xref: /freebsd/contrib/elftoolchain/libelf/elf.3 (revision 76b28ad6ab6dc8d4a62cb7de7f143595be535813)
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24.\" $Id: elf.3 2885 2013-01-11 02:11:28Z jkoshy $
25.\"
26.Dd August 14, 2011
27.Os
28.Dt ELF 3
29.Sh NAME
30.Nm elf
31.Nd API for manipulating ELF objects
32.Sh LIBRARY
33.Lb libelf
34.Sh SYNOPSIS
35.In libelf.h
36.Sh DESCRIPTION
37The
38.Lb libelf
39provides functions that allow an application to read and manipulate
40ELF object files, and to read
41.Xr ar 1
42archives.
43The library allows the manipulation of ELF objects in a byte ordering
44and word-size independent way, allowing an application to read and
45create ELF objects for 32 and 64 bit architectures and for little-
46and big-endian machines.
47The library is capable of processing ELF objects that use extended
48section numbering.
49.Pp
50This manual page serves to provide an overview of the functionality in
51the ELF library.
52Further information may found in the manual pages for individual
53.Xr ELF 3
54functions that comprise the library.
55.Ss ELF Concepts
56As described in
57.Xr elf 5 ,
58ELF files contain several data structures that are laid out in a
59specific way.
60ELF files begin with an
61.Dq Executable Header ,
62and may contain an optional
63.Dq Program Header Table ,
64and optional data in the form of ELF
65.Dq sections .
66A
67.Dq Section Header Table
68describes the content of the data in these sections.
69.Pp
70ELF objects have an associated
71.Dq "ELF class"
72which denotes the natural machine word size for the architecture
73the object is associated with.
74Objects for 32 bit architectures have an ELF class of
75.Dv ELFCLASS32 .
76Objects for 64 bit architectures have an ELF class of
77.Dv ELFCLASS64 .
78.Pp
79ELF objects also have an associated
80.Dq endianness
81which denotes the endianness of the machine architecture associated
82with the object.
83This may be
84.Dv ELFDATA2LSB
85for little-endian architectures and
86.Dv ELFDATA2MSB
87for big-endian architectures.
88.Pp
89ELF objects are also associated with an API version number.
90This version number determines the layout of the individual components
91of an ELF file and the semantics associated with these.
92.Ss Data Representation And Translation
93The
94.Xr ELF 3
95library distinguishes between
96.Dq native
97representations of ELF data structures and their
98.Dq file
99representations.
100.Pp
101An application would work with ELF data in its
102.Dq native
103representation, i.e., using the native byteorder and alignment mandated
104by the processor the application is running on.
105The
106.Dq file
107representation of the same data could use a different byte ordering
108and follow different constraints on object alignment than these native
109constraints.
110.Pp
111Accordingly, the
112.Xr ELF 3
113library offers translation facilities
114.Xr ( elf32_xlatetof 3 ,
115.Xr elf32_xlatetom 3 ,
116.Xr elf64_xlatetof 3
117and
118.Xr elf64_xlatetom 3 )
119to and from these
120representations and also provides higher-level APIs that retrieve and store
121data from the ELF object in a transparent manner.
122.Ss Library Working Version
123Conceptually, there are three version numbers associated with an
124application using the ELF library to manipulate ELF objects:
125.Bl -bullet -compact -offset indent
126.It
127The ELF version that the application was compiled against.
128This version determines the ABI expected by the application.
129.It
130The ELF version of the ELF object being manipulated by the
131application through the ELF library.
132.It
133The ELF version (or set of versions) supported by the ELF library itself.
134.El
135.Pp
136In order to facilitate working with ELF objects of differing versions,
137the ELF library requires the application to call the
138.Fn elf_version
139function before invoking many of its operations, in order to inform
140the library of the application's desired working version.
141.Pp
142In the current implementation, all three versions have to be
143.Dv EV_CURRENT .
144.Ss Namespace use
145The ELF library uses the following prefixes:
146.Bl -tag -width "ELF_F_*"
147.It Dv elf_
148Used for class-independent functions.
149.It Dv elf32_
150Used for functions working with 32 bit ELF objects.
151.It Dv elf64_
152Used for functions working with 64 bit ELF objects.
153.It Dv Elf_
154Used for class-independent data types.
155.It Dv ELF_C_
156Used for command values used in a few functions.
157These symbols are defined as members of the
158.Vt Dv Elf_Cmd
159enumeration.
160.It Dv ELF_E_
161Used for error numbers.
162.It Dv ELF_F_
163Used for flags.
164.It Dv ELF_K_
165These constants define the kind of file associated with an ELF
166descriptor.
167See
168.Xr elf_kind 3 .
169The symbols are defined by the
170.Vt Elf_Kind
171enumeration.
172.It Dv ELF_T_
173These values are defined by the
174.Vt Elf_Type
175enumeration, and denote the types of ELF data structures
176that can be present in an ELF object.
177.El
178.Pp
179In addition, the library uses symbols with prefixes
180.Dv _ELF
181and
182.Dv _libelf
183for its internal use.
184.Ss Descriptors
185Applications communicate with the library using descriptors.
186These are:
187.Bl -tag -width ".Vt Elf_Data"
188.It Vt Elf
189An
190.Vt Elf
191descriptor represents an ELF object or an
192.Xr ar 1
193archive.
194It is allocated using one of the
195.Fn elf_begin
196or
197.Fn elf_memory
198functions.
199An
200.Vt Elf
201descriptor can be used to read and write data to an ELF file.
202An
203.Vt Elf
204descriptor can be associated with zero or more
205.Vt Elf_Scn
206section descriptors.
207.Pp
208Given an ELF descriptor, the application may retrieve the ELF
209object's class-dependent
210.Dq "Executable Header"
211structures using the
212.Fn elf32_getehdr
213or
214.Fn elf64_getehdr
215functions.
216A new Ehdr structure may be allocated using the
217.Fn elf64_newehdr
218or
219.Fn elf64_newehdr
220functions.
221.Pp
222The
223.Dq "Program Header Table"
224associated with an ELF descriptor may be allocated using the
225.Fn elf32_getphdr
226or
227.Fn elf64_getphdr
228functions.
229A new program header table may be allocated or an existing table
230resized using the
231.Fn elf32_newphdr
232or
233.Fn elf64_newphdr
234functions.
235.Pp
236The
237.Vt Elf
238structure is opaque and has no members visible to the
239application.
240.\" TODO describe the Elf_Arhdr and Elf_Arsym structures.
241.It Vt Elf_Data
242An
243.Vt Elf_Data
244data structure describes an individual chunk of a ELF file as
245represented in memory.
246It has the following application-visible members:
247.Bl -tag -width ".Vt unsigned int d_version" -compact
248.It Vt "uint64_t d_align"
249The in-file alignment of the data buffer within its containing ELF section.
250This value must be non-zero and a power of two.
251.It Vt "void *d_buf"
252A pointer to data in memory.
253.It Vt "uint64_t d_off"
254The offset within the containing section where this descriptor's data
255would be placed.
256This field will be computed by the library unless the application
257requests full control of the ELF object's layout.
258.It Vt "uint64_t d_size"
259The number of bytes of data in this descriptor.
260.It Vt "Elf_Type d_type"
261The ELF type (see below) of the data in this descriptor.
262.It Vt "unsigned int d_version"
263The operating version for the data in this buffer.
264.El
265.Pp
266.Vt Elf_Data
267descriptors are usually associated with
268.Vt Elf_Scn
269descriptors.
270Existing data descriptors associated with an ELF section may be
271structures are retrieved using the
272.Fn elf_getdata
273and
274.Fn elf_rawdata
275functions.
276The
277.Fn elf_newdata
278function may be used to attach new data descriptors to an ELF section.
279.It Vt Elf_Scn
280.Vt Elf_Scn
281descriptors represent a section in an ELF object.
282.Pp
283They are retrieved using the
284.Fn elf_getscn
285function.
286An application may iterate through the existing sections of an ELF
287object using the
288.Fn elf_nextscn
289function.
290New sections may be allocated using the
291.Fn elf_newscn
292function.
293.Pp
294The
295.Vt Elf_Scn
296descriptor is opaque and contains no application modifiable fields.
297.El
298.Ss Supported Elf Types
299The following ELF datatypes are supported by the library.
300.Pp
301.Bl -tag -width ".Dv ELF_T_SYMINFO" -compact
302.It Dv ELF_T_ADDR
303Machine addresses.
304.It Dv ELF_T_BYTE
305Byte data.
306The library will not attempt to translate byte data.
307.It Dv ELF_T_CAP
308Software and hardware capability records.
309.It Dv ELF_T_DYN
310Records used in a section of type
311.Dv SHT_DYNAMIC .
312.It Dv ELF_T_EHDR
313ELF executable header.
314.It Dv ELF_T_GNUHASH
315GNU-style hash tables.
316.It Dv ELF_T_HALF
31716-bit unsigned words.
318.It Dv ELF_T_LWORD
31964 bit unsigned words.
320.It Dv ELF_T_MOVE
321ELF Move records.
322.\".It Dv ELF_T_MOVEP
323.\" As yet unsupported.
324.It Dv ELF_T_NOTE
325ELF Note structures.
326.It Dv ELF_T_OFF
327File offsets.
328.It Dv ELF_T_PHDR
329ELF program header table entries.
330.It Dv ELF_T_REL
331ELF relocation entries.
332.It Dv ELF_T_RELA
333ELF relocation entries with addends.
334.It Dv ELF_T_SHDR
335ELF section header entries.
336.It Dv ELF_T_SWORD
337Signed 32-bit words.
338.It Dv ELF_T_SXWORD
339Signed 64-bit words.
340.It Dv ELF_T_SYMINFO
341ELF symbol information.
342.It Dv ELF_T_SYM
343ELF symbol table entries.
344.It Dv ELF_T_VDEF
345Symbol version definition records.
346.It Dv ELF_T_VNEED
347Symbol version requirement records.
348.It Dv ELF_T_WORD
349Unsigned 32-bit words.
350.It Dv ELF_T_XWORD
351Unsigned 64-bit words.
352.El
353.Pp
354The symbol
355.Dv ELF_T_NUM
356denotes the number of Elf types known to the library.
357.Pp
358The following table shows the mapping between ELF section types
359defined in
360.Xr elf 5
361and the types supported by the library.
362.Bl -column ".Dv SHT_PREINIT_ARRAY" ".Dv ELF_T_SYMINFO"
363.It Em Section Type Ta Em "Library Type" Ta Em Description
364.It Dv SHT_DYNAMIC Ta Dv ELF_T_DYN Ta Xo
365.Sq .dynamic
366section entries.
367.Xc
368.It Dv SHT_DYNSYM Ta Dv ELF_T_SYM Ta Symbols for dynamic linking.
369.It Dv SHT_FINI_ARRAY Ta Dv ELF_T_ADDR Ta Termination function pointers.
370.It Dv SHT_GROUP Ta Dv ELF_T_WORD Ta Section group marker.
371.It Dv SHT_HASH Ta Dv ELF_T_HASH Ta Symbol hashes.
372.It Dv SHT_INIT_ARRAY Ta Dv ELF_T_ADDR Ta Initialization function pointers.
373.It Dv SHT_NOBITS Ta Dv ELF_T_BYTE Ta Xo
374Empty sections.
375See
376.Xr elf 5 .
377.Xc
378.It Dv SHT_NOTE Ta Dv ELF_T_NOTE Ta ELF note records.
379.It Dv SHT_PREINIT_ARRAY Ta Dv ELF_T_ADDR Ta Pre-initialization function pointers.
380.It Dv SHT_PROGBITS Ta Dv ELF_T_BYTE Ta Machine code.
381.It Dv SHT_REL Ta Dv ELF_T_REL Ta ELF relocation records.
382.It Dv SHT_RELA Ta Dv ELF_T_RELA Ta Relocation records with addends.
383.It Dv SHT_STRTAB Ta Dv ELF_T_BYTE Ta String tables.
384.It Dv SHT_SYMTAB Ta Dv ELF_T_SYM Ta Symbol tables.
385.It Dv SHT_SYMTAB_SHNDX Ta Dv ELF_T_WORD Ta Used with extended section numbering.
386.It Dv SHT_GNU_verdef Ta Dv ELF_T_VDEF Ta Symbol version definitions.
387.It Dv SHT_GNU_verneed Ta Dv ELF_T_VNEED Ta Symbol versioning requirements.
388.It Dv SHT_GNU_versym Ta Dv ELF_T_HALF Ta Version symbols.
389.It Dv SHT_SUNW_move Ta Dv ELF_T_MOVE Ta ELF move records.
390.It Dv SHT_SUNW_syminfo Ta Dv ELF_T_SYMINFO Ta Additional symbol flags.
391.El
392.TE
393.Ss Functional Grouping
394This section contains a brief overview of the available functionality
395in the ELF library.
396Each function listed here is described further in its own manual page.
397.Bl -tag -width indent
398.It "Archive Access"
399.Bl -tag -compact
400.It Fn elf_getarsym
401Retrieve the archive symbol table.
402.It Fn elf_getarhdr
403Retrieve the archive header for an object.
404.It Fn elf_getbase
405Retrieve the offset of a member inside an archive.
406.It Fn elf_next
407Iterate through an
408.Xr ar 1
409archive.
410.It Fn elf_rand
411Random access inside an
412.Xr ar 1
413archive.
414.El
415.It "Data Structures"
416.Bl -tag -compact
417.It Fn elf_getdata
418Retrieve translated data for an ELF section.
419.It Fn elf_getscn
420Retrieve the section descriptor for a named section.
421.It Fn elf_ndxscn
422Retrieve the index for a section.
423.It Fn elf_newdata
424Add a new
425.Vt Elf_Data
426descriptor to an ELF section.
427.It Fn elf_newscn
428Add a new section descriptor to an ELF descriptor.
429.It Fn elf_nextscn
430Iterate through the sections in an ELF object.
431.It Fn elf_rawdata
432Retrieve untranslated data for an ELF section.
433.It Fn elf_rawfile
434Return a pointer to the untranslated file contents for an ELF object.
435.It Fn elf32_getehdr , Fn elf64_getehdr
436Retrieve the Executable Header in an ELF object.
437.It Fn elf32_getphdr , Fn elf64_getphdr
438Retrieve the Program Header Table in an ELF object.
439.It Fn elf32_getshdr , Fn elf64_getshdr
440Retrieve the ELF section header associated with an
441.Vt Elf_Scn
442descriptor.
443.It Fn elf32_newehdr , Fn elf64_newehdr
444Allocate an Executable Header in an ELF object.
445.It Fn elf32_newphdr , Fn elf64_newphdr
446Allocate or resize the Program Header Table in an ELF object.
447.El
448.It "Data Translation"
449.Bl -tag -compact
450.It Fn elf32_xlatetof , Fn elf64_xlatetof
451Translate an ELF data structure from its native representation to its
452file representation.
453.It Fn elf32_xlatetom , Fn elf64_xlatetom
454Translate an ELF data structure from its file representation to a
455native representation.
456.El
457.It "Error Reporting"
458.Bl -tag -compact
459.It Fn elf_errno
460Retrieve the current error.
461.It Fn elf_errmsg
462Retrieve a human readable description of the current error.
463.El
464.It "Initialization"
465.Bl -tag -compact
466.It Fn elf_begin
467Opens an
468.Xr ar 1
469archive or ELF object given a file descriptor.
470.It Fn elf_end
471Close an ELF descriptor and release all its resources.
472.It Fn elf_memory
473Opens an
474.Xr ar 1
475archive or ELF object present in a memory arena.
476.It Fn elf_version
477Sets the operating version.
478.El
479.It "IO Control"
480.Bl -tag -width ".Fn elf_setshstrndx" -compact
481.It Fn elf_cntl
482Manage the association between and ELF descriptor and its underlying file.
483.It Fn elf_flagdata
484Mark an
485.Vt Elf_Data
486descriptor as dirty.
487.It Fn elf_flagehdr
488Mark the ELF Executable Header in an ELF descriptor as dirty.
489.It Fn elf_flagphdr
490Mark the ELF Program Header Table in an ELF descriptor as dirty.
491.It Fn elf_flagscn
492Mark an
493.Vt Elf_Scn
494descriptor as dirty.
495.It Fn elf_flagshdr
496Mark an ELF Section Header as dirty.
497.It Fn elf_setshstrndx
498Set the index of the section name string table for the ELF object.
499.It Fn elf_update
500Recompute ELF object layout and optionally write the modified object
501back to the underlying file.
502.El
503.It "Queries"
504.Bl -tag -width ".Fn elf_getshstrndx" -compact
505.It Fn elf32_checksum , Fn elf64_checkum
506Compute checksum of an ELF object.
507.It Fn elf_getident
508Retrieve the identification bytes for an ELF object.
509.It Fn elf_getshnum
510Retrieve the number of sections in an ELF object.
511.It Fn elf_getshstrndx
512Retrieve the section index of the section name string table in
513an ELF object.
514.It Fn elf_hash
515Compute the ELF hash value of a string.
516.It Fn elf_kind
517Query the kind of object associated with an ELF descriptor.
518.It Fn elf32_fsize , Fn elf64_fsize
519Return the size of the file representation of an ELF type.
520.El
521.El
522.Ss Controlling ELF Object Layout
523In the usual mode of operation, library will compute section
524offsets and alignments based on the contents of an ELF descriptor's
525sections without need for further intervention by the
526application.
527.Pp
528However, if the application wishes to take complete charge of the
529layout of the ELF file, it may set the
530.Dv ELF_F_LAYOUT
531flag on an ELF descriptor using
532.Xr elf_flagelf 3 ,
533following which the library will use the data offsets and alignments
534specified by the application when laying out the file.
535Application control of file layout is described further in the
536.Xr elf_update 3
537manual page.
538.Pp
539Gaps in between sections will be filled with the fill character
540set by function
541.Fn elf_fill .
542.Ss Error Handling
543In case an error is encountered, these library functions set an
544internal error number and signal the presence of the error by
545returning an special return value.
546The application can check the
547current error number by calling
548.Xr elf_errno 3 .
549A human readable description of the recorded error is available by
550calling
551.Xr elf_errmsg 3 .
552.Ss Memory Management Rules
553The library keeps track of all
554.Vt Elf_Scn
555and
556.Vt Elf_Data
557descriptors associated with an ELF descriptor and recovers them
558when the descriptor is closed using
559.Xr elf_end 3 .
560Thus the application must not call
561.Xr free 3
562on data structures allocated by the ELF library.
563.Pp
564Conversely the library will not
565free data that it has not allocated.
566As an example, an application may call
567.Xr elf_newdata 3
568to allocate a new
569.Vt Elf_Data
570descriptor and can set the
571.Va d_off
572member of the descriptor to point to a region of memory allocated
573using
574.Xr malloc 3 .
575It is the applications responsibility to free this arena, though the
576library will reclaim the space used by the
577.Vt Elf_Data
578descriptor itself.
579.Sh SEE ALSO
580.Xr gelf 3 ,
581.Xr elf 5
582.Sh HISTORY
583The original ELF(3) API was developed for Unix System V.
584The current implementation of the ELF(3) API appeared in
585.Fx 7.0 .
586.Sh AUTHORS
587The ELF library was written by
588.An "Joseph Koshy"
589.Aq jkoshy@FreeBSD.org .
590