|
|
cc [flag . . . ] file . . . -lelf [library] . . .#include <libelf.h>
Elf_Data elf_getdata(Elf_Scn scn, Elf_Data data);
Elf_Data elf_newdata(Elf_Scn scn);
Elf_Data elf_rawdata(Elf_Scn scn, Elf_Data data);
elf_getdata lets a program step through a section's data list. If the incoming data descriptor, data, is null, the function returns the first buffer associated with the section. Otherwise, data should be a data descriptor associated with scn, and the function gives the program access to the next data element for the section. If scn is null or an error occurs, elf_getdata returns a null pointer.
elf_getdata translates the data from file representations into memory representations [see elf_xlate(3elf)] and presents objects with memory data types to the program, based on the file's class [see Intro(3elf)]. The working library version [see elf_version(3elf)] specifies what version of the memory structures the program wishes elf_getdata to present.
elf_newdata creates a new data descriptor for a section, appending it to any data elements already associated with the section. As described below, the new data descriptor appears empty, indicating the element holds no data. For convenience, the descriptor's type (d_type below) is set to ELF_T_BYTE, and the version (d_version below) is set to the working version. The program is responsible for setting (or changing) the descriptor members as needed. This function implicitly sets the ELF_F_DIRTY bit for the section's data [see elf_flag(3elf)]. If scn is null or an error occurs, elf_newdata returns a null pointer.
elf_rawdata differs from elf_getdata by returning only uninterpreted bytes, regardless of the section type. This function typically should be used only to retrieve a section image from a file being read, and then only when a program must avoid the automatic data translation described below. Moreover, a program may not close or disable [see elf_cntl(3elf)] the file descriptor associated with elf before the initial raw operation, because elf_rawdata might read the data from the file to ensure it doesn't interfere with elf_getdata. See elf_rawfile(3elf) for a related facility that applies to the entire file. When elf_getdata provides the right translation, its use is recommended over elf_rawdata. If scn is null or an error occurs, elf_rawdata returns a null pointer.
The Elf_Data structure includes the following members.
void d_buf; Elf_Type d_type; size_t d_size; off_t d_off; size_t d_align; unsigned d_version;
These members are available for direct manipulation by the program. Descriptions appear below.
d_buf
d_type
d_buf
points.
A section's type determines how to
interpret the section contents, as summarized below.
d_size
d_off
d_align
d_off
will be a multiple
of this member's value.
For example, if this member's value is four, the beginning
of the buffer will be four-byte aligned within the section.
Moreover, the entire section will be aligned to the maximum
of its constituents, thus ensuring appropriate alignment
for a buffer within the section and within the file.
d_version
First, the program can use elf_fill to tell the library how to set the intervening bytes. When the library must generate gaps in the file, it uses the fill byte to initialize the data there. The library's initial fill value is zero, and elf_fill lets the application change that.
Second, the application can generate its own data buffers to occupy the gaps, filling the gaps with values appropriate for the section being created. A program might even use different fill values for different sections. For example, it could set text sections' bytes to no-operation instructions, while filling data section holes with zero. Using this technique, the library finds no holes to fill, because the application eliminated them.
Section Type | Elf_Type | 32-Bit Type | 64-Bit Type |
---|---|---|---|
SHT_DYNAMIC | ELF_T_DYN | Elf32_Dyn | Elf64_Dyn |
SHT_DYNSYM | ELF_T_SYM | Elf32_Sym | Elf64_Sym |
SHT_HASH | ELF_T_WORD | Elf32_Word | Elf64_Word |
SHT_NOBITS | ELF_T_BYTE | unsigned char | unsigned char |
SHT_NOTE | ELF_T_BYTE | unsigned char | unsigned char |
SHT_NULL | none | none | none |
SHT_PROGBITS | ELF_T_BYTE | unsigned char | unsigned char |
SHT_REL | ELF_T_REL | Elf32_Rel | Elf64_Rel |
SHT_RELA | ELF_T_RELA | Elf32_Rela | Elf64_Rela |
SHT_STRTAB | ELF_T_BYTE | unsigned char | unsigned char |
SHT_SYMTAB | ELF_T_SYM | Elf32_Sym | Elf64_Sym |
other | ELF_T_BYTE | unsigned char | unsigned char |
elf_rawdata creates a buffer with type ELF_T_BYTE.
As mentioned above, the program's working version controls what structures the library creates for the application. The library similarly interprets section types according to the versions. If a section type ``belongs'' to a version newer than the application's working version, the library does not translate the section data. Because the application cannot know the data format in this case, the library presents an untranslated buffer of type ELF_T_BYTE, just as it would for an unrecognized section type.
A section with a special type,
SHT_NOBITS,
occupies no space in an object file, even when
the section header indicates a non-zero size.
elf_getdata
and
elf_rawdata
``work'' on such a section, setting the
data
structure to have a null buffer pointer and
the type indicated above.
Although no data is present, the d_size
value is set to the size from the section header.
When a program is creating a new section of type
SHT_NOBITS,
it should use
elf_newdata
to add data buffers to the section.
These ``empty'' data buffers should have the
d_size
members set to the desired size
and the d_buf
members set to null.
ehdr = elf32_getehdr(elf); scn = elf_getscn(elf, (size_t)ehdr->e_shstrndx); shdr = elf32_getshdr(scn); if (shdr->sh_type != SHT_STRTAB) { / not a string table / } data = 0; if ((data = elf_getdata(scn, data)) == 0 || data->d_size == 0) { / error or no data / }
The e_shstrndx
member in an
ELF
header
holds the section table index of the string table.
The program gets a section descriptor for that section,
verifies it is a string table,
and then retrieves the data.
When this fragment finishes, data->d_buf
points at the
first byte of the string table, and data->d_size
holds
the string table's size in bytes.