xref: /freebsd/share/man/man5/fs.5 (revision bdcbfde31e8e9b343f113a1956384bdf30d1ed62)
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28.Dd January 16, 2017
29.Dt FS 5
30.Os
31.Sh NAME
32.Nm fs ,
33.Nm inode
34.Nd format of file system volume
35.Sh SYNOPSIS
36.In sys/param.h
37.In ufs/ffs/fs.h
38.Pp
39.In sys/types.h
40.In sys/lock.h
41.In sys/extattr.h
42.In sys/acl.h
43.In ufs/ufs/quota.h
44.In ufs/ufs/dinode.h
45.In ufs/ufs/extattr.h
46.Sh DESCRIPTION
47The files
48.In fs.h
49and
50.In inode.h
51declare several structures, defined variables and macros
52which are used to create and manage the underlying format of
53file system objects on random access devices (disks).
54.Pp
55The block size and number of blocks which
56comprise a file system are parameters of the file system.
57Sectors beginning at
58.Dv BBLOCK
59and continuing for
60.Dv BBSIZE
61are used
62for a disklabel and for some hardware primary
63and secondary bootstrapping programs.
64.Pp
65The actual file system begins at sector
66.Dv SBLOCK
67with the
68.Em super-block
69that is of size
70.Dv SBLOCKSIZE .
71The following structure describes the super-block and is
72from the file
73.In ufs/ffs/fs.h :
74.Bd -literal
75/*
76 * Super block for an FFS filesystem.
77 */
78struct fs {
79	int32_t	 fs_firstfield;	   /* historic filesystem linked list, */
80	int32_t	 fs_unused_1;      /*     used for incore super blocks */
81	int32_t	 fs_sblkno;        /* offset of super-block in filesys */
82	int32_t	 fs_cblkno;        /* offset of cyl-block in filesys */
83	int32_t	 fs_iblkno;        /* offset of inode-blocks in filesys */
84	int32_t	 fs_dblkno;        /* offset of first data after cg */
85	int32_t	 fs_old_cgoffset;  /* cylinder group offset in cylinder */
86	int32_t	 fs_old_cgmask;    /* used to calc mod fs_ntrak */
87	int32_t  fs_old_time;      /* last time written */
88	int32_t	 fs_old_size;      /* number of blocks in fs */
89	int32_t	 fs_old_dsize;     /* number of data blocks in fs */
90	int32_t	 fs_ncg;           /* number of cylinder groups */
91	int32_t	 fs_bsize;         /* size of basic blocks in fs */
92	int32_t	 fs_fsize;         /* size of frag blocks in fs */
93	int32_t	 fs_frag;          /* number of frags in a block in fs */
94/* these are configuration parameters */
95	int32_t	 fs_minfree;       /* minimum percentage of free blocks */
96	int32_t	 fs_old_rotdelay;  /* num of ms for optimal next block */
97	int32_t	 fs_old_rps;       /* disk revolutions per second */
98/* these fields can be computed from the others */
99	int32_t	 fs_bmask;         /* ``blkoff'' calc of blk offsets */
100	int32_t	 fs_fmask;         /* ``fragoff'' calc of frag offsets */
101	int32_t	 fs_bshift;        /* ``lblkno'' calc of logical blkno */
102	int32_t	 fs_fshift;        /* ``numfrags'' calc number of frags */
103/* these are configuration parameters */
104	int32_t	 fs_maxcontig;     /* max number of contiguous blks */
105	int32_t	 fs_maxbpg;        /* max number of blks per cyl group */
106/* these fields can be computed from the others */
107	int32_t	 fs_fragshift;     /* block to frag shift */
108	int32_t	 fs_fsbtodb;       /* fsbtodb and dbtofsb shift constant */
109	int32_t	 fs_sbsize;        /* actual size of super block */
110	int32_t	 fs_spare1[2];     /* old fs_csmask */
111	                           /* old fs_csshift */
112	int32_t	 fs_nindir;        /* value of NINDIR */
113	int32_t	 fs_inopb;         /* value of INOPB */
114	int32_t	 fs_old_nspf;      /* value of NSPF */
115/* yet another configuration parameter */
116	int32_t	 fs_optim;         /* optimization preference, see below */
117	int32_t	 fs_old_npsect;    /* # sectors/track including spares */
118	int32_t	 fs_old_interleave; /* hardware sector interleave */
119	int32_t	 fs_old_trackskew; /* sector 0 skew, per track */
120	int32_t	 fs_id[2];         /* unique filesystem id */
121/* sizes determined by number of cylinder groups and their sizes */
122	int32_t	 fs_old_csaddr;	   /* blk addr of cyl grp summary area */
123	int32_t	 fs_cssize;        /* size of cyl grp summary area */
124	int32_t	 fs_cgsize;        /* cylinder group size */
125	int32_t	 fs_spare2;        /* old fs_ntrak */
126	int32_t	 fs_old_nsect;     /* sectors per track */
127	int32_t  fs_old_spc;       /* sectors per cylinder */
128	int32_t	 fs_old_ncyl;      /* cylinders in filesystem */
129	int32_t	 fs_old_cpg;       /* cylinders per group */
130	int32_t	 fs_ipg;           /* inodes per group */
131	int32_t	 fs_fpg;           /* blocks per group * fs_frag */
132/* this data must be re-computed after crashes */
133	struct	csum fs_old_cstotal; /* cylinder summary information */
134/* these fields are cleared at mount time */
135	int8_t   fs_fmod;          /* super block modified flag */
136	int8_t   fs_clean;         /* filesystem is clean flag */
137	int8_t 	 fs_ronly;         /* mounted read-only flag */
138	int8_t   fs_old_flags;     /* old FS_ flags */
139	u_char	 fs_fsmnt[MAXMNTLEN]; /* name mounted on */
140	u_char	 fs_volname[MAXVOLLEN]; /* volume name */
141	uint64_t fs_swuid;         /* system-wide uid */
142	int32_t  fs_pad;           /* due to alignment of fs_swuid */
143/* these fields retain the current block allocation info */
144	int32_t	 fs_cgrotor;       /* last cg searched */
145	void 	*fs_ocsp[NOCSPTRS]; /* padding; was list of fs_cs buffers */
146	uint8_t *fs_contigdirs;    /* # of contiguously allocated dirs */
147	struct	csum *fs_csp;      /* cg summary info buffer for fs_cs */
148	int32_t	*fs_maxcluster;    /* max cluster in each cyl group */
149	u_int	*fs_active;        /* used by snapshots to track fs */
150	int32_t	 fs_old_cpc;       /* cyl per cycle in postbl */
151	int32_t	 fs_maxbsize;      /* maximum blocking factor permitted */
152	int64_t	 fs_unrefs;        /* number of unreferenced inodes */
153	int64_t	 fs_sparecon64[16]; /* old rotation block list head */
154	int64_t	 fs_sblockloc;     /* byte offset of standard superblock */
155	struct	csum_total fs_cstotal;  /* cylinder summary information */
156	ufs_time_t fs_time;        /* last time written */
157	int64_t	 fs_size;          /* number of blocks in fs */
158	int64_t	 fs_dsize;         /* number of data blocks in fs */
159	ufs2_daddr_t fs_csaddr;    /* blk addr of cyl grp summary area */
160	int64_t	 fs_pendingblocks; /* blocks in process of being freed */
161	int32_t	 fs_pendinginodes; /* inodes in process of being freed */
162	int32_t	 fs_snapinum[FSMAXSNAP]; /* list of snapshot inode numbers */
163	int32_t	 fs_avgfilesize;   /* expected average file size */
164	int32_t	 fs_avgfpdir;      /* expected # of files per directory */
165	int32_t	 fs_save_cgsize;   /* save real cg size to use fs_bsize */
166	int32_t	 fs_sparecon32[26]; /* reserved for future constants */
167	int32_t  fs_flags;         /* see FS_ flags below */
168	int32_t	 fs_contigsumsize; /* size of cluster summary array */
169	int32_t	 fs_maxsymlinklen; /* max length of an internal symlink */
170	int32_t	 fs_old_inodefmt;  /* format of on-disk inodes */
171	uint64_t fs_maxfilesize;   /* maximum representable file size */
172	int64_t	 fs_qbmask;        /* ~fs_bmask for use with 64-bit size */
173	int64_t	 fs_qfmask;        /* ~fs_fmask for use with 64-bit size */
174	int32_t	 fs_state;         /* validate fs_clean field */
175	int32_t	 fs_old_postblformat; /* format of positional layout tables */
176	int32_t	 fs_old_nrpos;     /* number of rotational positions */
177	int32_t	 fs_spare5[2];     /* old fs_postbloff */
178	                           /* old fs_rotbloff */
179	int32_t	 fs_magic;         /* magic number */
180};
181
182/*
183 * Filesystem identification
184 */
185#define	FS_UFS1_MAGIC	0x011954    /* UFS1 fast filesystem magic number */
186#define	FS_UFS2_MAGIC	0x19540119  /* UFS2 fast filesystem magic number */
187#define	FS_OKAY		0x7c269d38  /* superblock checksum */
188#define FS_42INODEFMT	-1      /* 4.2BSD inode format */
189#define FS_44INODEFMT	2       /* 4.4BSD inode format */
190
191/*
192 * Preference for optimization.
193 */
194#define FS_OPTTIME	0	/* minimize allocation time */
195#define FS_OPTSPACE	1	/* minimize disk fragmentation */
196.Ed
197.Pp
198Each disk drive contains some number of file systems.
199A file system consists of a number of cylinder groups.
200Each cylinder group has inodes and data.
201.Pp
202A file system is described by its super-block, which in turn
203describes the cylinder groups.
204The super-block is critical
205data and is replicated in each cylinder group to protect against
206catastrophic loss.
207This is done at file system creation
208time and the critical
209super-block data does not change, so the copies need not be
210referenced further unless disaster strikes.
211.Pp
212Addresses stored in inodes are capable of addressing fragments
213of `blocks'.
214File system blocks of at most size
215.Dv MAXBSIZE
216can
217be optionally broken into 2, 4, or 8 pieces, each of which is
218addressable; these pieces may be
219.Dv DEV_BSIZE ,
220or some multiple of
221a
222.Dv DEV_BSIZE
223unit.
224.Pp
225Large files consist of exclusively large data blocks.
226To avoid
227undue wasted disk space, the last data block of a small file is
228allocated as only as many fragments of a large block as are
229necessary.
230The file system format retains only a single pointer
231to such a fragment, which is a piece of a single large block that
232has been divided.
233The size of such a fragment is determinable from
234information in the inode, using the
235.Fn blksize fs ip lbn
236macro.
237.Pp
238The file system records space availability at the fragment level;
239to determine block availability, aligned fragments are examined.
240.Pp
241The root inode is the root of the file system.
242Inode 0 cannot be used for normal purposes and
243historically bad blocks were linked to inode 1,
244thus the root inode is 2 (inode 1 is no longer used for
245this purpose, however numerous dump tapes make this
246assumption, so we are stuck with it).
247.Pp
248The
249.Fa fs_minfree
250element gives the minimum acceptable percentage of file system
251blocks that may be free.
252If the freelist drops below this level
253only the super-user may continue to allocate blocks.
254The
255.Fa fs_minfree
256element
257may be set to 0 if no reserve of free blocks is deemed necessary,
258however severe performance degradations will be observed if the
259file system is run at greater than 90% full; thus the default
260value of
261.Fa fs_minfree
262is 8%.
263.Pp
264Empirically the best trade-off between block fragmentation and
265overall disk utilization at a loading of 90% comes with a
266fragmentation of 8, thus the default fragment size is an eighth
267of the block size.
268.Pp
269The element
270.Fa fs_optim
271specifies whether the file system should try to minimize the time spent
272allocating blocks, or if it should attempt to minimize the space
273fragmentation on the disk.
274If the value of fs_minfree (see above) is less than 8%,
275then the file system defaults to optimizing for space to avoid
276running out of full sized blocks.
277If the value of minfree is greater than or equal to 8%,
278fragmentation is unlikely to be problematical, and
279the file system defaults to optimizing for time.
280.Pp
281.Em Cylinder group related limits :
282Each cylinder keeps track of the availability of blocks at different
283rotational positions, so that sequential blocks can be laid out
284with minimum rotational latency.
285With the default of 8 distinguished
286rotational positions, the resolution of the
287summary information is 2ms for a typical 3600 rpm drive.
288.Pp
289The element
290.Fa fs_old_rotdelay
291gives the minimum number of milliseconds to initiate
292another disk transfer on the same cylinder.
293It is used in determining the rotationally optimal
294layout for disk blocks within a file;
295the default value for
296.Fa fs_old_rotdelay
297is 2ms.
298.Pp
299Each file system has a statically allocated number of inodes.
300An inode is allocated for each
301.Dv NBPI
302bytes of disk space.
303The inode allocation strategy is extremely conservative.
304.Pp
305.Dv MINBSIZE
306is the smallest allowable block size.
307With a
308.Dv MINBSIZE
309of 4096
310it is possible to create files of size
3112^32 with only two levels of indirection.
312.Dv MINBSIZE
313must be big enough to hold a cylinder group block,
314thus changes to
315.Pq Fa struct cg
316must keep its size within
317.Dv MINBSIZE .
318Note that super-blocks are never more than size
319.Dv SBLOCKSIZE .
320.Pp
321The path name on which the file system is mounted is maintained in
322.Fa fs_fsmnt .
323.Dv MAXMNTLEN
324defines the amount of space allocated in
325the super-block for this name.
326The limit on the amount of summary information per file system
327is defined by
328.Dv MAXCSBUFS .
329For a 4096 byte block size, it is currently parameterized for a
330maximum of two million cylinders.
331.Pp
332Per cylinder group information is summarized in blocks allocated
333from the first cylinder group's data blocks.
334These blocks are read in from
335.Fa fs_csaddr
336(size
337.Fa fs_cssize )
338in addition to the super-block.
339.Pp
340.Sy N.B. :
341.Fn sizeof "struct csum"
342must be a power of two in order for
343the
344.Fn fs_cs
345macro to work.
346.Pp
347The
348.Em "Super-block for a file system" :
349The size of the rotational layout tables
350is limited by the fact that the super-block is of size
351.Dv SBLOCKSIZE .
352The size of these tables is
353.Em inversely
354proportional to the block
355size of the file system.
356The size of the tables is
357increased when sector sizes are not powers of two,
358as this increases the number of cylinders
359included before the rotational pattern repeats
360.Pq Fa fs_cpc .
361The size of the rotational layout
362tables is derived from the number of bytes remaining in
363.Pq Fa struct fs .
364.Pp
365The number of blocks of data per cylinder group
366is limited because cylinder groups are at most one block.
367The inode and free block tables
368must fit into a single block after deducting space for
369the cylinder group structure
370.Pq Fa struct cg .
371.Pp
372The
373.Em Inode :
374The inode is the focus of all file activity in the
375.Ux
376file system.
377There is a unique inode allocated
378for each active file,
379each current directory, each mounted-on file,
380text file, and the root.
381An inode is `named' by its device/i-number pair.
382For further information, see the include file
383.In ufs/ufs/inode.h .
384.Pp
385The format of an external attribute is defined by the extattr structure:
386.Bd -literal
387struct extattr {
388	uint32_t ea_length;	    /* length of this attribute */
389	uint8_t	ea_namespace;	    /* name space of this attribute */
390	uint8_t	ea_contentpadlen;   /* bytes of padding at end of attribute */
391	uint8_t	ea_namelength;	    /* length of attribute name */
392	char	ea_name[1];	    /* attribute name (NOT nul-terminated) */
393	/* padding, if any, to align attribute content to 8 byte boundary */
394	/* extended attribute content follows */
395};
396.Ed
397.Pp
398Several macros are defined to manipulate these structures.
399Each macro takes a pointer to an extattr structure.
400.Bl -tag -width ".Dv EXTATTR_CONTENT_SIZE(eap)"
401.It Dv EXTATTR_NEXT(eap)
402Returns a pointer to the next extended attribute following
403.Fa eap .
404.It Dv EXTATTR_CONTENT(eap)
405Returns a pointer to the extended attribute content referenced by
406.Fa eap .
407.It Dv EXTATTR_CONTENT_SIZE(eap)
408Returns the size of the extended attribute content referenced by
409.Fa eap .
410.El
411.Pp
412The following code identifies an ACL:
413.Bd -literal
414	if (eap->ea_namespace == EXTATTR_NAMESPACE_SYSTEM &&
415            eap->ea_namelength == sizeof(POSIX1E_ACL_ACCESS_EXTATTR_NAME) - 1 &&
416	    strncmp(eap->ea_name, POSIX1E_ACL_ACCESS_EXTATTR_NAME,
417             sizeof(POSIX1E_ACL_ACCESS_EXTATTR_NAME) - 1) == 0) {
418		aclp = EXTATTR_CONTENT(eap);
419		acllen = EXTATTR_CONTENT_SIZE(eap);
420		...
421	}
422.Ed
423.Sh HISTORY
424A super-block structure named filsys appeared in
425.At v6 .
426The file system described in this manual appeared
427in
428.Bx 4.2 .
429