An object file's symbol table holds information needed to locate and relocate a program's symbolic definitions and references. A symbol table index is a subscript into this array. Index 0 both designates the first entry in the table and serves as the undefined symbol index. The contents of the initial entry are specified later in this section.
Name | Value |
---|---|
STN_UNDEF |
0 |
A symbol table entry has the following format.
typedef struct {
Elf32_Word st_name;
Elf32_Addr st_value;
Elf32_Word st_size;
unsigned char st_info;
unsigned char st_other;
Elf32_Half st_shndx;
} Elf32_Sym;
typedef struct {
Elf64_Word st_name;
unsigned char st_info;
unsigned char st_other;
Elf64_Half st_shndx;
Elf64_Addr st_value;
Elf64_Xword st_size;
} Elf64_Sym;
st_name
st_value
st_size
st_info
#define ELF32_ST_BIND(i) ((i)>>4) #define ELF32_ST_TYPE(i) ((i)&0xf) #define ELF32_ST_INFO(b,t) (((b)<<4)+((t)&0xf)) #define ELF64_ST_BIND(i) ((i)>>4) #define ELF64_ST_TYPE(i) ((i)&0xf) #define ELF64_ST_INFO(b,t) (((b)<<4)+((t)&0xf))
st_other
#define ELF32_ST_VISIBILITY(o) ((o)&0x3) #define ELF64_ST_VISIBILITY(o) ((o)&0x3)
st_shndx
sh_link
and sh_info
interpretation
table
and the related text describe,
some section indexes indicate special meanings.
If this member contains SHN_XINDEX
, then
the actual section header index is too large to fit in this
field. The actual value is contained in the associated
section of type SHT_SYMTAB_SHNDX
.
A symbol's binding determines the linkage visibility and behavior.
Name | Value |
---|---|
STB_LOCAL |
0 |
STB_GLOBAL |
1 |
STB_WEAK |
2 |
STB_LOOS |
10 |
STB_HIOS |
12 |
STB_LOPROC |
13 |
STB_HIPROC |
15 |
STB_LOCAL
STB_GLOBAL
STB_WEAK
STB_LOOS
through STB_HIOS
STB_LOPROC
through STB_HIPROC
Global and weak symbols differ in two major ways.
STB_GLOBAL
symbols with the same name.
On the other hand, if a defined global symbol exists,
the appearance of a weak symbol with the same name
will not cause an error.
The link editor honors the global definition and ignores
the weak ones.
Similarly, if a common symbol exists
(that is, a symbol whose st_shndx
field holds SHN_COMMON
),
the appearance of a weak symbol with the same name will
not cause an error.
The link editor honors the common definition and
ignores the weak ones.
In each symbol table, all symbols with STB_LOCAL
binding precede the weak and global symbols.
As
``Sections'',
above describes,
a symbol table section's sh_info
section header member holds the symbol table index
for the first non-local symbol.
A symbol's type provides a general classification for the associated entity.
Name | Value |
---|---|
STT_NOTYPE |
0 |
STT_OBJECT |
1 |
STT_FUNC |
2 |
STT_SECTION |
3 |
STT_FILE |
4 |
STT_COMMON |
5 |
STT_LOOS |
10 |
STT_HIOS |
12 |
STT_LOPROC |
13 |
STT_HIPROC |
15 |
STT_NOTYPE
STT_OBJECT
STT_FUNC
STT_SECTION
STB_LOCAL
binding.
STT_FILE
STB_LOCAL
binding, its section index is SHN_ABS
,
and it precedes the other STB_LOCAL
symbols for the file, if it is present.
STT_COMMON
STT_LOOS
through STT_HIOS
STT_LOPROC
through STT_HIPROC
Function symbols (those with type
STT_FUNC
) in shared object files have special significance.
When another object file references a function from
a shared object, the link editor automatically creates a procedure
linkage table entry for the referenced symbol.
Shared object symbols with types other than
STT_FUNC
will not
be referenced automatically through the procedure linkage table.
Symbols with type STT_COMMON
label uninitialized
common blocks. In relocatable objects, these symbols are
not allocated and must have the special section index
SHN_COMMON
(see below).
In shared objects and executables these symbols must be
allocated to some section in the defining object.
In relocatable objects, symbols with type STT_COMMON
are treated just as other symbols with index SHN_COMMON
.
If the link-editor allocates space for the SHN_COMMON
symbol in an output section of the object it is producing, it
must preserve the type of the output symbol as STT_COMMON
.
When the dynamic linker encounters a reference to a symbol
that resolves to a definition of type STT_COMMON
,
it may (but is not required to) change its symbol resolution
rules as follows: instead of binding the reference to
the first symbol found with the given name, the dynamic linker searches
for the first symbol with that name with type other
than STT_COMMON
. If no such symbol is found,
it looks for the STT_COMMON
definition of that
name that has the largest size.
A symbol's visibility, although it may be specified in a relocatable object, defines how that symbol may be accessed once it has become part of an executable or shared object.
Name | Value |
---|---|
STV_DEFAULT |
0 |
STV_INTERNAL |
1 |
STV_HIDDEN |
2 |
STV_PROTECTED |
3 |
STV_DEFAULT
STV_DEFAULT
attribute is as specified by the symbol's binding type.
That is, global and weak symbols are visible
outside of their defining component
(executable file or shared object).
Local symbols are hidden, as described below.
Global and weak symbols are also preemptable,
that is, they may by preempted by definitions of the same
name in another component.
STV_PROTECTED
STB_LOCAL
binding may not have
STV_PROTECTED
visibility.
If a symbol definition with STV_PROTECTED
visibility
from a shared object is taken as resolving a reference
from an executable or another shared object,
the SHN_UNDEF
symbol table entry created
has STV_DEFAULT
visibility.
STV_PROTECTED
flag on a symbol
in a given load module does not affect the symbol resolution
rules for references to that symbol from outside the containing
load module.
STV_HIDDEN
A hidden symbol contained in a relocatable object must be
either removed or converted to STB_LOCAL
binding
by the link-editor when the relocatable object is included in an
executable file or shared object.
STV_INTERNAL
An internal symbol contained in a relocatable object must be
either removed or converted to STB_LOCAL
binding
by the link-editor when the relocatable object is included in an
executable file or shared object.
None of the visibility attributes affects resolution of symbols within an executable or shared object during link-editing -- such resolution is controlled by the binding type. Once the link-editor has chosen its resolution, these attributes impose two requirements, both based on the fact that references in the code being linked may have been optimized to take advantage of the attributes.
STB_WEAK
binding and is resolved to zero.
STV_PROTECTED
,
STV_HIDDEN
and STV_INTERNAL
.
If a symbol's value refers to a
specific location within a section,
its section index member, st_shndx
,
holds an index into the section header table.
As the section moves during relocation, the symbol's value
changes as well, and references to the symbol
continue to ``point'' to the same location in the program.
Some special section index values give other semantics.
SHN_ABS
SHN_COMMON
sh_addralign
member.
The link editor will allocate the storage for the symbol
at an address that is a multiple of
st_value
.
The symbol's size tells how many bytes are required.
Symbols with section index SHN_COMMON
may
appear only in relocatable objects.
SHN_UNDEF
SHN_XINDEX
SHT_SYMTAB_SHNDX
. The entries in that section
correspond one to one with the entries in the symbol table.
All entries in the SHT_SYMTAB_SHNDX will represent valid
section header indexes, even if their corresponding symbol
table entries do not contain SHN_XINDEX
.
The symbol table entry for index 0 (STN_UNDEF
)
is reserved; it holds the following.
Name | Value | Note |
---|---|---|
st_name |
0 |
No name |
st_value |
0 |
Zero value |
st_size |
0 |
No size |
st_info |
0 |
No type, local binding |
st_other |
0 |
Default visibility |
st_shndx |
SHN_UNDEF |
No section |
st_value
member.
st_value
holds alignment constraints for a symbol
whose section index is SHN_COMMON
.
st_value
holds
a section offset for a defined symbol.
st_value
is an offset from the beginning of the section that
st_shndx
identifies.
st_value
holds a virtual address.
To make these files' symbols more useful
for the dynamic linker, the section offset (file interpretation)
gives way to a virtual address (memory interpretation)
for which the section number is irrelevant.