/* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright (c) 1980, 1986, 1990 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that: (1) source distributions retain this entire copyright * notice and comment, and (2) distributions including binaries display * the following acknowledgement: ``This product includes software * developed by the University of California, Berkeley and its contributors'' * in the documentation or other materials provided with the distribution * and in all advertising materials mentioning features or use of this * software. Neither the name of the University nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _FSCK_FSCK_H #define _FSCK_FSCK_H #pragma ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.3 */ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include #include #include #define MAXDUP 10 /* limit on dup blks (per inode) */ #define MAXBAD 10 /* limit on bad blks (per inode) */ #define MAXBUFSPACE 40*1024 /* initial space to allocate to buffers */ #define INOBUFSIZE 56*1024 /* size of buffer to read inodes in pass1 */ #ifndef BUFSIZ #define BUFSIZ MAXPATHLEN #endif /* * Inode states in statemap[]. */ #define USTATE 0x01 /* inode not allocated */ #define FSTATE 0x02 /* inode is file */ #define DSTATE 0x04 /* inode is directory */ #define SSTATE 0x08 /* inode is a shadow/acl */ #define STMASK 0x0f /* pick off the basic state/type */ /* flags OR'd into the above */ #define INZLINK 0x0010 /* inode has zero links */ #define INFOUND 0x0020 /* inode was found during descent */ #define INCLEAR 0x0040 /* inode is to be cleared */ #define INORPHAN 0x0080 /* inode is a known orphan (pass3 only) */ #define INDELAYD 0x0200 /* link count update delayed */ #define INMASK 0xfff0 /* pick off the modifiers */ #define FZLINK (FSTATE | INZLINK) #define DZLINK (DSTATE | INZLINK) #define SZLINK (SSTATE | INZLINK) #define DFOUND (DSTATE | INFOUND) #define DCLEAR (DSTATE | INCLEAR) #define FCLEAR (FSTATE | INCLEAR) #define SCLEAR (SSTATE | INCLEAR) /* * These tests depend on the state/type defines above not overlapping bits. * * DUNFOUND === (state == DSTATE || state == DZLINK) * INCLEAR is irrelevant to the determination of * connectedness, so it's not included in this test. * * DVALID === (state == DSTATE || state == DZLINK || state == DFOUND) */ #define S_IS_DUNFOUND(state) (((state) & (DSTATE | INZLINK)) \ == (state)) #define S_IS_DVALID(state) (((state) & (DSTATE | INZLINK | INFOUND | \ INORPHAN)) == (state)) #define S_IS_ZLINK(state) (((state) & INZLINK) != 0) #define INO_IS_DUNFOUND(ino) S_IS_DUNFOUND(statemap[ino]) #define INO_IS_DVALID(ino) S_IS_DVALID(statemap[ino]) /* * buffer cache structure. */ struct bufarea { struct bufarea *b_next; /* free list queue */ struct bufarea *b_prev; /* free list queue */ diskaddr_t b_bno; /* physical sector number */ int b_size; int b_errs; int b_flags; int b_cnt; /* reference cnt */ union { char *b_buf; /* buffer space */ daddr32_t *b_indir; /* indirect block */ struct fs *b_fs; /* super block */ struct cg *b_cg; /* cylinder group */ struct dinode *b_dinode; /* inode block */ } b_un; char b_dirty; }; #define B_INUSE 1 #define MINBUFS 5 /* minimum number of buffers required */ struct bufarea bufhead; /* head of list of other blks in filesys */ struct bufarea sblk; /* file system superblock */ struct bufarea asblk; /* alternate superblock */ struct bufarea cgblk; /* cylinder group blocks */ struct bufarea *pbp; /* pointer to inode data in buffer pool */ struct bufarea *pdirbp; /* pointer to directory data in buffer pool */ #define sbdirty() dirty(&sblk) #define cgdirty() dirty(&cgblk) #define sblock (*sblk.b_un.b_fs) #define cgrp (*cgblk.b_un.b_cg) /* * inodesc.id_fix values. See inode.c for a description of their usage. */ enum fixstate { DONTKNOW, NOFIX, FIX, IGNORE }; /* * Tells truncino() whether or not to attempt to update the parent * directory's link count. Also, TI_NODUP flags when we're discarding * fragments that are beyond the original end of the file, and so * should not be considered duplicate-claim candidates. */ #define TI_NOPARENT 0x0001 /* leave parent's di_nlink alone */ #define TI_PARENT 0x0002 /* update parent's di_nlink */ #define TI_NODUP 0x0004 /* not a dup candidate */ /* * Modes for ckinode() and ckinode_common(). * * CKI_TRAVERSE is the common case, and requests a traditional * traversal of blocks or directory entries. * * CKI_TRUNCATE indicates that we're truncating the file, and that any * block indices beyond the end of the target length should be cleared * after the callback has returned (i.e., this is a superset of * CKI_TRAVERSE). idesc->id_truncto is the first logical block number * to clear. If it is less than zero, then the traversal will be * equivalent to a simple CKI_TRAVERSE. */ enum cki_action { CKI_TRAVERSE, CKI_TRUNCATE }; /* * The general definition of an ino_t is an unsigned quantity. * However, the on-disk version is an int32_t, which is signed. * Since we really want to be able to detect wrapped-around * inode numbers and such, we'll use something that's compatible * with what's on disk since that's the only context that really * matters. If an int32_t is found not to be sufficiently large, * this will make it much easier to change later. * * Note that there is one unsigned inode field in the on-disk * inode, ic_oeftflag. Since all other inode fields are signed, * no legitimate inode number can be put into ic_oeftflag that * would overflow into the high bit. Essentially, it should * actually be declared as int32_t just like all the others, and * we're going to pretend that it was. * * None of the routines that we use in ufs_subr.c do anything with * inode numbers. If that changes, then great care will be needed * to deal with the differences in definition of ino_t and fsck_ino_t. * Lint is your friend. */ typedef int32_t fsck_ino_t; /* * See the full discussion of the interactions between struct inodesc * and ckinode() in inode.c */ struct inodesc { enum fixstate id_fix; /* policy on fixing errors */ int (*id_func)(struct inodesc *); /* function to be applied to blocks of inode */ fsck_ino_t id_number; /* inode number described */ fsck_ino_t id_parent; /* for DATA nodes, their parent */ /* also used for extra (*id_func) parameter */ /* and return values */ daddr32_t id_lbn; /* logical fragment number of current block */ daddr32_t id_blkno; /* physical fragment number being examined */ int id_numfrags; /* number of frags contained in block */ daddr32_t id_truncto; /* # blocks to truncate to, -1 for no trunc. */ offset_t id_filesize; /* for DATA nodes, the size of the directory */ uint_t id_loc; /* for DATA nodes, current location in dir */ daddr32_t id_entryno; /* for DATA nodes, current dir entry number */ daddr32_t id_firsthole; /* for DATA inode, logical block that is */ /* zero but shouldn't be, -1 for no holes */ struct direct *id_dirp; /* for DATA nodes, ptr to current entry */ caddr_t id_name; /* for DATA nodes, name to find or enter */ char id_type; /* type of descriptor, DATA or ADDR */ }; /* file types (0 is reserved for catching bugs) */ #define DATA 1 /* a directory */ #define ACL 2 /* an acl/shadow */ #define ADDR 3 /* anything but a directory or an acl/shadow */ /* * OR'd flags for find_dup_ref()'s mode argument */ #define DB_CREATE 0x01 /* if dup record found, make one */ #define DB_INCR 0x02 /* increment block's reference count */ #define DB_DECR 0x04 /* decrement block's reference count */ /* * Cache data structures */ struct inoinfo { struct inoinfo *i_nextlist; /* next inode/acl cache entry */ fsck_ino_t i_number; /* inode number of this entry */ fsck_ino_t i_parent; /* inode number of parent */ fsck_ino_t i_dotdot; /* inode number of .. */ fsck_ino_t i_extattr; /* inode of hidden attr dir */ offset_t i_isize; /* size of inode */ size_t i_blkssize; /* size of block array in bytes */ daddr32_t i_blks[1]; /* actually longer */ }; /* * Inode cache */ struct inoinfo **inphead, **inpsort; int64_t numdirs, listmax, inplast; /* * ACL cache */ struct inoinfo **aclphead, **aclpsort; int64_t numacls, aclmax, aclplast; /* * Tree of directories we haven't reconnected or cleared. Any * dir inode that linkup() fails on gets added, any that clri() * succeeds on gets removed. If there are any left at the end of * pass four, then we have a user-forced corrupt filesystem, and * need to set iscorrupt. * * Elements are fsck_ino_t instances (not pointers). */ void *limbo_dirs; /* * Number of directories we actually found in the filesystem, * as opposed to how many the superblock claims there are. */ fsck_ino_t countdirs; /* * shadowclients and shadowclientinfo are structures for keeping track of * shadow inodes that exist, and which regular inodes use them (i.e. are * their clients). */ struct shadowclients { fsck_ino_t *client; /* an array of inode numbers */ int nclients; /* how many inodes in the array are in use (valid) */ struct shadowclients *next; /* link to more client inode numbers */ }; struct shadowclientinfo { fsck_ino_t shadow; /* the shadow inode that this info is for */ int totalClients; /* how many inodes total refer to this */ struct shadowclients *clients; /* a linked list of wads of clients */ struct shadowclientinfo *next; /* link to the next shadow inode */ }; /* global pointer to this shadow/client information */ struct shadowclientinfo *shadowclientinfo; struct shadowclientinfo *attrclientinfo; /* * In ufs_inode.h ifdef _KERNEL, this is defined as `/@/'. However, * to avoid all sorts of potential confusion (you can't actually use * `foo/@/bar' to get to an attribute), we use something that doesn't * look quite so much like a simple pathname. */ #define XATTR_DIR_NAME " " /* * granularity -- how many client inodes do we make space for at a time * initialized in setup.c; */ extern int maxshadowclients; /* * Initialized global variables. */ extern caddr_t lfname; /* * Unitialized globals. */ char *devname; /* name of device being checked */ size_t dev_bsize; /* computed value of DEV_BSIZE */ int secsize; /* actual disk sector size */ char nflag; /* assume a no response */ char yflag; /* assume a yes response */ daddr32_t bflag; /* location of alternate super block */ int debug; /* output debugging info */ int rflag; /* check raw file systems */ int roflag; /* do normal checks but don't update disk */ int fflag; /* check regardless of clean flag (force) */ int mflag; /* sanity check only */ int verbose; /* be chatty */ char preen; /* just fix normal inconsistencies */ char mountedfs; /* checking mounted device */ int exitstat; /* exit status (see EX* defines below) */ char hotroot; /* checking root device */ char rerun; /* rerun fsck. Only used in non-preen mode */ int interrupted; /* 1 => exit EXSIGNAL on exit */ char havesb; /* superblock has been read */ int fsmodified; /* 1 => write done to file system */ int fsreadfd; /* file descriptor for reading file system */ int fswritefd; /* file descriptor for writing file system */ int iscorrupt; /* known to be corrupt/inconsistent */ /* -1 means mark clean so user can mount+fix */ int isdirty; /* 1 => write pending to file system */ int islog; /* logging file system */ int islogok; /* log is okay */ int errorlocked; /* set => mounted fs has been error-locked */ /* implies fflag "force check flag" */ char *elock_combuf; /* error lock comment buffer */ char *elock_mountp; /* mount point; used to unlock error-lock */ int pid; /* fsck's process id (put in lockfs comment) */ int mountfd; /* fd of mount point */ struct lockfs *lfp; /* current lockfs status */ daddr32_t maxfsblock; /* number of blocks in the file system */ uint_t largefile_count; /* global largefile counter */ char *mount_point; /* if mounted, this is where */ char *blockmap; /* ptr to primary blk allocation map */ fsck_ino_t maxino; /* number of inodes in file system */ fsck_ino_t lastino; /* last inode in use */ ushort_t *statemap; /* ptr to inode state table */ short *lncntp; /* ptr to link count table */ fsck_ino_t lfdir; /* lost & found directory inode number */ int overflowed_lf; /* tried to wrap lost & found's link count */ int reattached_dir; /* reconnected at least one directory */ int broke_dir_link; /* broke at least one directory hardlink */ daddr32_t n_blks; /* number of blocks in use */ fsck_ino_t n_files; /* number of files in use */ #define clearinode(dp) { \ *(dp) = zino; \ } struct dinode zino; #define testbmap(blkno) isset(blockmap, blkno) #define setbmap(blkno) setbit(blockmap, blkno) #define clrbmap(blkno) clrbit(blockmap, blkno) #define STOP 0x01 #define SKIP 0x02 #define KEEPON 0x04 #define ALTERED 0x08 #define FOUND 0x10 /* * Support relatively easy debugging of lncntp[] updates. This can't * be a function, because of the (_op) step. Normally, we just do that. */ #define TRACK_LNCNTP(_ino, _op) (_op) /* * See if the net link count for an inode has gone outside * what can be represented on disk. Returning text as NULL * indicates no. * * Remember that link counts are effectively inverted, so * underflow and overflow are reversed as well. * * This check should be done before modifying the actual link * count. */ #define LINK_RANGE(text, current, offset) { \ int net = ((int)(current)) + ((int)(offset)); \ text = NULL; \ if (net > (MAXLINK)) \ text = "UNDERFLOW"; \ else if (net < -(MAXLINK)) \ text = "OVERFLOW"; \ } /* * If LINK_RANGE() indicated a problem, this is the boiler-plate * for dealing with it. Usage is: * * LINK_RANGE(text, current, offset); * if (text != NULL) { * LINK_CLEAR(text, ino, mode, idp); * if (statemap[ino] == USTATE) * ...inode was cleared... * } * * Note that clri() will set iscorrupt if the user elects not to * clear the problem inode, so the filesystem won't get reported * as clean when it shouldn't be. */ #define LINK_CLEAR(text, ino, mode, idp) { \ pwarn("%s LINK COUNT %s", file_id((ino), (mode)), (text)); \ pinode((ino)); \ pfatal(""); \ init_inodesc((idp)); \ (idp)->id_type = ADDR; \ (idp)->id_func = pass4check; \ (idp)->id_number = ino; \ (idp)->id_fix = DONTKNOW; \ clri((idp), (text), CLRI_QUIET, CLRI_NOP_CORRUPT); \ } /* * Used for checking link count under/overflow specifically on * the lost+found directory. If the user decides not to do the * clri(), then flag that we've hit this problem and refuse to do * the reconnect. */ #define LFDIR_LINK_RANGE_RVAL(text, current, offset, idp, rval) { \ LINK_RANGE(text, current, offset); \ if (text != NULL) { \ LINK_CLEAR(text, lfdir, IFDIR, idp); \ if (statemap[lfdir] == USTATE) { \ lfdir = 0; \ return (rval); \ } else { \ overflowed_lf++; \ } \ } \ } #define LFDIR_LINK_RANGE_NORVAL(text, current, offset, idp) { \ LINK_RANGE(text, current, offset); \ if (text != NULL) { \ LINK_CLEAR(text, lfdir, IFDIR, idp); \ if (statemap[lfdir] == USTATE) { \ lfdir = 0; \ return; \ } else { \ overflowed_lf++; \ } \ } \ } /* * Values for mounted() and mountedfs. */ #define M_NOMNT 0 /* filesystem is not mounted */ #define M_RO 1 /* filesystem is mounted read-only */ #define M_RW 2 /* filesystem is mounted read-write */ #define EXOKAY 0 /* file system is unmounted and ok */ #define EXBADPARM 1 /* bad parameter(s) given */ #define EXUMNTCHK 32 /* fsck -m: unmounted, needs checking */ #define EXMOUNTED 33 /* file system already mounted, not magic, */ /* or it is magic and mounted read/write */ #define EXNOSTAT 34 /* cannot stat device */ #define EXREBOOTNOW 35 /* modified root or something equally scary */ #define EXFNDERRS 36 /* uncorrectable errors, terminate normally */ #define EXSIGNAL 37 /* a signal was caught during processing */ #define EXERRFATAL 39 /* uncorrectable errors, exit immediately */ #define EXROOTOKAY 40 /* for root, same as 0 */ /* * Values for clri()'s `verbose' and `corrupting' arguments (third * and fourth, respectively). */ #define CLRI_QUIET 1 #define CLRI_VERBOSE 2 #define CLRI_NOP_OK 1 #define CLRI_NOP_CORRUPT 2 /* * Filesystems that are `magical' - if they exist in vfstab, * then they have to be mounted for the system to have gotten * far enough to be able to run fsck. Thus, don't get all * bent out of shape if we're asked to check it and it is mounted. * Actual initialization of the array is in main.c */ enum magic { MAGIC_NONE = 0, MAGIC_ROOT = 1, MAGIC_USR = 2, MAGIC_VAR = 3, MAGIC_LIMIT = 4 }; extern char *magic_fs[]; /* * Paths needed by calcsb(). */ #define MKFS_PATH "/usr/lib/fs/ufs/mkfs" #define NEWFS_PATH "/usr/lib/fs/ufs/newfs" int acltypeok(struct dinode *); void add_orphan_dir(fsck_ino_t); void adjust(struct inodesc *, int); daddr32_t allocblk(int); fsck_ino_t allocdir(fsck_ino_t, fsck_ino_t, int, int); fsck_ino_t allocino(fsck_ino_t, int); void blkerror(fsck_ino_t, caddr_t, daddr32_t, daddr32_t); void brelse(struct bufarea *); void bufinit(void); void bwrite(int, caddr_t, diskaddr_t, int64_t); void cacheacl(struct dinode *, fsck_ino_t); void cacheino(struct dinode *, fsck_ino_t); void catch(int); void catchquit(int); caddr_t cg_sanity(struct cg *, int, int *); void cgflush(void); int cgisdirty(void); int changeino(fsck_ino_t, caddr_t, fsck_ino_t); int check_mnttab(caddr_t, caddr_t, size_t); int check_vfstab(caddr_t, caddr_t, size_t); int chkrange(daddr32_t, int); void ckfini(void); int ckinode(struct dinode *, struct inodesc *, enum cki_action); void clearattrref(fsck_ino_t); int cleardirentry(fsck_ino_t, fsck_ino_t); void clearshadow(fsck_ino_t, struct shadowclientinfo **); void clri(struct inodesc *, caddr_t, int, int); void deshadow(struct shadowclientinfo *, void (*)(fsck_ino_t)); void direrror(fsck_ino_t, caddr_t, ...); int dirscan(struct inodesc *); void dirty(struct bufarea *); int do_errorlock(int); int dofix(struct inodesc *, caddr_t, ...); void examinelog(daddr32_t, void (*)(daddr32_t)); void errexit(caddr_t, ...); void fileerror(fsck_ino_t, fsck_ino_t, caddr_t, ...); caddr_t file_id(fsck_ino_t, mode_t); int find_dup_ref(daddr32_t, fsck_ino_t, daddr32_t, int); int findino(struct inodesc *); int findname(struct inodesc *); void fix_cg(struct cg *, int); void flush(int, struct bufarea *); void free_dup_state(void); void freeblk(fsck_ino_t, daddr32_t, int); void freeino(fsck_ino_t, int); void freeinodebuf(void); int fsck_asprintf(caddr_t *, caddr_t, ...); int fsck_bread(int, caddr_t, diskaddr_t, size_t); int ftypeok(struct dinode *); struct bufarea *getblk(struct bufarea *, daddr32_t, size_t); struct bufarea *getdatablk(daddr32_t, size_t size); diskaddr_t getdisksize(caddr_t, int); struct inoinfo *getinoinfo(fsck_ino_t); struct dinode *getnextinode(fsck_ino_t); struct dinode *getnextrefresh(void); void getpathname(caddr_t, fsck_ino_t, fsck_ino_t); struct dinode *ginode(fsck_ino_t); caddr_t hasvfsopt(struct vfstab *, caddr_t); int have_dups(void); void init_inodesc(struct inodesc *); void init_inoinfo(struct inoinfo *, struct dinode *, fsck_ino_t); void initbarea(struct bufarea *); int ino_t_cmp(const void *, const void *); int inocached(fsck_ino_t); void inocleanup(void); void inodirty(void); int is_errorlocked(caddr_t); int linkup(fsck_ino_t, fsck_ino_t, caddr_t); int lookup_named_ino(fsck_ino_t, caddr_t); int makeentry(fsck_ino_t, fsck_ino_t, caddr_t); void maybe_convert_attrdir_to_dir(fsck_ino_t); int mounted(caddr_t, caddr_t, size_t); void pass1(void); void pass1b(void); int pass1check(struct inodesc *); void pass2a(void); void pass2b(void); void pass3a(void); void pass3b(void); int pass3bcheck(struct inodesc *); void pass4(void); int pass4check(struct inodesc *); void pass5(void); void pfatal(caddr_t, ...); void pinode(fsck_ino_t); void printclean(void); void propagate(void); void pwarn(caddr_t, ...); caddr_t rawname(caddr_t); void registershadowclient(fsck_ino_t, fsck_ino_t, struct shadowclientinfo **); void remove_orphan_dir(fsck_ino_t); int reply(caddr_t, ...); int report_dups(int); void resetinodebuf(void); char *setup(caddr_t); void truncino(fsck_ino_t, offset_t, int); void unbufinit(void); caddr_t unrawname(caddr_t); void unregistershadow(fsck_ino_t, struct shadowclientinfo **); int updateclean(void); int writable(caddr_t); void write_altsb(int); /* * Functions from the kernel sources (ufs_subr.c, etc). */ extern void fragacct(struct fs *, int, int32_t *, int); #ifdef __cplusplus } #endif #endif /* _FSCK_FSCK_H */