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LDD(1)                                                                  Linux Programmer's Manual                                                                 LDD(1)

NAME
       ldd - print shared object dependencies

SYNOPSIS
       ldd [option]... file...

DESCRIPTION
       ldd  prints  the  shared objects (shared libraries) required by each program or shared object specified on the command line.  An example of its use and output is
       the following:

           $ ldd /bin/ls
               linux-vdso.so.1 (0x00007ffcc3563000)
               libselinux.so.1 => /lib64/libselinux.so.1 (0x00007f87e5459000)
               libcap.so.2 => /lib64/libcap.so.2 (0x00007f87e5254000)
               libc.so.6 => /lib64/libc.so.6 (0x00007f87e4e92000)
               libpcre.so.1 => /lib64/libpcre.so.1 (0x00007f87e4c22000)
               libdl.so.2 => /lib64/libdl.so.2 (0x00007f87e4a1e000)
               /lib64/ld-linux-x86-64.so.2 (0x00005574bf12e000)
               libattr.so.1 => /lib64/libattr.so.1 (0x00007f87e4817000)
               libpthread.so.0 => /lib64/libpthread.so.0 (0x00007f87e45fa000)

       In the usual case, ldd invokes the standard dynamic linker (see ld.so(8)) with the LD_TRACE_LOADED_OBJECTS environment variable set to 1.  This  causes  the  dy‐
       namic  linker  to inspect the program's dynamic dependencies, and find (according to the rules described in ld.so(8)) and load the objects that satisfy those de‐
       pendencies.  For each dependency, ldd displays the location of the matching object and the (hexadecimal) address at which it  is  loaded.   (The  linux-vdso  and
       ld-linux shared dependencies are special; see vdso(7) and ld.so(8).)

   Security
       Be aware that in some circumstances (e.g., where the program specifies an ELF interpreter other than ld-linux.so), some versions of ldd may attempt to obtain the
       dependency information by attempting to directly execute the program, which may lead to the execution of whatever code is defined in  the  program's  ELF  inter‐
       preter, and perhaps to execution of the program itself.  (In glibc versions before 2.27, the upstream ldd implementation did this for example, although most dis‐
       tributions provided a modified version that did not.)

       Thus, you should never employ ldd on an untrusted executable, since this may result in the execution of arbitrary code.  A safer alternative  when  dealing  with
       untrusted executables is:

           $ objdump -p /path/to/program | grep NEEDED

       Note, however, that this alternative shows only the direct dependencies of the executable, while ldd shows the entire dependency tree of the executable.

OPTIONS
       --version
              Print the version number of ldd.

       -v, --verbose
              Print all information, including, for example, symbol versioning information.

       -u, --unused
              Print unused direct dependencies.  (Since glibc 2.3.4.)

       -d, --data-relocs
              Perform relocations and report any missing objects (ELF only).

       -r, --function-relocs
              Perform relocations for both data objects and functions, and report any missing objects or functions (ELF only).

       --help Usage information.

BUGS
       ldd does not work on a.out shared libraries.

       ldd  does not work with some extremely old a.out programs which were built before ldd support was added to the compiler releases.  If you use ldd on one of these
       programs, the program will attempt to run with argc = 0 and the results will be unpredictable.

SEE ALSO
       pldd(1), sprof(1), ld.so(8), ldconfig(8)

                                                                               2021-08-27                                                                         LDD(1)