=my-root instead of dk7 */
plain_name, /* e.g. /dev/wd0i or /dev/dk7 */
raw_dev_name, /* e.g. /dev/rwd0i or /dev/rdk7 */
};
/*
* A scheme how to store partitions on-disk, and methods to read/write
* them to/from our abstract internal presentation.
*/
struct disk_partitioning_scheme {
/* name of the on-disk scheme, retrieved via msg_string */
msg name, short_name;
/* prompt shown when creating custom partition types */
msg new_type_prompt;
/* description of scheme specific partition flags */
msg part_flag_desc;
/*
* size restrictions for this partitioning scheme (number
* of 512 byte sectors max)
*/
daddr_t size_limit; /* 0 if not limited */
/*
* If this scheme allows sub-partitions (i.e. MBR -> disklabel),
* this is a pointer to the (potential/optional) secondary
* scheme. Depending on partitioning details it may not be
* used in the end.
* This link is only here for better help messages.
* See *secondary_partitions further below for actually accesing
* secondary partitions.
*/
const struct disk_partitioning_scheme *secondary_scheme;
/*
* Partition editor colum descriptions for whatever the scheme
* needs to display (see format_partition_table_str below).
*/
size_t edit_columns_count;
const struct disk_part_edit_column_desc *edit_columns;
/*
* Custom attributes editable by the partitioning scheme (but of
* no particular meaning for sysinst)
*/
size_t custom_attribute_count;
const struct disk_part_custom_attribute *custom_attributes;
/*
* Partition types supported by this scheme,
* first function gets the number, second queries single elements
*/
size_t (*get_part_types_count)(void);
const struct part_type_desc * (*get_part_type)(size_t ndx);
/*
* Get the prefered native representation for a generic partition type
*/
const struct part_type_desc * (*get_generic_part_type)(enum part_type);
/*
* Get the prefered native partition type for a specific file system
* type (FS_*) and subtype (fs specific value)
*/
const struct part_type_desc * (*get_fs_part_type)(
enum part_type, unsigned, unsigned);
/*
* Optional: inverse to above: given a part_type_desc, set default
* fstype and subtype.
*/
bool (*get_default_fstype)(const struct part_type_desc *,
unsigned *fstype, unsigned *fs_sub_type);
/*
* Create a custom partition type. If the type already exists
* (or there is a collision), the old existing type will be
* returned and no new type created. This is not considered
* an error (to keep the user interface simple).
* On failure NULL is returned and (if passed != NULL)
* *err_msg is set to a message describing the error.
*/
const struct part_type_desc * (*create_custom_part_type)
(const char *custom, const char **err_msg);
/*
* Return a usable internal partition type representation
* for types that are not otherwise mappable.
* This could be FS_OTHER for disklabel, or a randomly
* created type guid for GPT. This type may or may not be
* in the regular type list. If not, it needs to behave like a
* custom type.
*/
const struct part_type_desc * (*create_unknown_part_type)(void);
/*
* Global attributes
*/
/*
* Get partition alignment suggestion. The schemen may enforce
* additional/different alignment for some partitions.
*/
daddr_t (*get_part_alignment)(const struct disk_partitions*);
/*
* Methods to manipulate the in-memory abstract representation
*/
/* Retrieve data about a single partition, identified by the part_id.
* Fill the disk_part_info structure
*/
bool (*get_part_info)(const struct disk_partitions*, part_id,
struct disk_part_info*);
/* Optional: fill a atribute string describing the given partition */
bool (*get_part_attr_str)(const struct disk_partitions*, part_id,
char *str, size_t avail_space);
/* Format a partition editor element for the "col" column in
* edit_columns. Used e.g. with MBR to set "active" flags.
*/
bool (*format_partition_table_str)(const struct disk_partitions*,
part_id, size_t col, char *outstr, size_t outspace);
/* is the type of this partition changable? */
bool (*part_type_can_change)(const struct disk_partitions*,
part_id);
/* can we add further partitions? */
bool (*can_add_partition)(const struct disk_partitions*);
/* is the custom attribut changable? */
bool (*custom_attribute_writable)(const struct disk_partitions*,
part_id, size_t attr_no);
/*
* Output formatting for custom attributes.
* If "info" is != NULL, use (where it makes sense)
* values from that structure, as if a call to set_part_info
* would have been done before this call.
*/
bool (*format_custom_attribute)(const struct disk_partitions*,
part_id, size_t attr_no, const struct disk_part_info *info,
char *out, size_t out_space);
/* value setter functions for custom attributes */
/* pet_bool: */
bool (*custom_attribute_toggle)(struct disk_partitions*,
part_id, size_t attr_no);
/* pet_cardinal: */
bool (*custom_attribute_set_card)(struct disk_partitions*,
part_id, size_t attr_no, long new_val);
/* pet_str or pet_cardinal: */
bool (*custom_attribute_set_str)(struct disk_partitions*,
part_id, size_t attr_no, const char *new_val);
/*
* Optional: additional user information when showing the size
* editor (especially for existing unknown partitions)
*/
const char * (*other_partition_identifier)(const struct
disk_partitions*, part_id);
/* Retrieve device and partition names, e.g. for checking
* against kern.root_device or invoking newfs.
* For disklabel partitions, "part" will be set to the partition
* index (a = 0, b = 1, ...), for others it will get set to -1.
* If dev_name_usage is parent_device_only, the device name will
* not include a partition letter - obviously this only makes a
* difference with disklabel partitions.
* If dev_name_usage is logical_name instead of a device name
* a given name may be returned in NAME= syntax.
* If with_path is true (and the returned value is a device
* node), include the /dev/ prefix in the result string
* (this is ignored when returning NAME= syntax for /etc/fstab).
* If life is true, the device must be made available under
* that name (only makes a difference for NAME=syntax if
* no wedge has been created yet,) - implied for all variants
* where dev_name_usage != logical_name.
*/
bool (*get_part_device)(const struct disk_partitions*,
part_id, char *devname, size_t max_devname_len, int *part,
enum dev_name_usage, bool with_path, bool life);
/*
* How big could we resize the given position (start of existing
* partition or free space)
*/
daddr_t (*max_free_space_at)(const struct disk_partitions*, daddr_t);
/*
* Provide a list of free spaces usable for further partitioning,
* assuming the given partition alignment.
* If start is > 0 no space with lower sector numbers will
* be found.
* If ignore is > 0, any partition starting at that sector will
* be considered "free", this is used e.g. when moving an existing
* partition around.
*/
size_t (*get_free_spaces)(const struct disk_partitions*,
struct disk_part_free_space *result, size_t max_num_result,
daddr_t min_space_size, daddr_t align, daddr_t start,
daddr_t ignore /* -1 */);
/*
* Translate a partition description from a foreign partitioning
* scheme as close as possible to what we can handle in add_partition.
* This mostly adjusts flags and partition type pointers (using
* more lose matching than add_partition would do).
*/
bool (*adapt_foreign_part_info)(
const struct disk_partitions *myself, struct disk_part_info *dest,
const struct disk_partitioning_scheme *src_scheme,
const struct disk_part_info *src);
/*
* Update data for an existing partition
*/
bool (*set_part_info)(struct disk_partitions*, part_id,
const struct disk_part_info*, const char **err_msg);
/* Add a new partition and return its part_id. */
part_id (*add_partition)(struct disk_partitions*,
const struct disk_part_info*, const char **err_msg);
/*
* Optional: add a partition from an outer scheme, accept all
* details w/o verification as best as possible.
*/
part_id (*add_outer_partition)(struct disk_partitions*,
const struct disk_part_info*, const char **err_msg);
/* Delete all partitions */
bool (*delete_all_partitions)(struct disk_partitions*);
/* Optional: delete any partitions inside the given range */
bool (*delete_partitions_in_range)(struct disk_partitions*,
daddr_t start, daddr_t size);
/* Delete the specified partition */
bool (*delete_partition)(struct disk_partitions*, part_id,
const char **err_msg);
/*
* Methods for the whole set of partitions
*/
/*
* If this scheme only creates a singly NetBSD partition, which
* then is sub-partitioned (usually by disklabel), this returns a
* pointer to the secondary partition set.
* Otherwise NULL is returned, e.g. when there is no
* NetBSD partition defined (so this might change over time).
* Schemes that NEVER use a secondary scheme set this
* function pointer to NULL.
*
* If force_empty = true, ignore all on-disk contents and just
* create a new disk_partitons structure for the secondary scheme
* (this is used after deleting all partitions and setting up
* things for "use whole disk").
*
* The returned pointer is always owned by the primary partitions,
* caller MUST never free it, but otherwise can manipulate it
* arbitrarily.
*/
struct disk_partitions *
(*secondary_partitions)(struct disk_partitions *, daddr_t start,
bool force_empty);
/*
* Write the whole set (in new_state) back to disk.
*/
bool (*write_to_disk)(struct disk_partitions *new_state);
/*
* Try to read partitions from a disk, return NULL if this is not
* the partitioning scheme in use on that device.
* Usually start and len are 0 (and ignored).
* If this is about a part of a disk (like only the NetBSD
* MBR partition, start and len are the valid part of the
* disk.
*/
struct disk_partitions * (*read_from_disk)(const char *,
daddr_t start, daddr_t len, size_t bytes_per_sec,
const struct disk_partitioning_scheme *);
/*
* Set up all internal data for a new disk.
*/
struct disk_partitions * (*create_new_for_disk)(const char *,
daddr_t start, daddr_t len, bool is_boot_drive,
struct disk_partitions *parent);
/*
* Optional: this scheme may be used to boot from the given disk
*/
bool (*have_boot_support)(const char *disk);
/*
* Optional: try to guess disk geometry from the partition information
*/
int (*guess_disk_geom)(struct disk_partitions *,
int *cyl, int *head, int *sec);
/*
* Return a "cylinder size" (in number of blocks) - whatever that
* means to a particular partitioning scheme.
*/
size_t (*get_cylinder_size)(const struct disk_partitions *);
/*
* Optional: change used geometry info and update internal state
*/
bool (*change_disk_geom)(struct disk_partitions *,
int cyl, int head, int sec);
/*
* Optional:
* Get or set a name for the whole disk (most partitioning
* schemes do not provide this). Used for disklabel "pack names",
* which then may be used for aut-discovery of wedges, so it
* makes sense for the user to edit them.
*/
bool (*get_disk_pack_name)(const struct disk_partitions *,
char *, size_t);
bool (*set_disk_pack_name)(struct disk_partitions *, const char *);
/*
* Optional:
* Find a partition by name (as used in /etc/fstab NAME= entries)
*/
part_id (*find_by_name)(struct disk_partitions *, const char *name);
/*
* Optional:
* Try to guess install target partition from internal data,
* returns true if a safe match was found and sets start/size
* to the target partition.
*/
bool (*guess_install_target)(const struct disk_partitions *,
daddr_t *start, daddr_t *size);
/*
* Optional: verify that the whole set of partitions would be bootable,
* fix up any issues (with user interaction) where needed.
* If "quiet" is true, fix up everything silently if possible
* and never return 1.
* Returns:
* 0: abort install
* 1: re-edit partitions
* 2: use anyway (continue)
*/
int (*post_edit_verify)(struct disk_partitions *, bool quiet);
/*
* Optional: called during updates, before mounting the target disk(s),
* before md_pre_update() is called. Can be used to fixup
* partition info for historic errors (e.g. i386 changing MBR
* partition type from 165 to 169), similar to post_edit_verify.
* Returns:
* true if the partition info has changed (write back required)
* false if nothing further needs to be done.
*/
bool (*pre_update_verify)(struct disk_partitions *);
/* Free all the data */
void (*free)(struct disk_partitions*);
/* Wipe all on-disk state, leave blank disk - and free data */
void (*destroy_part_scheme)(struct disk_partitions*);
/* Scheme global cleanup */
void (*cleanup)(void);
};
/*
* The in-memory representation of all partitions on a concrete disk,
* tied to the partitioning scheme in use.
*
* Concrete schemes will derive from the abstract disk_partitions
* structure (by aggregation), but consumers of the API will only
* ever see this public part.
*/
struct disk_partitions {
/* which partitioning scheme is in use */
const struct disk_partitioning_scheme *pscheme;
/* the disk device this came from (or should go to) */
const char *disk;
/* global/public disk data */
/*
* The basic unit of size used for this disk (all "start",
* "size" and "align" values are in this unit).
*/
size_t bytes_per_sector; /* must be 2^n and >= 512 */
/*
* Valid partitions may have IDs in the range 0 .. num_part (excl.)
*/
part_id num_part;
/*
* If this is a sub-partitioning, the start of the "disk" is
* some arbitrary partition in the parent. Sometimes we need
* to be able to calculate absoluted offsets.
*/
daddr_t disk_start;
/*
* Total size of the disk (usable for partitioning)
*/
daddr_t disk_size;
/*
* Space not yet allocated
*/
daddr_t free_space;
/*
* If this is the secondary partitioning scheme, pointer to
* the outer one. Otherwise NULL.
*/
struct disk_partitions *parent;
};
/*
* A list of partitioning schemes, so we can iterate over everything
* supported (e.g. when partitioning a new disk). NULL terminated.
*/
extern const struct disk_partitioning_scheme **available_part_schemes;
extern size_t num_available_part_schemes;
/*
* Generic reader - query a disk device and read all partitions from it
*/
struct disk_partitions *
partitions_read_disk(const char *, daddr_t disk_size,
size_t bytes_per_sector, bool no_mbr);
/*
* Generic part info adaption, may be overriden by individual partitionin
* schemes
*/
bool generic_adapt_foreign_part_info(
const struct disk_partitions *myself, struct disk_part_info *dest,
const struct disk_partitioning_scheme *src_scheme,
const struct disk_part_info *src);
/*
* One time initialization and clenaup
*/
void partitions_init(void);
void partitions_cleanup(void);