.\" $NetBSD: elf.5,v 1.13 2006/11/18 14:32:14 pooka Exp $ .\" .\" Copyright (c) 2001, 2002 The NetBSD Foundation, Inc. .\" All rights reserved. .\" .\" This document is derived from work contributed to The NetBSD Foundation .\" by Antti Kantee. .\" .\" 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. All advertising materials mentioning features or use of this software .\" must display the following acknowledgement: .\" This product includes software developed by the NetBSD .\" Foundation, Inc. and its contributors. .\" 4. Neither the name of The NetBSD Foundation 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 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. .\" .Dd November 18, 2006 .Dt ELF 5 .Os .Sh NAME .Nm ELF .Nd executable and linking format .Sh SYNOPSIS .In elf.h .Sh DESCRIPTION Because of the flexible nature of ELF, the structures describing it are available both as 32bit and 64bit versions. This document uses the 32bit versions, refer to .Aq Pa elf.h for the corresponding 64bit versions. .Pp The four main types of an ELF object file are: .Bl -tag -width "relocatable" .It executable A file suitable for execution. It contains the information required for creating a new process image. .It relocatable Contains the necessary information to be run through the link editor .Xr ld 1 to create an executable or a shared library. .It shared The shared object contains necessary information which can be used by either the link editor .Xr ld 1 at link time or by the dynamic loader .Xr ld.elf_so 1 at run time. .It core A file which describes the virtual address space and register state of a process. Core files are typically used in conjunction with debuggers such as .Xr gdb 1 . .El .Pp ELF files have a dual nature. The toolchain, including tools such as the .Xr as 1 and linker .Xr ld 1 , treats them as a set of sections described by their section headers. The system loader treats them as a set of segments described by the program headers. .Pp The general format of an ELF file is the following: The file starts with an ELF header. This is followed by a table of program headers (optional for relocatable and shared files). After this come the sections/segments. The file ends with a table of section headers (optional for executable files). .Pp A segment can be considered to consist of several sections. For example, all executable sections are typically packed into one loadable segment which is read-only and executable (see .Fa p_flags in the program header). This enables the system to map the entire file with just a few operations, one for each loadable segment, instead of doing numerous map operations for each section separately. .Pp Each file is described by the ELF header: .Bd -literal -offset indent typedef struct { unsigned char e_ident[ELF_NIDENT]; Elf32_Half e_type; Elf32_Half e_machine; Elf32_Word e_version; Elf32_Addr e_entry; Elf32_Off e_phoff; Elf32_Off e_shoff; Elf32_Word e_flags; Elf32_Half e_ehsize; Elf32_Half e_phentsize; Elf32_Half e_phnum; Elf32_Half e_shentsize; Elf32_Half e_shnum; Elf32_Half e_shstrndx; } Elf32_Ehdr; .Ed .Pp .Bl -tag -width "e_phentsize" .It Fa e_ident[] The array contains the following information in the indicated locations: .Bl -tag -width EI_ABIVERSION .It Dv EI_MAG0 The elements ranging from .Dv EI_MAG0 to .Dv EI_MAG3 contain the ELF magic number: \\0177ELF .It Dv EI_CLASS Contains the address size of the binary, either 32 or 64bit. .It Dv EI_DATA byte order .It Dv EI_VERSION Contains the ELF header version. This is currently always set to 1. .It Dv EI_OSABI Contains the operating system ABI identification. Note that even though the definition .Dv ELFOSABI_NETBSD exists, .Nx uses .Dv ELFOSABI_SYSV here, since the .Nx ABI does not deviate from the standard. .It Dv EI_ABIVERSION ABI version. .El .It Fa e_type Contains the file type identification. It can be either .Dv ET_REL , .Dv ET_EXEC , .Dv ET_DYN , or .Dv ET_CORE for relocatable, executable, shared, or core, respectively. .It Fa e_machine Contains the machine type, e.g. SPARC, Alpha, MIPS, ... .It Fa e_entry The program entry point if the file is executable. .It Fa e_phoff The position of the program header table in the file or 0 if it doesn't exist. .It Fa e_shoff The position of the section header table in the file or 0 if it doesn't exist. .It Fa e_flags Contains processor-specific flags. For example, the SPARC port uses this space to specify what kind of memory store ordering is required. .It Fa e_ehsize The size of the ELF header. .It Fa e_phentsize The size of an entry in the program header table. All entries are the same size. .It Fa e_phnum The number of entries in the program header table, or 0 if none exists. .It Fa e_shentsize The size of an entry in the section header table. All entries are the same size. .It Fa e_shnum The number of entries in the section header table, or 0 if none exists. .It Fa e_shstrndx Contains the index number of the section which contains the section name strings. .El .Pp Each ELF section in turn is described by the section header: .Bd -literal -offset indent typedef struct { Elf32_Word sh_name; Elf32_Word sh_type; Elf32_Word sh_flags; Elf32_Addr sh_addr; Elf32_Off sh_offset; Elf32_Word sh_size; Elf32_Word sh_link; Elf32_Word sh_info; Elf32_Word sh_addralign; Elf32_Word sh_entsize; } Elf32_Shdr; .Ed .Pp .Bl -tag -width "sh_addralign" .It Fa sh_name Contains an index to the position in the section header string section where the name of the current section can be found. .It Fa sh_type Contains the section type indicator. The more important possible values are: .Bl -tag -width "SHT_PROGBITS" .It Dv SHT_NULL Section is inactive. The other fields contain undefined values. .It Dv SHT_PROGBITS Section contains program information. It can be for example code, data, or debugger information. .It Dv SHT_SYMTAB Section contains a symbol table. This section usually contains all the symbols and is intended for the regular link editor .Xr ld 1 . .It Dv SHT_STRTAB Section contains a string table. .It Dv SHT_RELA Section contains relocation information with an explicit addend. .It Dv SHT_HASH Section contains a symbol hash table. .It Dv SHT_DYNAMIC Section contains dynamic linking information. .It Dv SHT_NOTE Section contains some special information. The format can be e.g. vendor-specific. .It Dv SHT_NOBITS Sections contains information similar to .Dv SHT_PROGBITS , but takes up no space in the file. This can be used for e.g. bss. .It Dv SHT_REL Section contains relocation information without an explicit addend. .It Dv SHT_SHLIB This section type is reserved but has unspecified semantics. .It Dv SHT_DYNSYM Section contains a symbol table. This symbol table is intended for the dynamic linker, and is kept as small as possible to conserve space, since it must be loaded to memory at run time. .El .It Fa sh_flags Contains the section flags, which can have the following values or any combination of them: .Bl -tag -width SHF_EXECINSTR .It Dv SHF_WRITE Section is writable after it has been loaded. .It Dv SHF_ALLOC Section will occupy memory at run time. .It Dv SHF_EXECINSTR Section contains executable machine instructions. .El .It Fa sh_addr Address to where the section will be loaded, or 0 if this section does not reside in memory at run time. .It Fa sh_offset The byte offset from the beginning of the file to the beginning of this section. If the section is of type .Dv SHT_NOBITS , this field specifies the conceptual placement in the file. .It Fa sh_size The size of the section in the file for all types except .Dv SHT_NOBITS . For that type the value may differ from zero, but the section will still always take up no space from the file. .It Fa sh_link Contains an index to the section header table. The interpretation depends on the section type as follows: .Pp .Bl -tag -compact -width SHT_DYNAMIC .It Dv SHT_REL .It Dv SHT_RELA Section index of the associated symbol table. .Pp .It Dv SHT_SYMTAB .It Dv SHT_DYNSYM Section index of the associated string table. .Pp .It Dv SHT_HASH Section index of the symbol table to which the hash table applies. .Pp .It Dv SHT_DYNAMIC Section index of of the string table by which entries in this section are used. .El .It Fa sh_info Contains extra information. The interpretation depends on the type as follows: .Pp .Bl -tag -compact -width SHT_DYNSYM .It Dv SHT_REL .It Dv SHT_RELA Section index of the section to which the relocation information applies. .Pp .It Dv SHT_SYMTAB .It Dv SHT_DYNSYM Contains a value one greater that the last local symbol table index. .El .It Fa sh_addralign Marks the section alignment requirement. If, for example, the section contains a doubleword, the entire section must be doubleword aligned to ensure proper alignment. Only 0 and integral powers of two are allowed. Values 0 and 1 denote that the section has no alignment. .It Fa sh_entsize Contains the entry size of an element for sections which are constructed of a table of fixed-size entries. If the section does not hold a table of fixed-size entries, this value is 0. .El .Pp Every executable object must contain a program header. The program header contains information necessary in constructing a process image. .Bd -literal -offset indent typedef struct { Elf32_Word p_type; Elf32_Off p_offset; Elf32_Addr p_vaddr; Elf32_Addr p_paddr; Elf32_Word p_filesz; Elf32_Word p_memsz; Elf32_Word p_flags; Elf32_Word p_align; } Elf32_Phdr; .Ed .Pp .Bl -tag -width p_offset .It Fa p_type Contains the segment type indicator. The possible values are: .Bl -tag -width PT_DYNAMIC .It Dv PT_NULL Segment is inactive. The other fields contain undefined values. .It Dv PT_LOAD Segment is loadable. It is loaded to the address described by .Fa p_vaddr . If .Fa p_memsz is greater than .Fa p_filesz , the memory range from .Po Fa p_vaddr + .Fa p_filesz Pc to .Po Fa p_vaddr + .Fa p_memsz Pc is zero-filled when the segment is loaded. .Fa p_filesz can not be greater than .Fa p_memsz . Segments of this type are sorted in the header table by .Fa p_vaddr in ascending order. .It Dv PT_DYNAMIC Segment contains dynamic linking information. .It Dv PT_INTERP Segment contains a null-terminated path name to the interpreter. This segment may be present only once in a file, and it must appear before any loadable segments. This field will most likely contain the ELF dynamic loader: .Pa /libexec/ld.elf_so .It Dv PT_NOTE Segment contains some special information. Format can be e.g. vendor-specific. .It Dv PT_SHLIB This segment type is reserved but has unspecified semantics. Programs which contain a segment of this type do not conform to the ABI, and must indicate this by setting the appropriate ABI in the ELF header .Dv EI_OSABI field. .It Dv PT_PHDR The values in a program header of this type specify the characteristics of the program header table itself. For example, the .Fa p_vaddr field specifies the program header table location in memory once the program is loaded. This field may not occur more than once, may occur only if the program header table is part of the file memory image, and must come before any loadable segments. .El .It Fa p_offset Contains the byte offset from the beginning of the file to the beginning of this segment. .It Fa p_vaddr Contains the virtual memory address to which this segment is loaded. .It Fa p_paddr Contains the physical address to which this segment is loaded. This value is usually ignored, but may be used while bootstrapping or in embedded systems. .It Fa p_filesz Contains the number of bytes this segment occupies in the file image. .It Fa p_memsz Contains the number of bytes this segment occupies in the memory image. .It Fa p_flags Contains the segment flags, which specify the permissions for the segment after it has been loaded. The following values or any combination of them is acceptable: .Bl -tag -width PF_R .It Dv PF_R Segment can be read. .It Dv PF_W Segment can be written. .It Dv PF_X Segment is executable. .El .It Fa p_align Contains the segment alignment. Acceptable values are 0 and 1 for no alignment, and integral powers of two. .Fa p_vaddr should equal .Fa p_offset modulo .Fa p_align . .El .Sh SEE ALSO .Xr as 1 , .Xr gdb 1 , .Xr ld 1 , .Xr ld.elf_so 1 , .Xr execve 2 , .Xr nlist 3 , .Xr a.out 5 , .Xr core 5 , .Xr link 5 , .Xr stab 5 .Sh HISTORY The ELF object file format first appeared in .At V .