xref: /freebsd/contrib/elftoolchain/ar/ar.5 (revision b3e7694832e81d7a904a10f525f8797b753bf0d3)
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24.\" $Id: ar.5 3642 2018-10-14 14:24:28Z jkoshy $
25.\"
26.Dd September 30, 2018
27.Dt AR 5
28.Os
29.Sh NAME
30.Nm ar
31.Nd archive file format for
32.Xr ar 1
33and
34.Xr ranlib 1
35.Sh SYNOPSIS
36.In ar.h
37.Sh DESCRIPTION
38.Xr ar 1
39archives are created and managed by the
40.Xr ar 1
41and
42.Xr ranlib 1
43utilities.
44These archives are typically used during program development to
45hold libraries of program objects.
46An
47.Xr ar 1
48archive is contained in a single operating system file.
49.Pp
50This manual page documents two variants of the
51.Xr ar 1
52archive format: the BSD archive format, and the SVR4/GNU archive
53format.
54.Pp
55In both variants the archive file starts with an identifying byte
56sequence of the seven ASCII characters
57.Sq Li "!<arch>"
58followed by a ASCII linefeed character
59.Po
60see the constant
61.Dq ARMAG
62in the header file
63.In ar.h
64.Pc .
65.Pp
66Archive members follow the initial identifying byte sequence.
67Each archive member is prefixed by a fixed size header describing the
68file attributes associated with the member.
69.Ss "Archive Headers"
70An archive header describes the file attributes for the archive member that
71follows it.
72The
73.Xr ar 5
74format only supports a limited number of attributes: the file name,
75the file creation time stamp, the uid and gid of the creator, the file
76mode and the file size.
77.Pp
78Archive headers are placed at an even byte offset in the archive file.
79If the data for an archive member ends at an odd byte offset, then a
80padding byte with value 0x0A is used to position the next archive
81header on an even byte offset.
82.Pp
83An archive header comprises the following fixed sized fields:
84.Bl -tag -width "Li ar_name"
85.It Ar ar_name
86(16 bytes) The file name of the archive member.
87This field names a leaf file; absolute paths and relative paths containing
88directory names are not supported.
89The format of this field varies between the BSD and SVR4/GNU formats and
90is described in more detail in the section
91.Sx "Representing File Names"
92below.
93.It Ar ar_date
94(12 bytes) The file modification time for the member in seconds since the
95epoch, encoded as a decimal number.
96.It Ar ar_uid
97(6 bytes) The uid associated with the archive member, encoded as a
98decimal number.
99.It Ar ar_gid
100(6 bytes) The gid associated with the archive member, encoded as a
101decimal number.
102.It Ar ar_mode
103(8 bytes) The file mode for the archive member, encoded as an octal
104number.
105.It Ar ar_size
106(10 bytes) In the SVR4/GNU archive format this field holds the size in
107bytes of the archive member, encoded as a decimal number.
108In the BSD archive format, for short file names, this field
109holds the size in bytes of the archive member, encoded as a decimal
110number.
111For long file names
112.Po
113see
114.Sx "Representing File Names"
115below
116.Pc ,
117the field contains the combined size of the
118archive member and its file name, encoded as a decimal number.
119.It Ar ar_fmag
120(2 bytes) This field holds 2 bytes with values 0x96 and 0x0A
121respectively, marking the end of the header.
122.El
123.Pp
124Unused bytes in the fields of an archive header are set to the value
1250x20.
126.Ss "Representing File Names"
127The BSD and SVR4/GNU variants use different schemes for encoding file
128names for members.
129.Bl -tag -width "SVR4/GNU"
130.It "BSD"
131File names that are up to 16 bytes long and which do not contain
132embedded spaces are stored directly in the
133.Ar ar_name
134field of the archive header.
135File names that are either longer than 16 bytes or which contain
136embedded spaces are stored immediately after the archive header
137and the
138.Ar ar_name
139field of the archive header is set to the string
140.Dq "#1/"
141followed by a decimal representation of the number of bytes needed for
142the file name.
143In addition, the
144.Ar ar_size
145field of the archive header is set to the decimal representation of
146the combined sizes of the archive member and the file name.
147The file contents of the member follows the file name without further
148padding.
149.Pp
150As an example, if the file name for a member was
151.Dq "A B"
152and its contents was the string
153.Dq "C D" ,
154then the
155.Ar ar_name
156field of the header would contain
157.Dq Li "#1/3" ,
158the
159.Ar ar_size
160field of the header would contain
161.Dq Li 6 ,
162and the bytes immediately following the header would be 0x41, 0x20,
1630x42, 0x43, 0x20 and 0x44
164.Po
165ASCII
166.Dq "A BC D"
167.Pc .
168.It "SVR4/GNU"
169File names that are up to 15 characters long are stored directly in the
170.Ar ar_name
171field of the header, terminated by a
172.Dq Li /
173character.
174.Pp
175If the file name is larger than would fit in space for the
176.Ar ar_name
177field, then the actual file name is kept in the archive
178string table
179.Po
180see
181.Sx "Archive String Tables"
182below
183.Pc ,
184and the decimal offset of the file name in the string table is stored
185in the
186.Ar ar_name
187field, prefixed by a
188.Dq Li /
189character.
190.Pp
191As an example, if the real file name has been stored at offset 768 in
192the archive string table, the
193.Ar ar_name
194field of the header will contain the string
195.Dq /768 .
196.El
197.Ss "Special Archive Members"
198The following archive members are special.
199.Bl -tag -width indent
200.It Dq Li /
201In the SVR4/GNU variant of the archive format, the archive member with
202name
203.Dq Li /
204denotes an archive symbol table.
205If present, this member will be the very first member in the
206archive.
207.It Dq Li //
208In the SVR4/GNU variant of the archive format, the archive member with
209name
210.Dq Li //
211denotes the archive string table.
212This special member is used to hold filenames that do not fit in the
213file name field of the header
214.Po
215see
216.Sx "Representing File Names"
217above
218.Pc .
219If present, this member immediately follows the archive symbol table
220if an archive symbol table is present, or is the first member otherwise.
221.It Dq Li "__.SYMDEF"
222This special member contains the archive symbol table in the BSD
223variant of the archive format.
224If present, this member will be the very first member in the
225archive.
226.El
227.Ss "Archive String Tables"
228An archive string table is used in the SVR4/GNU archive format to hold
229file names that are too large to fit into the constraints of the
230.Ar ar_name
231field of the archive header.
232An archive string table contains a sequence of file names.
233Each file name in the archive string table is terminated by the
234byte sequence 0x2F, 0x0A
235.Po
236the ASCII string
237.Dq "/\en"
238.Pc .
239No padding is used to separate adjacent file names.
240.Ss "Archive Symbol Tables"
241Archive symbol tables are used to speed up link editing by providing a
242mapping between the program symbols defined in the archive
243and the corresponding archive members.
244Archive symbol tables are managed by the
245.Xr ranlib 1
246utility.
247.Pp
248The format of archive symbol tables is as follows:
249.Bl -tag -width "SVR4/GNU"
250.It BSD
251In the BSD archive format, the archive symbol table comprises
252of two parts: a part containing an array of
253.Vt "struct ranlib"
254descriptors, followed by a part containing a symbol string table.
255The sizes and layout of the structures that make up a BSD format
256archive symbol table are machine dependent.
257.Pp
258The part containing
259.Vt "struct ranlib"
260descriptors begins with a field containing the size in bytes of the
261array of
262.Vt "struct ranlib"
263descriptors encoded as a C
264.Vt long
265value.
266.Pp
267The array of
268.Vt "struct ranlib"
269descriptors follows the size field.
270Each
271.Vt "struct ranlib"
272descriptor describes one symbol.
273.Pp
274A
275.Vt "struct ranlib"
276descriptor comprises two fields:
277.Bl -tag -width "Ar ran_strx" -compact
278.It Ar ran_strx
279.Pq C Vt long
280This field contains the zero-based offset of the symbol name in the
281symbol string table.
282.It Ar ran_off
283.Pq C Vt long
284This field is the file offset to the archive header for the archive
285member defining the symbol.
286.El
287.Pp
288The part containing the symbol string table begins with a field
289containing the size in bytes of the string table, encoded as a C
290.Vt long
291value.
292This string table follows the size field, and contains
293NUL-terminated strings for the symbols in the symbol table.
294.It SVR4/GNU
295In the SVR4/GNU archive format, the archive symbol table starts with a
2964-byte binary value containing the number of entries contained in the
297archive symbol table.
298This count of entries is stored most significant byte first.
299.Pp
300Next, there are
301.Ar count
3024-byte numbers, each stored most significant byte first.
303Each number is a binary offset to the archive header for the member in
304the archive file for the corresponding symbol table entry.
305.Pp
306After the binary offset values, there are
307.Ar count
308NUL-terminated strings in sequence, holding the symbol names for
309the corresponding symbol table entries.
310.El
311.Sh STANDARDS COMPLIANCE
312The
313.Xr ar 1
314archive format is not currently specified by a standard.
315.Pp
316This manual page documents the
317.Xr ar 1
318archive formats used by the
319.Bx 4.4
320and
321.Ux SVR4
322operating system releases.
323.Sh SEE ALSO
324.Xr ar 1 ,
325.Xr ld 1 ,
326.Xr ranlib 1 ,
327.Xr elf 3 ,
328.Xr elf_getarsym 3 ,
329.Xr elf_rand 3
330