#ifndef LIB_FDISK_H #define LIB_FDISK_H /* Function prototypes and data type definitions for the hard drive */ /* partitioning library. */ /* */ /* Michael Fulbright June 1997 */ /* some includes we'll need for our data types */ #include #include /* stuff to handle errors */ extern int fdisk_nerr; extern char *fdisk_errlist[]; /* internal defines */ #include "constraints.h" /* some useful defines */ #define SECTORSIZE 512 /* offsets within the sector containing partition table of different values */ #define PARTTBLOFF 446 /* start of partition table entries */ #define PARTMAGOFF 510 /* offset of magic bytes */ #define PARTMAGIC 0x55aa /* magic */ /* partition types */ #define UNALLOCATED_PARTITION 0x00 #define DOS_PRIMARY_lt32MEG_PARTITION 0x04 #define DOS_EXTENDED_PARTITION 0x05 #define DOS_PRIMARY_gt32MEG_PARTITION 0x06 #define WIN_VFAT32_PARTITION 0x0b #define WIN_VFAT32_LBA_PARTITION 0x0c #define WIN_VFAT32_HIDDEN_PARTITION 0x1b #define WIN98_EXTENDED_PARTITION 0x0f #define LINUX_LEGACY_PARTITION 0x81 #define LINUX_SWAP_PARTITION 0x82 #define LINUX_NATIVE_PARTITION 0x83 #define LINUX_EXTENDED_PARTITION 0x85 #define LINUX_RAID_PARTITION 0xfd /* use > 255 values for non-physical partitions (remote) */ #define NFS_REMOTE_PARTITION 0x1000 /* some libfdisk errors */ #define FDISK_ERR_SYSTEM -1 /* system error, use errno */ #define FDISK_SUCCESS 0 /* Good job no problems */ #define FDISK_ERR_USERABORT 1 /* user aborted */ #define FDISK_ERR_BADNUM 10 /* bad numeric value passed */ #define FDISK_ERR_BADPTR 11 /* bad ptr value passed */ #define FDISK_ERR_BADMAGIC 12 /* partition table has bad magic */ #define FDISK_ERR_TWOEXT 15 /* two extended partitions! */ #define FDISK_ERR_TWOLOG 16 /* two LP per EPT! */ #define FDISK_ERR_CORRUPT 17 /* something in PT is corrupt */ #define FDISK_ERR_BADCYLBND 18 /* partition(s) do not end on cyl*/ /* boundaries */ #define FDISK_ERR_NOFREE 20 /* unable to allocate a resource */ #define FDISK_ERR_NOFREEPRIM 21 /* unable to allocate a primary */ #define FDISK_ERR_NOFREEEXT 22 /* unable to allocate a extended */ #define FDISK_ERR_INUSE 23 /* resource currently in use */ #define FDISK_ERR_NOPEP 24 /* No Primary Extended Partition */ #define FDISK_ERR_CNSTRFAIL 30 /* constraint(s) failed */ #define FDISK_ERR_BOOTFAIL 31 /* couldnt allocate boot part */ #define FDISK_ERR_EMPTYLOG 32 /* have a logical partition of type 0*/ /* Limits for each constraint type (some like 'type' doesnt make sense) */ #define FDISK_START_MIN 0 #define FDISK_START_MAX UINT_MAX #define FDISK_SIZE_MIN 1 #define FDISK_SIZE_MAX UINT_MAX #define FDISK_ENDCYL_MIN 0 #define FDISK_ENDCYL_MAX UINT_MAX #define FDISK_OFFSET_MIN 0 #define FDISK_OFFSET_MAX UNIT_MAX #define FDISK_DRIVE_MIN 0 #define FDISK_DRIVE_MAX 64 /* types of partitions, used by allocation routines internally */ #define PRIMARY 1 #define LOGICAL 2 #define PRIMARY_EXTENDED 4 /* some low-level data types */ /* these are used only to manipulate sectors read off the disk */ /* ASAP it is converted from this form into a higher level form*/ /* which is easier to manipulate */ struct raw_PartitionEntry { unsigned char active; unsigned char start_head; unsigned char start_sec; unsigned char start_cyl; unsigned char type; unsigned char end_head; unsigned char end_sec; unsigned char end_cyl; unsigned int start; unsigned int size; }; struct raw_PartitionTable { struct raw_PartitionEntry entry[4]; }; /* make these easier to type! */ typedef struct raw_PartitionTable RawPartitionTable; typedef struct raw_PartitionEntry RawPartition; /* THESE ARE THE NEW HIGH LEVEL STRUCTURES */ /* IN PROCESS OF RECODING */ /* */ /* A partition defines a portion of the disk */ /* */ /* Partitions have various attributes: */ /* size & start -> define region of space used */ /* offset -> defined start of data inside partition */ /* used for logical partititons in extended */ /* type -> defines which OS(s) are using partition */ /* active -> can we boot from the partition. used by DOS */ /* num -> Partition #, start at 1. Logical start at 5 */ /* drive -> Which drive can/is the partition on */ /* status -> Various flags used when allocating partitions*/ /* immutable -> If non-zero, do nothing to disturb any of the*/ /* above values. Used to preserve existing part.*/ /* */ /* Partitions DO NOT have to actually define a space on disk used by*/ /* an OS! Can be used (internally by this code) to represent a region*/ /* which is free for allocation, but cannot be moved. Usually this */ /* code tries to rearrange partitions to keep free space in one big */ /* contiguous region. Extended/logical partitions, because of how */ /* they work, can't always be moved around. So it is possible to */ /* have a extended/logical partition pair which exists but is not */ /* allocated to a partition type other than 0. This space is prime */ /* for allocating to the next requested partition. */ /* */ struct fdisk_partition { Constraint num; /* for /dev/hda1, num = 1 */ Constraint start; /* start sector, from start of drive */ Constraint size; /* size in sectors */ Constraint endcyl; /* ending cylinder, exclusive w start*/ Constraint offset; Constraint type; Constraint active; DriveSet drive; /* current driveset constraint */ DriveSet userdrive; /* user specified constraint */ /* can differ if we force constraints */ /* one a bootable partition. Store */ /* user preference in case change partition */ /* mount point and it is no longer bootable */ unsigned int userdriveflag; /* if non-zero userdrive is storing */ /* user preference since we're overriding */ /* for bootable partition */ unsigned int status; /* used to store info for allocating */ unsigned int immutable; /* if non-zero, do not touch anything*/ }; typedef struct fdisk_partition Partition; /* status values */ /* UNAVAILABLE means work has to be done to use it (like make an extended) */ /* UNUSABLE means there is no way to map this space */ #define AVAILABLE 0 #define UNAVAILABLE 1 #define ALLOCATED 2 #define UNUSABLE 4 /* */ /* A hard drive describes a collection of partitions */ /* Each hard drive has several physical characteristics which can affect */ /* the attributes that a partition can contain: */ /* */ /* geometry -> sectors/heads/cylinders of drive */ /* partitions have to start and end on cylinder boundaries */ /* */ /* name -> something like "/dev/hda1" */ /* */ /* fd -> the file descriptor being used to access this drive */ /* */ /* pep -> slot number of the Primary Extended Partion, 0 if none */ /* */ /* table -> array of partition descriptors, indexed by the number */ /* of the partition. Primary partitions range in number from */ /* 1 to 4, while logical partitions start at number 5. */ /* You can have any or all of the primaries defined, but the */ /* logicals always start with 5 and increment upwards. If you*/ /* remove a logical then all the other logicals get renumbred*/ /* Note that sometimes you can remove a logical but the */ /* associated extended partition DOES NOT get removed. This */ /* can happen when a logical partition down the chain of */ /* extended partitions is immutable. */ /* */ /* eptable -> array of extended partition descriptors, indexed by the */ /* number of the logical partition which it encapsulates. */ /* */ /* The partition table describes existing partitions. Entries 1 thru 4 are */ /* for the primary partitions (PPs). At most 1 of these can be an */ /* extended partition (EP). The primary extended partition (PEP) describes */ /* the chunk of the disk in which ALL other logical partitions (LPs) can be.*/ /* Each LP has an associated EP. At the start of each EP is an extended */ /* partition table (EPT). It is possible that an EPT could have up to 4 LPs */ /* defined within a given EP, but we (and all other partitioning software I */ /* can find) limit you to 1 LP per EP. To make more LP within the space */ /* described by the PEP, you make an entry in the EPT describing another EP.*/ /* These EPT make a chain, starting with the PEP and working down. The first*/ /* link on this chain gets a partition number of 5, and the number goes up */ /* by one for each link down the chain. */ /* */ /* Deleting a PP involved just setting its size and type to 0. However, */ /* because of the way the EPT chain works, deleting anything but the tail */ /* link in the EPT chain can have numerous consequences. */ /* Say you have LPs 5 thru 7. You delete LP 5. The EPT for LP 6 now has to */ /* move to the location of the EPT for LP 5, since LP 6 has now become LP 5.*/ /* The old EPT for LP 6 is not used anymore, but LP 6 (now LP 5) will occupy*/ /* at the exact same space on disk. The write routine which takes the */ /* HardDrive structure and writes it to the disk must be aware of these */ /* facts so that EPT and LP stay in the same places as read in. */ /* This routine will write LP 5 first, then 6, etc etc, linking each with */ /* the following. At some point it would be nice if the automatic allocation*/ /* routines could straighten the EPT chain out. */ /* */ /* We mark a partition table entry as available by: */ /* setting its size and type to 0 */ /* settting its status to AVAILABLE <- use this for testing status */ /* We mark a partition used by: */ /* setting its size and type to != 0 */ /* setting its status to ALLOCATED <- use this for testing status */ #if 0 #define FDISK_MAX_PRIMARY 8 #define FDISK_MAX_PRIMARY 4 #endif struct hdLimits { int maxPrimary; int maxPartitions; int skipPartition; /* -1 means don't skip anything */ }; typedef struct { unsigned int heads; unsigned int sectors; unsigned int cylinders; unsigned long start; } HDGeometry; #define MAX_HD_NAMELEN 128 #define MAX_PARTITIONS 64 struct hd_device { char name[MAX_HD_NAMELEN]; char prefix[MAX_HD_NAMELEN]; unsigned int num; /* 'BIOS' number of drive */ HDGeometry geom; unsigned int totalsectors; int fd; unsigned int pep; Partition table[MAX_PARTITIONS+1]; Partition eptable[MAX_PARTITIONS+1]; struct hdLimits limits; int (*write_f) (struct hd_device *hd); #define FDISK_PART_TYPE_DOS 0 #define FDISK_PART_TYPE_SUN 1 #define FDISK_PART_TYPE_BSD 2 int part_type; }; typedef struct hd_device HardDrive; /* functions everyone should see */ #include "rawio.h" #include "primary.h" #include "extended.h" #include "partition.h" #include "partspec.h" #include "alloc.h" #include "fstab.h" #include "fsedit.h" char * nstrdup(const char * foo); void TrimWhitespace( char *s ); int rootOnLoop(unsigned int type, char *item); int rootOnLoopBySpec(PartitionSpec *spec); int badMountPoint(unsigned int type, char * item); int DisksChanged( HardDrive **oldhd, HardDrive **newhd, unsigned int numhd ); int doDeletePartitionSpec( HardDrive **hdarr, unsigned int numhd, PartitionSpec *spec, PartitionSpecEntry *entry); int PartitionSpecToFstab( HardDrive **hdarr, int numhd, PartitionSpec *spec, struct fstab *fstab ); int MergeFstabEntries( HardDrive **hdarr, int numhd, PartitionSpec *spec, struct fstab *fstab ); struct fstab copyRemoteFSFstab(struct fstab * fstab); void MergeRemoteFSFstab(struct fstab *oldfstab, struct fstab *newfstab); int deletePartitionClass(HardDrive ** hd, int numhd, PartitionSpec * spec, int justLinux); #endif