10个实用的Linux nm命令示例

转载自:https://www.thegeekstuff.com/2012/03/linux-nm-command/#:~:text=Another%20powerful%20feature%20of%20nm%20command%20is%20to,nm%20provides%20a%20flag%20%E2%80%98%E2%80%93target%E2%80%99%20for%20it.%207. 

 

The nm commands provides information on the symbols being used in an object file or executable file.

The default information that the ‘nm’ command provides is :

  • Virtual address of the symbol
  • A character which depicts the symbol type. If the character is in lower case then the symbol is local but if the character is in upper case then the symbol is external
  • Name of the symbol


The characters that identify symbol type describe :

  • A :  Global absolute symbol.
  • a  :  Local absolute symbol.
  • B : Global bss symbol.
  • b : Local bss symbol.
  • D : Global data symbol.
  • d : Local data symbol.
  • f : Source file name symbol.
  • L : Global thread-local symbol (TLS).
  • l : Static thread-local symbol (TLS).
  • T : Global text symbol.
  • t  : Local text symbol.
  • U : Undefined symbol.

Note that this list is not exhaustive but contains some important symbol types. For complete information please refer to the man page of this utility.

The default way to use ‘nm’ utility is :

$ nm <object file or executable name>

if no executable name is given then nm assumes the name to be ‘a.out’.

With the basic idea about this utility, one may question that why this information would be required?

Well, suppose that you have an executable that is made of many different object files . Now assume that while compiling the code, the linker gives error about an unresolved symbol ‘temp’. Now it will become a nightmare to find where the symbol ‘temp’ is in the code if the code is too large and includes a lot of headers. It is here where this utility comes to rescue. With some extra options, this utility also gives the file in which the symbol is found.

Since now we have a basic idea about the nm utility. Lets understand the usage of this utility through some practical commands.

1. Display Object Files that Refer to a Symbol

The following command displays all the object files that refer to the symbol ‘func’ in my current directory

$ nm  -A ./*.o | grep func

./hello2.o:0000000000000000 T func_1
./hello3.o:0000000000000000 T func_2
./hello4.o:0000000000000000 T func_3
./main.o:                   U func
./reloc.o:                  U func
./reloc.o:0000000000000000  T func1
./test1.o:0000000000000000  T func
./test.o:                   U func

Note that the -A flag is used to display the file name along with other information. So we see that in the output we get all the object files where the symbol ‘func’ is being used. This could be extremely useful in cases we want know how which object files are using a particular symbol.

2. Display all Undefined Symbols in an Executable

The following command lists all the undefined symbols in an executable file ‘1’

$ nm -u 1
w _Jv_RegisterClasses
w __gmon_start__
U __libc_start_main@@GLIBC_2.2.5
U free@@GLIBC_2.2.5
U malloc@@GLIBC_2.2.5
U printf@@GLIBC_2.2.5

Note that the flag ‘-u’ is used in this case for listing only the undefined symbols. This could be extremely useful in cases where one may want to know about the undefined symbols being used in the code that could either really be unresolved or could be resolved on run time through shared libraries.

On a related topic, you should also understand how GCC linking process works.

3. Display all Symbols in an Executable

The following command lists all the symbols in the executable ‘namepid’ but in sorted order of their addresses

$ nm -n namepid
w _Jv_RegisterClasses
w __gmon_start__
U __libc_start_main@@GLIBC_2.2.5
U exit@@GLIBC_2.2.5
U fclose@@GLIBC_2.2.5
U fgets@@GLIBC_2.2.5
U fopen@@GLIBC_2.2.5
U fork@@GLIBC_2.2.5
U memset@@GLIBC_2.2.5
U printf@@GLIBC_2.2.5
U puts@@GLIBC_2.2.5
U signal@@GLIBC_2.2.5
U sleep@@GLIBC_2.2.5
U strchr@@GLIBC_2.2.5
U strlen@@GLIBC_2.2.5
U strncat@@GLIBC_2.2.5
U strncpy@@GLIBC_2.2.5
U system@@GLIBC_2.2.5
0000000000400778 T _init
00000000004008a0 T _start
00000000004008cc t call_gmon_start
00000000004008f0 t __do_global_dtors_aux
...
...
...

We see that by using the flag ‘-n’, the output comes out to be in sorted with the undefined symbols first and then according to the addresses. Sorting could make life of a developer easy who is debugging a problem.

4. Search for a Symbols and Display its Size

The following command searches for a symbol ‘abc’ and also displays its size

$ nm  -S 1 | grep abc
0000000000601040 0000000000000004 B abc

So we see that the flag -S displays an extra information about the size of the symbol ‘abc’

5. Display Dynamic Symbols in an Executable

The following command displays on dynamic symbols in the executable ‘1’.

$ nm  -D 1
w __gmon_start__
U __libc_start_main
U free
U malloc
U printf

This could be extremely useful in cases where one is interested to know about the symbols that can only be resolved by shared libraries at the run time.

6. Extract Symbols of Various Types

Another powerful feature of nm command is to be able to extract out symbol from various types of object file format. Normally on Linux we have either ‘a.out’ or ELF format object or executable code but if an object or executable code is of some other format then also nm provides a flag ‘–target’ for it.

7. Change the Format of the nm Output

By default the format of output displayed by nm is the bsd type. We can change the format using the flag -f.  The following command displays the output of nm command in posix style.

$ nm -u -f posix 1
_Jv_RegisterClasses w
__gmon_start__ w
__libc_start_main@@GLIBC_2.2.5 U
free@@GLIBC_2.2.5 U
malloc@@GLIBC_2.2.5 U
printf@@GLIBC_2.2.5 U

Similarly we can use ‘-f sysv’ if we want the output to be in systemV style.

8. Display Only the External Symbols of an Executable

The following command lists only the external symbols in the executable

$ nm -g 1
0000000000400728 R _IO_stdin_used
w _Jv_RegisterClasses
0000000000600e30 D __DTOR_END__
0000000000601030 A __bss_start
0000000000601020 D __data_start
0000000000601028 D __dso_handle
w __gmon_start__
0000000000400640 T __libc_csu_fini
0000000000400650 T __libc_csu_init
...

Please note that the use of flag -g enables the output of only external symbols. This could come in handy while specially debugging external symbols.

9. Sort the nm Output by the Symbol Size

The following command sorts the output by the size of symbols

$ nm -g --size-sort 1
0000000000000002 T __libc_csu_fini
0000000000000004 R _IO_stdin_used
0000000000000004 B abc
0000000000000084 T main
0000000000000089 T __libc_csu_init

Note that the flag –size-sort sorts the output with respect to size. As already explained -g is used to display only external symbols.

10. Specify nm Options in a File

Another valuable feature of nm is that it can take its command line input from a file. You can specify all the options in a file and specify the file name to nm command and it will do the rest for you. For example, in the following command the nm utility reads the command line input from the file ‘nm_file’ and produces the output

Please note that the symbol ‘@’ is required if you provide the file name.

$ nm @nm_file
0000000000000002 T __libc_csu_fini
0000000000000004 R _IO_stdin_used
0000000000000004 B abc
0000000000000084 T main
0000000000000089 T __libc_csu_init
posted @ 2021-04-18 19:47  逃之夭夭uu  阅读(347)  评论(0编辑  收藏  举报