/* $NetBSD: lfs.h,v 1.204.4.1 2020/08/17 10:30:22 martin Exp $ */ /* from NetBSD: dinode.h,v 1.25 2016/01/22 23:06:10 dholland Exp */ /* from NetBSD: dir.h,v 1.25 2015/09/01 06:16:03 dholland Exp */ /*- * Copyright (c) 1999, 2000, 2001, 2002, 2003 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Konrad E. Schroder . * * 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. */ /*- * Copyright (c) 1991, 1993 * The Regents of the University of California. 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. * 3. 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 BY THE REGENTS 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 REGENTS 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. * * @(#)lfs.h 8.9 (Berkeley) 5/8/95 */ /* * Copyright (c) 2002 Networks Associates Technology, Inc. * All rights reserved. * * This software was developed for the FreeBSD Project by Marshall * Kirk McKusick and Network Associates Laboratories, the Security * Research Division of Network Associates, Inc. under DARPA/SPAWAR * contract N66001-01-C-8035 ("CBOSS"), as part of the DARPA CHATS * research program * * Copyright (c) 1982, 1989, 1993 * The Regents of the University of California. All rights reserved. * (c) UNIX System Laboratories, Inc. * All or some portions of this file are derived from material licensed * to the University of California by American Telephone and Telegraph * Co. or Unix System Laboratories, Inc. and are reproduced herein with * the permission of UNIX System Laboratories, Inc. * * 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. * 3. 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 BY THE REGENTS 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 REGENTS 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. * * @(#)dinode.h 8.9 (Berkeley) 3/29/95 */ /* * Copyright (c) 1982, 1986, 1989, 1993 * The Regents of the University of California. All rights reserved. * (c) UNIX System Laboratories, Inc. * All or some portions of this file are derived from material licensed * to the University of California by American Telephone and Telegraph * Co. or Unix System Laboratories, Inc. and are reproduced herein with * the permission of UNIX System Laboratories, Inc. * * 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. * 3. 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 BY THE REGENTS 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 REGENTS 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. * * @(#)dir.h 8.5 (Berkeley) 4/27/95 */ /* * NOTE: COORDINATE ON-DISK FORMAT CHANGES WITH THE FREEBSD PROJECT. */ #ifndef _UFS_LFS_LFS_H_ #define _UFS_LFS_LFS_H_ #if !defined(_KERNEL) && !defined(_STANDALONE) #include /* for offsetof */ #endif #include #include #include #include #include #include /* * Compile-time options for LFS. */ #define LFS_IFIND_RETRIES 16 #define LFS_LOGLENGTH 1024 /* size of debugging log */ #define LFS_MAX_ACTIVE 10 /* Dirty segments before ckp forced */ /* * Fixed filesystem layout parameters */ #define LFS_LABELPAD 8192 /* LFS label size */ #define LFS_SBPAD 8192 /* LFS superblock size */ #define LFS_UNUSED_INUM 0 /* 0: out of band inode number */ #define LFS_IFILE_INUM 1 /* 1: IFILE inode number */ /* 2: Root inode number */ #define LFS_LOSTFOUNDINO 3 /* 3: lost+found inode number */ #define LFS_FIRST_INUM 4 /* 4: first free inode number */ /* * The root inode is the root of the file system. Inode 0 can't be used for * normal purposes and historically bad blocks were linked to inode 1, thus * the root inode is 2. (Inode 1 is no longer used for this purpose, however * numerous dump tapes make this assumption, so we are stuck with it). */ #define ULFS_ROOTINO ((ino_t)2) /* * The Whiteout inode# is a dummy non-zero inode number which will * never be allocated to a real file. It is used as a place holder * in the directory entry which has been tagged as a LFS_DT_WHT entry. * See the comments about ULFS_ROOTINO above. */ #define ULFS_WINO ((ino_t)1) #define LFS_V1_SUMMARY_SIZE 512 /* V1 fixed summary size */ #define LFS_DFL_SUMMARY_SIZE 512 /* Default summary size */ #define LFS_MAXNAMLEN 255 /* maximum name length in a dir */ #define ULFS_NXADDR 2 #define ULFS_NDADDR 12 /* Direct addresses in inode. */ #define ULFS_NIADDR 3 /* Indirect addresses in inode. */ /* * Adjustable filesystem parameters */ #ifndef LFS_ATIME_IFILE # define LFS_ATIME_IFILE 0 /* Store atime info in ifile (optional in LFSv1) */ #endif #define LFS_MARKV_MAXBLKCNT 65536 /* Max block count for lfs_markv() */ /* * Directories */ /* * Directories in LFS are files; they use the same inode and block * mapping structures that regular files do. The directory per se is * manifested in the file contents: an unordered, unstructured * sequence of variable-size directory entries. * * This format and structure is taken (via what was originally shared * ufs-level code) from FFS. Each directory entry is a fixed header * followed by a string, the total length padded to a 4-byte boundary. * All strings include a null terminator; the maximum string length * is LFS_MAXNAMLEN, which is 255. * * The directory entry header structure (struct lfs_dirheader) is just * the header information. A complete entry is this plus a null- * terminated name following it, plus some amount of padding. The * length of the name (not including the null terminator) is given by * the namlen field of the header; the complete record length, * including the null terminator and padding, is given by the reclen * field of the header. The record length is always 4-byte aligned. * (Even on 64-bit volumes, the record length is only 4-byte aligned, * not 8-byte.) * * Historically, FFS directories were/are organized into blocks of * size DIRBLKSIZE that can be written atomically to disk at the * hardware level. Directory entries are not allowed to cross the * boundaries of these blocks. The resulting atomicity is important * for the integrity of FFS volumes; however, for LFS it's irrelevant. * All we have to care about is not writing out directories that * confuse earlier ufs-based versions of the LFS code. * * This means [to be determined]. (XXX) * * As DIRBLKSIZE in its FFS sense is hardware-dependent, and file * system images do from time to time move to different hardware, code * that reads directories should be prepared to handle directories * written in a context where DIRBLKSIZE was different (smaller or * larger) than its current value. Note however that it is not * sensible for DIRBLKSIZE to be larger than the volume fragment size, * and not practically possible for it to be larger than the volume * block size. * * Some further notes: * - the LFS_DIRSIZ macro provides the minimum space needed to hold * a directory entry. * - any particular entry may be arbitrarily larger (which is why the * header stores both the entry size and the name size) to pad out * unused space. * - historically the padding in an entry is not necessarily zeroed * but may contain trash. * - dp->d_reclen is the size of the entry. This is always 4-byte * aligned. * - dp->d_namlen is the length of the string, and should always be * the same as strlen(dp->d_name). * - in particular, space available in an entry is given by * dp->d_reclen - LFS_DIRSIZ(dp), and all space available within a * directory block is tucked away within an existing entry. * - all space within a directory block is part of some entry. * - therefore, inserting a new entry requires finding and * splitting a suitable existing entry, and when entries are * removed their space is merged into the entry ahead of them. * - an empty/unused entry has d_ino set to 0. This normally only * appears in the first entry in a block, as elsewhere the unused * entry should have been merged into the one before it. However, * fsck leaves such entries behind so they must be tolerated * elsewhere. * - a completely empty directory block has one entry whose * d_reclen is DIRBLKSIZ and whose d_ino is 0. * * The "old directory format" referenced by the fs->lfs_isolddirfmt * flag (and some other things) refers to when the type field was * added to directory entries. This change was made to FFS in the 80s, * well before LFS was first written; there should be no LFS volumes * (and certainly no LFS v2-format volumes or LFS64 volumes) where the * old format pertains. All of the related logic should probably be * removed; however, it hasn't been yet, and we get to carry it around * until we can be conclusively sure it isn't needed. * * In the "old directory format" there is no type field and the namlen * field is correspondingly 16 bits wide. On big-endian volumes this * has no effect: namlen cannot exceed 255, so the upper byte is * always 0 and this reads back from the type field as LFS_DT_UNKNOWN. * On little-endian volumes, the namlen field will always be 0 and * the namlen value needs to be read out of the type field. (The type * is always LFS_DT_UNKNOWN.) The directory accessor functions take * care of this so nothing else needs to be aware of it. * * LFS_OLDDIRFMT and LFS_NEWDIRFMT are code numbers for the old and * new directory format respectively. These codes do not appear on * disk; they're generated from a runtime macro called FSFMT() that's * cued by other things. This is why (confusingly) LFS_OLDDIRFMT is 1 * and LFS_NEWDIRFMT is 0. * * FSFMT(), LFS_OLDDIRFMT, and LFS_NEWDIRFMT should be removed. (XXX) */ /* * Directory block size. */ #undef LFS_DIRBLKSIZ #define LFS_DIRBLKSIZ DEV_BSIZE /* * Convert between stat structure type codes and directory entry type codes. */ #define LFS_IFTODT(mode) (((mode) & 0170000) >> 12) #define LFS_DTTOIF(dirtype) ((dirtype) << 12) /* * Theoretically, directories can be more than 2Gb in length; however, in * practice this seems unlikely. So, we define the type doff_t as a 32-bit * quantity to keep down the cost of doing lookup on a 32-bit machine. */ #define doff_t int32_t #define lfs_doff_t int32_t #define LFS_MAXDIRSIZE (0x7fffffff) /* * File types for d_type */ #define LFS_DT_UNKNOWN 0 #define LFS_DT_FIFO 1 #define LFS_DT_CHR 2 #define LFS_DT_DIR 4 #define LFS_DT_BLK 6 #define LFS_DT_REG 8 #define LFS_DT_LNK 10 #define LFS_DT_SOCK 12 #define LFS_DT_WHT 14 /* * (See notes above) */ struct lfs_dirheader32 { uint32_t dh_ino; /* inode number of entry */ uint16_t dh_reclen; /* length of this record */ uint8_t dh_type; /* file type, see below */ uint8_t dh_namlen; /* length of string in d_name */ }; __CTASSERT(sizeof(struct lfs_dirheader32) == 8); struct lfs_dirheader64 { uint64_t dh_ino; /* inode number of entry */ uint16_t dh_reclen; /* length of this record */ uint8_t dh_type; /* file type, see below */ uint8_t dh_namlen; /* length of string in d_name */ } __aligned(4) __packed; __CTASSERT(sizeof(struct lfs_dirheader64) == 12); union lfs_dirheader { struct lfs_dirheader64 u_64; struct lfs_dirheader32 u_32; }; __CTASSERT(__alignof(union lfs_dirheader) == __alignof(struct lfs_dirheader64)); __CTASSERT(__alignof(union lfs_dirheader) == __alignof(struct lfs_dirheader32)); typedef union lfs_dirheader LFS_DIRHEADER; /* * Template for manipulating directories. */ struct lfs_dirtemplate32 { struct lfs_dirheader32 dot_header; char dot_name[4]; /* must be multiple of 4 */ struct lfs_dirheader32 dotdot_header; char dotdot_name[4]; /* ditto */ }; __CTASSERT(sizeof(struct lfs_dirtemplate32) == 2*(8 + 4)); struct lfs_dirtemplate64 { struct lfs_dirheader64 dot_header; char dot_name[4]; /* must be multiple of 4 */ struct lfs_dirheader64 dotdot_header; char dotdot_name[4]; /* ditto */ }; __CTASSERT(sizeof(struct lfs_dirtemplate64) == 2*(12 + 4)); union lfs_dirtemplate { struct lfs_dirtemplate64 u_64; struct lfs_dirtemplate32 u_32; }; #if 0 /* * This is the old format of directories, sans type element. */ struct lfs_odirtemplate { uint32_t dot_ino; int16_t dot_reclen; uint16_t dot_namlen; char dot_name[4]; /* must be multiple of 4 */ uint32_t dotdot_ino; int16_t dotdot_reclen; uint16_t dotdot_namlen; char dotdot_name[4]; /* ditto */ }; __CTASSERT(sizeof(struct lfs_odirtemplate) == 2*(8 + 4)); #endif /* * Inodes */ /* * A dinode contains all the meta-data associated with a LFS file. * This structure defines the on-disk format of a dinode. Since * this structure describes an on-disk structure, all its fields * are defined by types with precise widths. */ struct lfs32_dinode { uint16_t di_mode; /* 0: IFMT, permissions; see below. */ int16_t di_nlink; /* 2: File link count. */ uint32_t di_inumber; /* 4: Inode number. */ uint64_t di_size; /* 8: File byte count. */ int32_t di_atime; /* 16: Last access time. */ int32_t di_atimensec; /* 20: Last access time. */ int32_t di_mtime; /* 24: Last modified time. */ int32_t di_mtimensec; /* 28: Last modified time. */ int32_t di_ctime; /* 32: Last inode change time. */ int32_t di_ctimensec; /* 36: Last inode change time. */ int32_t di_db[ULFS_NDADDR]; /* 40: Direct disk blocks. */ int32_t di_ib[ULFS_NIADDR]; /* 88: Indirect disk blocks. */ uint32_t di_flags; /* 100: Status flags (chflags). */ uint32_t di_blocks; /* 104: Blocks actually held. */ int32_t di_gen; /* 108: Generation number. */ uint32_t di_uid; /* 112: File owner. */ uint32_t di_gid; /* 116: File group. */ uint64_t di_modrev; /* 120: i_modrev for NFSv4 */ }; __CTASSERT(sizeof(struct lfs32_dinode) == 128); struct lfs64_dinode { uint16_t di_mode; /* 0: IFMT, permissions; see below. */ int16_t di_nlink; /* 2: File link count. */ uint32_t di_uid; /* 4: File owner. */ uint32_t di_gid; /* 8: File group. */ uint32_t di_blksize; /* 12: Inode blocksize. */ uint64_t di_size; /* 16: File byte count. */ uint64_t di_blocks; /* 24: Bytes actually held. */ int64_t di_atime; /* 32: Last access time. */ int64_t di_mtime; /* 40: Last modified time. */ int64_t di_ctime; /* 48: Last inode change time. */ int64_t di_birthtime; /* 56: Inode creation time. */ int32_t di_mtimensec; /* 64: Last modified time. */ int32_t di_atimensec; /* 68: Last access time. */ int32_t di_ctimensec; /* 72: Last inode change time. */ int32_t di_birthnsec; /* 76: Inode creation time. */ int32_t di_gen; /* 80: Generation number. */ uint32_t di_kernflags; /* 84: Kernel flags. */ uint32_t di_flags; /* 88: Status flags (chflags). */ int32_t di_extsize; /* 92: External attributes block. */ int64_t di_extb[ULFS_NXADDR];/* 96: External attributes block. */ int64_t di_db[ULFS_NDADDR]; /* 112: Direct disk blocks. */ int64_t di_ib[ULFS_NIADDR]; /* 208: Indirect disk blocks. */ uint64_t di_modrev; /* 232: i_modrev for NFSv4 */ uint64_t di_inumber; /* 240: Inode number */ uint64_t di_spare[1]; /* 248: Reserved; currently unused */ }; __CTASSERT(sizeof(struct lfs64_dinode) == 256); union lfs_dinode { struct lfs64_dinode u_64; struct lfs32_dinode u_32; }; __CTASSERT(__alignof(union lfs_dinode) == __alignof(struct lfs64_dinode)); __CTASSERT(__alignof(union lfs_dinode) == __alignof(struct lfs32_dinode)); /* * The di_db fields may be overlaid with other information for * file types that do not have associated disk storage. Block * and character devices overlay the first data block with their * dev_t value. Short symbolic links place their path in the * di_db area. */ #define di_rdev di_db[0] /* Size of the on-disk inode. */ //#define LFS_DINODE1_SIZE (sizeof(struct ulfs1_dinode)) /* 128 */ //#define LFS_DINODE2_SIZE (sizeof(struct ulfs2_dinode)) /* File types, found in the upper bits of di_mode. */ #define LFS_IFMT 0170000 /* Mask of file type. */ #define LFS_IFIFO 0010000 /* Named pipe (fifo). */ #define LFS_IFCHR 0020000 /* Character device. */ #define LFS_IFDIR 0040000 /* Directory file. */ #define LFS_IFBLK 0060000 /* Block device. */ #define LFS_IFREG 0100000 /* Regular file. */ #define LFS_IFLNK 0120000 /* Symbolic link. */ #define LFS_IFSOCK 0140000 /* UNIX domain socket. */ #define LFS_IFWHT 0160000 /* Whiteout. */ /* * "struct buf" associated definitions */ /* Unassigned disk addresses. */ #define UNASSIGNED -1 #define UNWRITTEN -2 /* Unused logical block number */ #define LFS_UNUSED_LBN -1 /* * On-disk and in-memory checkpoint segment usage structure. */ typedef struct segusage SEGUSE; struct segusage { uint32_t su_nbytes; /* 0: number of live bytes */ uint32_t su_olastmod; /* 4: SEGUSE last modified timestamp */ uint16_t su_nsums; /* 8: number of summaries in segment */ uint16_t su_ninos; /* 10: number of inode blocks in seg */ #define SEGUSE_ACTIVE 0x01 /* segment currently being written */ #define SEGUSE_DIRTY 0x02 /* segment has data in it */ #define SEGUSE_SUPERBLOCK 0x04 /* segment contains a superblock */ #define SEGUSE_ERROR 0x08 /* cleaner: do not clean segment */ #define SEGUSE_EMPTY 0x10 /* segment is empty */ #define SEGUSE_INVAL 0x20 /* segment is invalid */ uint32_t su_flags; /* 12: segment flags */ uint64_t su_lastmod; /* 16: last modified timestamp */ }; __CTASSERT(sizeof(struct segusage) == 24); typedef struct segusage_v1 SEGUSE_V1; struct segusage_v1 { uint32_t su_nbytes; /* 0: number of live bytes */ uint32_t su_lastmod; /* 4: SEGUSE last modified timestamp */ uint16_t su_nsums; /* 8: number of summaries in segment */ uint16_t su_ninos; /* 10: number of inode blocks in seg */ uint32_t su_flags; /* 12: segment flags */ }; __CTASSERT(sizeof(struct segusage_v1) == 16); /* * On-disk file information. One per file with data blocks in the segment. * * The FINFO structure is a header; it is followed by fi_nblocks block * pointers, which are logical block numbers of the file. (These are the * blocks of the file present in this segment.) */ typedef struct finfo64 FINFO64; struct finfo64 { uint32_t fi_nblocks; /* number of blocks */ uint32_t fi_version; /* version number */ uint64_t fi_ino; /* inode number */ uint32_t fi_lastlength; /* length of last block in array */ uint32_t fi_pad; /* unused */ } __aligned(4) __packed; __CTASSERT(sizeof(struct finfo64) == 24); typedef struct finfo32 FINFO32; struct finfo32 { uint32_t fi_nblocks; /* number of blocks */ uint32_t fi_version; /* version number */ uint32_t fi_ino; /* inode number */ uint32_t fi_lastlength; /* length of last block in array */ }; __CTASSERT(sizeof(struct finfo32) == 16); typedef union finfo { struct finfo64 u_64; struct finfo32 u_32; } FINFO; __CTASSERT(__alignof(union finfo) == __alignof(struct finfo64)); __CTASSERT(__alignof(union finfo) == __alignof(struct finfo32)); /* * inode info (part of the segment summary) * * Each one of these is just a block number; wrapping the structure * around it gives more contextual information in the code about * what's going on. */ typedef struct iinfo64 { uint64_t ii_block; /* block number */ } __aligned(4) __packed IINFO64; __CTASSERT(sizeof(struct iinfo64) == 8); typedef struct iinfo32 { uint32_t ii_block; /* block number */ } IINFO32; __CTASSERT(sizeof(struct iinfo32) == 4); typedef union iinfo { struct iinfo64 u_64; struct iinfo32 u_32; } IINFO; __CTASSERT(__alignof(union iinfo) == __alignof(struct iinfo64)); __CTASSERT(__alignof(union iinfo) == __alignof(struct iinfo32)); /* * Index file inode entries. */ /* magic value for daddrs */ #define LFS_UNUSED_DADDR 0 /* out-of-band daddr */ /* magic value for if_nextfree -- indicate orphaned file */ #define LFS_ORPHAN_NEXTFREE(fs) \ ((fs)->lfs_is64 ? ~(uint64_t)0 : ~(uint32_t)0) typedef struct ifile64 IFILE64; struct ifile64 { uint32_t if_version; /* inode version number */ uint32_t if_atime_nsec; /* and nanoseconds */ uint64_t if_atime_sec; /* Last access time, seconds */ int64_t if_daddr; /* inode disk address */ uint64_t if_nextfree; /* next-unallocated inode */ } __aligned(4) __packed; __CTASSERT(sizeof(struct ifile64) == 32); typedef struct ifile32 IFILE32; struct ifile32 { uint32_t if_version; /* inode version number */ int32_t if_daddr; /* inode disk address */ uint32_t if_nextfree; /* next-unallocated inode */ uint32_t if_atime_sec; /* Last access time, seconds */ uint32_t if_atime_nsec; /* and nanoseconds */ }; __CTASSERT(sizeof(struct ifile32) == 20); typedef struct ifile_v1 IFILE_V1; struct ifile_v1 { uint32_t if_version; /* inode version number */ int32_t if_daddr; /* inode disk address */ uint32_t if_nextfree; /* next-unallocated inode */ #if LFS_ATIME_IFILE #error "this cannot work" struct timespec if_atime; /* Last access time */ #endif }; __CTASSERT(sizeof(struct ifile_v1) == 12); /* * Note: struct ifile_v1 is often handled by accessing the first three * fields of struct ifile32. (XXX: Blah. This should be cleaned up as * it may in some cases violate the strict-aliasing rules.) */ typedef union ifile { struct ifile64 u_64; struct ifile32 u_32; struct ifile_v1 u_v1; } IFILE; __CTASSERT(__alignof(union ifile) == __alignof(struct ifile64)); __CTASSERT(__alignof(union ifile) == __alignof(struct ifile32)); __CTASSERT(__alignof(union ifile) == __alignof(struct ifile_v1)); /* * Cleaner information structure. This resides in the ifile and is used * to pass information from the kernel to the cleaner. */ /* flags for ->flags */ #define LFS_CLEANER_MUST_CLEAN 0x01 typedef struct _cleanerinfo32 { uint32_t clean; /* 0: number of clean segments */ uint32_t dirty; /* 4: number of dirty segments */ int32_t bfree; /* 8: disk blocks free */ int32_t avail; /* 12: disk blocks available */ uint32_t free_head; /* 16: head of the inode free list */ uint32_t free_tail; /* 20: tail of the inode free list */ uint32_t flags; /* 24: status word from the kernel */ } CLEANERINFO32; __CTASSERT(sizeof(struct _cleanerinfo32) == 28); typedef struct _cleanerinfo64 { uint32_t clean; /* 0: number of clean segments */ uint32_t dirty; /* 4: number of dirty segments */ int64_t bfree; /* 8: disk blocks free */ int64_t avail; /* 16: disk blocks available */ uint64_t free_head; /* 24: head of the inode free list */ uint64_t free_tail; /* 32: tail of the inode free list */ uint32_t flags; /* 40: status word from the kernel */ uint32_t pad; /* 44: must be 64-bit aligned */ } __aligned(4) __packed CLEANERINFO64; __CTASSERT(sizeof(struct _cleanerinfo64) == 48); /* this must not go to disk directly of course */ typedef union _cleanerinfo { CLEANERINFO32 u_32; CLEANERINFO64 u_64; } CLEANERINFO; __CTASSERT(__alignof(union _cleanerinfo) == __alignof(struct _cleanerinfo32)); __CTASSERT(__alignof(union _cleanerinfo) == __alignof(struct _cleanerinfo64)); /* * On-disk segment summary information */ /* magic value for ss_magic */ #define SS_MAGIC 0x061561 /* flags for ss_flags */ #define SS_DIROP 0x01 /* segment begins a dirop */ #define SS_CONT 0x02 /* more partials to finish this write*/ #define SS_CLEAN 0x04 /* written by the cleaner */ #define SS_RFW 0x08 /* written by the roll-forward agent */ #define SS_RECLAIM 0x10 /* written by the roll-forward agent */ /* type used for reading checksum signatures from metadata structures */ typedef uint32_t lfs_checkword; typedef struct segsum_v1 SEGSUM_V1; struct segsum_v1 { uint32_t ss_sumsum; /* 0: check sum of summary block */ uint32_t ss_datasum; /* 4: check sum of data */ uint32_t ss_magic; /* 8: segment summary magic number */ int32_t ss_next; /* 12: next segment */ uint32_t ss_create; /* 16: creation time stamp */ uint16_t ss_nfinfo; /* 20: number of file info structures */ uint16_t ss_ninos; /* 22: number of inodes in summary */ uint16_t ss_flags; /* 24: used for directory operations */ uint16_t ss_pad; /* 26: extra space */ /* FINFO's and inode daddr's... */ }; __CTASSERT(sizeof(struct segsum_v1) == 28); typedef struct segsum32 SEGSUM32; struct segsum32 { uint32_t ss_sumsum; /* 0: check sum of summary block */ uint32_t ss_datasum; /* 4: check sum of data */ uint32_t ss_magic; /* 8: segment summary magic number */ int32_t ss_next; /* 12: next segment (disk address) */ uint32_t ss_ident; /* 16: roll-forward fsid */ uint16_t ss_nfinfo; /* 20: number of file info structures */ uint16_t ss_ninos; /* 22: number of inodes in summary */ uint16_t ss_flags; /* 24: used for directory operations */ uint8_t ss_pad[2]; /* 26: extra space */ uint32_t ss_reclino; /* 28: inode being reclaimed */ uint64_t ss_serial; /* 32: serial number */ uint64_t ss_create; /* 40: time stamp */ /* FINFO's and inode daddr's... */ } __aligned(4) __packed; __CTASSERT(sizeof(struct segsum32) == 48); typedef struct segsum64 SEGSUM64; struct segsum64 { uint32_t ss_sumsum; /* 0: check sum of summary block */ uint32_t ss_datasum; /* 4: check sum of data */ uint32_t ss_magic; /* 8: segment summary magic number */ uint32_t ss_ident; /* 12: roll-forward fsid */ int64_t ss_next; /* 16: next segment (disk address) */ uint16_t ss_nfinfo; /* 24: number of file info structures */ uint16_t ss_ninos; /* 26: number of inodes in summary */ uint16_t ss_flags; /* 28: used for directory operations */ uint8_t ss_pad[2]; /* 30: extra space */ uint64_t ss_reclino; /* 32: inode being reclaimed */ uint64_t ss_serial; /* 40: serial number */ uint64_t ss_create; /* 48: time stamp */ /* FINFO's and inode daddr's... */ } __aligned(4) __packed; __CTASSERT(sizeof(struct segsum64) == 56); typedef union segsum SEGSUM; union segsum { struct segsum64 u_64; struct segsum32 u_32; struct segsum_v1 u_v1; }; __CTASSERT(__alignof(union segsum) == __alignof(struct segsum64)); __CTASSERT(__alignof(union segsum) == __alignof(struct segsum32)); __CTASSERT(__alignof(union segsum) == __alignof(struct segsum_v1)); /* * On-disk super block. * * We have separate superblock structures for the 32-bit and 64-bit * LFS, and accessor functions to hide the differences. * * For lfs64, the format version is always 2; version 1 lfs is old. * For both, the inode format version is 0; for lfs32 this selects the * same 32-bit inode as always, and for lfs64 this selects the larger * 64-bit inode structure we got from ffsv2. * * In lfs64: * - inode numbers are 64 bit now * - segments may not be larger than 4G (counted in bytes) * - there may not be more than 2^32 (or perhaps 2^31) segments * - the total volume size is limited to 2^63 frags and/or 2^63 * disk blocks, and probably in practice 2^63 bytes. */ #define LFS_MAGIC 0x070162 #define LFS_MAGIC_SWAPPED 0x62010700 #define LFS64_MAGIC (0x19620701 ^ 0xffffffff) #define LFS64_MAGIC_SWAPPED (0x01076219 ^ 0xffffffff) #define LFS_VERSION 2 #define LFS_MIN_SBINTERVAL 5 /* min superblock segment spacing */ #define LFS_MAXNUMSB 10 /* max number of superblocks */ /* flags for dlfs_pflags */ #define LFS_PF_CLEAN 0x1 /* Inode format versions */ #define LFS_44INODEFMT 0 #define LFS_MAXINODEFMT 0 struct dlfs { uint32_t dlfs_magic; /* 0: magic number */ uint32_t dlfs_version; /* 4: version number */ uint32_t dlfs_size; /* 8: number of blocks in fs (v1) */ /* number of frags in fs (v2) */ uint32_t dlfs_ssize; /* 12: number of blocks per segment (v1) */ /* number of bytes per segment (v2) */ uint32_t dlfs_dsize; /* 16: number of disk blocks in fs */ uint32_t dlfs_bsize; /* 20: file system block size */ uint32_t dlfs_fsize; /* 24: size of frag blocks in fs */ uint32_t dlfs_frag; /* 28: number of frags in a block in fs */ /* Checkpoint region. */ uint32_t dlfs_freehd; /* 32: start of the free inode list */ int32_t dlfs_bfree; /* 36: number of free frags */ uint32_t dlfs_nfiles; /* 40: number of allocated inodes */ int32_t dlfs_avail; /* 44: blocks available for writing */ int32_t dlfs_uinodes; /* 48: inodes in cache not yet on disk */ int32_t dlfs_idaddr; /* 52: inode file disk address */ uint32_t dlfs_ifile; /* 56: inode file inode number */ int32_t dlfs_lastseg; /* 60: address of last segment written */ int32_t dlfs_nextseg; /* 64: address of next segment to write */ int32_t dlfs_curseg; /* 68: current segment being written */ int32_t dlfs_offset; /* 72: offset in curseg for next partial */ int32_t dlfs_lastpseg; /* 76: address of last partial written */ uint32_t dlfs_inopf; /* 80: v1: time stamp; v2: inodes per frag */ /* These are configuration parameters. */ uint32_t dlfs_minfree; /* 84: minimum percentage of free blocks */ /* These fields can be computed from the others. */ uint64_t dlfs_maxfilesize; /* 88: maximum representable file size */ uint32_t dlfs_fsbpseg; /* 96: frags (fsb) per segment */ uint32_t dlfs_inopb; /* 100: inodes per block */ uint32_t dlfs_ifpb; /* 104: IFILE entries per block */ uint32_t dlfs_sepb; /* 108: SEGUSE entries per block */ uint32_t dlfs_nindir; /* 112: indirect pointers per block */ uint32_t dlfs_nseg; /* 116: number of segments */ uint32_t dlfs_nspf; /* 120: number of sectors per fragment */ uint32_t dlfs_cleansz; /* 124: cleaner info size in blocks */ uint32_t dlfs_segtabsz; /* 128: segment table size in blocks */ uint32_t dlfs_segmask; /* 132: calculate offset within a segment */ uint32_t dlfs_segshift; /* 136: fast mult/div for segments */ uint32_t dlfs_bshift; /* 140: calc block number from file offset */ uint32_t dlfs_ffshift; /* 144: fast mult/div for frag from file */ uint32_t dlfs_fbshift; /* 148: fast mult/div for frag from block */ uint64_t dlfs_bmask; /* 152: calc block offset from file offset */ uint64_t dlfs_ffmask; /* 160: calc frag offset from file offset */ uint64_t dlfs_fbmask; /* 168: calc frag offset from block offset */ uint32_t dlfs_blktodb; /* 176: blktodb and dbtoblk shift constant */ uint32_t dlfs_sushift; /* 180: fast mult/div for segusage table */ int32_t dlfs_maxsymlinklen; /* 184: max length of an internal symlink */ /* 188: superblock disk offsets */ int32_t dlfs_sboffs[LFS_MAXNUMSB]; uint32_t dlfs_nclean; /* 228: Number of clean segments */ u_char dlfs_fsmnt[MNAMELEN]; /* 232: name mounted on */ uint16_t dlfs_pflags; /* 322: file system persistent flags */ int32_t dlfs_dmeta; /* 324: total number of dirty summaries */ uint32_t dlfs_minfreeseg; /* 328: segments not counted in bfree */ uint32_t dlfs_sumsize; /* 332: size of summary blocks */ uint64_t dlfs_serial; /* 336: serial number */ uint32_t dlfs_ibsize; /* 344: size of inode blocks */ int32_t dlfs_s0addr; /* 348: start of segment 0 */ uint64_t dlfs_tstamp; /* 352: time stamp */ uint32_t dlfs_inodefmt; /* 360: inode format version */ uint32_t dlfs_interleave; /* 364: segment interleave */ uint32_t dlfs_ident; /* 368: per-fs identifier */ uint32_t dlfs_fsbtodb; /* 372: fsbtodb and dbtodsb shift constant */ uint32_t dlfs_resvseg; /* 376: segments reserved for the cleaner */ int8_t dlfs_pad[128]; /* 380: round to 512 bytes */ /* Checksum -- last valid disk field. */ uint32_t dlfs_cksum; /* 508: checksum for superblock checking */ }; struct dlfs64 { uint32_t dlfs_magic; /* 0: magic number */ uint32_t dlfs_version; /* 4: version number (2) */ uint64_t dlfs_size; /* 8: number of frags in fs (v2) */ uint64_t dlfs_dsize; /* 16: number of disk blocks in fs */ uint32_t dlfs_ssize; /* 24: number of bytes per segment (v2) */ uint32_t dlfs_bsize; /* 28: file system block size */ uint32_t dlfs_fsize; /* 32: size of frag blocks in fs */ uint32_t dlfs_frag; /* 36: number of frags in a block in fs */ /* Checkpoint region. */ uint64_t dlfs_freehd; /* 40: start of the free inode list */ uint64_t dlfs_nfiles; /* 48: number of allocated inodes */ int64_t dlfs_bfree; /* 56: number of free frags */ int64_t dlfs_avail; /* 64: blocks available for writing */ int64_t dlfs_idaddr; /* 72: inode file disk address */ int32_t dlfs_uinodes; /* 80: inodes in cache not yet on disk */ uint32_t dlfs_unused_0; /* 84: not used */ int64_t dlfs_lastseg; /* 88: address of last segment written */ int64_t dlfs_nextseg; /* 96: address of next segment to write */ int64_t dlfs_curseg; /* 104: current segment being written */ int64_t dlfs_offset; /* 112: offset in curseg for next partial */ int64_t dlfs_lastpseg; /* 120: address of last partial written */ uint32_t dlfs_inopf; /* 128: inodes per frag */ /* These are configuration parameters. */ uint32_t dlfs_minfree; /* 132: minimum percentage of free blocks */ /* These fields can be computed from the others. */ uint64_t dlfs_maxfilesize; /* 136: maximum representable file size */ uint32_t dlfs_fsbpseg; /* 144: frags (fsb) per segment */ uint32_t dlfs_inopb; /* 148: inodes per block */ uint32_t dlfs_ifpb; /* 152: IFILE entries per block */ uint32_t dlfs_sepb; /* 156: SEGUSE entries per block */ uint32_t dlfs_nindir; /* 160: indirect pointers per block */ uint32_t dlfs_nseg; /* 164: number of segments */ uint32_t dlfs_nspf; /* 168: number of sectors per fragment */ uint32_t dlfs_cleansz; /* 172: cleaner info size in blocks */ uint32_t dlfs_segtabsz; /* 176: segment table size in blocks */ uint32_t dlfs_bshift; /* 180: calc block number from file offset */ uint32_t dlfs_ffshift; /* 184: fast mult/div for frag from file */ uint32_t dlfs_fbshift; /* 188: fast mult/div for frag from block */ uint64_t dlfs_bmask; /* 192: calc block offset from file offset */ uint64_t dlfs_ffmask; /* 200: calc frag offset from file offset */ uint64_t dlfs_fbmask; /* 208: calc frag offset from block offset */ uint32_t dlfs_blktodb; /* 216: blktodb and dbtoblk shift constant */ uint32_t dlfs_sushift; /* 220: fast mult/div for segusage table */ /* 224: superblock disk offsets */ int64_t dlfs_sboffs[LFS_MAXNUMSB]; int32_t dlfs_maxsymlinklen; /* 304: max len of an internal symlink */ uint32_t dlfs_nclean; /* 308: Number of clean segments */ u_char dlfs_fsmnt[MNAMELEN]; /* 312: name mounted on */ uint16_t dlfs_pflags; /* 402: file system persistent flags */ int32_t dlfs_dmeta; /* 404: total number of dirty summaries */ uint32_t dlfs_minfreeseg; /* 408: segments not counted in bfree */ uint32_t dlfs_sumsize; /* 412: size of summary blocks */ uint32_t dlfs_ibsize; /* 416: size of inode blocks */ uint32_t dlfs_inodefmt; /* 420: inode format version */ uint64_t dlfs_serial; /* 424: serial number */ int64_t dlfs_s0addr; /* 432: start of segment 0 */ uint64_t dlfs_tstamp; /* 440: time stamp */ uint32_t dlfs_interleave; /* 448: segment interleave */ uint32_t dlfs_ident; /* 452: per-fs identifier */ uint32_t dlfs_fsbtodb; /* 456: fsbtodb and dbtodsb shift constant */ uint32_t dlfs_resvseg; /* 460: segments reserved for the cleaner */ int8_t dlfs_pad[44]; /* 464: round to 512 bytes */ /* Checksum -- last valid disk field. */ uint32_t dlfs_cksum; /* 508: checksum for superblock checking */ }; __CTASSERT(__alignof(struct dlfs) == __alignof(struct dlfs64)); /* Type used for the inode bitmap */ typedef uint32_t lfs_bm_t; /* * Linked list of segments whose byte count needs updating following a * file truncation. */ struct segdelta { long segnum; size_t num; LIST_ENTRY(segdelta) list; }; /* * In-memory super block. */ struct lfs { union { /* on-disk parameters */ struct dlfs u_32; struct dlfs64 u_64; } lfs_dlfs_u; /* These fields are set at mount time and are meaningless on disk. */ unsigned lfs_is64 : 1, /* are we lfs64 or lfs32? */ lfs_dobyteswap : 1, /* are we opposite-endian? */ lfs_hasolddirfmt : 1; /* dir entries have no d_type */ struct segment *lfs_sp; /* current segment being written */ struct vnode *lfs_ivnode; /* vnode for the ifile */ uint32_t lfs_seglock; /* single-thread the segment writer */ pid_t lfs_lockpid; /* pid of lock holder */ lwpid_t lfs_locklwp; /* lwp of lock holder */ uint32_t lfs_iocount; /* number of ios pending */ uint32_t lfs_writer; /* don't allow any dirops to start */ uint32_t lfs_dirops; /* count of active directory ops */ kcondvar_t lfs_diropscv; /* condvar of active directory ops */ uint32_t lfs_dirvcount; /* count of VDIROP nodes in this fs */ uint32_t lfs_doifile; /* Write ifile blocks on next write */ uint32_t lfs_nactive; /* Number of segments since last ckp */ int8_t lfs_fmod; /* super block modified flag */ int8_t lfs_ronly; /* mounted read-only flag */ #define LFS_NOTYET 0x01 #define LFS_IFDIRTY 0x02 #define LFS_WARNED 0x04 #define LFS_UNDIROP 0x08 int8_t lfs_flags; /* currently unused flag */ uint16_t lfs_activesb; /* toggle between superblocks */ daddr_t lfs_sbactive; /* disk address of current sb write */ struct vnode *lfs_flushvp; /* vnode being flushed */ int lfs_flushvp_fakevref; /* fake vref count for flushvp */ struct vnode *lfs_unlockvp; /* being inactivated in lfs_segunlock */ uint32_t lfs_diropwait; /* # procs waiting on dirop flush */ size_t lfs_devbsize; /* Device block size */ size_t lfs_devbshift; /* Device block shift */ krwlock_t lfs_fraglock; krwlock_t lfs_iflock; /* Ifile lock */ kcondvar_t lfs_stopcv; /* Wrap lock */ struct lwp *lfs_stoplwp; pid_t lfs_rfpid; /* Process ID of roll-forward agent */ int lfs_nadirop; /* number of active dirop nodes */ long lfs_ravail; /* blocks pre-reserved for writing */ long lfs_favail; /* blocks pre-reserved for writing */ struct lfs_res_blk *lfs_resblk; /* Reserved memory for pageout */ TAILQ_HEAD(, inode) lfs_dchainhd; /* dirop vnodes */ TAILQ_HEAD(, inode) lfs_pchainhd; /* paging vnodes */ #define LFS_RESHASH_WIDTH 17 LIST_HEAD(, lfs_res_blk) lfs_reshash[LFS_RESHASH_WIDTH]; int lfs_pdflush; /* pagedaemon wants us to flush */ uint32_t **lfs_suflags; /* Segment use flags */ #ifdef _KERNEL struct pool lfs_clpool; /* Pool for struct lfs_cluster */ struct pool lfs_bpppool; /* Pool for bpp */ struct pool lfs_segpool; /* Pool for struct segment */ #endif /* _KERNEL */ #define LFS_MAX_CLEANIND 64 daddr_t lfs_cleanint[LFS_MAX_CLEANIND]; /* Active cleaning intervals */ int lfs_cleanind; /* Index into intervals */ int lfs_sleepers; /* # procs sleeping this fs */ kcondvar_t lfs_sleeperscv; int lfs_pages; /* dirty pages blaming this fs */ lfs_bm_t *lfs_ino_bitmap; /* Inuse inodes bitmap */ int lfs_nowrap; /* Suspend log wrap */ int lfs_wrappass; /* Allow first log wrap requester to pass */ int lfs_wrapstatus; /* Wrap status */ int lfs_reclino; /* Inode being reclaimed */ daddr_t lfs_startseg; /* Segment we started writing at */ LIST_HEAD(, segdelta) lfs_segdhd; /* List of pending trunc accounting events */ #ifdef _KERNEL /* The block device we're mounted on. */ dev_t lfs_dev; struct vnode *lfs_devvp; /* ULFS-level information */ uint32_t um_flags; /* ULFS flags (below) */ u_long um_nindir; /* indirect ptrs per block */ u_long um_lognindir; /* log2 of um_nindir */ u_long um_bptrtodb; /* indir ptr to disk block */ u_long um_seqinc; /* inc between seq blocks */ int um_maxsymlinklen; int um_dirblksiz; uint64_t um_maxfilesize; /* Stuff used by quota2 code, not currently operable */ unsigned lfs_use_quota2 : 1; uint32_t lfs_quota_magic; uint8_t lfs_quota_flags; uint64_t lfs_quotaino[2]; /* Sleep address replacing &lfs_avail inside the on-disk superblock */ /* XXX: should be replaced with a condvar */ int lfs_availsleep; /* This one replaces &lfs_nextseg... all ditto */ kcondvar_t lfs_nextsegsleep; /* Cleaner lwp, set on first bmapv syscall. */ struct lwp *lfs_cleaner_thread; /* Hint from cleaner, only valid if curlwp == um_cleaner_thread. */ /* XXX change this to BLOCK_INFO after resorting this file */ struct block_info *lfs_cleaner_hint; #endif }; /* * Structures used by lfs_bmapv and lfs_markv to communicate information * about inodes and data blocks. */ typedef struct block_info { uint64_t bi_inode; /* inode # */ int64_t bi_lbn; /* logical block w/in file */ int64_t bi_daddr; /* disk address of block */ uint64_t bi_segcreate; /* origin segment create time */ int bi_version; /* file version number */ int bi_size; /* size of the block (if fragment) */ void *bi_bp; /* data buffer */ } BLOCK_INFO; /* Compatibility for 7.0 binaries */ typedef struct block_info_70 { uint32_t bi_inode; /* inode # */ int32_t bi_lbn; /* logical block w/in file */ int32_t bi_daddr; /* disk address of block */ uint64_t bi_segcreate; /* origin segment create time */ int bi_version; /* file version number */ void *bi_bp; /* data buffer */ int bi_size; /* size of the block (if fragment) */ } BLOCK_INFO_70; /* Compatibility for 1.5 binaries */ typedef struct block_info_15 { uint32_t bi_inode; /* inode # */ int32_t bi_lbn; /* logical block w/in file */ int32_t bi_daddr; /* disk address of block */ uint32_t bi_segcreate; /* origin segment create time */ int bi_version; /* file version number */ void *bi_bp; /* data buffer */ int bi_size; /* size of the block (if fragment) */ } BLOCK_INFO_15; /* * 32/64-bit-clean pointer to block pointers. This points into * already-existing storage; it is mostly used to access the block * pointers following a FINFO. */ union lfs_blocks { int64_t *b64; int32_t *b32; }; /* In-memory description of a segment about to be written. */ struct segment { struct lfs *fs; /* file system pointer */ struct buf **bpp; /* pointer to buffer array */ struct buf **cbpp; /* pointer to next available bp */ struct buf **start_bpp; /* pointer to first bp in this set */ struct buf *ibp; /* buffer pointer to inode page */ union lfs_dinode *idp; /* pointer to ifile dinode */ FINFO *fip; /* current fileinfo pointer */ struct vnode *vp; /* vnode being gathered */ void *segsum; /* segment summary info */ uint32_t ninodes; /* number of inodes in this segment */ int32_t seg_bytes_left; /* bytes left in segment */ int32_t sum_bytes_left; /* bytes left in summary block */ uint32_t seg_number; /* number of this segment */ union lfs_blocks start_lbp; /* beginning lbn for this set */ #define SEGM_CKP 0x0001 /* doing a checkpoint */ #define SEGM_CLEAN 0x0002 /* cleaner call; don't sort */ #define SEGM_SYNC 0x0004 /* wait for segment */ #define SEGM_PROT 0x0008 /* don't inactivate at segunlock */ #define SEGM_PAGEDAEMON 0x0010 /* pagedaemon called us */ #define SEGM_WRITERD 0x0020 /* LFS writed called us */ #define SEGM_FORCE_CKP 0x0040 /* Force checkpoint right away */ #define SEGM_RECLAIM 0x0080 /* Writing to reclaim vnode */ #define SEGM_SINGLE 0x0100 /* Opportunistic writevnodes */ uint16_t seg_flags; /* run-time flags for this segment */ uint32_t seg_iocount; /* number of ios pending */ int ndupino; /* number of duplicate inodes */ }; /* Statistics Counters */ struct lfs_stats { /* Must match sysctl list in lfs_vfsops.h ! */ u_int segsused; u_int psegwrites; u_int psyncwrites; u_int pcleanwrites; u_int blocktot; u_int cleanblocks; u_int ncheckpoints; u_int nwrites; u_int nsync_writes; u_int wait_exceeded; u_int write_exceeded; u_int flush_invoked; u_int vflush_invoked; u_int clean_inlocked; u_int clean_vnlocked; u_int segs_reclaimed; }; /* Fcntls to take the place of the lfs syscalls */ struct lfs_fcntl_markv { BLOCK_INFO *blkiov; /* blocks to relocate */ int blkcnt; /* number of blocks (limited to 65536) */ }; #define LFCNSEGWAITALL _FCNR_FSPRIV('L', 14, struct timeval) #define LFCNSEGWAIT _FCNR_FSPRIV('L', 15, struct timeval) #define LFCNBMAPV _FCNRW_FSPRIV('L', 16, struct lfs_fcntl_markv) #define LFCNMARKV _FCNRW_FSPRIV('L', 17, struct lfs_fcntl_markv) #define LFCNRECLAIM _FCNO_FSPRIV('L', 4) struct lfs_fhandle { char space[28]; /* FHANDLE_SIZE_COMPAT (but used from userland too) */ }; #define LFCNREWIND _FCNR_FSPRIV('L', 6, int) #define LFCNINVAL _FCNR_FSPRIV('L', 7, int) #define LFCNRESIZE _FCNR_FSPRIV('L', 8, int) #define LFCNWRAPSTOP _FCNR_FSPRIV('L', 9, int) #define LFCNWRAPGO _FCNR_FSPRIV('L', 10, int) #define LFCNIFILEFH _FCNW_FSPRIV('L', 11, struct lfs_fhandle) #define LFCNWRAPPASS _FCNR_FSPRIV('L', 12, int) # define LFS_WRAP_GOING 0x0 # define LFS_WRAP_WAITING 0x1 #define LFCNWRAPSTATUS _FCNW_FSPRIV('L', 13, int) /* Debug segment lock */ #ifdef notyet # define ASSERT_SEGLOCK(fs) KASSERT(LFS_SEGLOCK_HELD(fs)) # define ASSERT_NO_SEGLOCK(fs) KASSERT(!LFS_SEGLOCK_HELD(fs)) # define ASSERT_DUNNO_SEGLOCK(fs) # define ASSERT_MAYBE_SEGLOCK(fs) #else /* !notyet */ # define ASSERT_DUNNO_SEGLOCK(fs) \ DLOG((DLOG_SEG, "lfs func %s seglock wrong (%d)\n", __func__, \ LFS_SEGLOCK_HELD(fs))) # define ASSERT_SEGLOCK(fs) do { \ if (!LFS_SEGLOCK_HELD(fs)) { \ DLOG((DLOG_SEG, "lfs func %s seglock wrong (0)\n", __func__)); \ } \ } while(0) # define ASSERT_NO_SEGLOCK(fs) do { \ if (LFS_SEGLOCK_HELD(fs)) { \ DLOG((DLOG_SEG, "lfs func %s seglock wrong (1)\n", __func__)); \ } \ } while(0) # define ASSERT_MAYBE_SEGLOCK(x) #endif /* !notyet */ /* * Arguments to mount LFS filesystems */ struct ulfs_args { char *fspec; /* block special device to mount */ }; __BEGIN_DECLS void lfs_itimes(struct inode *, const struct timespec *, const struct timespec *, const struct timespec *); __END_DECLS #endif /* !_UFS_LFS_LFS_H_ */